Crocetin Mitigates Irradiation Injury in an In Vitro Model of the Pubertal Testis: Focus on Biological Effects and Molecular Mechanisms

The potential protective role of carotenoids from saffron: A focus on endoplasmic reticulum stress-related organ damage

The anticancer, antioxidant, and immunomodulatory properties of carotenoids from saffron or apocarotenoids (e.g., crocin, safranal, crocetin, and picrocrocin) have prompted research into their benefits. Apocarotenoids seem to be effective compound for the treatment of chronic diseases, such as neurodegenerative, cardiovascular, cancer, respiratory, and metabolic disorders. Endoplasmic reticulum (ER) is an essential organelle found in the cytoplasm of eukaryotic cells that participates in the biosynthesis of proteins, lipids, and steroid hormones. Given the role of the ER in the regulation of several fundamental biological processes, including metabolic pathways and immune responses, aberrant ER function can have a significant influence on these vital processes and result in serious pathological consequences. Exposure of cell to adverse environmental challenges, such as toxic agents, ischemia, and so on, causes accumulation of unfolded or misfolded proteins in the ER lumen, also called ER stress. There is a growing evidence to suggest that ER disturbance in the form of oxidative/nitrosative stress and subsequent apoptotic cell death plays major roles in the pathogenesis of many human diseases, including cardiovascular diseases, diabetes mellitus, neurodegenerative diseases, and liver diseases. Apocarotenoids with their unique properties can modulate ER stress through PERK/eIF2α/ATF4/CHOP (protein kinase R (PKR)-like ER kinase/eukaryotic initiation factor 2α/activating transcription factor 4/C/EBP /homologous protein) and X-Box Binding Protein 1/activating transcription factor 6 (XBP1/ATF6) pathways. In addition, they suppress apoptosis through inhibition of endoplasmic and mitochondrial-dependent caspase cascade and can stimulate SIRT1 (silent information regulator 1) and Nrf2 (nuclear factor erythroid 2-related factor 2) expression, thereby leading to protection against oxidative stress. This review summarizes the potential benefits of apocarotenoids in various ER-stress-related disorders.

Fluoride-Induced Sperm Damage and HuR-Mediated Excessive Apoptosis and Autophagy in Spermatocytes

It is critical to determine the mechanism underlying fluoride (F)-induced damage of the testes to develop appropriate strategies for monitoring and intervention. In the present study, exposure to 50 mg/L sodium fluoride (NaF) for 90 days damaged the normal structure of the testes and quality of the sperm, particularly the spermatocytes, and triggered overexpression of human antigen R (Elavl1/HuR) according to western blotting and immunofluorescence. Furthermore, 0.5 mM NaF exposure for 24 h exposure increased the proportion of apoptosis and expression of caspase-3 and caspase-9 in mouse spermatocytes (GC-2spd cell line), whereas inhibition of HuR reduced apoptosis and the expression of caspase-3 and caspase-9. Additionally, inhibition of HuR alleviated F-induced autophagy based on observation of the autophagy bodies, detection of autophagy activity, and analysis of the expression of the LC3II/LC3I and p62 proteins. These results reveal that excessive F can lead to overexpression of HuR, resulting in high levels of apoptosis and autophagy in spermatocytes. These findings improve the understanding of the mechanisms underlying F-induced male reproductive toxicity, and HuR may be explored as a treatment target for certain conditions. Excessive fluoride can induce overexpression of HuR in testis and result in excessive apoptosis and autophagy in spermatocytes as well as male reproductive damage, such as a decreased sperm count, decreased sperm motility, and increased deformity rate.

The effect of resistance training on serum levels of sex hormones and sperm quality in male rats under X-ray radiation

OBJECTIVES

The present study aims to investigate the effects of resistance training on sex hormones and sperm parameters in male rats under X-ray.

METHODS

In this experimental study, 24 Sprague Dawley rats (200-250 g) were randomly assigned into four groups: healthy control, irradiated control, healthy training and irradiated training. Irradiation was induced at a dose of 4 Gy on the whole body. The resistance training protocol was performed for 10 weeks. Finally, blood serum was used to assess FSH, LH and testosterone and sperm quality. Data were analyzed using ANOVA and Tukey's post hoc test.

RESULTS

The results showed that radiation significantly reduced serum levels of LH (p=0.42), FSH (p=0.001) and testosterone (p=0.28) between radiation control and healthy control groups. Also, no significant difference was observed between serum levels of LH (p=0.135) and testosterone (p=0.419) in radiation resistance training and the healthy control groups. In addition, significant differences were observed between radiation resistance training and radiation control groups in sperm parameters such as sperm count (p=0.02) and progressively motile sperm (p=0.031).

CONCLUSIONS

It seems that short-term resistance training can improve sperm parameters, including sperm count and sperm motility through increasing serum levels testosterone and LH in male rat under X-ray.

Nuclear and Radiological Emergencies: Biological Effects, Countermeasures and Biodosimetry

Atomic and radiological crises can be caused by accidents, military activities, terrorist assaults involving atomic installations, the explosion of nuclear devices, or the utilization of concealed radiation exposure devices. Direct damage is caused when radiation interacts directly with cellular components. Indirect effects are mainly caused by the generation of reactive oxygen species due to radiolysis of water molecules. Acute and persistent oxidative stress associates to radiation-induced biological damages. Biological impacts of atomic radiation exposure can be deterministic (in a period range a posteriori of the event and because of destructive tissue/organ harm) or stochastic (irregular, for example cell mutation related pathologies and heritable infections). Potential countermeasures according to a specific scenario require considering basic issues, e.g., the type of radiation, people directly affected and first responders, range of doses received and whether the exposure or contamination has affected the total body or is partial. This review focuses on available medical countermeasures (radioprotectors, radiomitigators, radionuclide scavengers), biodosimetry (biological and biophysical techniques that can be quantitatively correlated with the magnitude of the radiation dose received), and strategies to implement the response to an accidental radiation exposure. In the case of large-scale atomic or radiological events, the most ideal choice for triage, dose assessment and victim classification, is the utilization of global biodosimetry networks, in combination with the automation of strategies based on modular platforms.

Exposure effects of inhaled nickel nanoparticles on the male reproductive system via mitochondria damage

Nickel nanoparticles (Ni NPs) have a wide range of application prospects, however there is still a lack of their safety evaluation for the reproductive system. Nowadays, male reproductive health has been widely concerned for the increasing incidence of male infertility. To investigate the male reproductive toxicity induced by Ni NPs and its relation with the mitochondrial fission and mitophagy, male mice were administered with or without 5, 15, and 45 mg/kg of Ni NPs by intratracheal instillation. At the end of intervention, sex hormone level, sperm abnormality rate, pathological morphology of testis, cell apoptosis and the expression levels of Drp1, Pink1 and Parkin proteins in testis tissues were detected. The results indicated that the rate of sperm deformity and serum levels of reproductive hormones increased obviously with the increasing concentrations of Ni NPs. Testicular spermatogenic cells were damaged and the number of apoptotic cells increased significantly. Furthermore, the expressions of key proteins (Drp1, Pink1 and Parkin) related to mitochondrial fission/autophagy in testis tissues also increased after exposure to Ni NPs. Collectively, mitochondria damage may play an important role in male mice reproductive toxicity induced by the intratracheal instillation of Ni NPs.