Female Fertility Research Articles

MiR-184, a downregulated ovary-elevated miRNA transcriptionally activated by SREBF2, exerts anti-apoptotic properties in ovarian granulosa cells through inducing SMAD3 expression

Follicular atresia is the primary threat to female fertility. miRNAs are dysregulated in granulosa cells (GCs) during follicular atresia, and have emerged as crucial regulators of the initiation and progression of follicular atresia. However, the downregulated ovary-elevated (OE) miRNAs and their biological functions in ovary remain elusive. Here, 13 downregulated OE miRNAs were systematically identified by integrating tissue expression high-throughput data and comparative transcriptome analyses, among which miR-184 was specifically highly expressed in ovary but dramatically downregulated during follicular atresia. Low miR-184 levels were also positively correlated with follicular atresia. Based on the in vitro GC and follicle culture system, we found that miR-184 suppressed GC apoptosis and follicular atresia. Mechanistically, miR-184 induced SMAD3 transcription by acting as a saRNA, and also stabilized SMAD3 mRNA by directly binding to its 5′-UTR, which promoted TGF-β pathway activity and its anti-apoptotic effect. In addition, miR-184 was transcribed independently of host gene, which was activated by SREBF2 in an H3K4me3-dependent manner. Comparative analysis revealed that SREBF2 expression and H3K4me3 enrichment on miR-184 promoter in GCs from atretic follicles were dramatically reduced, which leads to the downregulation of miR-184 during follicular atresia. Moreover, the expression pattern, function, target, and regulatory mechanism of miR-184 among mammals are highly conserved and universal. Taken together, our findings demonstrate that miR-184, transcriptionally activated by SREBF2 in an H3K4me3-dependent manner, exerts anti-atretic effects by inducing SMAD3 expression, highlighting that it is a promising regulator for improving follicular development, ovarian health and female fertility.

The hidden impact of GLP-1 receptor agonists on endometrial receptivity and implantation.

Increasing infertility rates represent a growing medical challenge in modern societies resulting from a complex interplay of sociocultural trends, lifestyle factors, exposure to environmental toxins, and underlying health problems. Women's fertility is particularly vulnerable to these shifts. The obesogenic lifestyle not only accelerates weight gain, but also disrupts ovulation driving the rise in infertility. Among several medications used for treating obesity and type 2 diabetes, glucagon-like peptide-1 receptor agonists (GLP-1RAs) show promising improvement in female fertility most likely by stimulating ovulation. However, the effects of GLP-1RAs on the endometrium remain unclear. Further studies are needed to investigate the impact of GLP-1RAs on endometrial receptivity and embryo implantation and early development. The aim of this study is to address the knowledge gap regarding the effects of GLP-1RAs on human reproduction, with special focus on the endometrium. Understanding these mechanisms may help to develop new strategies for improving fertility treatment, reduce implantation failureand address potential safety concerns regarding teratogenicity and adverse developmental outcomes for children born to women conceiving during or soon after GLP-1RA treatment.

Hypoxic mesenchymal stem cell-derived exosomal circDennd2a regulates granulosa cell glycolysis by interacting with LDHA

BackgroundPremature ovarian insufficiency (POI) is an ovarian dysfunction disorder that significantly impacts female fertility. Ovarian granulosa cells (GCs) are crucial somatic components supporting oocyte development that rely on glycolysis for energy production, which is essential for follicular growth. Hypoxia-induced exosomal circRNAs regulate glycolysis, but their biological functions and molecular mechanisms in POI are largely unexplored. The present comprehensive investigation revealed a substantial reduction in ovarian glycolysis levels in POI rats. Notably, hypoxia-induced exosomes originating from mesenchymal stem cells (HM-Exs) exhibit a remarkable capacity to enhance ovarian glycolysis, mitigate GCs apoptosis, reinstate disrupted estrous cycles, modulate sex hormone levels, and curtail the presence of atretic follicles. These restorative actions collectively contribute to fostering fertility revival in POI-afflicted rats.MethodsCyclophosphamide was administered for 2 weeks to induce POI rat model, and POI rats were randomly divided into three groups and treated with PBS, NM-Exs and HM-Exs, respectively. Ovarian function and fertility were assessed at the end of the study and ovarian tissues were collected for analysis of energy metabolites. The relationship between circDennd2a and POI was explored in vitro by qRT-PCR, Western blotting, CCK-8 assay, EdU staining, TUNEL staining, extracellular acidification rate (ECAR) measurements, and ATP, lactate and pyruvate level assays.ResultsOur findings revealed depletion of circDennd2a in serum samples and GCs from individuals suffering from POI. The introduction of HM-Exs-derived circDennd2a (HM-Exs-circDennd2a) effectively counteracted GCs apoptosis by enhancing glycolytic processes and driving cellular proliferation. CircDennd2a interacted with lactate dehydrogenase A (LDHA), which served as a catalyst to increase LDHA enzymatic activity and facilitate the conversion of NADH to NAD+. This biochemical cascade worked synergistically to sustain glycolytic function within GCs.ConclusionThis study revealed that HM-Exs-circDennd2a promoted LDHA activity and enhanced GCs glycolytic capacity, both of which support its use as a potential clinical diagnostic and therapeutic target for POI.

Association between body roundness index and female infertility: a cross-sectional study of NHANES 2013–2018

BackgroundThe use of visceral obesity as an indicator for predicting female infertility risk has not been well established. The body roundness index (BRI) is a novel, non-invasive indicator of visceral fat; however, previous reports have not addressed the relationship between the BRI and female infertility. This study sought to fill this research gap by investigating the association between the BRI and the risk of female infertility.MethodsThis cross-sectional study examined 3,528 women aged 18 to 45 who participated in the National Health and Nutrition Examination Survey (NHANES) from 2013 to 2018. Infertility was defined based on responses to the reproductive health questionnaire. The BRI was calculated using waist circumference and height. Covariates included demographic traits, physical exam results, laboratory test findings, and survey data. Weighted multivariable logistic regression models and spline smoothing analysis assessed the relationship between the BRI and infertility. Bayesian statistics were used to examine the robustness of significant associations.ResultsBased on their self-report data, 407 (11.54%) participants were classified as having infertility. A significantly higher percentage of participants with a higher BRI were found to have infertility. Multivariable logistic regression revealed that the BRI was significantly associated with increased female infertility risk, regardless of independent variable analysis by continuous variable or quartile (Q1 to Q4) in the fully adjusted model (Model 3, continuous variable: OR = 1.1, 95% confidence interval [CI] = 1.05–1.16, p = 0.0009; Q4 vs. Q1: OR = 2.16, 95% CI = 1.38–3.39, p = 0.0035, Ptrend = 0.004). Non-linear and threshold effects in the relationship between the BRI and female infertility were identified, with an inflection point of 6.36. Subgroup analyses showed that this positive association remained consistent across most demographic and health-related categories. The Bayesian statistics analyses further confirmed the robustness of these findings.ConclusionA positive non-linear relationship exists between the BRI and the risk of female infertility, suggesting that the BRI could serve as a valuable indicator in female fertility assessments.

Oxidative stress controls lncRNA-mediated sow granulosa cell functions in a FoxO1-dependent manner

BackgroundOxidative stress (OS) is involved in low female fertility by altering multi-omics such as the transcriptome, miRome, and lncRNome in follicular cells and follicular fluid. However, the mechanism by which OS affects multi-omics dynamics remains largely unknown. Here, we report that OS induces lncRNome dynamics in sow granulosa cells (sGCs), which is partially dependent on the transcription factor activity of its effector, FoxO1.ResultsA total of 2,283 putative FoxO recognition elements (FREs) were identified in the promoters of 394 lncRNAs, accounting for 91.20% (394/432) of the lncRNAs regulated by OS. ChIP and reporter assays showed that the effector FoxO1 mediated OS regulation of lncRNA transcription in a transcription factor activity-dependent manner. In sGCs, OS induces the transcription and function (e.g., apoptosis) of NORSF (non-coding RNA involved in sow fertility), a nuclear lncRNA involved in sGC function via FoxO1. Furthermore, FoxO1 has been identified as a transcriptional activator of NORSF in sGCs that interacts with the FRE motif of its promoter. Meanwhile, OS downregulates the transcription of CYP19A1, which encodes an essential enzyme for estrogen synthesis and 17β-estradiol (E2) release by sGCs via the FoxO1 and NORSF axis. Phenotypically, dysregulation of NORSF transcription caused by 2 novel adjacent transitions in the promoter leads to decreased sow fertility.ConclusionThese results suggest a model of OS-stimulated lncRNome dynamics in sGCs and a new signaling pathway of OS that influences sGC function and sow fertility.

Impact of Laboratory-Measured Euthyroid Hashimoto's Thyroiditis on Reproductive Hormone Profile in Women with Obesity.

Introduction: Hashimoto's thyroiditis is a common endocrinological disorder that often coexists with obesity. Thyroid hormones interact with the regulation of sex steroids, and thyroid autoimmunity has a negative impact on female fertility. There are studies showing when euthyroid state is achieved with hormone replacement therapy (HRT), the reproductive hormone profile is improved but they usually compare the reproductive hormones before and after HRT in the same individuals. Studies comparing patients with Hashimoto's thyroiditis in an euthyroid state receiving HRT with individuals having normal thyroid function are limited. Here, it was aimed to search the impact of euthyroid Hashimoto's thyroiditis on reproductive hormone profile in women living with obesity. Materials and Methods: Sixty-one randomly selected female patients with Hashimoto's thyroiditis were included as the case group and 60 patients without Hashimoto's thyroiditis were included as the control group, from our obesity center. The case group included patients who had menstrual cycles and were euthyroid under l-thyroxine treatment for at least 6 months. Data on weight, height, body mass index (BMI), waist circumference (WC), free thyroxine (fT4), thyroid stimulating hormone (TSH), thyroid peroxidase antibody (anti-TPO), cortisol, insulin, prolactin (PRL), follicular stimulating hormone (FSH), luteinizing hormone (LH), estradiol (E2), progesterone (prog), testosterone (T), and dehydroepiandrosterone sulfate (DHEAS) levels, l-thyroxine treatment dosage (for case group), and accompanying diseases were recorded. The results were evaluated using SPSS. Results: A total of 121 patients were included in the study. Mean age was 41.8 ± 8.5 years in case and 38.6 ± 8.9 years in control group. There was no significant difference in weight, height, BMI, WC, or accompanying diseases between Hashimoto's thyroiditis and control group. fT4, anti-TPO, cortisol levels were higher in Hashimoto's thyroiditis group when compared with control group, but there was no significant difference for TSH, insulin, FSH, LH, E2, prog, T, DHEAS, or PRL. Conclusion: In women living with obesity, it is important to screen for Hashimoto's thyroiditis and achieve euthyroidism through effective LT4 treatment to promote a healthy reproductive system and improve fertility rates.

Impact of Human Papillomavirus (HPV) on Male and Female Fertility

Human papillomaviruses (HPVs) are responsible for the majority of sexually transmitted infections (STIs), some of which are oncogenic and can cause oropharyngeal or genital cancers. The HPV prevalence at the genital level varies according to the population studied but is higher in the seminal fluid of men suffering from idiopathic infertility than in the general population. The involvement of HPV in male infertility is supported by several studies suggesting that this virus can affect sperm quality by altering sperm DNA integrity, motility, number, viability, and morphology, and by inducing the production of anti-sperm antibodies (ASAs). HPVs may also have an impact on female fertility, mainly by increasing the risk of miscarriage and premature delivery and by altering the implantation of endometrial trophoblastic cells. In addition, an association with vaginal bacterial dysbiosis, notably involving Gardnerella vaginalis, or co-infection with an STI agent, serves as an aggravating factor. The aim of this review is to present current data on the potential role of HPVs in male and female infertility, along with data on infertility prevention and treatment strategies and the impact of vaccination in this context.

Expression and functional analysis of adipokinetic hormone reveal its different roles in larval development and female fecundity in Panonychus citri (McGregor) (Acari: Tetranychidae).

Adipokinetic hormone (AKH), a crucial neuropeptide, participates in the important physiological processes by specially binding to its receptor to activate the AKH signalling pathway. AKH regulates energy metabolism. However, it remains unknown whether AKH affects larval development and adult reproduction by influencing energy metabolism. In the present study, the AKH was identified from Panonychus citri and contained the conserved functional domain 'Q-[LIV]-[NT]-F-[ST]-X (2)-W' that characterises the AKH family. The relative expression levels of PcAKH revealed different patterns of AKH expression at different developmental stages of P. citri. Feeding of double-standard RNA against PcAKH induced decreased fecundity and reduced survival, which was accompanied by the down-regulation of vitellogenin gene expression. In addition, after silencing the PcAKH, lipid metabolism and carbohydrate homeostasis were disrupted, manifested by increased body width and weight, and fasting phenomenon. Further investigation found that compared with the control, physiological changes in trehalose and triglyceride contents were accompanied by variations in the mRNA expression levels of genes related to lipid metabolism and carbohydrate metabolism. The disorder of lipid and carbohydrate metabolism may affect adult female reproduction, which may lead to insufficient vitellogenin deposition. Moreover, the silencing of PcAKH seriously affected the growth and development of larvae, which was manifested as delayed development period and difficulty in moulting. Conclusively, all these results in current study demonstrated that double-stranded RNA silencing system targeting PcAKH effectively inhibited larval development and female fecundity by disturbing lipid and carbohydrate metabolism, and PcAKH is a specific RNAi target for control of P. citri in the design and development of biopesticide in sustainable agriculture.

Effects of Sugar in Adult Diet on the Development and Reproduction of Spodoptera frugiperda (J. E. Smith) under Laboratory Conditions in Burkina Faso

The fall armyworm, Spodoptera frugiperda (J.E. Smith) (Lepidoptera: Noctuidae), is the pest causing enormous economic losses to Maize production. To date, there is little documentation on rearing protocols for S. frugiperda. This study aimed to evaluate the effect of honey and glucose as a nutrient source on the developmental parameters and reproduction of S. frugiperda under laboratory conditions. In this work, we compared the larval period, larval survival, pupal period, pupal survival, adult longevity, female oviposition period, female fecundity and egg hatching of S. frugiperda adults under three feed diets: distilled water (D1), 10% bee honey with water solution (D2) and 10% glucose with water (D3). The longest larval period and highest larval survival were achieved on D3. The longest longevity, oviposition and post-oviposition periods, the highest fecundity and number of eggs per female per day were observed on D3. The diet D3 had significant effects on live cycle of S. frugiperda parameters compared with D1 and D2. Our results will enable us to improve mass rearing of S. frugiperda in laboratory.

Polycomb in female reproductive health: patterning the present and programming the future.

Epigenetic modifications regulate chromatin accessibility, gene expression, cell differentiation and tissue development. As epigenetic modifications can be inherited via mitotic and meiotic cell divisions, they enable a heritable memory of cell identity and function and can alter inherited characteristics in the next generation. Tight regulation of epigenetic information is critical for normal cell function and is often disrupted in diseases including cancer, metabolic, neurological and inherited congenital conditions. The ovary performs critical functions in female reproductive health and fertility, including oocyte and sex-hormone production. Oocytes undergo extensive epigenetic programming including the establishment of maternal genomic imprints, which are critical for offspring health and development. Epigenetic modifiers also regulate ovarian somatic cells, such as granulosa and theca cells which support oocytes and produce hormones. While ovarian dysfunction contributes to serious ovarian conditions such as primary ovarian insufficiency (POI), polycystic ovary syndrome (PCOS) and ovarian cancers, the roles of epigenetic modifications in the ovary and their contribution to ovarian dysfunction are not properly understood. Here we review recent advancements in understanding Polycomb proteins, important epigenetic modifiers that have emerging roles in ovarian development and maternal epigenetic inheritance. Polycomb group proteins (PcGs) contribute to the faithful establishment of epigenetic information in oocytes, a process essential for normal offspring development in mice. Emerging evidence also indicates that PcGs regulate ovarian function and female fertility. Understanding these and similar mechanisms will provide greater insight into the epigenetic regulation of ovarian and oocyte function, and how its disruption can impact reproductive health and maternal inheritance.

Nap1 is essential for eupyrene spermatogenesis and migration in Plutella xylostella.

Spermatogenesis is a key process for the sexual reproduction species. In lepidopteran insects, spermatogenesis produces two different types of sperms, in which eupyrene sperm carry genomic DNA and fertilize eggs, whereas apyrene sperm are necessary for eupyrene sperm to enter eggs. However, functional genetic studies of spermatogenesis in Plutella xylostella remain a longstanding puzzle even though the phenomenon in lepidoptera has been widely documented more than a century. In this study, we particularly focus on the gene Nap1 which belongs to the Nucleosome assembly protein family. Our findings revealed that Nap1 was highly expressed in the testes, and the disruption of PxNap1 induced male sterility in P. xylostella, while the fertility of mutant females was comparable to wild-type females. Additionally, through immunofluorescence staining analysis, we found that the eupyrene sperm bundles presented diffusedly scattered nuclei in PxNap1 mutant males, while the nuclei in the wild-type were clustered together presented as needle shape. We also found that PxNap1 deficiency hinders the transfer of eupyrene sperm to the bursa copulatrix and spermatheca of females. However, the apyrene spermatogenesis was not affected in the PxNap1 mutant. RNA-seq analyses indicated that the defects of eupyrene sperm in PxNap1 mutants were related to energy metabolic such as pentose and glucuronate interconversions, biosynthesis of amino acids, and pentose phosphate pathway. Our study demonstrates that PxNap1 plays crucial function in eupyrene spermatogenesis and eupyrene sperm migration. Our research provides valuable insights for the genetic factors underlying reproductive processes in Lepidopteran insects.

The Effects of Heat Stress on the Ovary, Follicles and Oocytes: A Systematic Review.

Climate change is driving significant environmental changes with profound implications for human health, including fertility. While the detrimental effects of heat on spermatogenesis are well-documented, the impact of elevated temperatures on ovaries and female fertility remains less explored. This review systematically examines the literature on heat stress (HS) effects on mammalian ovaries, follicles, and oocytes. Evidence from mammalian models indicates that HS significantly impairs ovarian function, disrupting hormone profiles, reducing ovarian size and weight, altering histology, decreasing granulosa cell viability, and compromising oocyte quality. Efforts to develop strategies and substances to mitigate these adverse effects are ongoing, but further research into the underlying mechanisms is urgently needed.

Regulation of ovarian function in obese women: pathogenetic mechanisms

Considering the universally high rates of obesity among the population, including women of reproductive age, and the negative impact of obesity on female fertility, the interest in this problem in the modern world becomes understandable. Many researchers have confirmed the pattern of ovulatory dysfunction development because of metabolic disorders in obese women. The exact mechanism for the development of anovulation and infertility in women with obesity has not been established, however, many pathogenetic factors that affect reproductive function are already known. Obese women have a high risk of developing ovulatory dysfunction due to insulin resistance, hyperandrogenism, as well as subclinical inflammation, lipotoxicity, and disruption of adipokines due to excess adipose tissue, which generally leads to impaired steroidogenesis and regulation in the hypothalamic – pituitary – gonadal axis. Due to the high prevalence of obesity in women of reproductive age, the objective of this review was to examine the pathogenetic mechanisms of the impact of obesity on female fertility, as well as the impact of high body mass index on the results of assisted reproductive technology (ART) cycles. We carried out a literature search in the PubMed database for the entire period of publications using phrases such as “ovarian function + obesity,” “pathogenesis of ovarian dysfunction in obesity,” “ART + obesity,” and “perinatal outcomes + bariatric surgery”. The most relevant studies being selected, with domestic and foreign clinical recommendations used in preparing the manuscript.

Sex dependent intergenerational effects of lead in mouse model

Lead (Pb) exposure negatively impacts fertility in both males and females, pregnancy outcomes, and child brain development. We investigated the reproductive and neurological effects of Pb exposure on male and female mice via Pb-contaminated soil for 4 weeks. Breeding was conducted after completion of exposure, in four groups; group 1 consisted of exposed dams and unexposed sires, group 2 consisted of exposed sires and unexposed dams, group 3 consisted of exposed sires and exposed dams and group 4 was the control. Generally, Pb exposure reduced observed conception rates, with a cumulative decrement observed when both males and females are exposed. Gene expression of the testes revealed oxidative stress as the cause of reduced conception rates. Neurological tests: Morris water maze and rotarod were conducted on F1 generation offspring. Maternally and paternally exposed F1 mice performed poorly in the Morris water maze when compared to the control. The severity of the neurological effects was also parent-dependent and sex-dependent. Paternal Pb exposure effects were more pronounced in female offspring. A comparison of gene expression changes of the hippocampus and prefrontal cortex showed paternal Pb-exposure resulted in more prefrontal cortex changes than in the hippocampus, a trend also recorded in the exposed sires. The pronounced effects in female offspring of paternal Pb exposure may suggest that Pb neurological effects may be X-chromosome-linked.

L-Proline Enhanced Whole Ovary Cryopreservation by Inhibiting Ice Crystal Growth and Reducing Oxidative Stress.

Cryopreservation and transplantation of ovaries are considered to be effective methods for preserving the fertility of female cancer patients. However, ice crystal and oxidative damage occur during the freeze-thaw cycle, significantly reducing the effectiveness of cryopreservation and limiting its clinical application. Thus, new technologies or agents must be explored to enhance ovarian cryopreservation. Recently, l-proline, a natural amino acid, has been proven to have good biocompatibility and can clear reactive oxygen species produced during cryopreservation. Whether l-proline can play a positive role in ovarian cryopreservation has not yet been explored. Here, the effect of l-proline on ovarian cryopreservation was investigated. The oxidative antioxidant system, mitochondrial function, and cell apoptosis and proliferation after thawing were systematically evaluated. Moreover, the ice crystal inhibition of l-proline was examined. Furthermore, the morphology and function of oocytes in ovaries, as well as the state of the ovaries after heterotopic renal capsule transplantation, were evaluated to validate the feasibility and reliability of this study. The above results confirm that l-proline can effectively inhibit ice crystal growth, reduce reactive oxygen species production, and enhance cryopreservation effects at the optimal concentration of 20 mM. Altogether, l-proline can significantly improve the cryopreservation effect of ovaries, which is expected to provide a new perspective for the cryopreservation of female fertility.

Hypoxia-Inducible Factor inhibition affects luteal function with no effect on fertility in mice.

Hypoxia-inducible factors (HIFs) are transcription factors responsible for sensing low oxygen levels and, in response, inducing the transcription of numerous genes. One of the main processes stimulated by HIFs is the formation of new vessels to increase oxygen supply to the tissue. Formation of the corpus luteum strongly depends on the vasculature and an active angiogenesis occurs during luteinization. In this study, we aimed to analyze the role of HIF in corpora lutea early formation and function, and in female fertility. To this aim, we superovulated mice by eCG and hCG, and administered the HIF inhibitor acriflavine (ACF) to the mice 3 h before hCG. We found a decrease in ovarian HIF1A and VEGFA, and in the vascular area in the animals treated with ACF. Moreover, we observed an increase in aberrant structures in the ovaries and in luteal cell apoptosis. Serum progesterone levels were decreased together with ovarian STAR expression. However, the animals treated with ACF during the early formation of the corpus luteum were completely fertile and no alterations were observed when the treated females were mated with fertile males. These results collectively suggest that HIF regulates gonadotropin-induced corpus luteum formation acting on luteal blood vessel formation, luteal cell survival, and progesterone synthesis. However, adequate HIF activity may not be essential to achieve and maintain pregnancy. These findings are significant to better understand the complex mechanisms of corpus luteum formation and identify potential abnormalities to allow better knowledge of ovarian physiology and pathologies in which this factor could be involved.

Integrating pyriproxyfen into the incompatible insect technique enhances mosquito population suppression efficiency and eliminates the risk of population replacement.

The incompatible insect technique (IIT) has been used for Aedes mosquito population suppression to curb the transmission of dengue. However, its wide application is limited owing to the low output of male mosquitoes and the risk of population replacement from the release of fertile Wolbachia-infected females. This study aims to improve IIT efficiency for broader adoption. We assessed the impact of 10% pyriproxyfen (PPF) sticky powder exposure on Wolbachia (from Culex molestus)-transinfected Aedes albopictus Guangzhou line (GUA line) (GC) mosquitoes. We found that the exposure caused chronic toxicity in adult mosquitoes without affecting the cytoplasmic incompatibility (CI)-inducing capability of males. The PPF-contaminated GC females exhibited significant sterilization and the ability to disseminate lethal doses of PPF to breeding sites. Subsequently, we conducted a field trial combining PPF with IIT aiming to suppress the Ae. albopictus population. This combined approach, termed boosted IIT (BIIT), showed a notable enhancement in population suppression efficiency. The improved efficacy of BIIT was attributed to the dispersion of PPF particles in the field via the released PPF-contaminated male mosquitoes. During the BIIT field trial, no Wolbachia wPip-positive Ae. albopictus larvae were detected, indicating the effective elimination of the risk of Wolbachia-induced population replacement. Additionally, the field trial of BIIT against Ae. albopictus resulted in the suppression of the nontarget mosquito species Culex quinquefasciatus. Our results highlight the remarkable efficiency and feasibility of combining IIT with PPF in suppressing mosquito populations, facilitating the widespread implementation of IIT-based management of mosquito-borne diseases. © 2024 Society of Chemical Industry.

Ovarian reserve, metabolic and neuroendocrine profiles of cadets from Air Force Academy: a pilot study.

Intensive physical activity and rigid dietary regimes can act as modifiers of neuroendocrine axes in women, inducing hormonal disorders and related menstrual irregularities such as functional hypothalamic amenorrhea (FHA). It would be important to evaluate if such disturbances may worsen female fertility. The aim of this study was to evaluate ovarian reserve markers and neuroendocrine axis in young military academy female cadets with years of training and occurrence of FHA. This is a prospective pilot study involving young female cadets from the Military Academy training program. Ovarian reserve markers and metabolic and neuroendocrine factors in the early follicular phase were measured with blood tests and transvaginal ultrasound. The study group consisted of 11 women belonging to the first year of training and the control group of 33 women belonging to the second to sixth year of training. No differences were found about ovarian reserve markers between the two groups. Moreover, the occurrence of FHA did not modify the ovarian reserve compared to eumenorrhea in both groups. Women from the study group showed significantly higher levels of fasting Insulin (42.18±26.14 uUI/mL versus 11.9±10.2 ng/mL, P value <0.001) and insulin-like growth factor 1 (310.06±67.90 uUI/mL versus 248.67±61.57 uUI/mL, P value = 0.015) compared with control group. Both intense physical training and FHA do not appear to impact the ovarian reserve of young female cadets. Although preliminary, these findings seem reassuring about the reproductive health of these women and their future fertility.

Female-germline specific protein Sakura interacts with Otu and is crucial for germline stem cell renewal and differentiation and oogenesis.

During oogenesis, self-renewal and differentiation of germline stem cells (GSCs) must be tightly regulated. The Drosophila female germline serves as an excellent model for studying these regulatory mechanisms. Here, we report that a previously uncharacterized gene CG14545 , which we named sakura , is essential for oogenesis and female fertility in Drosophila . Sakura is predominantly expressed in the ovaries, particularly in the germline cells, including GSCs. sakura null mutant female flies display rudimentary ovaries with germline-less and tumorous phenotypes, fail to produce eggs, and are completely sterile. The germline-specific depletion of sakura impairs Dpp/BMP signaling, leading to aberrant bag-of-marbles ( bam ) expression, resulting in faulty differentiation and loss of GSCs. Additionally, sakura is necessary for normal piwi-interacting RNAs (piRNAs) levels and for proper localization of Ool8 RNA-binding protein (Orb) in developing oocytes. We identified Ovarian Tumor (Otu) as protein binding partner of Sakura, and we found that loss of otu phenocopies loss of sakura in ovaries. Thus, we identified Sakura as a crucial factor for GSC renewal and differentiation and oogenesis, and propose that Sakura and Otu function together in these processes.

Role of Honey in Male and Female Reproductive Health and Fertility

Complementary and alternative medicine is widely used and rapidly growing in developing and developed nations. Honey is an important and unique natural product that has been used since ancient times as a therapeutic agent. Recently, attention has been increased toward its use for the prevention and treatment of numerous diseases as well as for improving and maintaining overall well-being. Traditionally, the consumption of honey is a common practice in some cultures as they believe that honey can enhance fertility and vitality. The efficacy of honey in promoting male and female reproductive health and treating fertility-related problems has been evaluated in experimental studies and clinical trials. The prime goal of this review is to highlight the importance of honey in male and female reproductive health by summarising the data collected from both experimental studies and clinical trials on the role of honey in male and female reproductive health.