The Oxytocin Receptor: From Intracellular Signaling to Behavior

Oxytocin receptors within the caudal lateral septum regulate social approach-avoidance, long-term social discrimination, and anxiety-like behaviors in adult male and female rats

OTR signaling promotes social approach or facilitates social avoidance, depending on the brain region involved. The lateral septum plays a critical role in regulating social interactions and memory. We investigated the role of OTR signaling in the caudodorsal lateral septum (LSc.d) in modulating social approach-avoidance behavior, long-term social discrimination memory, and anxiety-like behaviors in adult rats. Local infusion of the selective OTR antagonist L-368,899 (1 μg/0.5 μl) into the LSc.d decreased social approach, increased social vigilance, and reduced long-term social discrimination memory in both sexes. Administration of the biased OTR/Gq agonist carbetocin (0.5 μg/0.5 μl) reduced social approach and long-term social discrimination memory in both sexes, and had anxiogenic effects (increased latency to consume palatable food in test arena) only in males. In contrast, the full OTR agonist TGOT (50 ng/0.5 μl) had no effect on social approach or long-term social discrimination memory, and decreased latency to consume palatable food (anxiolytic effect). The results indicate that the oxytocin system can both promote and inhibit social behaviors depending on the differential activation of G-protein subunits and β-arrestins, as well as the pivotal role of the LS in modulating social and anxiety-like behavior in rats.

Development and validation of a highly-sensitive, quantitative LC-MS/MS assay to evaluate plasma oxytocin

Introduction

Oxytocin is a 9-amino acid peptide that serves as neuromodulator in the human central nervous system. This peptide is implicated in the regulation of diverse behaviors and plays a significant role in positive social interaction. Currently, oxytocin levels are measured using immunoassays. However, these methods have several limitations that can lead to false results and erroneous interpretation. Given the remarkably low endogenous level of oxytocin in human plasma (low ng/L levels), we developed and rigorously validated a novel and highly sensitive LC-MS/MS method for oxytocin quantification in plasma.

Methods

Oxytocin was initially extracted using solid-phase extraction with an Oasis HLB 30 mg plate and then subjected to LC-MS/MS analysis. PBS-0.1 % BSA served as surrogate matrix for the preparation of validation samples and the calibration curve, ensuring no endogenous interference. The validation design followed the Clinical Laboratory Standards Institute guidelines. Precision, accuracy, and measurement uncertainty were determined using single-nested analysis of variance and e.noval software.

Results

A lower limit of quantification of 1 ng/L was achieved. The method was validated for oxytocin concentrations ranging from 1 ng/L to 75 ng/L, with precision (coefficient of variation) below 10 %, accuracy ranging from 94 % to 108 %, and measurement uncertainty below 15 %.

Conclusion

In this work, we developed and validated a highly sensitive LC-MS/MS method for the quantification of oxytocin in plasma. Our novel methodology is well-suited for clinical applications.

Exploring the impact of MDMA and oxytocin ligands on anxiety and social responses: A comprehensive behavioural and molecular study in the zebrafish model

BACKGROUND

Mental disorders, including anxiety and depression, impact nearly 1 billion people worldwide. Recent research has highlighted the potential of certain amphetamine compounds in the therapy of psychiatric disorders, with 3,4-methylenedioxymethamphetamine (MDMA) emerging as a promising candidate.

AIM

This study investigates the effects of MDMA on anxiety and social behaviours using 3-week-old zebrafish. Additionally, the role of oxytocin in regulating these behaviours was examined through the use of an oxytocin receptor agonist (WAY-267,464) and antagonist (L-368,899).

METHODS

Behavioural effects were assessed using the novel exploration test, light-dark preference test and social preference test. To explore the underlying mechanisms, changes in gene expression in serotonin, oxytocin and vasopressin systems and changes in AKT and EKR1/2 signalling pathways were analysed.

RESULTS

Acute MDMA exposure reduced thigmotactic behaviour and increased the social preference index, indicating anxiolytic and prosocial effects. However, these effects were biphasic - the lowest tested dose of 0.5 μM showed anxiogenic and prosocial effects. As the concentration increased, these effects reversed, with a peak at 2.5 μM. MDMA suppressed the expression of serotonin receptors (htr1b and htr2b) and transporter (scl6a4) genes while increasing oxytocin receptors (oxtra and oxtrb) genes, decreasing vasopressin receptor (avpr1aa) gene expression, and reducing AKT phosphorylation. The oxytocin receptor agonist mimicked MDMA's effects, while the antagonist had no significant effect on anxiety or social behaviour.

CONCLUSIONS

MDMA demonstrates therapeutic potential for treating anxiety disorders and social impairments. Moreover, 3-week-old zebrafish proved to be a valuable model for neurobehavioural research and high-throughput screening of psychiatric treatments.

How does oxytocin modulate human behavior?

While the highly evolutionarily conserved hypothalamic neuropeptide, oxytocin (OT) can influence cognitive, emotional and social functions, and may have therapeutic potential in disorders with social dysfunction, it is still unclear how it acts. Here, we review the most established findings in both animal model and human studies regarding stimuli which evoke OT release, its primary functional effects and the mechanisms whereby exogenous administration influences brain and behavior. We also review progress on whether OT administration can improve social symptoms in autism spectrum disorder and schizophrenia and consider possible impediments to translational success. Importantly, we emphasize that OT acting via its extensive central or peripheral receptors primarily influences behavior indirectly through neuromodulatory interactions with classical transmitters and other peptides which themselves can independently influence behavior. We also emphasize that exogenous administration studies increasingly demonstrate peripheral effects of OT may be of greater importance than originally thought, especially involving the vagus. Overall, we propose a hierarchical model whereby OT's neuromodulatory actions influence behavior across interconnected functional domains and ultimately help to promote survival, security and sociability. Initially, OT potently facilitates attention to salient social and other important stimuli and additionally modulates cognitive, emotional and reward processing in a person- and context-dependent manner to promote interpersonal social understanding, attraction and bonds on the one hand and social group cohesion through increased conformity, altruistic punishment and moral emotions on the other. OT also increases co-operation and protection across both social domains. We hope this review and model will promote further research and help aid future translation success.

Human social behavior and oxytocin: Molecular and neuronal mechanisms

Oxytocin (OT) is a hormone that is crucial for regulating various human social behaviors, such as maternal instinct, empathy, and trust. Its secretion in the brain is triggered by social stimuli. Recent research demonstrated impaired regulation of OT secretion and reduced social behaviors in patients with arginine vasopressin deficiency (central diabetes insipidus). OT interacts with other hormones to regulate human trust. Moreover, it has been shown to generate feelings of attachment and trust toward other and familiar consumer brands, thereby, potentially impacting personal consumption, which is a significant aspect of economic activity. This review provided insights into the molecular and neural mechanisms of OT in regulating human social behavior, including both social and economic activities.

Oxytocin signaling in the ventral tegmental area mediates social isolation-induced craving for social interaction

BACKGROUND

Social interaction is crucial for mental health across animal species. Social experiences, especially in early-life stages, strongly influence brain function and social behavior later in life. Acute social isolation (SI) increases motivation to seek social interaction, but little is known about its underlying neuronal and circuitry mechanisms. Here, we focus on oxytocin signaling in the ventral tegmental area (VTA), a vital node of the brain's reward network, as a potential mechanism for SI-induced craving for social interaction.

METHODS

Adolescent (4-week-old) or adult (14-week-old) male C57BL/6J mice underwent a 1-week SI. Free interaction, object exploration, three-chamber social approach, and habituation tests were used to assess social and non-social behavior changes. Viral vectors were used to decipher the underlying neural circuitry, and chemogenetic techniques were applied to modify neuronal activity.

RESULTS

We found that in male C57BL/6J mice, SI during adolescence, but not adulthood, leads to increased craving for social interaction and object exploration, accompanied by impaired social habituation, social novelty preference, and social recognition memory (SRM). SI-induced craving for social interaction and SRM deficit is still observed upon regrouping. Through cell-type-specific manipulations with designer receptors exclusively activated by designer drugs (DREADD), we show that oxytocin neurons in the paraventricular nucleus of the hypothalamus (PVN) are crucial for SI-induced social behavior changes. Chemogenetic activation of PVN oxytocin neurons recapitulates social behavior changes observed in SI mice, whereas chemogenetic inhibition of oxytocin neurons prevents social behavior changes caused by SI. Moreover, we found that dopaminergic neurons in the VTA mediate SI-induced craving for social interaction through their projections to the medial prefrontal cortex (mPFC), but not to the nucleus accumbens. Injection of a specific oxytocin receptor antagonist L368,899 into the VTA or chemical lesions of dopaminergic axon terminals in the mPFC with local application of 6-hydroxydopamine ameliorates SI-induced social behavior changes.

CONCLUSIONS

These findings suggest that adolescent SI has enduring effects on social behaviors in male mice through an oxytocinergic modulation of the VTA-to-mPFC dopaminergic circuit activity.

Oxytocin lipidation expanding therapeutics for long-term reversal of autistic behaviors in rats

Autism spectrum disorder (ASD) is a neurodevelopmental condition characterized by deficits in social interaction and repetitive, stereotyped behaviors. There is no universally effective pharmacological treatment targeting its core symptoms.Oxytocin, an endogenous polypeptide known as the "social hormone", has shown potential in improving emotional recognition and social interactions in individuals with ASD. However, its clinical application has been limited due to its short half-life and poor blood-brain barrier penetration. To address these challenges, we utilized peptide lipidation technology to enhance the pharmacokinetic properties and brain bioavailability of oxytocin. A series of lipidated oxytocin analogs was designed and synthesized, exhibiting superior brain distribution and pharmacokinetic profiles in valproic acid-induced autistic rat models compared to unmodified oxytocin. Among theseanalogs, C16-modified oxytocin (C16-OT), administered intrathecally, achieved the most extensive brain distribution with limited presence in the blood, resulting in long-lasting improvements in autistic behaviors. These improvements, including enhanced social behaviors and reduced stereotypical actions, were sustained for up to 42 days, contrasting with the brief effects typically reported in previous studies. Furthermore, a comparison of administration routes revealed that intrathecal injection achieved higher brain concentrations and more prolonged social behavioral improvements than intranasal delivery. These findings provide robust preclinical evidence that C16-OT, through optimized lipidation and intrathecal delivery, offers sustained central nervous system activity and significant, long-term reversal of social behavioral deficits in rats with autism.

The translocator protein 18 kDa (TSPO) ligand etifoxine in an animal model of anxiety: Line- and sex-dependent effects on emotionality, stress reactivity, spine density, oxytocin receptors, steroids, and microbiome composition

The treatment of stress-related disorders such as anxiety and depression is still challenging. One potential therapeutical option are neurosteroids. Their synthesis is promoted by ligands of the mitochondrial translocator protein 18 kDa (TSPO). We tested the TSPO ligand etifoxine (ETX) in a rat model of hyper-anxiety and depression-like behavior, i.e., in female and male HAB (high anxiety-related behavior) rats, as well as in respective low anxiety (LAB) and non-selected control (NAB) rats for behavioral, molecular, cellular, and physiological parameters. Daily acute i.p. treatment with ETX or vehicle over 5 or 9 days revealed that ETX was most effective in female HAB rats; it reduced anxiety levels (5 days) and OXT-R binding brain site-specifically (5 and 9 days), and increased spine density (5 days). The behavioral ETX effect exclusively found in female HABs was accompanied by increased 3β5α-THDOC levels, without any effect in female LABs and NABs and on other neurosteroids. In males of all breeding lines, ETX changed a total of 10 out of 23 brain steroids. Passive stress-coping during 10-min forced swimming was not affected by 9-day treatment with ETX, the resulting stress-induced plasma corticosterone levels were higher in ETX-treated NAB rats of both sexes compared with their VEH-treated groups. The fecal bacterial composition was similar but beta diversity differed between HABs and LABs and from NABs independent of sex; ETX treatment had no effect. Therefore, we propose considering the aspect of sex in treatment strategies for anxiety disorders. This is particularly important to establish better treatment regimens for women.

RAGE/AP-1/OTR signaling pathway in rat hippocampus DG involved in CUS induced depressive-like behaviors

There has been a growing body of evidence indicating that the oxytocin (OT) system plays a significant role in the neurophysiology of chronic stress-related mood disorders in recent years. However, the precise alterations for the OT system in response to chronic stress and the underlying mechanism remains unclear. The present study demonstrated that chronic unpredictable stress (CUS) resulted in a reduction in the expression of RAGE and OTR, as well as an inhibition of AP-1 phosphorylation. RAGE knockdown in hippocampus DG induced depressive-like behaviors, down-regulated the OTR protein and mRNA levels, and reduced the AP-1 phosphorylation. The administration of OT via the nasal route reversed the depressive-like behaviors induced by RAGE knockdown, increased the levels of BDNF expression and AP-1 phosphorylation. On the other hand, RAGE over-expression in the hippocampus DG resisted the effects of CUS on depression-like behaviors, AP-1 phosphorylation, and OTR expression. These finding suggested that RAGE signaling pathway is involved in CUS induced depressive-like behaviors at least partially by regulating OTR expression.

Oxytocin improves maternal licking behavior deficits in autism-associated Shank3 mutant dogs

Impaired social interaction and repetitive behavior are key features observed in individuals with autism spectrum disorder (ASD). SHANK3 is a high-confidence ASD risk gene that encodes an abundant scaffolding protein in the postsynaptic density. In wild-type (WT) domestic dogs, maternal behaviors such as licking and nursing (largely milk feeding) of puppies are most commonly observed. To address whether SHANK3 plays a role in social behaviors especially maternal behaviors, we analyzed Shank3 mutant dogs generated by CRISPR/Cas9 methodology. We found that Shank3 mutant dams exhibited a fewer and shorter licking behavior, as well as reduced nursing frequency when compared with WT dams. Additionally, a significant decrease in blood oxytocin (OXT) concentration was detected in Shank3 mutant dams. We thus conducted a vehicle-controlled experiment to examine whether a two-week intranasal OXT treatment, initiated on the 8th postpartum day, could rescue the maternal licking deficits in Shank3 mutant dams. We found that the decreased licking behavior in Shank3 mutant dams was significantly attenuated both acutely and chronically by OXT treatment. The rescue effect of OXT implicates an oxytocinergic contribution to the maternal defects in Shank3 mutant dams, suggesting a potential therapeutic strategy for SHANK3-associated ASD.

Emerging medications and pharmacological treatment approaches for substance use disorders

Medications to treat substance use disorders (SUDs) remain suboptimal or, in the case of stimulants and cannabis, non-existent. Many factors have contributed to this paucity, including the biological complexity of addiction, regulatory challenges, and a historical lack of enthusiasm among pharmaceutical companies to commit resources to this disease space. Despite these headwinds, the recent opioid crisis has highlighted the devastating consequences of SUDs for both individuals and society, stimulating urgent efforts to identify novel treatment approaches. In addition, several neurobiological systems have been recently implicated in unique aspects of drug reward, opening the door to candidate medications with novel mechanisms of action. Here, we provide an overview of efforts to target several of these new systems, with a focus on those that are the subject of ongoing clinical trials as well as being areas of interest among the authors' research groups (MHJ, MTB, NAE). Specifically, we discuss new classes of medications targeting the serotonin 2A receptor (i.e., psychedelics), glucagon-like peptide 1 receptor, cannabidiol, dynorphin/kappa opioid receptor, orexin/hypocretin, and oxytocin receptor systems, as well as emergent approaches for modulating the more canonical dopaminergic system via agonist therapies for stimulant use disorders. Collectively, innovations in this space give reason for optimism for an improved therapeutic landscape for substance use disorders in the near future.

Analgesic effect of oxytocin in alcohol-dependent male and female rats

INTRODUCTION

Chronic alcohol exposure in humans and rodents causes tolerance to the analgesic effects of alcohol, and enhances pain sensitivity during alcohol withdrawal (i.e., hyperalgesia). The available literature suggests a bidirectional enhancement between chronic alcohol consumption and chronic pain sensitivity. We previously found that oxytocin administration could reduce alcohol consumption in alcohol-dependent rats, and now hypothesize that oxytocin, through analgesic action in the central nervous system, could ameliorate the hyperalgesia induced by alcohol-dependence. To test this hypothesis, we assessed the ability of central and peripheral oxytocin administration to alter thermal (Hargreaves assay) and mechanical (Von Frey assay) pain sensitivity, in male and female rats, made alcohol dependent through repeated cycles of chronic-intermittent ethanol-vapor exposure (CIEV; compared to air-exposed controls).

METHODS

Male and female cohorts of Wistar rats were surgically prepared with an ICV cannula and assigned to two groups matched in terms of initial response in the Hargreaves assay. Rats in the alcohol dependent group were exposed to chronic-intermittent alcohol-vapor, while air-exposed control rats were exposed only to room air and served as the control group. The thermal nociception sensitivity of all rats was monitored via weekly Hargreaves assay to determine alcohol-dependence-induced hyperalgesia in dependent rats. Next, rats were ICV administered oxytocin (0, 0.5, or 5 μg in 2.5 μL saline) prior to Hargreaves testing (Experiment 1) or Von Frey testing (Experiment 2). Finally, rats were IP administered oxytocin (0, 0.1, or 1 mg/kg) prior to Hargreaves testing (Experiment 3) or Von Frey testing (Experiment 4). In a follow-up experiment, female rats were tested to directly compare three methods for applying the Von Frey test.

RESULTS

Male and female alcohol-dependent rats developed hyperalgesia, observed in the Hargreaves assay (Experiment 1 & 3), however, hyperalgesia was not so readily observed when the same rats were tested in the Von Frey assay (Experiments 2 & 4, with the exception of female rats in Experiment 4; follow-up testing indicated that the method of Von Frey test employed is likely important to explain this discrepancy). In both the Hargreaves and Von Frey assays, and in both male and female rats, following central or peripheral administration, oxytocin produced analgesia similarly in both alcohol dependent rats and air-exposed controls.

CONCLUSION

Together, these data suggest the oxytocin system could be targeted to produce therapeutic action in disease that produce hyperalgesia such as in alcohol dependence. We discuss methodological considerations and future experiments that could further elucidate a role for oxytocin in the overlapping neurobiology of alcohol dependence and chronic pain.

Increased CRF-R1 transmission in the nucleus accumbens shell facilitates maternal neglect in lactating rats and mediates anxiety-like behaviour in a sex-specific manner

During the transition to motherhood, complex brain adaptations occur to ensure adequate maternal responses to offspring' needs accompanied by reduced anxiety. Among others, the corticotropin-releasing factor (CRF) and oxytocin (OXT) systems have emerged as crucial regulators of these essential postpartum adaptations. Here, we investigated their roles within the nucleus accumbens shell (NAcSh), a central region of the reward and maternal circuits, in maternal neglect of lactating rats. Furthermore, we assessed the contribution of the local CRF system to anxiety-like behaviour, comparing lactating female, virgin female and male rats to evaluate potential sex-differences. Increasing CRF receptor (CRF-R) 1 transmission via local CRF infusion in the NAcSh led to maternal neglect, reducing nursing and increasing self-directed behaviours. In turn, local CRF-R1 inhibition impaired maternal motivation. Intra-NAcSh Urocortin3 infusion did not promote maternal neglect but increased anxiety-like behaviour in lactating and virgin female rats, whereas CRF infusion had anxiogenic effects only in male rats. Crh-r1 mRNA expression was higher in male and lactating rats compared to virgin females; furthermore, male rats had increased Crh-bp mRNA expression compared to virgin female rats, only. Lastly, pharmacological manipulations of the OXT system did not affect maternal responses. In conclusion, finely balanced CRF-R1 signalling in the NAcSh is required for the proper expression of maternal behaviours. Dampened CRF-R2 signalling prevents the onset of anxiety-like behaviour in female rats, whereas CRF-R1 plays a more prominent role in males, highlighting complex sex-differences of the CRF system's regulation of anxiety within the NAcSh.

Male, but not female, oxytocin receptor knockout prairie voles (Microtus ochrogaster) show impaired consolation behavior

Prosocial behaviors, including empathetic consoling toward others, contribute to maintaining social groups and social connections between individuals in many mammalian species, including monogamous prairie voles (Microtus ochrogaster). Prairie voles display consolation toward distressed partners by increasing allogrooming behavior toward the partner. A previous pharmacological study showed that oxytocin signaling contributes to consolation in male prairie voles, although possible sex differences in the regulation of consoling have not been explored. Here, we demonstrate that male, but not female, oxytocin receptor knockout (Oxtr-/-) prairie voles display disrupted consoling behavior toward distressed opposite sex partners who spend 24 h with their partners to form a pair bond. Notably, both male and female Oxtr-/- prairie voles showed normal partner preference following 24 h of cohabitation. Autoradiography for the vasopressin 1a receptor (AVPR1A) reveals no differences between genotypes in AVPR1A levels in the lateral septum, ventral pallidum, laterodorsal thalamic nucleus, and central amygdala, suggesting that the lack of OXTR does not lead to compensation via AVPR1A system at the receptor expression level in these selected brain regions. These findings demonstrate that OXTR modulates consolation in a sex-specific manner in prairie voles, while the lack of OXTR does not influence pair bonding.

Neural circuits and therapeutic mechanisms of empathic pain

Empathy is the capacity to understand and share the experiences of others. This ability fosters connections between individuals, enriching the fabric of our shared world. One notable example is empathy for the pain of others. Such experiences facilitate the identification of potential dangers, both for oneself and for others. Neuroimaging studies have helped to pinpoint brain regions that modulate empathic pain. Recently, there has also been a surge in studies exploring the neural mechanisms of empathic pain in rodent models. Neuropsychiatric disorders such as autism, psychosis, and schizophrenia often exhibit empathy deficits. Targeting the modulation of empathic pain holds potential for alleviating core symptoms in these patients. Interestingly, empathy research may also benefit pain management, leading to new approaches for understanding the negative emotions associated with pain. This review summarizes recent advances in neuroimaging for the study of empathic pain, outlines the underlying neurocircuit mechanisms, describes therapeutic strategies, and explores promising avenues for future research. This article is part of the Special Issue on "Empathic Pain".

Association of physical activity during pregnancy with labor and delivery in nulliparous patients

Background

Physical activity during pregnancy is a positive behavior for improving pregnancy outcomes, yet the relationship between physical activity during pregnancy and labor is still debated.

Objective

This study aimed to test our hypothesis that a higher level of physical activity during pregnancy is associated with a shorter labor duration.

Study design

This was a prospective cohort study of pregnant women with singleton pregnancies and no contraindications to physical activity during pregnancy. physical activity according to type and intensity were evaluated with the Chinese version of the Pregnancy Physical Activity Questionnaire. This questionnaire categorizes physical activities into different types and intensities and quantifies them. The primary study outcome was labor duration. The secondary outcomes were delivery mode, conversion from vaginal delivery to cesarean section, prolonged second stage of labor, perineal tears, episiotomy, and postpartum hemorrhage within 24 hours. Generalized additive models were used to identify both linear and nonlinear relationships between physical activity during pregnancy and labor. A segmented linear model was employed to calculate the saturation effect. Stratified logistic regression was used for subgroup analysis.

Results

In total, 226 women participated in the physical activity survey during pregnancy and gave birth at our hospital. The energy expenditure of physical activity during pregnancy was 145.70 (111.92, 181.69) weekly energy expenditure (MET-h•wk-1). After full adjustment for covariates, a nonlinear relationship was observed between physical activity during pregnancy and the duration of the first stage of labor. Different correlations were observed when the energy expenditure of physical activity during pregnancy was 142.28 MET-h•wk-1. In the two-part regression model, the inflection point of physical activity during pregnancy was at 142.28 MET-h•wk-1. When the energy expenditure of physical activity during pregnancy exceeded 142.28 MET-h•wk-1, each standard deviation increase in physical activity was associated with a decrease of 149.85 minutes in the duration of the first stage of labor (β:-149.85, 95 % CI: -247.54 to -52.17, P = 0.0080).

Conclusions

A nonlinear relationship between physical activity during pregnancy and duration of the first stage of labor ha been identified.When physical activity exceeds 142.28 MET-h•wk-1, each additional standard deviation reduces the first stage of labor by 149.85 minutes. Physical activity is not limited to exercise programs; daily activities such as cleaning, shopping, and walking to and from work are effective ways to increase energy expenditure and help individuals achieve the recommended level of physical activity.

Toward effective oxytocin interventions in autism: Overcoming challenges and harnessing opportunities

Intranasal administration of oxytocin is emerging as a potential pharmacological option for mitigating social difficulties and regulating stress in autism spectrum disorder. However, initial single-dose and multiple-dose trials showed mixed results, with some demonstrating improvements in social and repetitive behavior and others showing no benefit over placebo. This perspective aims to elucidate factors contributing to this variability and to highlight pitfalls and opportunities in the field. We identified two major factors: design-related elements and individual participant characteristics. Pertaining to design-related elements, optimal dosing regimens have yet to be established, but appear to favor moderate intervention durations (i.e., 4-6 weeks) with intermittent and intermediate dosing (i.e., 24-32 IU every other day). Also, the context of the intervention seems crucial, as enhanced outcomes are mainly observed when oxytocin administration is paired with a socially stimulating and supporting environment. In addition, more adequate outcome measures have to be established to effectively assess oxytocin's impact, including behavioral scales and objective biophysiological markers tapping into stress and neurophysiological regulation. Future research should also account for individual participant differences in biological sex, developmental stage and cognitive and adaptive functioning, and incorporate (epi)genetic screening to identify responders. Overall, refining study designs and personalizing intervention protocols are essential for optimizing oxytocin's prosocial and anxiolytic effect in autism.

Reduction of Prostate Cancer Risk: Role of Frequent Ejaculation-Associated Mechanisms

Prostate cancer (PCa) accounts for roughly 15% of diagnosed cancers among men, with disease incidence increasing worldwide. Age, family history and ethnicity, diet, physical activity, and chemoprevention all play a role in reducing PCa risk. The prostate is an exocrine gland that is characterized by its multi-functionality, being involved in reproductive aspects such as male ejaculation and orgasmic ecstasy, as well as playing key roles in the regulation of local and systemic concentrations of 5α-dihydrotestosterone. The increase in androgen receptors at the ventral prostate is the first elevated response induced by copulation. The regulation of prostate growth and function is mediated by an androgen-dependent mechanism. Binding 5-DHT to androgen receptors (AR) results in the formation of a 5α-DHT:AR complex. The interaction of the 5α-DHT:AR complex with the specific DNA enhancer element of androgen-regulated genes leads to the regulation of androgen-specific target genes to maintain prostate homeostasis. Consequently, ejaculation may play a significant role in the reduction of PCa risk. Thus, frequent ejaculation in the absence of risky sexual behavior is a possible approach for the prevention of PCa. In this review, we provide an insight into possible mechanisms regulating the impact of frequent ejaculation on reducing PCa risk.

Functional characterization of OXTR-associated enhancers

The oxytocin receptor (OXTR) has a vital role in regulating human behavior, controlling lactation, parturition, pair bonding, maternal behavior, anxiety, and sociability. However, its regulatory elements and how variation in these sequences lead to behavioral changes remain largely unknown. Here, we identified seven OXTR candidate cis-regulatory elements (cCREs) from mouse and human hypothalamus single-cell RNA/ATAC-seq data and characterized them in cells and mice. Luciferase assays in hypothalamus cell lines identified three of the seven to be functional enhancers. Mouse enhancer assays for the most robust enhancer, OXTR candidate enhancer 7 (OCE7), found it to be active in the mouse olfactory bulb at postnatal day 28 and day 56. In summary, using genomic data coupled with cell and mouse enhancer assays, we characterized the OXTR regulatory landscape and identified a novel olfactory bulb OXTR-associated enhancer.

Associations between different types of delivery, empathy, aggression, impulsivity and school bullying in children attending public and private schools in Pereira (Colombia)

This study aimed to correlate exposure to oxytocin during childbirth with behavioral determinants in teenage students. The Barratt Questionnaire (BQ), the Buss and Perry Aggression Questionnaire (BPAQ) and the Bryant Empathy Index (BEI), respectively measured impulsivity, aggression and empathy; the results were correlated with the roles of school bullying through the Velásquez and Pineda scale. Mothers were asked about birth circumstances. A total of 401 students were included (mean age 12 ± 1 years, 53,9 % were male, 53,3 % were attending a public school). 41,9 % of students had exogenous oxytocin exposure, 40,1 % had physiological oxytocin exposure, and 18 % had no oxytocin exposure. Regarding bullying, 75,1 % of students were classified as observers, 14,2 % were classified as victims, 6 % were classified as intimidators and 4,7 % exhibited an indifferent role. The mean value of the BPAQ was 78 ± 19, for the BEI was 78 ± 10 and for the BQ was 60 ± 10; all values were considered high. There were no significant differences among the type of delivery, sex and bullying roles or the type of delivery, aggressiveness and impulsivity according to sex; however, males had significantly lower empathy scores. There was no significant association between the type of delivery and the risk of assuming a bullying role. A regression model showed a significant association between attending a private school and a lower risk of developing a victim or intimidator role. This study could contribute to a better understanding of the processes involved in behavioral and emotional outcomes after birth, which can help to design prevention strategies to address increasing mental health problems in youth. Furthermore, this study could help emphasize the importance of promoting physiological delivery and find evidence that helps the scientific community design new work to deepen the relationship between oxytocin and behavior.

GPCRs in hypothalamic neurons and their roles in controlling food intake and metabolism

G-protein coupled receptor (GPCR) subtypes within the hypothalamus play a pivotal role in maintaining body homeostasis, particularly in the regulation of food intake and energy metabolism. This review provides an overview of classical loss and gain-of-function studies on GPCRs related to feeding and metabolism, with a focus on emerging cell-type-specific investigations. These studies reveal that diverse GPCR-expressing neuronal populations are intricately linked to feeding and energy balance. We also discuss recent findings that highlight the interaction of distinct peptide-GPCR systems in modulating complex feeding behaviors.

Disruption of the CRF1 receptor eliminates morphine-induced sociability deficits and firing of oxytocinergic neurons in male mice

Substance-induced social behavior deficits dramatically worsen the clinical outcome of substance use disorders; yet, the underlying mechanisms remain poorly understood. Herein, we investigated the role for the corticotropin-releasing factor receptor 1 (CRF1) in the acute sociability deficits induced by morphine and the related activity of oxytocin (OXY)- and arginine-vasopressin (AVP)-expressing neurons of the paraventricular nucleus of the hypothalamus (PVN). For this purpose, we used both the CRF1 receptor-preferring antagonist compound antalarmin and the genetic mouse model of CRF1 receptor-deficiency. Antalarmin completely abolished sociability deficits induced by morphine in male, but not in female, C57BL/6J mice. Accordingly, genetic CRF1 receptor-deficiency eliminated morphine-induced sociability deficits in male mice. Ex vivo electrophysiology studies showed that antalarmin also eliminated morphine-induced firing of PVN neurons in male, but not in female, C57BL/6J mice. Likewise, genetic CRF1 receptor-deficiency reduced morphine-induced firing of PVN neurons in a CRF1 gene expression-dependent manner. The electrophysiology results consistently mirrored the behavioral results, indicating a link between morphine-induced PVN activity and sociability deficits. Interestingly, in male mice antalarmin abolished morphine-induced firing in neurons co-expressing OXY and AVP, but not in neurons expressing only AVP. In contrast, in female mice antalarmin did not affect morphine-induced firing of neurons co-expressing OXY and AVP or only OXY, indicating a selective sex-specific role for the CRF1 receptor in opiate-induced PVN OXY activity. The present findings demonstrate a major, sex-linked, role for the CRF1 receptor in sociability deficits and related brain alterations induced by morphine, suggesting new therapeutic strategy for opiate use disorders.

Oxytocin effects on socially transmitted food preferences are moderated by familiarity between rats

RATIONALE

In the socially transmitted food preference (STFP) paradigm, rats change their preference for food rewards after socially interacting with a conspecific who has been fed with the originally non-preferred food. Here, we asked if oxytocin (OXT), a neuropeptide known for its role in social affiliation and social behavior, plays a role in STFP. Since OXT's influences on social behavior can be familiarity-dependent, we further asked if OXT effects on STFP are moderated by the familiarity between rats.

OBJECTIVES

Does OXT modulate rats' socially transmitted food choices in a familiarity-dependent way.

METHODS

We systemically injected either vehicle, low-dose (0.25 mg/kg) of OXT, or large-dose (1.0 mg/kg) of OXT before social interaction with either a familiar cagemate (in-group) or an unfamiliar conspecific from a different cage (out-group).

RESULTS

We found an intergroup bias in STFP: vehicle-treated rats showed larger socially transmitted changes in food preference in the out-group than the in-group condition. OXT modulated STFP in a familiarity-dependent way: OXT prevented the increase in the consumption of the non-preferred food in the out-group, and decreased the consumption of the preferred food in the in-group. These effects were dose-dependent and observed under acute OXT action, but also on the subsequent day when acute OXT effects dissipated, suggesting long-lasting social learning effects of OXT. Additional analyses suggest that the familiarity and dose-dependent effects of OXT on STFP cannot be attributed to OXT's anorexic actions or differences in the duration of the social interactions.

CONCLUSIONS

OXT modulates STFP in a familiarity-dependent way.

Associations between genetic variations in oxytocin pathway genes and hippocampal volume: Insights from the UK Biobank

The role of oxytocin-related genes in social-cognitive function has been previously established, but structural brain mechanisms underlying this link remain poorly understood. Utilizing a substantial dataset from the UK Biobank (N ≈ 30,000), this research determined associations between variations in ten single nucleotide polymorphisms (SNPs) within three oxytocin pathway genes (i.e., the oxytocin/neurophysin I prepropetide gene, the cluster of differentiation 38 glycoprotein gene, the oxytocin receptor gene) and whole-brain gray matter volume. Carriers of the AA or AG genotypes of the oxytocin receptor gene rs237851 SNP exhibited significantly larger hippocampal volume than carriers of the GG genotype. These results support the link between variations in the oxytocin receptor gene and hippocampal structure, with possible impact on social-cognitive function such as social recognition memory.

Spatiotemporal Mapping of the Oxytocin Receptor at Single-Cell Resolution in the Postnatally Developing Mouse Brain

The oxytocin receptor (OXTR) has garnered increasing attention for its role in regulating both mature behaviors and brain development. It has been established that OXTR mediates a range of effects that are region-specific or period-specific. However, the current studies of OXTR expression patterns in mice only provide limited help due to limitations in resolution. Therefore, our objective was to generate a comprehensive, high-resolution spatiotemporal expression map of Oxtr mRNA across the entire developing mouse brain. We applied RNAscope in situ hybridization to investigate the spatiotemporal expression pattern of Oxtr in the brains of male mice at six distinct postnatal developmental stages (P7, P14, P21, P28, P42, P56). We provide detailed descriptions of Oxtr expression patterns in key brain regions, including the cortex, basal forebrain, hippocampus, and amygdaloid complex, with a focus on the precise localization of Oxtr+ cells and the variance of expression between different neurons. Furthermore, we identified some neuronal populations with high Oxtr expression levels that have been little studied, including glutamatergic neurons in the ventral dentate gyrus, Vgat+Oxtr+ cells in the basal forebrain, and GABAergic neurons in layers 4/5 of the cortex. Our study provides a novel perspective for understanding the distribution of Oxtr and encourages further investigations into its functions.

Maternal care is associated with neural and behavioral effects of oxytocin administration during empathic accuracy in schizophrenia and controls

Empathic accuracy, the ability to accurately understand other people's emotions, is a complex social cognitive skill that is often impaired in schizophrenia and this impairment is associated with poor functional outcomes. Intranasally administered oxytocin, a neuropeptide implicated in social behavior, is thought to improve empathic accuracy for individuals with schizophrenia. However, early experiences related to caregiving may shape the oxytocinergic system and influence individual responses to oxytocin administration. Using a cross-over, double-blind, placebo-controlled design coupled with fMRI, the current study investigated whether administration of oxytocin improves empathic accuracy in schizophrenia compared to a matched placebo, and the moderating role of early maternal care. Results revealed that, compared to controls, individuals with schizophrenia had lower empathic accuracy and recruited a sparser pattern of neural activation to achieve empathic accuracy. Oxytocin administration was not associated with improved empathic accuracy for either group. However, in both groups, individuals reporting higher maternal care demonstrated the greatest improvements in empathic accuracy with oxytocin administration, accompanied by decreased activity in the right dorsolateral prefrontal cortex, a region implicated in selective attention to socioemotional stimuli. Findings highlight the importance of examining individual differences in responses to oxytocin administration and suggest that early social experiences influence later responses to oxytocin administration.

Mechanosensation of the heart and gut elicits hypometabolism and vigilance in mice

Interoception broadly refers to awareness of one's internal milieu. Although the importance of the body-to-brain communication that underlies interoception is implicit, the vagal afferent signalling and corresponding brain circuits that shape perception of the viscera are not entirely clear. Here, we use mice to parse neural circuits subserving interoception of the heart and gut. We determine that vagal sensory neurons expressing the oxytocin receptor (Oxtr), referred to as NGOxtr, send projections to cardiovascular or gastrointestinal tissues and exhibit molecular and structural features indicative of mechanosensation. Chemogenetic excitation of NGOxtr decreases food and water consumption, and remarkably, produces a torpor-like phenotype characterized by reductions in cardiac output, body temperature and energy expenditure. Chemogenetic excitation of NGOxtr also creates patterns of brain activity associated with augmented hypothalamic-pituitary-adrenal axis activity and behavioural indices of vigilance. Recurrent excitation of NGOxtr suppresses food intake and lowers body mass, indicating that mechanosensation of the heart and gut can exert enduring effects on energy balance. These findings suggest that the sensation of vascular stretch and gastrointestinal distention may have profound effects on whole-body metabolism and, possibly, mental health.

Exploratory study to examine the neuroendocrinological changes in typically developing adults during a music-related participatory practice using computer software

There has been a growing recognition of the benefits of participating in art practices for promoting well-being and social connection. Despite this, only a limited number of studies have assessed the neuroendocrinological changes that might contribute to these benefits. In this exploratory study, we focused on a creative activity related to music composition using digital tools. The emergence of computer software to create music (CSCM) has lowered the barriers to musical technical skills and theory, making music composition more accessible. We examined whether incorporating CSCM into a music-making workshop would affect the levels of two hormones, oxytocin and cortisol, among healthy adults. These two hormones were chosen, because oxytocin is involved in prosocial behavior and bonding, while cortisol plays a role in the stress response. Considering the time it takes to learn and adapt to a typical customized CSCM, we simplified its use to allow participants to experience music-making within a short timeframe and set up two distinct workshops. One was individual music creation with the support of a facilitator (Dyad) and the other was music creation in a group (Group). Participants in the Dyad workshops showed increased oxytocin levels, whereas those in the Group workshops did not. Cortisol levels remained unchanged during the Dyad workshops, but decreased in the Group ones. These results suggest that neuroendocrinological changes may occur during music-making activities using computer software. This work highlights the potential value of CSCM-incorporated music-making activities, although further controlled studies are required to confirm these findings.

Epigenetic modulation of social cognition: exploring the impact of methylation in brain-derived neurotrophic factor and oxytocin receptor genes across sex

Social cognition, which ranges from recognizing social cues to intricate inferential reasoning, is influenced by environmental factors and epigenetic mechanisms. Notably, methylation variations in stress-related genes like brain-derived neurotrophic factor (BDNF) and the oxytocin receptor (OXTR) are linked to distinct social cognitive functions and exhibit sex-specific differences. This study investigates how these methylation differences affect social cognition across sexes, focusing on both perceptual and inferential cognitive levels. Social cognitive abilities were assessed using the Korean version of the Reading the Mind in the Eyes Test (K-RMET) and Brune's story-based Theory of Mind tasks (ToM-PST). DNA methylation levels in BDNF and OXTR were analyzed for correlations with performance on these cognitive tasks in a cohort of male and female participants. A moderation model was applied to determine if sex moderates the relationship between social cognition and DNA methylation. No significant overall correlation was found between social cognition and DNA methylation across participants. However, sex-specific correlations were identified, including a negative impact of BDNF methylation on K-RMET scores in males, and a similar effect of OXTR methylation on ToM-PST scores in females. The findings underscore the complex relationship between epigenetic modifications and social cognition, revealing sex-specific effects and highlighting the importance of considering sex in epigenetic studies of social cognition. This research contributes to understanding how epigenetic factors, influenced by sex, shape social cognitive processes and supports the need for sex-specific therapeutic approaches.

High-throughput evolution of near-infrared oxytocin nanosensors enables oxytocin imaging in mice and prairie voles

Oxytocin is a neuropeptide involved in regulating social and emotional behavior. Current techniques for oxytocin imaging are generally limited in spatial and temporal resolution, real-time imaging capacity, selectivity for oxytocin over vasopressin, and application in young and non-model organisms. To address these issues, we developed a method to evolve purely synthetic molecular recognition for oxytocin on the surface of near-infrared fluorescent single-walled carbon nanotubes (SWCNT) using single-stranded DNA (ssDNA). The best-performing nanosensor nIROT-SELEC reversibly undergoes up to a 172% fluorescence increase in response to oxytocin with micromolar dissociation, nanomolar limit of detection, and and high selectivity over oxytocin analogs, receptor agonists and antagonists, and co-released neurochemicals. We next demonstrated the versatility of nIROT-SELEC by performing live imaging of synaptic evoked oxytocin released in acute brain slices of mice and prairie voles. Our method for high throughput evolution of neuropeptide nanosensors holds promise to enable synaptic scale visualization of neuropeptide signaling in the brain cross different species and developmental stages, to advance the study of neurochemical signaling for its role in both health and disease.

Effects of oxytocin administration on non-social executive functions in humans: a preregistered systematic review and meta-analysis

BACKGROUND

Oxytocin has received considerable research attention for its role in affiliative behaviors, particularly regarding its pro-social effects. More recent evidence has pointed to a broader role of oxytocin signaling, which includes non-social cognitive processes. However, meta-analytic data on oxytocin's effects on non-social cognition is currently limited.

METHODS

We registered plans for a systematic review and meta-analysis on the effects of oxytocin administration on non-social executive functions prior to data collection via a time-stamped protocol. We performed searches in PubMed, Europe PubMed Central, and the Bielefeld Academic Search Engine. We conducted a meta-analysis of 20 effect estimates from 13 eligible studies. Subgroup meta-analyses and a test for publication bias were also performed.

RESULTS

We found no overall significant effect of oxytocin administration on non-social executive functions (p = 0.30; Hedges' g = 0.07). However, effect sizes across sub-categories of executive function varied, where the effect of oxytocin administration was the largest for cognitive flexibility (p = 0.02; Hedges' g = 0.2). Publication bias was assessed using Robust Bayesian Meta-Analysis, which yielded moderate support for the absence of publication bias (BFPB = 0.32).

CONCLUSION

Our analysis suggests that oxytocin's effects may extend beyond social cognitive processing as data synthesis provided evidence supporting a role in non-social cognitive flexibility. The data and analysis output from this meta-analysis can be viewed in a point-and-click web application.

Age-Related Changes in Gut Health and Behavioral Biomarkers in a Beagle Dog Population

The gut and the gut microbiome communicate with the nervous system through the gut-brain axis via neuroimmune and neuroendocrine mechanisms. Despite existing research, studies exploring this link in aging dogs are limited. This study aims to examine multiple blood and fecal biomarkers of intestinal health, along with various behavioral indicators based on saliva, blood, observations, and activity, in different age populations (junior: <2 y.o.; adult: 2-7 y.o.; senior: >7 y.o.) of thirty-seven Beagle dogs. In our study, Bacteroides were significantly higher in senior dogs. The relative abundance of Faecalibacterium and Blautia showed age-related trends, higher in senior and junior dogs, respectively. Fecal short-chain fatty acid concentration, especially acetate, increased with age, while propionate was higher in junior dogs. For the behavioral indicators we considered, blood thyroxine concentration, playing, exploring, and total activity were higher in junior dogs. The differences observed between the biomarkers of gut health and behavior, particularly those significant for the age correlations, emphasize the importance of considering age-related factors when studying the gut microbiome and behavior. However, further research is needed to better understand the mechanisms and specific pathways involved in the relationship between the studied biomarkers and age.

Oxytocin ameliorates lipopolysaccharide-induced acute orchitis model: interplay of oxidative stress and inflammatory pathways

Introduction

Lipopolysaccharide (LPS), a constituent of the outer membrane of Gram-negative bacteria, is a powerful inducer of systemic inflammation and has been extensively utilized in experimental models to simulate inflammatory responses and septic disorders. Recent research indicates that oxytocin (OXY), a neuropeptide typically linked to social bonding and reproductive functions, may influence inflammatory processes. This work examines the impact of OXY on LPS-induced testicular damage, aiming to elucidate its therapeutic potential in addressing inflammatory disorders and broadening the comprehension of its functions beyond conventional neuroendocrine roles.

Methods

Eighteen male albino rats were divided into three groups; the control group received no treatment; the LPS group received 0.5 mL of saline solution containing 5 mg/kg LPS intraperitoneally (orchitis model); and the LPS + OXY group received LPS and OXY (0.1 mg/kg) intraperitoneally every 12 h for 72 h.

Results and discussion

Animals subjected to LPS were found to have severe orchitis, as evidenced by increased oxidative stress and surging inflammatory mediators (TNF-α, IL-1β, and IL-6), with declined IL-10 levels. Besides, LPS increased the malondialdehyde (MDA) and decreased the glutathione (GSH) levels, inducing an oxidative stress cascade. In addition, there are dramatic increases in the TLR4, MyD88, NF-κB, and PK2/PKR1 protein expression levels. All these events could alter the sperm count, morphology, and testicular architecture.

Conclusion

Interestingly, OXY could mitigate LPS-induced oxidative damage and inflammation in testicular tissue alongside restoring the disrupted sperm count, motility, and morphology. This therapeutic potential of OXY might be accounted for by its anti-inflammatory, antioxidant, and antiapoptotic activities.

Functional significance of some common oxytocin receptor SNPs involved in complex human traits

BACKGROUND

Oxytocin function is associated with a range of human traits and is often indexed by common polymorphisms of the receptor gene OXTR. Little is known however about the functional significance of these polymorphisms.

OBJECTIVES

To examine the effects of common polymorphisms of OXTR on transcription expression in human neural cells.

METHOD

The impact of four common OXTR SNPs (rs1042778, rs4686302, rs2254298 and rs237887) on OXTR gene expression were tested in human neuroblastoma cell line, SH-SY5Y, a commonly used cell line for neurological disease. SNPs were chosen as having robust evidence for associations with complex human traits after consideration of linkage patterns across OXTR.

RESULTS

The expression level of GG genotype of rs1042778 was significantly lower than TT genotypes. None of the other SNPs were related to functional transcription.

CONCLUSIONS

OXTR polymorphisms showing robust associations with complex human traits are not reliably associated with changes in transcription of OXTR. Increasing cooperation between behavioral and biological scientists is needed to bridge the gap between human trait and functional biological studies to improve our understanding of oxytocin and other important mammalian neuroendocrine processes.

Social Bonds Retain Oxytocin-Mediated Brain-Liver Axis to Retard Atherosclerosis

BACKGROUNDS

Social interaction with others is essential to life. Although social isolation and loneliness have been implicated as increased risks of cardiometabolic and cardiovascular diseases and all-cause mortality, the cellular and molecular mechanisms by which social connection maintains cardiometabolic and cardiovascular health remain largely unresolved.

METHODS

To investigate how social connection protects against cardiometabolic and cardiovascular diseases, atherosclerosis-prone, high-fat diet-fed Apoe-/- mouse siblings were randomly assigned to either individual or grouped housing for 12 weeks. Histological, flow cytometric, biochemical, gene, and protein analyses were performed to assess atherosclerotic lesions, systemic metabolism, inflammation, and stress response. The effects of oxytocin on hepatocytes and subsequent cardiometabolic and cardiovascular function were investigated by in vivo and in vitro approaches.

RESULTS

Apoe-/- mice housed individually developed larger vulnerable atherosclerotic lesions by disrupted lipid metabolism compared with those of mice in regular group housing, irrespective of body weight, eating behavior, feeding conditions, sympathetic nervous activity, glucocorticoid response, or systemic inflammation. Mechanistically, the chronic isolation reduced the hypothalamic production of oxytocin, which controls bile acid production and LPL (lipoprotein lipase) activity through the peripheral OXTR (oxytocin receptor) in hepatocytes, whose downstream targets include Cyp7a1, Angptl4, and Angptl8. While hepatocyte-specific OXTR-null mice and mice receiving adeno-associated virus targeting OXTR on hepatocytes led to severe dyslipidemia and aggravated atherosclerosis, oral oxytocin supplementation to socially isolated mice, but not to hepatocyte-specific OXTR conditional knockout mice, improved lipid profiles and retarded atherosclerosis development.

CONCLUSIONS

These results identify a novel brain-liver axis that links sociality to hepatic lipid metabolism, thus proposing a potential therapeutic strategy for loneliness-associated atherosclerosis progression.

Oxytocin moderates fMRI connectivity and response to implicit threat processing in cocaine use disorder

Stressful social experiences play an important role in increasing vulnerability to substance use, including cocaine. Oxytocin (OXT), known for its anxiolytic properties and involvement in social functioning, has been suggested as a potential therapeutic for cocaine use disorder (CUD). However, limited research has explored OXT's influence on social stress in CUD, and no study has examined its effects on neural response to subconscious (implicit) social threat cues in this population. To address this gap, the present study administered intranasal OXT (24 IU) or placebo (PBO) to participants with CUD (CUD+, N = 76) or without CUD (CUD-, N = 61) in a randomized parallel design. Participants then completed a functional magnetic resonance imaging (fMRI) task involving briefly presented facial fear and anger (i.e., threat) cues, followed by neutral face stimuli. Whole-brain activation and amygdala functional connectivity (using psychophysiological interaction modeling) were examined in response to the facial threat cues. OXT reduced activation in the thalamus and pontine reticular formation in response to fear cues, and in the supplementary motor area for both fear and anger cues, regardless of CUD status. Additionally, under PBO, amygdala-medial prefrontal cortex connectivity to fear stimuli was negative for the CUD+ group, but under OXT, this coupling was positive, similar to the positive coupling observed for the CUD- group under both PBO and OXT administration. The finding of OXT-mediated reversal of amygdala-prefrontal coupling was specific to CUD+ and suggests that OXT alters circuitry related to threat surveillance and implicit emotion regulation in CUD. However, additional research is needed to determine whether these alterations due to OXT have clinical significance in CUD.

Indirect influence on the BDNF/TrkB receptor signaling pathway via GPCRs, an emerging strategy in the treatment of neurodegenerative disorders

Neuronal survival depends on neurotrophins and their receptors. There are two types of neurotrophin receptors: a nonenzymatic, trans-membrane protein of the tumor necrosis factor receptor (TNFR) family-p75 receptor and the tyrosine kinase receptors (TrkR) A, B, and C. Activation of the TrkBR by brain-derived neurotrophic factor (BDNF) or neurotrophin 4/5 (NT-4/5) promotes neuronal survival, differentiation, and synaptic function. It is shown that in the pathogenesis of several neurodegenerative conditions (Alzheimer's disease, Parkinson's disease, Huntington's disease) the BDNF/TrkBR signaling pathway is impaired. Since it is known that GPCRs and TrkR are regulating several cell functions by interacting with each other and generating a cross-communication in this review we have focused on the interaction between different GPCRs and their ligands on BDNF/TrkBR signaling pathway.

The jeong and haan of Vincent van Gogh: neuropeptides of bondedness and loss

We introduce two Korean-named yet transcultural feelings, jeong and haan, to fill gaps in neuroscientific understanding of mammalian bondedness, loss, and aggression. Jeong is a visceral sense of connectedness to a person, place, or thing that may arise after proximity, yet does not require intimacy. The brain opioid theory of social attachment (BOTSA) supports the idea that jeong involves increased activity of enkephalins and beta-endorphins. We propose that withdrawal of jeong-related neuropeptides leads to original haan, a sense of "missingness" that is too subtle to be grossly dysphoric. Through narrative, cognitive appraisals, or moral assignments, however, original haan may transform into the feeling of constructed haan-resentment, bitterness, grievance, sorrow, or suppressed anger. In males, the transformation may be driven by arginine vasopressin, an ancient fight-or-flight neurohormone. Constructed haan may also be driven by vasopressin in females, though data is more sparse, and in both sexes it may depend on situational or societal context. Endogenous opioids inhibit vasopressin, so that when jeong diminishes, vasopressin release may become disinhibited. This relationship implies a companion to the BOTSA, which we articulate as the brain opioid and vasopressin theory of original and constructed haan (BOVTOCH). To illustrate, we reflect on borderline personality disorder, and Vincent van Gogh's self-severing of his ear while living and working with Paul Gauguin, and fearing abandonment by him; yet to understand Van Gogh more completely we also present the brain opioid theory of stable euphoric creativity (BOTSEC), to model the subjective "highs" associated with creative flow states. Together these brain opioid theories may help to explain how feelings related to social bondedness can influence a range of phenomena. For example, opioid drug dependence may be, at least partly, a maladaptive response to feelings of isolation or disconnectedness; the health protective effects of social bonds could be related to tonic exposure to endogenous opioids and their anti-inflammatory properties; endogenous opioid-based social relational enhancement may contribute to placebo responding. Finally we conclude by pointing out the possibility of virtuous cycles of social connectedness and creativity, when feelings of bondedness and euphoric flow reinforce one another through endogenous opioid elevation.

Impact of chronic intranasal oxytocin administration on face expression processing in autistic children: a randomized controlled trial using fMRI

BACKGROUND

Difficulties with (non-verbal) social communication, including facial expression processing, constitute a hallmark of autism. Intranasal administration of oxytocin has been considered a potential therapeutic option for improving social difficulties in autism, either by enhancing the salience of social cues or by reducing the social stress and anxiety experienced in social encounters.

METHODS

We recorded fMRI brain activity while presenting neutral, fearful and scrambled faces, to compare the neural face processing signature of autistic children (n = 58) with that of matched non-autistic controls (n = 38). Next, in the autistic children group, we implemented this fMRI face processing task in a double-blind, placebo-controlled, multiple-dose oxytocin clinical trial, to evaluate the impact of four-week repeated oxytocin administration (24 IU daily dose) on brain activity in face processing regions.

RESULTS

No significant diagnostic-group differences were identified between autistic versus non-autistic children with regard to neural face processing. Furthermore, no significant treatment effects were found in the oxytocin clinical trial. However, exploratory analyses (uncorrected for multiple comparisons) demonstrated decreases in brain activity in the left superior temporal sulcus (STS) and inferior frontal region in the oxytocin compared to the placebo group, and change-from-baseline analyses in the oxytocin group revealed significantly reduced neural activity in the core face-processing network (STS, inferior occipital, and posterior fusiform), as well as in amygdala and inferior frontal region.

CONCLUSION

These findings suggest an attenuating effect of multiple-dose oxytocin administration on neural face processing, potentially supporting the anxiolytic account of oxytocin.

Oxytocin Analogues for the Oral Treatment of Abdominal Pain

Abdominal pain presents an onerous reality for millions of people affected by gastrointestinal disorders such as irritable bowel syndrome (IBS) and inflammatory bowel diseases (IBD). The oxytocin receptor (OTR) has emerged as a new analgesic drug target with OTR expression upregulated on colon-innervating nociceptors in chronic visceral hypersensitivity states, accessible via luminal delivery. However, the low gastrointestinal stability of OTR's endogenous peptide ligand oxytocin (OT) is a bottleneck for therapeutic development. Here, we report the development of potent and fully gut-stable OT analogues, laying the foundation for a new area of oral gut-specific peptide therapeutics. Ligand optimisation guided by structure-gut-stability-activity relationships yielded highly stable analogues (t1/2>24 h, compared to t1/2<10 min of OT in intestinal fluid) equipotent to OT (~3 nM) and with enhanced OTR selectivity. Intra-colonic administration of the lead ligand significantly reduced colonic mechanical hypersensitivity in a concentration-dependent manner in a mouse model of chronic abdominal pain. Moreover, oral administration of the lead ligand also displayed significant analgesia in this abdominal pain mouse model. The generated ligands and employed strategies could pave the way to a new class of oral gut-specific peptides to study and combat chronic gastrointestinal disorders, an area with substantial unmet medical needs.

OXTR-mediated signaling in astrocytes contributes to anxiolysis

Astrocytes are an indispensable part of signal processing within the mammalian brain. Thus, the mode of action of a neuropeptide such as oxytocin (OXT) can only be fully understood considering this integral part of the CNS. Here, we show that OXT regulates astrocytic gene expression, intracellular signaling and specific proteins both in vitro and in vivo. This translates into rapid regulation of astroglial structural and functional properties including cytoskeletal plasticity, coverage of synapses and gap-junction coupling. At the molecular level, we identify the previously undescribed Sp1-Gem signaling cascade as the key driver for these cell type-specific OXT effects. Finally at the behavioral level, we found in vivo that OXT requires astrocytes to exert its well described anxiolytic properties within the hypothalamic paraventricular nucleus. Thus, our study points to OXT receptor-expressing astrocytes as a critical component of the brain OXT system.

Salivary oxytocin and amygdalar alterations in functional neurological disorders

Individuals diagnosed with functional neurological disorder experience abnormal movement, gait, sensory processing or functional seizures, for which research into the pathophysiology identified psychosocial contributing factors as well as promising biomarkers. Recent pilot studies suggested that (epi-)genetic variants may act as vulnerability factors, for example, on the oxytocin pathway. This study set out to explore endogenous oxytocin hormone levels in saliva in a cohort of 59 functional neurological disorder patients and 65 healthy controls comparable in sex and age. First, we examined the association between salivary oxytocin levels with the genetic allelic variant (rs53576) of the oxytocin receptor gene (OXTR), its epigenetic changes indicated by methylation rates, and clinical variables-including childhood trauma. Second, due to previously reported effects of oxytocin changing the volume and functional connectivity of the amygdala, as well as the known involvement of the amygdala in the pathophysiology of functional neurological disorders, we further looked at both structural and functional imaging of the amygdala. While patients did not significantly differ from healthy control in their peripheral oxytocin levels, there was a specific interaction of OXTR methylation and peripheral oxytocin dependent on group: higher methylation rates correlated with higher salivary oxytocin in patients only, while this was not the case in healthy control [F(1109) = 8.92, P = 0.003, d = 0.541]. Moreover, patients with the AA-genotype (minor allele) of the rs53576 genetic variant of the OXTR gene presented with higher OXTR methylation levels [F(2106) = 10.25, P < 0.0001, d = 0.58]. Lastly, amygdalar connectivity to the hippocampus, the posterior cingulate cortex, the inferior parietal cortex and the inferior temporal cortex as well as smaller amygdalar volume were correlated to peripheral oxytocin levels in patients only [F(2,38) = 5.36, P  = 0.025,  d = 0.431], but not in healthy control. No significant interactions with childhood trauma were identified. Our study revealed a significant interplay between peripheral oxytocin and OXTR methylation in patients only, potentially influenced by genotype. One could hypothesize that higher peripheral oxytocin denotes a compensatory mechanisms for the increased methylation of the OXTR, which might affect amygdalar functional connectivity. These findings help to further understand underlying pathophysiological mechanisms, considering oxytocin's involvement in functional patients and could offer a potential site of treatment for future studies.

Beyond fur color: differences in socio-emotional behavior and the oxytocin system between male BL6 and CD1 mice in adolescence and adulthood

Introduction

The development of stress-related psychopathologies, often associated with socio-emotional dysfunctions, is crucially determined by genetic and environmental factors, which shape the individual vulnerability or resilience to stress. Especially early adolescence is considered a vulnerable time for the development of psychopathologies. Various mouse strains are known to age-dependently differ in social, emotional, and endocrine stress responses based on genetic and epigenetic differences. This highlights the importance of the qualified selection of an adequate strain and age for any biomedical research. Neuropeptides like oxytocin (OXT) can contribute to individual and strain-dependent differences in emotional and social behaviors.

Methods

In this study, we compared anxiety- and fear-related, as well as social behavior and pain perception between male adolescent and adult mice of two commonly used strains, C57BL/6N (BL6) and CD1.

Results

We revealed BL6 mice as being more anxious, less social, and more susceptible toward non-social and social trauma, both in adolescence and adulthood. Furthermore, during development from adolescence toward adulthood, BL6 mice lack the reduction in fear- and anxiety-related behavior seen in adult CD1 mice and show even higher social fear-responses and perception of noxious stimuli during adulthood. Analysis of the OXT system, by means of receptor autoradiography and immunohistochemistry, showed strain- and age-specific differences in OXT receptor (OXTR) binding in relevant brain regions, but no differences in the number of hypothalamic OXT neurons. However, intracerebroventricular infusion of OXT did neither reduce the high level of anxiety-related nor of social fear-related behavior in adult BL6 mice.

Discussion

In summary, we show that male BL6 mice present an anxious and stress vulnerable phenotype in adolescence, which further exacerbates in adulthood, whereas CD1 mice show a more resilient socio-emotional state both in adolescence as well as during adulthood. These consistent behavioral differences between the two strains might only be partly mediated by differences in the OXT system but highlight the influence of early-life environment on socio-emotional behavior.

Input-specific properties of excitatory synapses on oxytocin receptor-expressing neurons in the lateral septum

Oxytocin receptor (OXTR) is expressed in a distinct population of neurons in the lateral septum (LS), among other brain regions, and is responsible for regulating various social and nonsocial behaviors, including reward processing, feeding, social memory, anxiety, and fear. The LS serves as a key link between the cortical and subcortical regions, yet the synaptic inputs that drive the OXTR-expressing LS neurons have not been characterized. Here, we established retrograde and anterograde viral tracing in the mouse brain to map the input connections of the intermediate part of the LS where OXTR neurons are concentrated. Utilizing pathway-specific optogenetic activation, we identified that the strongest cortical inputs to LS OXTR neurons are from the posteromedial amygdala cortex (PMCo) and the ventral hippocampus (vHipp). We further determined that these excitatory inputs exhibit distinct presynaptic and postsynaptic properties, with PMCo synapses displaying a lower release probability and smaller α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) receptor-to-N-methyl-d-aspartate (NMDA) receptor-mediated excitatory postsynaptic current (EPSC) ratio compared to vHipp synapses. Our results also demonstrated that both vHipp and PMCo inputs establish a direct excitatory and a disynaptic inhibitory circuit on LS OXTR neurons. These findings deepen our understanding of the synaptic control of LS OXTR neurons by cortical regions, carrying significant implications for the affective behaviors in which these neurons are involved.NEW & NOTEWORTHY This is the first identification and characterization of the cortical synaptic inputs that drive the oxytocin receptor (OXTR)-expressing neurons in the lateral septum (LS), which are involved in diverse affective behavior. The strongest cortical inputs to LS OXTR neurons are from the posteromedial amygdala cortex, an understudied cortical region that is beginning to gain prominence for its role in social behavior. The synapses from these projections show differences in properties compared to inputs from the ventral hippocampus.

Ginsenoside Rg1 enriches gut microbial indole-3-acetic acid to alleviate depression-like behavior in mice via oxytocin signaling

BACKGROUND AND PURPOSE

Although a large collection of data has shown that ginsenosides, the major active ingredients from Ginseng, have neuroprotective and anti-depressant effect, the mechanism of action is incompletely understood. This study aims to elucidate the antidepressant mechanism of ginsenoside Rg1 (Rg1), a poorly absorbed ginsenoside, from the perspective of gut microbe to brain signaling.

METHODS

A mouse model of depression was induced by unpredictable mild stress (UMS). Behavioral and neurochemical tests were conducted to evaluate the effect and mechanism of Rg1 on depressive behavior. Non-target and target metabolomics were performed to identify the signaling metabolites underlying the antidepressant efficacy of Rg1. Gut microbial structure was analyzed by 16S rRNA sequencing and the potential functional strains associated with Rg1 action were investigated by in vitro bacterial culture. Chemical intervention was used to explore the mechanism of Rg1 and signaling metabolite.

RESULTS

Rg1 improved UMS-induced despair, anxiety-like and social avoidance behaviors in mice, which were accompanied by increased hypothalamic oxytocin secretion and restored neural proliferation in the hippocampus. Metabolomic analysis of the gut-brain axis revealed that Rg1 increased the concentration of serum and brain indole-3-acetic acid (IAA), a bacterial metabolite that was partially attributed to the enrichment of Lactobacillus murinus in the gut microbiome. Oral supplementation of IAA mimicked the anti-depressant action of Rg1, while oxytocin receptor antagonist abrogated the anti-depressant effects of both Rg1 and IAA.

CONCLUSION

Our work provides a new gut-to-brain signaling mechanism for the antidepressant effects of Rg1. In particular, Rg1 enriches the abundance of Lactobacillus murinus, which in turn increases the level of brain IAA and potentiates hypothalamic oxytocin signal. These findings suggest a promising pathway for producing antidepressant effects through gut-brain crosstalk.

Cannabis Sativa Oil Promotes Social Interaction and Ultrasonic Communication by Acting on Oxytocin Pathway

Objective: Cannabis sativa is the most used recreational drug worldwide. In recent years, there has been a growing interest in the potential therapeutic benefits of medicinal cannabis to treat a variety of psychiatric and neurological conditions. In particular, cannabidiol (CBD), a nonpsychoactive cannabis constituent, has been investigated for its potential prosocial effects on behavior, although the molecular mechanisms underlying this effect are still largely unknown. The aim of this study was to investigate the effect of a C. sativa oil CBD rich (CS oil) on social interaction and ultrasonic communication in mice. Study Design: Twenty-seven adult male mice (B6; 129P F2) were treated daily with vehicle or CS oil for 2 weeks. At Day 14, mice were tested for behavior (social interaction test and ultrasonic communication). Forty minutes before the behavioral tests, mice were exposed to intranasal treatment with vehicle or the oxytocin receptor antagonist, L-371,257. After behavioral tests, VH- and CS oil-treated mice were sacrificed, RNA was extracted from the hypothalamus and used for quantitative Real Time-PCR experiments. Results: We found that a 2-week treatment with the CS oil on mice exerted a prosocial effect associated with an increase in ultrasonic vocalizations. These effects were inhibited by pretreating mice with an oxytocin receptor antagonist. In addition, at the molecular level, we found that CS oil treatment caused a significant increase in oxytocin and a decrease in oxytocin receptor expression levels in the brain hypothalamus. Conclusion: Our results suggest that CS oil promotes social behavior by acting on oxytocin pathway.

Situations in Which Oxytocin Was Administrated by Paramedics in Out-of-Hospital Births: A Retrospective Analysis over Six Years in the Polish Population

Introduction: Postpartum haemorrhage (PPH) is a leading cause of maternal mortality worldwide, particularly in low- and middle-income countries, complicating 1% to 10% of deliveries. Despite improvement in prevention and management, variations in PPH definitions and measurement methods contribute to challenges in accurately assessing its incidence, with up to 90% of PPH-related deaths in high-income countries deemed avoidable through timely intervention. Oxytocin is the primary drug administered during labour or miscarriage, causing an increase in uterine muscle tone, which reduces bleeding and the risk of complications. The aim of the study was to assess the rate of oxytocin use by paramedics for out-of-hospital births in Poland and to verify adherence to WHO-recommended protocols for preventing postpartum haemorrhage in emergency prehospital settings. Methods: We conducted a cross-sectional study using data from the Polish Central System for Emergency Medical Services Missions Monitoring covering all EMS interventions nationwide from 2018 to 2023. The study included cases where oxytocin was administered during EMS interventions for pregnant women, identified through ICD-10 codes (O30-O92), with 62 verified cases meeting the inclusion criteria. Results: Over 6 years, oxytocin was administered in 62 cases when paramedics responded to emergencies involving pregnant women. The mean age of the patients to whom the oxytocin was administered was 29.48 years (SD = 6.25) and ranged from 15 to 43 years. Conclusions: Oxytocin is rarely administered by EMS teams at the prehospital stage. Oxytocin should be considered for incorporation into the set of medications that EMS teams can administer in prehospital settings. There is a need to train EMS teams in the management of pregnancy-related emergencies in accordance with the current medical guidelines.

Hormonal Actions in the Medial Preoptic Area Governing Parental Behavior: Novel Insights From New Tools

The importance of hormones in mediating a behavioral transition in mammals from a virgin or nonparenting state to parental state was established around 50 years ago. Extensive research has since revealed a highly conserved neural circuit that underlies parental behavior both between sexes and between mammalian species. Within this circuit, hormonal action in the medial preoptic area of the hypothalamus (MPOA) has been shown to be key in timing the onset of parental behavior with the birth of offspring. However, the mechanism underlying how hormones act in the MPOA to facilitate this change in behavior has been unclear. Technical advances in neuroscience, including single cell sequencing, novel transgenic approaches, calcium imaging, and optogenetics, have recently been harnessed to reveal new insights into maternal behavior. This review aims to highlight how the use of these tools has shaped our understanding about which aspects of maternal behavior are regulated by specific hormone activity within the MPOA, how hormone-sensitive MPOA neurons integrate within the wider neural circuit that governs maternal behavior, and how maternal hormones drive changes in MPOA neuronal function during different reproductive states. Finally, we review our current understanding of hormonal modulation of MPOA-mediated paternal behavior in males.

Oxytocin neurons in the paraventricular and supraoptic hypothalamic nuclei bidirectionally modulate food intake

Oxytocin (OT) is a neuropeptide produced in the paraventricular (PVH) and supraoptic (SON) nuclei of the hypothalamus. Either peripheral or central administration of OT suppresses food intake through reductions in meal size. However, pharmacological approaches do not differentiate whether observed effects are mediated by OT neurons located in the PVH or in the SON. To address this, we targeted OT neuron-specific designer receptors exclusively activated by designer drugs (DREADDs) in either the PVH or SON in rats, thus allowing for evaluation of food intake following selective activation of OT neurons separately in each nucleus. Results revealed that DREADDs-mediated excitation of PVH OT neurons reduced consumption of both standard chow and a high fat high sugar diet (HFHS) via reductions in meal size. On the contrary, SON OT neuron activation had the opposite effect by increasing both standard chow and liquid sucrose consumption, with the former effect mediated by an increase in meal size. To further examine the physiological role of OT neurons in eating behavior, a viral-mediated approach was used to silence synaptic transmission of OT neurons separately in either the PVH or SON. Results from these studies revealed that PVH OT neuron silencing significantly increased consumption of HFHS by increasing meal size whereas SON OT neuron silencing reduced chow consumption by decreasing meal size. Collectively these data reveal that PVH and SON OT neurons differentially modulate food intake by either increasing or decreasing satiation signaling, respectively.

Oxytocin pathway gene variation and corticostriatal resting-state functional connectivity

Genetic variations in single nucleotide polymorphisms (SNPs) within oxytocin pathway genes have been linked to social behavior and neurodevelopmental conditions. However, the neurobiological mechanisms underlying these associations remain elusive. In this study, we investigated the relationship between variations of 10 SNPs in oxytocin pathway genes and resting-state functional connectivity among 55 independent components using a large sample from the UK Biobank (N ≈ 30,000). Our findings revealed that individuals with the GG genotype at rs4813627 within the oxytocin structural gene (OXT) exhibited weaker resting-state functional connectivity in the corticostriatal circuit compared to those with the GA/AA genotypes. Empirical evidence has linked the GG genotype at OXT rs4813627 with a behavioral tendency of insensitivity to others. These results inform the neural mechanisms by which oxytocin-related genetic factors can influence social behavior.