Search Results (1,798)

Background/Objectives: Infertility is a reproductive disorder affecting approximately 10–15% of reproductive-age couples worldwide. Recent studies have suggested that miRNAs in follicular fluid may provide insights into reproductive potential and follicle health. This study evaluated the altered profile of miRNAs in the follicular fluid in patients undergoing IVF, considering the underlying etiology of infertility. Among our study participants, we identified four major underlying causes of infertility: polycystic ovary syndrome (PCOS), pelvic inflammatory disease (PID), male factor infertility, and unexplained infertility (UI). Methods: This study aimed to assess whether these infertility diagnoses are associated with distinct follicular behaviors and to identify altered miRNA patterns linked to these conditions. Ingenuity Pathway Analysis (IPA) was used to evaluate the impact of the altered miRNA signature on key biological processes. Results: The bioinformatics analysis of microarray data revealed altered miRNA patterns in FF for selected subgroups. Compared to healthy controls, 25 differentially expressed miRNAs were identified in PCOS (9 downregulated and 16 overexpressed), 21 in PID (15 downregulated and 6 overexpressed), and 34 in UI (24 downregulated and 10 overexpressed). These altered miRNA signatures indicate a complex interplay with essential signaling pathways, including hormonal regulation and tissue remodeling. Conclusions: Our analysis revealed key miRNAs that were differentially expressed across selected groups, indicating their potential as biomarkers for more accurate diagnosis and targeted treatment strategies. These findings provide valuable insights into the molecular mechanisms underlying reproductive disorders and underscore the importance of further research to develop targeted interventions that can enhance patient outcomes. Full article

Concern over COVID-19’s long-term influence on women’s reproductive health is growing, with emerging research suggesting potential links to ovarian dysfunction, menstrual irregularities, fertility challenges, and adverse pregnancy outcomes. Post-viral immune dysregulation is linked to both the development and exacerbation of autoimmune diseases, including multiple sclerosis (MS). Long COVID has been associated with immunological dysfunction, hormonal imbalances, and chronic inflammation, all of which may worsen autoimmune disorders and reproductive health issues. Long COVID is characterized by symptoms persisting for weeks or months beyond the acute infection phase. There are indications that prolonged COVID may contribute to autoimmune disease development through mechanisms such as immune hyperactivation, molecular mimicry, and dysregulated cytokine responses. Although this research field is still emerging, growing evidence suggests that SARS-CoV-2 infection may have lasting effects on women’s health, highlighting the need for further studies into its underlying mechanisms and long-term clinical outcomes. This review compiles recent findings on the long-term impact of COVID-19 on women’s reproductive health and its potential association with autoimmune disorders, particularly MS. Full article

Inhibin (INH) plays a key role in the regulation of the reproductive performance of geese. It inhibits follicle-stimulating hormone (FSH) secretion from the anterior pituitary gland to regulate spermatogenesis. Immunization against INH in male geese leads to the production of antibodies to neutralize the INH activity that enhances testicular function and gonadotropin production. The objectives of the present research were to elaborate on the effects of inhibin (INH) immunization on testicular histology, plasma LH, pituitary PRL mRNA, and hypothalamic VIP mRNA expressions in Yangzhou ganders. A total of 60 birds were selected and divided into control (CON) and INH-immunized (INH-immunized) groups, having 30 in each group. In this experiment, the ganders were immunized with INH three times, and birds in the CON group were inoculated with bovine serum albumin (BSA). The analyzed data revealed that immunization against inhibin had no significant effects on improving the plasma concentration of LH hormone; however, significant effects were observed on the germ cell line, hypothalamic VIP mRNA, and pituitary PRL mRNA expressions. It is concluded that INH (INH) immunization is an effective tool to improve reproductive efficiency in Yangzhou ganders; however, INH immunization may harm pituitary PRL mRNA and hypothalamic mRNA expressions and LH plasma concentration. Seasonality played a vital impact on the hypothalamus–pituitary–gonadal (HPG) axis. Full article

Polycystic ovary syndrome (PCOS) is a common female endocrinopathy associated with reproductive and metabolic abnormalities. PCOS is characterized by complex pathogenesis and pathophysiology. Its multifactorial etiology and heterogeneous presentation make effective treatment difficult. Endocrine abnormalities in PCOS create a vicious cycle of overriding dysfunction involving the hypothalamic-pituitary-ovarian (HPO) axis. Most research has primarily focused on identifying genetic, epigenetic, or immunological factors underlying PCOS. In recent years, new reports have emerged on the possible involvement of antibodies directed against HPO axis components in the development of PCOS. Some of these have been shown to be able to interfere with hormone receptors or receptor binding by targeting the key domains for their function. However, the evidence is heterogeneous and challenging to interpret, given the overall predisposition to high levels of various autoantibodies found in women with PCOS. This review focuses on autoantibodies affecting the HPO axis in PCOS and their potential role in the pathogenesis of PCOS. The authors discuss PCOS as a potential antibody-mediated autoimmune disease in light of recent reports on its possible pathogenesis. Full article

Populus species are important resources for ecological conservation and certain industry productions, and are also considered model tree species for scientific research. For tree species, in vitro plant regeneration is an important method of propagation due to the advantage of high multiplication rate. Although many molecular determinants for poplar regeneration have been investigated, the complete regulatory hierarchy network remains unclear. In this study, we tracked the temporal changes of endogenous hormone contents, physiological characteristics and transcriptional profiles during callus induction and adventitious organogenesis in a stem of Populus alba L. to explore the regulatory dynamics of in vitro regeneration in poplars. The results imply that auxin may promote the formation of callus in P. alba by activating the expression of WOX11/12. By up-regulating the expression of CUC1/2, the development of callus begins to initiate apical meristem (SAM) at day 12. The cytokinin-mediated pathway regulates the adventitious shoot formation by ESR1 and WUS. The precursors of active gibberellin GA1, GA53 and GA19 were accumulated in the early stage of callus induction, and then they continued to decrease. JA may function on adventitious shoot regeneration due to its accumulation after 12 days of induction. The dominant hormonal components and regulatory factors during regeneration were identified. Based on the results, a regeneration pathway regulated by auxin and cytokinin for poplars is proposed. The key regulators identified in this study will accelerate the exploration and understanding of the asexual reproduction mechanism of poplar trees. Full article

Bisphenol A (BPA) is a common synthetic chemical compound classified as an endocrine disruptor. It affects multiple physiological systems in the body, including the female reproductive system, particularly granulosa cells (GCs) in the ovaries, where steroidogenesis occurs. This study investigated the impact of various BPA concentrations (environmentally relevant concentrations of 0.001 µM and 0.1 µM and toxicological concentration of 100 µM) and exposure times (24 and 72 h) on cell viability and counts and in vitro production of estradiol and progesterone in human GCs collected from waste follicular fluid of IVF patients. Gene expression analysis of 182 genes associated with steroidogenesis and apoptosis was performed in GCs using PCR arrays, followed by protein expression analysis by Western blot. Our results demonstrate that after longer BPA exposure (72 h), a higher concentration of BPA (100 µM) negatively affects the cellular viability and counts and significantly alters steroid hormone biosynthesis in vitro, leading to reduced concentrations of estradiol and progesterone in the culture medium. We found that all BPA concentrations altered the expression of different steroidogenesis- and apoptosis-related genes in GCs. At 0.001 μM, BPA exposure decreased the expression of TRIM25, UGT2B15, CASP3, and RPS6KA3 genes and increased the expression of NR6A1 and PPID genes. At 0.1 μM, BPA increased the expression of AR, HSD3B1, BID, IKBKG, and PPID genes while reducing the expression of TRIM25 and CASP3 genes. At the highest concentration of 100 μM, BPA upregulated the expression of AR, GPER30, BID, IKBKG, and PPID genes and downregulated the expression of FOXO1 and UGT2B15 genes. These results highlight BPA’s concentration-specific effects on steroidogenesis and apoptosis and show its potential to compromise GC function, with possible negative implications for female fertility and ovarian health, even at environmentally relevant concentrations. Full article

Pesticides are compounds of major use in agriculture worldwide. Nevertheless, many pesticide chemicals are classified as endocrine disruptors and potentially carcinogens. Farmers and farmworkers are particularly exposed and are at high risk of developing health-related impairments. In Morocco, the lack of awareness towards pesticide hazards and the inappropriate application of safety measures might increase the exposure as well as the risks of health concerns. In this paper, we present the framework of a study designed to assess pesticide exposure among Moroccan farmers and farmworkers and to evaluate potential health effects, namely endocrine and epigenetic impacts. Human biological monitoring will be conducted to determine pesticide levels in urine following the development and validation of sensitive chromatography methods (SPE, UPLC-MS/MS). Biomarkers of exposure include a set of parent and metabolite pesticide compounds (organophosphates, pyrethroids, triazines and urea-based pesticides). Thyroid and reproductive hormones (TSH, T₃, T₄, FSH and LH) as well as global and specific DNA methylation markers (5-mC, 5-hmC, N⁶-mA, THRB and LHR) are selected as biomarkers of effects. This provides guiding steps and methods to perform reliable exposure evaluation and health impact assessment. This study aims to expand the current knowledge on the endocrine and epigenetic risks related to pesticides, especially in low- and middle-income countries. Full article

Polybrominated diphenyl ethers (PBDEs) are synthetic halogen compounds, industrially used as flame retardants in many flammable products. PBDEs are environmentally persistent and bioaccumulative substances that were used from the 1970s and discontinued in the 1990s. PBDEs are present in air, soil, water, and food, where they remain stable for a long time. Chronic exposure to PBDEs is associated with adverse human health effects, including cancer, immunotoxicity, hepatotoxicity, reproductive and metabolic disorders, motor and hormonal impairments, and neurotoxicity, especially in children. It has been demonstrated that PBDE exposure can cause mitochondrial and DNA damage, apoptosis, oxidative stress, epigenetic modifications, and changes in calcium and neurotransmitter levels. Here, we conduct a comprehensive review of the molecular mechanisms of the neurotoxicity of PBDEs using different approaches. We discuss the main neurotransmitter pathways affected by exposure to PBDEs in vitro and in vivo in different mammalian models. Excitatory and inhibitory signaling pathways are the putative target where PBDEs carry out their neurotoxicity. Based on this evidence, environmental PBDEs are considered a risk to human public health and a hazard to biota, underscoring the need for environmental monitoring to mitigate exposure to PBDEs. Full article

Background: Endometriosis is one of the most common gynecological diseases, affecting up to 10–15% of women of reproductive age. It is a chronic, estrogen-dependent condition that often presents with heterogeneous symptoms, complicating diagnosis and delaying treatment. Methods: This is a narrative review based on a comprehensive analysis of recent literature regarding hormonal treatment options for endometriosis, including primary and adjuvant therapies. Results: Combined oral contraceptives (COCs) are effective in reducing dysmenorrhea, but show limited benefit for other symptoms and may not prevent disease progression. Progestins, particularly dienogest, demonstrate superior long-term efficacy with favorable side-effect profiles. GnRH agonists and antagonists are reserved for second-line treatment due to side effects and hypoestrogenism, but can significantly reduce endometriotic lesions. The levonorgestrel intrauterine system (LNG-IUS) is especially effective in patients with adenomyosis. Conclusions: Hormonal therapies are central to the management of endometriosis. Progestins are considered the most suitable long-term option. Despite promising results, evidence quality varies, and further studies are needed to establish long-term efficacy, patient-specific outcomes, and direct comparisons between agents. Full article

Breast cancer (BC) is the most prevalent malignancy among women worldwide, with a rising incidence in young, premenopausal patients. For those diagnosed with hormone receptor-positive (HR+) BC, tamoxifen is a cornerstone of adjuvant endocrine therapy, significantly reducing recurrence risk and improving long-term survival. However, its prolonged use poses challenges for women desiring pregnancy, prompting interest in temporary treatment interruption as a strategy to achieve reproductive goals while maintaining oncological safety. This systematic review evaluates the impact of tamoxifen on fertility, the feasibility of treatment interruption, and associated reproductive and oncological outcomes. Following the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines, we conducted a comprehensive search across major databases, identifying three relevant studies, including one randomized controlled trial (RCT) and two observational cohort studies. The findings suggest that temporary tamoxifen interruption allows for successful pregnancies without significantly increasing short-term recurrence rates. Notably, the POSITIVE trial demonstrated a pregnancy achievement rate of 74% and a live birth rate of 63.8%, with comparable three-year disease-free survival between patients who interrupted tamoxifen and those who continued therapy. However, concerns remain regarding tamoxifen’s teratogenic risks, emphasizing the need for strict contraceptive measures and preconception counseling. Despite emerging evidence supporting this approach, long-term safety data are limited. Further research is warranted to refine clinical recommendations and optimize reproductive counseling for young BC survivors. Full article

This study aimed to investigate the effect of Artemisia absinthium extract on testicular dysfunction in rats and explain the involvement of the androgen receptor signaling pathway as a biomarker in maintaining fertility during sodium fluoride (NaF) treatment. Thirty-two male rats were divided equally into four groups and received treatment for 60 days. The control group (I) received normal saline; group II received Artemisia extract at 100 mg/kg b.w.; group III received NaF at 12 mg/kg b.w. orally; and group IV received NaF (12 mg/kg b.w.) and Artemisia extract (100 mg/kg b.w.). The testis weights and the lipid peroxidation, luteinizing hormone (LH), follicle-stimulating hormone (FSH), and testosterone levels were estimated. The genital organs were prepared and immunoreacted with a receptor. Histomorphometric analyses were performed to obtain the diameter of the seminiferous tubules and the height of the germinal epithelia in the testes. The results showed that exposure to NaF caused a significant increase in testis weight and malondialdehyde (MDA) and a decrease in serum LH, FSH, and testosterone concentrations compared to the control group, while extract administration induced an increase in the levels of these hormones in group IV. Testicular histological and histomorphometric changes were observed in group III: degenerative seminiferous tubules with vascular congestion, disorganization of the germinal layer, and decreased seminiferous tubule diameter and germinal epithelium height. The expression of androgen receptors in the testes of the NaF-treated rats was significantly reduced. In contrast, these testicular histological changes were ameliorated in rats treated with the extract. The results allow us to conclude that the administration of Artemisia absinthium confers positive effects on male reproductive function by inhibiting fluoride, maybe via ameliorative testicular function. Full article

The relationship between anti-Müllerian hormone (AMH) levels and body weight, expressed through body mass index (BMI), in women with PCOS has been a topic of discussion for a long time, yet the literature continues to present conflicting data. The latest guidelines emphasize the growing role of AMH in the diagnosis of polycystic ovary syndrome and suggest that it should become one of the diagnostic criteria for identifying this condition. Objectives: The aim of this study was to determine the relationship between AMH levels and BMI in reproductive-age patients. The bioethics committee approved the conduct of the study. Methods: A total of 193 patients diagnosed with polycystic ovary syndrome (PCOS) based on the Rotterdam criteria were included in the study group. The control group consisted of 196 patients who did not meet the diagnostic criteria for PCOS. Blood samples (5 mL of venous blood) were collected from all participants to determine AMH levels. Additionally, body weight and height were measured, and BMI was calculated. Results: The mean AMH level for women with PCOS was 7.187 ng/mL (median: 6.400 ng/mL) and was more than twice as high as women without PCOS (mean: 3.399 ng/mL, median: 2.835 ng/mL). The decline in the average AMH level occurs at an older age (35–39 years) in women with PCOS compared to women without PCOS (25–29 years). A significant negative correlation between AMH levels and BMI was observed only in women with PCOS in the 25–29 age group. In women in the 20–24 age group, this correlation takes the form of a statistical tendency. Conclusions: Obesity is a modifiable factor influencing AMH levels. The demonstrated relationship between AMH and BMI may contribute to the development of therapeutic protocols tailored to the patient’s clinical condition. Full article

Background/Objectives: Among the therapeutic options available for managing PCOS, metformin improves insulin sensitivity, reduces androgen levels, and helps restore menstrual regularity and ovulation. While primarily used for its metabolic effects, metformin therapy may also influence reproductive parameters, including AMH levels, which are pivotal in improving ovarian function and predicting therapeutic outcomes in PCOS. The aim of this study was to search the scientific literature and analyze the correlation between AMH levels and metformin hydrochloride therapy in women with PCOS and IR. Methods: A systematic review of the scientific literature was conducted using the following keywords: polycystic ovarian syndrome, anti-Mullerian hormone, insulin resistance, metformin, treatment, biomarker, and metabolic syndrome. This review was aimed at investigating the potential of AMH as a biomarker of the effectiveness of metformin therapy in patients with PCOS and IR. Results: Metformin treatment in PCOS patients has shown significant reductions in serum AMH levels with prolonged therapy. As an insulin sensitizer, metformin improves insulin sensitivity, reduces hyperinsulinemia, and suppresses hyperandrogenism. This process inhibits the growth of antral follicles, which is reflected in decreased AMH levels. Conclusions: Reductions in AMH levels and improvements in insulin sensitivity can serve as indicators of treatment efficacy and enhancements in reproductive function for these patients. AMH could be considered a prognostic marker for evaluating the effectiveness of metformin therapy. A decrease in AMH levels following treatment may indicate improved ovarian function and a reduction in polycystic morphology. However, further research is necessary to confirm these findings and to determine the optimal dosages and duration of treatment. Full article

The SAUR (Small Auxin-Upregulated RNA) family members are important early auxin responsive genes in plants, playing a key regulatory role in the auxin metabolism, signal transduction, plant organ development, and abiotic stress response. Auxin signaling is also crucial for strawberry fruit development, but its specific regulatory mechanism remains unclear. In this study, bioinformatics methods were used to systematically identify and evaluate the FvSAUR gene family members associated with the auxin signaling in strawberry. The woodland strawberry Yellow Wonder line ‘YW5AF7’ was used as the material to further investigate the expressional characteristics of FvSAUR members in response to the auxin signals. A total of 64 members of the SAUR gene family were identified in the woodland strawberry genome, associated with FvSAUR1-64. Further bioinformatics analysis revealed that the FvSAUR members have undergone significant structural differentiation during evolution, and their encoded proteins exhibit diversity in folding stability, physicochemical properties, and other aspects. The prediction of the cis-elements in the promoter sequences of these genes suggests that the FvSAUR genes may mediate multiple hormonal and environmental signals, participating in a wide range of biological processes. RNA seq data analysis combined with RT-qPCR analysis revealed a dynamic spatiotemporal expression pattern of the FvSAUR genes in the vegetative and reproductive organs of strawberries, particularly the high expression levels of FvSAUR11, 17, 19, 21, and other genes in flowers and young fruits, suggesting their potential regulatory roles in strawberry fruit development. Exogenous auxin treatment experiments further suggested that the expression of FvSAUR11 and FvSAUR19 is sensitive to the changes in auxin levels, indicating their potential involvement in auxin signal transduction during strawberry fruit development. Subcellular localization results showed that both proteins are located in the nucleus. The results of this study systematically analyzed the sequence structure characteristics, evolutionary history, expression patterns, and potential functions of the strawberry FvSAUR family members, providing important insights for further elucidating the roles of FvSAUR genes in strawberry fruit growth and development. Full article

In dairy cow, the peripartum metabolic stage is critical as may affect post-partum metabolic and reproductive recovery, colostrum quality, and overall reproductive fitness. This study aimed to evaluate the effects of varying doses of α-ketoglutarate (AKG) on lactation performance, reproductive performance, immune function, and antioxidant capacity in periparturient dairy cows. A total of 180 periparturient dairy cows were randomly assigned to four groups, with each cow receiving 1 g, 5 g, or 10 g of AKG in their prepartum diets. Results indicated that feeding 5 g and 10 g of AKG significantly increased the colostrum fat and protein content, reduced somatic cell counts, and improved daily milk yield. Regarding reproduction, AKG supplementation regulated reproductive hormones, increased postpartum estrogen levels, improved conception rates, and shortened the interval between breeding periods. For immune and antioxidant functions, AKG significantly increased serum IL-10 levels while reducing TNF-α and interleukins 1β and 6. It also significantly elevated glutathione peroxidase (GSH-PX) levels, reducing oxidative stress and demonstrating anti-inflammatory and immunomodulatory effects. Additionally, cows receiving medium-to-high doses of AKG had a significantly lower incidence of postpartum diseases such as mastitis. In conclusion, appropriate AKG supplementation can improve lactation performance, reproductive performance, immune function, and overall health in periparturient dairy cows, providing a theoretical basis for its use in dairy cow nutrition management. Full article