Anti-inflammatory and antinociceptive activities of glucagon-like peptides: evaluation of their actions on serotonergic, nitrergic, and opioidergic systems

Glucagon-like peptide-1 (GLP-1) receptor agonists for headache and pain disorders: a systematic review

BACKGROUND

Glucagon-like peptide-1 (GLP-1) plays a crucial role in metabolic disorders by enhancing insulin secretion, inhibiting glucagon release, and slowing gastric emptying, thereby improving glycemic control. In recent years, GLP-1 role in neuronal pathways has expanded its therapeutic potential. We aim to comprehensively evaluate the relevance of GLP-1 in headache and pain disorders.

METHODS

A systematic literature search was conducted on PubMed and Embase (Ovid) databases using the search terms "GLP-1" and "pain". Animal and human studies published in English language were included. Abstracts, reviews, and articles on other disorders than "pain" were excluded.

RESULTS

The search strategy identified 833 hits, of which 42 studies were included in the final review. The studies were categorized into four groups: inflammatory pain and osteoarthritis, headaches, neuropathic pain and diabetic neuropathy, and visceral pain and irritable bowel syndrome. GLP-1 receptor (GLP-1R) agonists, like liraglutide, have shown analgesic effects by modulating pain hypersensitivity in animal models of inflammatory and neuropathic pain. GLP-1 is involved in migraine mechanisms and GLP-1R agonists are beneficial in individuals with idiopathic intracranial hypertension. Additionally, GLP-1R agonists reduce visceral hypersensitivity and ameliorate symptoms in patients with irritable bowel syndrome.

CONCLUSIONS

The therapeutic scope of GLP-1R agonists is expanding beyond traditional metabolic targets, highlighting its potential for headache and pain disorders. Engineering bimodal molecules that integrate GLP-1R agonism with specific pain-related mechanisms may offer innovative therapeutic options.

Anti-inflammatory potential of liraglutide, a glucagon-like peptide-1 receptor agonist, in rats with peripheral acute inflammation

The present study aimed to explore the possible anti-inflammatory actions of liraglutide (LRG), a glucagon-like peptide-1 (GLP-1) receptor agonist, and to compare with tramadol (TR) or LRG, and TR combination treatment by investigating the inflammatory signs such as pain hypersensitivity, edema, and fever in carrageenan (CG)-induced acute peripheral inflammation model in rats. The levels of several biomarkers for inflammatory status, angiogenesis, and oxidative stress were also measured in inflamed tissues. CG induced inflammation in the paws of rats identified by hypersensitivities, redness, edema and fever. LRG, significantly improved the hypersensitivity to mechanical (from 4 to 35.5 g) or cold (from 5 to 44.2 s) stimuli, reduced the edema (paw mass, from 2.54 to 1.85 g), and fever (paw temperature, from 33.6 to 27.3 °C). LRG dramatically suppressed the inflammatory signs when compared to those of TR. In addition, co-administration of TR and LRG resulted in further reduction of sensitivity to mechanical and cold stimuli. Anti-inflammatory potential of LRG altered depending on their inhibitory effects in the biomarkers of inflamed paws. Consequently, the suppressive actions of LRG in the inflammation induced hypersensitivities, edema, and fever, indicating that these drugs have significant anti-inflammatory potential with anti-hypersensitivities, anti-edema, and anti-pyretic effects. LRG with anti-inflammatory actions may be a highly promising therapeutic option for the management of inflammatory conditions or inflammatory-related various diseases.

Cognition and serotonin in Parkinson's disease

Cognitive impairment affects up to 80% of patients with Parkinson's disease (PD) and is associated with poor quality of life. PD cognitive dysfunction includes poor working memory, impairments in executive function and difficulty in set-shifting. The pathophysiology underlying cognitive impairment in PD is still poorly understood, but there is evidence to support involvements of the cholinergic, dopaminergic, and noradrenergic systems. Only rivastigmine, an acetyl- and butyrylcholinesterase inhibitor, is efficacious for the treatment of PD dementia, which limits management of cognitive impairment in PD. Whereas the role of the serotonergic system in PD cognition is less understood, through its interactions with other neurotransmitters systems, namely, the cholinergic system, it may be implicated in cognitive processes. In this chapter, we provide an overview of the pharmacological, clinical and pathological evidence that implicates the serotonergic system in mediating cognition in PD.

Exenatide, a GLP-1 analog, has healing effects on LPS-induced autism model: Inflammation, oxidative stress, gliosis, cerebral GABA, and serotonin interactions

Previous studies have established anti-inflammatory, antioxidant, and neuroprotective effects of Exenatide in the central nervous system. Since these mechanisms are thought to have important roles in the pathophysiology of autism, we hypothesized that Exenatide may have healing effects in autism. We tested this hypothesis by examining the effects of Exenatide in an experimental autism model created by lipopolysaccharide (LPS) exposure in the womb, with behavioral tests, histopathological examinations, and biochemical measurements. The autism model was created by administration of LPS (i.p) to pregnant rats on the 10th day of their pregnancy at a dose of 100 µg/kg. On postnatal 21st day, a total of four groups were formed from offspring with regard to sex distribution and treatment. After a 45-day treatment, behavioral analysis tests were performed on rats. Subsequently, the rats were sacrificed and biochemical analysis [superoxide dismutase, tumor necrotizing factor alpha, nerve growth factor, 5-hydroxyindoleacetic acid, and glutamic acid decarboxylase-67] and histopathological analysis were performed. On the 10th day of the intrauterine period, LPS exposure was found to disrupt behavioral findings, increase inflammation and hippocampal gliosis, and decrease 5-HIAA, GAD-67, and NGF, especially in male rats. However, among the rats exposed to LPS in the intrauterine period, recipients of Exenatide demonstrated significant amelioration of findings. Exenatide therapy shows positive effects on behavioral disorders in an LPS-induced autism model. This agent probably exerts its effects by suppressing inflammation and oxidative stress and reducing hippocampal gliosis. In addition, Exenatide has also been shown to positively affect cerebral serotonergic and GABAergic effects.

The role of nitric oxide in small intestine differs between a single and a consecutive administration of methotrexate to rats

The role of nitric oxide (NO) on intestinal mucosal injury induced by single or consecutive administration of methotrexate was investigated in a rodent model. Rats received methotrexate intraperitoneally either as a single administration (50 mg/kg) or as a consecutive administration (12.5 mg/kg/day) for 4 days. N^G-nitro-l-arginine methyl ester (L-NAME) was given subcutaneously to inhibit NO synthase (NOS). Ninety-six hours after the first administration of methotrexate, ileal tissues were collected for analysis. Consecutive administration of methotrexate led to decreased body weight and reduced intake of food and water, which were further worsened by L-NAME. Although a slight mucosal injury resulted from single administration of methotrexate, L-NAME had almost no effect. Consecutive administration of methotrexate caused a significant mucosal injury, which was further worsened by L-NAME. Consecutive, but not single, administration of methotrexate induced mRNA expression of inflammatory cytokines in ileal tissue. Consecutive administration of methotrexate significantly induced constitutive NOS expression in ileal tissue. These results suggest that consecutive administration, rather than single administration, of methotrexate aggravates mucosal injury. Potentiation of constitutive NOS expression by consecutive administration might be one of the main reason to antagonize the intestinal mucosal injury as well as lead to a reduction in rat quality of life.

Bisoprolol and linagliptin ameliorated electrical and mechanical isometric myocardial contractions in doxorubicin-induced cardiomyopathy in rats

BACKGROUND

Doxorubicin is an anthracycline chemotherapeutic agent that causes cardiomyopathy as a side effect. Here, we aimed to investigate the effects of linagliptin and bisoprolol on the management of doxorubicin-induced cardiomyopathy in rats.

METHODS

Wistar rats were divided into six groups (n = 8). Group I received saline for 4 weeks; group II received 1 mg/kg bisoprolol for 8 weeks; group III received 3 mg/kg linagliptin for 8 weeks; group IV received 1.25 mg/kg doxorubicin for 4 weeks for the induction of cardiomyopathy; group V received 1.25 mg/kg doxorubicin for 4 weeks plus 1 mg/kg bisoprolol for 8 weeks; and group VI received 1.25 mg/kg doxorubicin for 4 weeks plus 3 mg/kg linagliptin for 8 weeks. Electrocardiography and isometric mechanography were conducted to measure ventricular contractile responses. Myocardial tissue and serum samples were analyzed for oxidative and cardiotoxic markers by ELISA.

RESULTS

Electrocardiography revealed that QRS, QT and Tp intervals were longer in group IV than group I. Doxorubicin caused a significant decrease in ventricular contraction, which was significantly prevented by bisoprolol. Doxorubicin resulted in myocardial fiber disorganization and disruption, but bisoprolol or linagliptin improved this myocardial damage. Glutathione peroxidase was significantly decreased in groups IV and V. Bisoprolol or linagliptin treatment attenuated the significant doxorubicin-mediated increase in malondialdehyde. Doxorubicin and linagliptin provided significant elevations in CK-MB activity and troponin-I levels.

CONCLUSIONS

Doxorubicin resulted in pronounced oxidative stress. The beneficial effects of bisoprolol and linagliptin on myocardial functional, histopathological and biochemical changes could be related to the attenuation of oxidative load.

Prospective oncotarget for gynecological cancer: Opioid growth factor (OGF) - opioid growth factor receptor (OGFr) axis

The standard treatments for neoplasia include surgery, chemotherapy, hormone antagonists and radiotherapy, which can prolong survival, but rarely cure the tumors of gynecological cancer patients. OGF - OGFr expression, in various gynecologic cells and tissues, is an intersection point between cell development, neuroendocrine function and immune modulation. It has been identified that OGF and OGFr expression differs between gynecological tumor and normal cells. Further, exogenous or endogenous OGF and OGFr antagonists have been known to have a role in regulating cell viability and apoptosis. Moreover, the expression of proteins in the OGF - OGFr axis modulate differentiation and membrane expression of immune cells, which can enhance the immune response. In vivo and in vitro assays have shown that OGF and OGFr antagonists inhibit mitosis as well as induce apoptosis in gynecologic cancer cells. Although immune augmentation combination therapies can intensify cytotoxic activity, OGF or OGFr antagonists do not increase toxicities associated with dual-immune regulation. In conclusion, the OGF - OGFr axis provides significant strategies for antitumor efficiency in gynecological cancer.