Male Reproductive System Research Articles

Adenomatoid tumor of ovary – A rare case

Adenomatoid tumors are benign tumors of mesothelium and rare tumors found in male and female genital tract. They are more common in males than females. They account for 30% of all paratesticular neoplasm in males and 1.2% tumors of uterus. There are very few cases reported in ovaries. A 62 year old female presented with complaints of vague abdominal pain. Ultrasonography showed a unilateral tumor with of neoplastic etiology. The diagnosis of adenomatoid tumor of ovary postulated based on the distinct features numerous small vacuoles and cystic spaces of the neoplasm.

Experience in the treatment of patients with androgenic deficiency and comorbidity pathology

Background. Age-related involution of the male reproductive system, known as testosterone deficiency syndrome, andropause, androgen deficiency in the aging male, or partial androgen deficiency in the aging male, causes clinical manifestations that impair quality of life and increase the risk of mortality, especially from cardiovascular disease. In Russia, the problem of hypodiagnosis of androgen deficiency remains up-to-date, with a low frequency of prescription of replacement therapy. Aim. At assessing the effectiveness of testosterone in the rehabilitation of patients with hypogonadism and cardiovascular pathology. Materials and methods. It involved 36 men aged 25–75 years with various cardiological pathologies. Results. As a result of the study, testosterone as a form of a transdermal gel is effective at doses of 50 mg/day. Three-month use of testosterone gel increases the level of testosterone to 2.9 nmol/l (p0.05). Conclusion. Thus, testosterone may play a key role in the treatment of hypogonadism and related cardiovascular diseases, although its safety and feasibility remain a matter of debate.

ATRAZINE AS AN ENDOCRINE DISRUPTOR AND ITS EFFECTS ON MALE REPRODUCTIVE HEALTH

Atrazine has been widely used in Brazilian agriculture, especially in corn and soybean crops. Due to its widespread use, this literature review is relevant to systematize the main studies that evaluate the impact of atrazine as an endocrine disruptor leading to changes in fertility quality, especially in males. In several tests and studies carried out with the exposure of animals to atrazine, negative effects related to changes in factors that are essential for male fertility were observed. Therefore, inhibition of the hypothalamic-pituitary-testicular axis, decreased reproductive cells’s metabolic activity, reduced testosterone levels, reduced lactate dehydrogenase (LDH) enzyme, negative effects on spermatogenesis and morphological changes in the gonads and sperm are results of atrazine toxicity on the male reproductive system that contribute to infertility. In general, it is concluded that atrazine has a potential endocrine disruptor effect, leading to changes in the form of hormone production, especially in hormones related to male sexual reproduction. For this reason, assessing the risks of exposure to this toxin at different stages of life and over several generations, combined with knowledge of its pathophysiological mechanism on the male reproductive system, is essential to preserve the reproductive health of future generations.

ARL13B controls male reproductive tract physiology through primary and Motile Cilia

ARL13B is a small regulatory GTPase that controls ciliary membrane composition in both motile cilia and non-motile primary cilia. In this study, we investigated the role of ARL13B in the efferent ductules, tubules of the male reproductive tract essential to male fertility in which primary and motile cilia co-exist. We used a genetically engineered mouse model to delete Arl13b in efferent ductule epithelial cells, resulting in compromised primary and motile cilia architecture and functions. This deletion led to disturbances in reabsorptive/secretory processes and triggered an inflammatory response. The observed male reproductive phenotype showed significant variability linked to partial infertility, highlighting the importance of ARL13B in maintaining a proper physiological balance in these small ducts. These results emphasize the dual role of both motile and primary cilia functions in regulating efferent duct homeostasis, offering deeper insights into how cilia related diseases affect the male reproductive system.

The role of Testosterone in male reproductive system (review)

Testosterone is a hormone that is predominantly formed in Leydig cells adjacent to the seminal tubules of the testis, in the ovaries and adrenal cortex [1, 5, 6]. Testosterone production is regulated by the hypothalamic-pituitary system under the guidance of gonadotropin-releasing hormone (GnRH) and luteinizing hormone (LH), between which there is negative feedback [5-6]. In addition to GnRH and LH, testosterone is also interconnected with other hormones: melatonin [14], oxytocin [15], thyroid hormones [16]. Testosterone has a great effect on the body of animals. Thus, it promotes the growth and maturation of bone tissue [17], prevents oxidative damage to the brain [19-20], affects metabolism [21], as well as animal behavior [23]. In addition, studies have noted the important role of the hormone in spermatogenesis. Testosterone, binding to the androgen receptor, regulates the proliferation and maturation of Sertoli cells, maintains the integrity of the blood-brain barrier, regulates the meiotic and post-meiotic processes of germ cells [27-30]. The effect of the hormone on sperm cryoresistance is noted, however, some authors emphasize the negative effect of testosterone on cryoresistance [32- 33], while others point to a beneficial effect [34]. In females, testosterone, together with other androgens, binds to androgen receptors, changes the activity of other receptors, and also interacts with growth factors [36]. Studies show that the hormone, together with LH, is able to stimulate the production of progesterone [37]. It is known that many factors influence the dynamics of testosterone in the blood. For example, with the passage of age, androgens in the blood decrease in bulls [41], however, in adult rams, the testosterone content is 1.8 times higher than in younger individuals [43]. Another factor worth noting is animal feeding: studies show that a diet with a higher protein content contributes to a positive effect on animals, as well as increases hormone levels [44-45]. In addition, heat stress suppresses the expression of enzymes involved in testosterone synthesis [47].

Etiopathogenesis of oblique inguinal hernia, new concept of its surgical treatment, postoperative complications and their correction

Objective. To study the results of applying a new conceptual approach to the surgical treatment of oblique inguinal hernia in order to reduce the frequency of its recurrence and preserve the function of the male reproductive system. Materials and methods. The study is based on the results of topographic and anatomical examination of 50 unfixed male cadavers on the 1st day after death. As clinical material, 144 patients who were inpatients in the surgical department were involved in the study. Results. Patients of the main group (n=71) underwent hernioplasty according to the developed method. The control group included 73 patients operated on by the Lichtenstein method. The etiopathogenetic basis of oblique inguinal hernia and the causes of its recurrence, the frequency of which after open and laparoscopic use of mesh implants is 5 – 15%, were studied. It is after the use of these implants in the Lichtenstein operation that a complication no less important than recurrence occurs, which is a decrease or even loss of male reproductive function. Conceptually, the new approach is to eliminate the deep inguinal ring, move the spermatic cord under the transverse fascia, and create a new inguinal ring. Conclusions. The proposed method of hernioplasty has significant advantages over the Lichtenstein method of surgery, which are to prevent recurrence of the disease and preserve male reproductive function.

Voltage-Dependent Anion Channels in Male Reproductive Cells: Players in Healthy Fertility?

Male infertility affects nearly 50% of infertile couples, with various underlying causes, including endocrine disorders, testicular defects, and environmental factors. Spermatozoa rely on mitochondrial oxidative metabolism for motility and fertilization, with mitochondria playing a crucial role in sperm energy production, calcium regulation, and redox balance. Voltage-dependent anion channels (VDACs), located on the outer mitochondrial membrane, regulate energy and metabolite exchange, which are essential for sperm function. This review offers an updated analysis of VDACs in the male reproductive system, summarizing recent advances in understanding their expression patterns, molecular functions, and regulatory mechanisms. Although VDACs have been widely studied in other tissues, their specific roles in male reproductive physiology still remain underexplored. Special attention is given to the involvement of VDAC2/3 isoforms, which may influence mitochondrial function in sperm cells and could be implicated in male fertility disorders. This update provides a comprehensive framework for future research in reproductive biology, underscoring the significance of VDACs as a molecular link between mitochondrial function and male fertility.

Neonatal undernutrition induced by litter size expansion alters testicular parameters in adult Wistar rats.

Several models of maternal undernutrition reveal impairment of testicular development and compromise spermatogenesis in male offspring. The expansion of the litter size model, valuable for studying the impact of undernutrition on early development, has not yet been used to evaluate the consequences of early undernutrition in the adult male reproductive system. For this purpose, pups were raised in either normal litter (ten pups/dam) or large litter (LL; sixteen pups/dam). On postnatal day 90, sexual behaviour was evaluated or blood, adipose and reproductive tissues were collected for biochemical, histological and morphological analysis. Adult LL animals were lighter and thinner than controls. They showed increased food intake, but decrease of retroperitoneal white adipose tissue weight, glycaemia after oral glucose overload and plasma concentration of cholesterol. Reproductive organ weights were not altered by undernutrition, but histopathological analysis revealed an increased number of abnormal seminiferous tubules and number of immature spermatids in the tubular lumen of LL animals. These animals also showed reduction in total spermatic reserve and daily sperm production in the testes. Undernutrition decreased the number of Sertoli cells, and testosterone production was increased in the LL group. Mitochondrial activity of spermatozoa remained unchanged between experimental groups, suggesting no significant impact on the energy-related processes associated with sperm function. All animals from both experimental groups were considered sexually competent, with no significant difference in the parameters of sexual behaviour. We conclude that neonatal undernutrition induces histological and physiological testicular changes, without altering sperm quality and sexual behaviour of animals.

The impact of furan exposure on steroidogenesis in Leydig cells: cellular and molecular observations.

Furan is an organic compound that occurs as a result of heat treatment during the processing and cooking of many food products. Furthermore, the environment contains furan in tobacco smoke and vehicle exhaust gases, and it serves as an intermediate molecule in the synthesis of various pharmaceutical and chemical agents, pesticides, and stabilizers. Studies on the male reproductive system have not been able to elucidate the pathway through which furan exerts its negative effects. In this study, the TM3 Leydig cell line was exposed to various furan concentrations (0.03, 0.3, and 3 mM) for 24h. In order to assess the cytotoxic effects of furan on Leydig cells, we examined cell viability, cell proliferation, and lactate dehydrogenase enzyme levels. To investigate the detrimental effects of furan on testosterone biosynthesis, quantitative analyses were conducted on cAMP and testosterone levels, as well as the expression levels of key genes and transcription factors implicated in the steroidogenic pathway. The results indicate that furan inhibited the viability and proliferation of Leydig cells and enhanced the activity of lactate dehydrogenase. Leydig cells administered to furan exhibited notable reductions in cAMP and testosterone levels. Additionally, while the expression levels of steroidogenic genes were downregulated, significant changes were detected in the expression levels of the transcription factors responsible for the regulation of these genes. Consequently, our findings suggest that furan exerts inhibitory effects on steroidogenesis in Leydig cells through multiple mechanisms, ultimately leading to infertility by inducing dysfunction in Leydig cells.

Effects of Polyvinyl Chloride Microplastics on the Reproductive System, Intestinal Structure, and Microflora in Male and Female Mice

The pervasive use of plastics in numerous industrial sectors has resulted in the circulation of microplastics across diverse ecosystems and food chains, giving rise to mounting concerns regarding their potential adverse impacts on biological systems and the environment. The objective of this experiment was to investigate the distinct effects of microplastic-polyvinyl chloride (PVC) exposure on the reproductive system, intestinal tissue structure, and intestinal microbial flora of both male and female mice. A total of 24 4-week-old Kunming mice were randomly assigned to one of four groups: male control group (CM), female control group (CF), male PVC test group (PVCM), and female PVC test group (PVCF) (n = 6). The findings revealed that in terms of the reproductive system, the PVCM group exhibited an impaired testicular structure with an irregular arrangement and a significant reduction in spermatogonia, spermatocytes, and spermatozoa within the seminiferous tubules (p < 0.01). The PVCF group exhibited a notable decrease in ovarian follicles (p < 0.01), accompanied by a reduction in uterus volume, fallopian tube volume, and muscle layer thickness, all of which also decreased significantly (p < 0.01). In comparison to the control groups, exposure to PVC resulted in a reduction in the width and height of the intestinal villi, accompanied by an increase in crypt depth. This led to a significant alteration in the ratio of villus height to crypt depth (V/C) (p < 0.01). Moreover, a reduction in microbial species diversity was observed within both the PVCM and PVCF groups; additionally, it was accompanied by contrasting changes in relative abundance and functional gene profiles among the major intestinal flora constituents. In summary, the findings indicate that PVC induces damage to both male and female mice reproductive and digestive systems, further exhibiting notable sex-dependent effects on mouse intestinal microflora composition, which correlates significantly with its impact on reproductive organs.

Male reproductive system of the deep-sea acorn worm Quatuoralisia malakhovi (Hemichordata, Enteropneusta, Torquaratoridae) from the Bering Sea

BackgroundThe deep-sea acorn worm Quatuoralisia malakhovi belongs to the phylum Hemichordata, class Enteropneusta, family Torquaratoridae, which was described in 2005. Owing to their epibenthic lifestyle and deep-sea habitat features, torquaratorids differ anatomically from shallow-water acorn worms; however, their morphology and fine structure are poorly studied. We have the opportunity to make three complete detailed series of histological sections of Q. malakhovi and to study the microscopic anatomy, histology and fine structure of the reproductive system of this acorn worm using scanning and transmission electron microscopy.ResultsThe sexes of Q. malakhovi are separate and indistinguishable externally. The lobed testes occupy the dorsal side of the genital wings and distinctly bulge into the peribranchial cavity by their mature lobes. The central part of the testis is always submerged into the genital wing and opens via a single gonad pore. The monociliary muscle cells stretch along the external wall of the testis and surround the gonad pore, probably taking part in the contraction of the testis lobes for spawning. The germinative epithelium of the testis contains spermatogenic cells at different stages of development and interstitial cells. Yolk cells are not found. Interstitial cells embrace the spermatogonia and spermatogenic columns, providing horizontal compartmentalization of the germinative epithelium, and contain numerous phagosomes with remnants of degenerating spermatogenic cells. The testis wall contains haemal lacunae, which are usually located on the side opposite the gonad pore. We describe the fine structure of spermatogonia, spermatocytes clustered in spermatogenic columns, spermatids, and spermatozoa. Spermatozoa are of the ectaquasperm type and consist of an acorn-shaped head and a flagellum 18–25 µm long. The sperm head includes a beak-shaped acrosomal part, a spherical nucleus and a midpiece containing a ring of 5 or rarely 6 mitochondria.ConclusionsThe male reproductive system and sperm structure of Q. malakhovi, a representative of the family Torquaratoridae, have a number of differences from shallow-water acorn worms; however, the spermatogenesis and sperm structure of Q. malakhovi generally follow the pattern of the other three enteropneust families, and the phylogenetic significance of these deviations should be the subject of further research.

Serum calcium improves the relationship between fluoride exposure and hypothalamic-pituitary-testicular axis hormones levels in males—a cross-sectional study on farmers in the lower reaches of the Yellow River

Numerous studies have reported the toxicity of fluoride to the male reproductive system, but epidemiological evidence is limited. We conducted a cross-sectional study in Kaifeng City, Henan Province in 2011 to explore the association between fluoride exposure and hypothalamic-pituitary-testicular (HPT) axis hormones in men. Morning urinary fluoride (UF), serum HPT axis hormones and serum calcium (SC) concentrations were detected. Percent changes and 95% confidence intervals in HPT axis hormones associated with UF were estimated using adjusted linear regression models, and performed subgroup analysis based on SC levels. The restricted cubic spline model was used to fit nonlinear relationships. For every 10% increase in UF, the concentrations of serum GnRH, T, SHBG and TSI decreased by 2.13%, 2.39%, 2.19% and 1.96%, while E2 and FEI increased by 1.11% and 3.33%. Subgroup analysis showed that for every 10% increase in UF, the levels of GnRH, T, TSI and FTI decreased by approximately 3.15%, 5.49%, 4.47% and 5.14%, while the E2 level increased by 2.92% in low-serum-calcium group (LCG). The levels of GnRH and T decreased by approximately 2.97% and 1.82% in medium-serum-calcium group (MCG). In high-serum-calcium group (HCG), serum SHBG levels decreased by 4.70%, while FTI and FEI levels increased by 4.93% and 4.20% as UF concentration increased (P < 0.05, respectively). The non-linear relationship between serum GnRH and UF concentrations presented an approximately inverted U-shaped curve, with a turning point UF concentration of 1.164 mg/L (P < 0.001), and their nonlinear relationship in LCG and MCG were similar to that in the overall subjects. In conclusion, excessive exposure to fluoride can interfere with male serum HPT axis hormones, and a moderate increase in SC alleviates the effect of fluoride. Prospective cohort studies are essential to confirm the causality.

8610 The Role of Adenylyl Cyclase 2 Gene-Dosage Changes in Congenital Male Genitourinary Anomalies

Abstract Disclosure: D.J. Lamb: Advisory Board Member; Self; Ro Health, Inc. Stock Owner; Self; Fellow Health, Inc. M.A. O'Neill: None. Collectively, congenital genitourinary (GU) birth defects are the most common birth defects in males, yet relatively little is known about their cause. In part, this reflects the current clinical perspective that, because most of these birth defects can be surgically repaired, there is nothing to be gained by understanding the cause. Yet our studies show that seemingly simple birth defects like hypospadias or cryptorchidism, may be associated with other more significant underappreciated defects, such as those affecting the kidney, heart, eyes or behavior. We tested the hypothesis that chromosome microdeletions and microduplications (called copy number variations, CNVs) result in gene-dosage changes that are important regulators of GU development and when haploinsufficient or duplicated normal genitourinary development is impacted causing birth defects of the upper and/or lower genitourinary tract. We successfully used this strategy to identify 15 different previously unrecognized genes that when microduplicated or microdeleted result in conditions such as cryptorchidism, hypospadias, disorders of sexual differentiation (DSD) and other anomalies. Remarkably, gene-dosage changes affected major signaling pathways and post-translational modifications in novel, previously unrecognized ways. Herein, we focused on defining the role of a candidate gene commonly microdeleted or microduplicated in patients with cryptorchidism, hypospadias and/or micropenis. Locus mapping allowed identification of adenylate cyclase 2 (ADCY2) as a candidate gene at the 5p15.31 Cri-du-Chat region in patients with male genital tract anomalies. ADCY2 CNVs were more common in non-syndromic patients with micropenis, cryptorchidism, and/or hypospadias (1.6%) than the general population (0.07%; p&amp;lt; 0.001). Whole exome sequence studies revealed a range of phenotypic anomalies in patients with damaging and potentially damaging ADCY2 variants in addition to the male GU anomalies, including congenital anomalies of the kidney and urinary tract. It is our hypothesis that ADCY2 duplications result in a de-sensitization of the LH receptor diminishing testosterone biosynthesis in the testis, whereas deletions diminish LH receptor signaling. ADCY2 CNVs were assessed in 100 men with spermatogenic failure who were born with cryptorchidism. The ADCY2 CNV frequency was the same as in our cohort of boys with GU anomalies, but as adults they also have hypergonadotropic hypogonadism, which we predicted if ADCY2 over-expression was impacting adult Leydig cell steroidogenesis through partial desensitization of the LH receptor. These studies identified an unrecognized cause of GU anomalies. In the future, such knowledge may lead to improved diagnosis and therapeutic approaches to ameliorate these common birth defects. Presentation: 6/2/2024

ALOG/LSHs, a novel class of transcription factors: Evolutionarily conserved regulators of plant growth and development.

The ALOG/LSH group of proteins is highly conserved across plant lineage, starting from moss to higher flowering plants, suggesting their crucial role in the evolution and adaptation of land plants. The role of ALOG proteins is highly conserved in various developmental responses, such as vegetative and reproductive developmental programs. Their role in meristem identity, cotyledon development, seedling photomorphogenesis and leaf and shoot development has been relatively well established. Moreover, several key pieces of evidence suggest their role in inflorescence architecture and flower development, including male and female reproductive organs and flower colouration. Recent research has started to explore their role in stress response. Functionally, ALOG proteins have been demonstrated to act as transcriptional regulators and are considered a newly emerging class of transcription factors in plants that regulate diverse developmental and physiological processes. This review aims to stimulate discussion about their role in plant development and their role as transcription factors. It also aims to further unravel the underlying molecular mechanism by which they regulate growth and development throughout the plant lineage.

Does long-term radiation exposure in Chornobyl impact the reproductive structures of Nuphar lutea (Linné) Smith?

The 1986 Chornobyl Nuclear Power Plant accident caused radioactive contamination of water bodies within the Pripyat River floodplain, resulting in the accumulation of radionuclides by macrophytes, which are fundamental species in water ecosystems. Yellow water lily Nuphar lutea (L.) Smith., a macrophyte playing a significant role in the formation of vegetation cover in aquatic ecosystems, is commonly considered as a bioindicator of water pollution. In this study, we investigate the potential of N. lutea as an indicator of radionuclide contamination in water bodies, particularly through changes in its reproductive structures, such as pollen viability, morphology of pollen grains, seeds, and fruits. Our findings reveal that pollen viability remains stable at total absorbed dose rates below 14.4 μGy/h, with only 1–4% of sterile grains. However, beyond this threshold the percentage of sterile grains increases nearly fivefold, pointing to high internal plant exposure to 90Sr. A similar trend was observed in the allometry and size of pollen grains, where small and flattened grains are formed in the reservoir with the highest external radiation dose rate (≥14.4 μGy/h). On the other hand, while morphometric parameters of fruits are influenced by radiation, their variation appears to be the result of a combination of physicochemical factors and the trophic status of a water body. Our research highlights the adverse impact of long-term radiation exposure on the male reproductive system of N. lutea and shows the potential of using the pollen grains sterility as an indicators of heavily radionuclide-contaminated water bodies. Additionally, we observed gradual changes in a pollen allometric length-to-width coefficient as the radiation dose level increases.

MALIGNANT NEOPLASMS OF THE REPRODUCTIVE SYSTEM IN MEN AND THEIR CONNECTION WITH THE HUMAN PAPILLOMAVIRUS. (REVIEW)

The issue of malignant tumor occurrence associated with viral infections is a particularly significant one. Approximately 15-20% of tumors have some connection with various viral infections. An extensive amount of data has been gathered on neoplasms of the female reproductive system linked to the human papillomavirus (HPV). However, the connection between papillomavirus infection and malignant neoplasms in the male reproductive system requires further investigation. The aim of this review is to examine the association between malignant neoplasms of the male reproductive system and HPV, as well as to consider the issue of male vaccination. A research team conducted a literature review on the topic using databases such as the National Library of Medicine, Web of Science, and CyberLeninka. Data was collected on three types of malignant tumors in the male reproductive system: penile cancer, testicular cancer, and prostate cancer. In the context of the relationship between HPV and penile and prostate cancers, data on the presence of viral DNA in tumor tissue samples have been isolated. A study found that HPV DNA was present in semen samples from 34.9% of patients with testicular cancer, compared to only 2.4% in a control group. However, understanding of the HPV lifecycle raises questions about the link between HPV and testicular cancer. HPV multiplies in dividing epithelial cells, but testicular tissue is of mesodermal origin, and may not provide a suitable environment for HPV reproduction. Based on these findings, it is possible to draw the following conclusions: there are pathogenic reasons for the association between HPV and male reproductive system neoplasms. Further systematic review and meta-analysis are needed to fully understand this complex relationship.

Association of Atrazine-Induced Overexpression of Aldo-Keto-Reductase 1C2 (AKR1C2) with Hypoandrogenism and Infertility: An Experimental Study in Male Wistar Rat.

Atrazine (ATZ, C8H14ClN5) is a widely used synthetic herbicide that contaminates drinking water. It is a known endocrine disruptor that disrupts various molecular pathways involved in hormone signaling, and DNA damage, and can cause reproductive disorders, including decreased fertility, and abnormal development of reproductive organs, as revealed in animal model studies. However, the effect of ATZ on steroidogenesis in the male reproductive system, especially reduction of ketosteroids to hydroxysteroids, remains unclear. This study investigated the toxicity of ATZ on the male reproductive system in the Wistar rat model, with an emphasis on its adverse effect on aldo-ketoreductase family 1 member C2 (AKR1C2). Male Wistar rats were administered ATZ for 56days (duration of one spermatogenic cycle) through oral route, at 20, 40 and 60mg/kg body weight (bw) doses. The results indicate that ATZ exposure affects the body weight, impairs sperm production, and decrease FSH, LH, and testosterone levels. Additionally, the down-regulation of key steroidogenic enzymes by ATZ disrupted the synthesis of testosterone, leading to decreased levels of this essential male hormone. On the other hand, the expression of AKR1C2 (mRNA and protein) in the testis was upregulated. The findings suggest that AKR1C2 plays a role in androgen metabolism. Furthermore, its overexpression may lead to alteration in the expression of genes in the connected pathway, causing an increase in the breakdown or inactivation of androgens, which would result in lower androgen levels and, thereby, lead to hypoandrogenism, as the combined effects of down-regulation of steroidogenic genes and up-regulation of AKR1C2. These findings reveal direct implication of disrupted AKR1C2 in male reproductive health and highlight the need for further research on the impact of environmental toxins on human fertility, ultimately providing for better patient care.

Berberine alters the gut microbiota metabolism and impairs spermatogenesis.

Berberine (BBR) is used to treat diarrhea clinically. However, its reproductive toxicity is unclear. This study aims to investigate the impact of BBR on the male reproductive system. Intragastric BBR administration for 14 consecutive days results in a significant decrease in the serum testosterone concentration, epididymal sperm concentration, mating rate and fecundity of male mice. Testicular treatment with testosterone propionate (TP) partially reverses the damage caused by BBR to the male reproductive system. Mechanistically, the decrease in Muribaculaceae abundance in the gut microbiota of mice is the principal cause of the BBR-induced decrease in the sperm concentration. Both fecal microbiota transplantation (FMT) and polyethylene glycol (PEG) treatment demonstrate that Muribaculaceae is necessary for spermatogenesis. The intragastric administration of Muribaculaceae intestinale to BBR-treated mice restores the sperm concentration and testosterone levels. Metabolomic analysis reveals that BBR affects arginine and proline metabolism, of which ornithine level is downregulated. Combined analysis via 16S rRNA metagenomics sequencing and metabolomics shows that Muribaculaceae regulates ornithine level. The transcriptomic results of the testes indicate that the expressions of genes related to the low-density lipoprotein receptor (LDLR)-mediated testosterone synthesis pathway decrease after BBR administration. The transcriptional activity of the Ldlr gene in TM3 cells is increased with increased ornithine supplementation in the culture media, leading to increased testosterone synthesis. Overall, this study reveals an association between a BBR-induced decrease in Muribaculaceae abundance and defective spermatogenesis, providing a prospective therapeutic approach for addressing infertility-related decreases in serum testosterone triggered by changes in the gut microbiota composition.

Oxidative Stress-induced Hormonal Disruption in Male Reproduction.

Research into the impacts of oxidative stress (OS), and hormonal balance on reproductive potential has increased over the last 40 years possibly due to rising male infertility. Decreased antioxidant levels and increased OS in tissues result from hormonal imbalance, which in turn leads to male infertility. Increased reactive oxygen species (ROS) generation in seminal plasma has been linked to many lifestyle factors such as alcohol and tobacco use, toxicant exposure, obesity, varicocele, stress, and aging. This article provides an overview of the crosslink between OS and gonadal hormone disruption, as well as a potential mode of action in male infertility. Disrupting the equilibrium between ROS generation and the antioxidant defense mechanism in the male reproductive system may affect key hormonal regulators of male reproductive activities. Unchecked ROS production may cause direct injury on reproductive tissues or could disrupt normal regulatory mechanisms of the hypothalamic-pituitary-gonadal (HPG) axis and its interaction with other endocrine axes, both of which have negative effects on male reproductive health and can lead to male infertility.

Novel Genes of the Male Reproductive System: Potential Roles in Male Reproduction and as Non-hormonal Male Contraceptive Targets.

The development of novel non-hormonal male contraceptives represents a pivotal frontier in reproductive health, driven by the need for safe, effective, and reversible contraceptive methods. This comprehensive review explores the genetic underpinnings of male fertility, emphasizing the crucial roles of specific genes and structural variants (SVs) identified through advanced sequencing technologies such as long-read sequencing (LRS). LRS has revolutionized the detection of structural variants and complex genomic regions, offering unprecedented precision and resolution over traditional next-generation sequencing (NGS). Key genetic targets, including those implicated in spermatogenesis and sperm motility, are highlighted, showcasing their potential as non-hormonal contraceptive targets. The review delves into the systematic identification and validation of male reproductive tract-specific genes, utilizing advanced transcriptomics and genomics studies with validation using novel knockout mouse models. We discuss the innovative application of small molecule inhibitors, developed through platforms like DNA-encoded chemistry technology (DEC-Tec), which have shown significant promise in preclinical models. Notable examples include inhibitors targeting serine/threonine kinase 33 (STK33), soluble adenylyl cyclase (sAC), cyclin-dependent kinase 2 (CDK2), and bromodomain testis associated (BRDT), each demonstrating nanomolar affinity and potential for reversible and specific inhibition of male fertility. This review also honors the contributions of Dr. David L. Garbers whose foundational work has paved the way for these advancements. The integration of genomic, proteomic, and chemical biology approaches, supported by interdisciplinary collaboration, is poised to transform male contraceptive development. Future perspectives emphasize the need for continued innovation and rigorous testing to bring these novel contraceptives from the laboratory to clinical application, promising a new era of male reproductive health management.