Upregulated let-7 expression in the follicular fluid of patients with endometriomas leads to dysfunction of granulosa cells through targeting of IGF1R

IF 6 1区 医学 Q1 OBSTETRICS & GYNECOLOGY Human reproduction Pub Date : 2024-11-10 DOI:10.1093/humrep/deae247
Libing Shi, Hanqi Ying, Yongdong Dai, Yan Rong, Jianmin Chen, Feng Zhou, Shasha Wang, Shiqian Xu, Xiaomei Tong, Songying Zhang
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WHAT IS KNOWN ALREADY Patients with OEM exhibit diminished ovarian reserve, characterized by reduced oocyte quantity and quality. Fibrotic changes in the ovarian tissue surrounding the OEM create a disruptive microenvironment for follicular growth and development. STUDY DESIGN, SIZE, DURATION This is a cross-sectional study aimed to elucidate the molecular mechanisms underlying the impact of OEM on follicular development. Initially, miRNA expression profiles in follicular fluid (FF) samples were sequenced from patients with infertility related to OEM (N = 3) and male factor (MF) infertility (N = 3), with the latter serving as the control group. Differentially expressed miRNAs were validated in additional samples from each group (N = 55 in OEM group and N = 45 in MF group) to confirm candidate miRNAs. The study also investigated indicators associated with GCs dysfunction in vitro on rat GCs. Subsequently, rat models of OEM were established through endometrial allogeneic transplantation, and fertility experiments were conducted to assess the let-7/IGF1R axis response to OEM in vivo. Patient samples were collected between May 2018 and April 2019, and the mechanistic study was conducted over the subsequent three years. PARTICIPANTS/MATERIALS, SETTING, METHODS FF and GC samples were obtained from infertile patients undergoing IVF treatment for OEM and MF related infertility. miRNA expression profiles in FF samples were analyzed using second-generation high-throughput sequencing technology, and candidate miRNAs were validated through quantitative PCR (qPCR). In the in vitro experiments conducted with rat GCs, cell proliferation was assessed using the CCK-8 assay, while steroid hormone concentrations were measured using chemiluminescence. ATP content was determined with an ATP assay kit, and levels of ROS were quantified using flow cytometry. A dual luciferase reporter gene assay was employed to identify the target gene of let-7 based on the construction of a IGF1R reporter gene plasmid using 293T cells. Western blotting was utilized to evaluate the expression of IGF1R in GCs, as well as its downstream proteins, and changes in signaling pathways following let-7 agomir/antagomir transfection and/or Igf1r silencing. In the in vivo OEM rat models, alterations in ovarian structure and cyst morphology were observed using hematoxylin and eosin staining. The expressions of let-7 and Igf1r in GCs were evaluated through qPCR, while variations in IGF1R expression were investigated with immunohistochemistry. MAIN RESULTS AND THE ROLE OF CHANCE The cohort of patients with ovarian OEM in this study exhibited significantly decreased antral follicle counts, oocyte retrieval numbers, and normal fertilization rates compared to the control group with MF. The expression of the let-7 miRNA family was markedly upregulated in the FF and GCs of OEM patients. Transfection of rat GCs with let-7 agonists diminished the functions of GCs, including disrupted cell proliferation, mitochondrial oxidative phosphorylation, and steroid hormone secretion, while transfection of rat GCs with let-7 antagonists caused the opposite effects. Luciferase reporter gene experiments confirmed that let-7 complementarily bound to the 3′-untranslated regions of IGF1R. Stimulation of let-7 expression in rat GCs led to a significant decrease in IGF1R expression, while inhibition of let-7 increased IGF1R expression. The expression of IGF1R in the GCs of OEM patients was also significantly reduced compared to MF patients. Silencing of Igf1r led to the dysfunction of GCs, similar to the effects of let-7 agonization, as demonstrated by the downregulation of key proteins involved in cell proliferation (CCND2 and CCND3) and oestradiol synthesis, as well as an increase in progesterone synthesis (StAR), while implicating the PI3K-Akt and MAPK signaling pathways. The antagonistic effect of let-7 on GCs was ineffective when Igf1r was silenced. Conversely, the agonistic effect of let-7 on GCs could be reversed by stimulation with the IGF1R ligand IGF-1. These findings suggested that let-7 regulated the proliferation, differentiation, and ATP synthesis of GCs through targeting IGF1R. The OEM rat model demonstrated alterations in ovarian morphology and structure, along with reduced fertility. Let-7 expression was significantly upregulated in GCs of OEM rats compared to normal rats, while Igf1r and IGF1R expression in pre-ovulatory follicular GCs were notably downregulated, supporting the notion that elevated let-7 expression in the follicular microenvironment of OEM inhibited IGF1R, leading to abnormal GC function and impacting fertility at the molecular level. LARGE SCALE DATA N/A. LIMITATIONS, REASONS FOR CAUTION The synthesis and secretion mechanisms of steroid hormones are intricate and complex. Some enzymes that regulate oestrogen synthesis also play a role in progesterone synthesis. Moreover, certain receptors can respond to multiple hormone signals. Therefore, in this study, the expression patterns of key enzymes such as CYP17A, CYP11A1, HSD3B2, StAR, and receptors including AR, LHCGR, FSHR, ESR2, might be influenced by various factors and might not demonstrate complete consistency. WIDER IMPLICATIONS OF THE FINDINGS Future research will concentrate on investigating the potential impact of ovarian stromal cells on the external microenvironment of follicle growth. Additionally, screening for small molecule drugs that target let-7 and IGF1R actions can be conducted to intervene and modify the ovarian microenvironment, ultimately enhancing ovarian function. STUDY FUNDING/COMPETING INTEREST(S) This study received funding from the National Natural Science Foundation of China (grant number 82301851 to L.B.S., grant numbers U23A20403 and U20A20349 to S.Y.Z., and grant number 82371637 to Y.D.D.) and the Natural Science Foundation of Zhejiang Province (grant LTGY23H040010 to F.Z.). The authors have no conflicts of interest to declare.","PeriodicalId":13003,"journal":{"name":"Human reproduction","volume":"13 1","pages":""},"PeriodicalIF":6.0000,"publicationDate":"2024-11-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Human reproduction","FirstCategoryId":"3","ListUrlMain":"https://doi.org/10.1093/humrep/deae247","RegionNum":1,"RegionCategory":"医学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"OBSTETRICS & GYNECOLOGY","Score":null,"Total":0}
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Abstract

STUDY QUESTION What molecular mechanisms underlie the decline in ovarian reserve as the number and quality of oocytes decrease in patients with ovarian endometriomas (OEM)? SUMMARY ANSWER Elevated expression of the let-7 micro(mi)RNAs in the follicular microenvironment of OEM-affected ovaries targets the expression of type 1 insulin-like growth factor receptor (IGF1R) in granulosa cell (GC) and disrupts their proliferation, steroid hormone secretion levels, adenosine triphosphate (ATP) energy metabolism, and reactive oxygen species (ROS) oxidative stress levels. WHAT IS KNOWN ALREADY Patients with OEM exhibit diminished ovarian reserve, characterized by reduced oocyte quantity and quality. Fibrotic changes in the ovarian tissue surrounding the OEM create a disruptive microenvironment for follicular growth and development. STUDY DESIGN, SIZE, DURATION This is a cross-sectional study aimed to elucidate the molecular mechanisms underlying the impact of OEM on follicular development. Initially, miRNA expression profiles in follicular fluid (FF) samples were sequenced from patients with infertility related to OEM (N = 3) and male factor (MF) infertility (N = 3), with the latter serving as the control group. Differentially expressed miRNAs were validated in additional samples from each group (N = 55 in OEM group and N = 45 in MF group) to confirm candidate miRNAs. The study also investigated indicators associated with GCs dysfunction in vitro on rat GCs. Subsequently, rat models of OEM were established through endometrial allogeneic transplantation, and fertility experiments were conducted to assess the let-7/IGF1R axis response to OEM in vivo. Patient samples were collected between May 2018 and April 2019, and the mechanistic study was conducted over the subsequent three years. PARTICIPANTS/MATERIALS, SETTING, METHODS FF and GC samples were obtained from infertile patients undergoing IVF treatment for OEM and MF related infertility. miRNA expression profiles in FF samples were analyzed using second-generation high-throughput sequencing technology, and candidate miRNAs were validated through quantitative PCR (qPCR). In the in vitro experiments conducted with rat GCs, cell proliferation was assessed using the CCK-8 assay, while steroid hormone concentrations were measured using chemiluminescence. ATP content was determined with an ATP assay kit, and levels of ROS were quantified using flow cytometry. A dual luciferase reporter gene assay was employed to identify the target gene of let-7 based on the construction of a IGF1R reporter gene plasmid using 293T cells. Western blotting was utilized to evaluate the expression of IGF1R in GCs, as well as its downstream proteins, and changes in signaling pathways following let-7 agomir/antagomir transfection and/or Igf1r silencing. In the in vivo OEM rat models, alterations in ovarian structure and cyst morphology were observed using hematoxylin and eosin staining. The expressions of let-7 and Igf1r in GCs were evaluated through qPCR, while variations in IGF1R expression were investigated with immunohistochemistry. MAIN RESULTS AND THE ROLE OF CHANCE The cohort of patients with ovarian OEM in this study exhibited significantly decreased antral follicle counts, oocyte retrieval numbers, and normal fertilization rates compared to the control group with MF. The expression of the let-7 miRNA family was markedly upregulated in the FF and GCs of OEM patients. Transfection of rat GCs with let-7 agonists diminished the functions of GCs, including disrupted cell proliferation, mitochondrial oxidative phosphorylation, and steroid hormone secretion, while transfection of rat GCs with let-7 antagonists caused the opposite effects. Luciferase reporter gene experiments confirmed that let-7 complementarily bound to the 3′-untranslated regions of IGF1R. Stimulation of let-7 expression in rat GCs led to a significant decrease in IGF1R expression, while inhibition of let-7 increased IGF1R expression. The expression of IGF1R in the GCs of OEM patients was also significantly reduced compared to MF patients. Silencing of Igf1r led to the dysfunction of GCs, similar to the effects of let-7 agonization, as demonstrated by the downregulation of key proteins involved in cell proliferation (CCND2 and CCND3) and oestradiol synthesis, as well as an increase in progesterone synthesis (StAR), while implicating the PI3K-Akt and MAPK signaling pathways. The antagonistic effect of let-7 on GCs was ineffective when Igf1r was silenced. Conversely, the agonistic effect of let-7 on GCs could be reversed by stimulation with the IGF1R ligand IGF-1. These findings suggested that let-7 regulated the proliferation, differentiation, and ATP synthesis of GCs through targeting IGF1R. The OEM rat model demonstrated alterations in ovarian morphology and structure, along with reduced fertility. Let-7 expression was significantly upregulated in GCs of OEM rats compared to normal rats, while Igf1r and IGF1R expression in pre-ovulatory follicular GCs were notably downregulated, supporting the notion that elevated let-7 expression in the follicular microenvironment of OEM inhibited IGF1R, leading to abnormal GC function and impacting fertility at the molecular level. LARGE SCALE DATA N/A. LIMITATIONS, REASONS FOR CAUTION The synthesis and secretion mechanisms of steroid hormones are intricate and complex. Some enzymes that regulate oestrogen synthesis also play a role in progesterone synthesis. Moreover, certain receptors can respond to multiple hormone signals. Therefore, in this study, the expression patterns of key enzymes such as CYP17A, CYP11A1, HSD3B2, StAR, and receptors including AR, LHCGR, FSHR, ESR2, might be influenced by various factors and might not demonstrate complete consistency. WIDER IMPLICATIONS OF THE FINDINGS Future research will concentrate on investigating the potential impact of ovarian stromal cells on the external microenvironment of follicle growth. Additionally, screening for small molecule drugs that target let-7 and IGF1R actions can be conducted to intervene and modify the ovarian microenvironment, ultimately enhancing ovarian function. STUDY FUNDING/COMPETING INTEREST(S) This study received funding from the National Natural Science Foundation of China (grant number 82301851 to L.B.S., grant numbers U23A20403 and U20A20349 to S.Y.Z., and grant number 82371637 to Y.D.D.) and the Natural Science Foundation of Zhejiang Province (grant LTGY23H040010 to F.Z.). The authors have no conflicts of interest to declare.
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子宫内膜异位症患者卵泡液中let-7表达上调,通过靶向IGF1R导致颗粒细胞功能障碍
研究问题:卵巢子宫内膜异位症(OEM)患者的卵母细胞数量和质量下降,导致卵巢储备功能下降的分子机制是什么?概括解答 在受 OEM 影响的卵巢卵泡微环境中,let-7 微(mi)RNAs 的表达升高会抑制颗粒细胞(GC)中 1 型胰岛素样生长因子受体(IGF1R)的表达,并破坏它们的增殖、类固醇激素分泌水平、三磷酸腺苷(ATP)能量代谢和活性氧(ROS)氧化应激水平。已知情况 OEM 患者的卵巢储备功能减退,表现为卵母细胞数量和质量下降。OEM 周围卵巢组织的纤维化变化为卵泡的生长和发育创造了一个破坏性的微环境。研究设计、规模和持续时间 这是一项横断面研究,旨在阐明 OEM 对卵泡发育影响的分子机制。首先,对卵泡液(FF)样本中的 miRNA 表达谱进行测序,样本来自与 OEM 相关的不孕症患者(3 例)和男性因素(MF)不孕症患者(3 例),后者为对照组。对每组的其他样本(OEM 组 55 个,MF 组 45 个)中差异表达的 miRNA 进行了验证,以确认候选 miRNA。该研究还在大鼠 GCs 体外研究了与 GCs 功能障碍相关的指标。随后,通过子宫内膜异体移植建立了大鼠OEM模型,并进行了生育实验,以评估体内let-7/IGF1R轴对OEM的反应。患者样本于 2018 年 5 月至 2019 年 4 月期间采集,机理研究在随后的三年中进行。参与者/材料、设置、方法 FF 和 GC 样本取自因 OEM 和 MF 相关不孕症而接受 IVF 治疗的不孕症患者。采用第二代高通量测序技术分析了 FF 样本中的 miRNA 表达谱,并通过定量 PCR(qPCR)验证了候选 miRNA。在使用大鼠 GCs 进行的体外实验中,使用 CCK-8 检测法评估了细胞增殖情况,同时使用化学发光法测定了类固醇激素的浓度。ATP 含量用 ATP 检测试剂盒测定,ROS 水平用流式细胞仪量化。在利用 293T 细胞构建 IGF1R 报告基因质粒的基础上,采用了双荧光素酶报告基因检测法来确定 let-7 的靶基因。利用 Western 印迹法评估了 GC 中 IGF1R 及其下游蛋白的表达,以及 let-7 agomir/antagomir 转染和/或 Igf1r 沉默后信号通路的变化。在体内 OEM 大鼠模型中,使用苏木精和伊红染色法观察了卵巢结构和囊肿形态的改变。通过 qPCR 对 GC 中 let-7 和 Igf1r 的表达进行了评估,而 IGF1R 表达的变化则通过免疫组化进行了研究。主要结果与偶然性的作用 本研究中的卵巢OEM患者与MF对照组相比,前区卵泡数、卵母细胞取卵数和正常受精率均明显下降。在 OEM 患者的 FF 和 GC 中,let-7 miRNA 家族的表达明显上调。用let-7激动剂转染大鼠GC会降低GC的功能,包括破坏细胞增殖、线粒体氧化磷酸化和类固醇激素分泌,而用let-7拮抗剂转染大鼠GC则会产生相反的效果。荧光素酶报告基因实验证实,let-7与IGF1R的3′-非翻译区互补结合。刺激大鼠 GC 中 let-7 的表达会导致 IGF1R 的表达显著下降,而抑制 let-7 则会增加 IGF1R 的表达。与 MF 患者相比,OEM 患者 GC 中 IGF1R 的表达也明显减少。Igf1r 的沉默导致 GC 功能障碍,这与 let-7 激动的效果类似,表现为参与细胞增殖(CCND2 和 CCND3)和雌二醇合成的关键蛋白下调,以及孕酮合成(StAR)的增加,同时牵涉到 PI3K-Akt 和 MAPK 信号通路。当 Igf1r 被沉默时,let-7 对 GCs 的拮抗作用无效。相反,IGF1R 配体 IGF-1 的刺激可逆转 let-7 对 GCs 的激动作用。这些发现表明,let-7 是通过靶向 IGF1R 来调节 GC 的增殖、分化和 ATP 合成的。OEM 大鼠模型显示了卵巢形态和结构的改变,同时生育能力也降低了。
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来源期刊
Human reproduction
Human reproduction 医学-妇产科学
CiteScore
10.90
自引率
6.60%
发文量
1369
审稿时长
1 months
期刊介绍: Human Reproduction features full-length, peer-reviewed papers reporting original research, concise clinical case reports, as well as opinions and debates on topical issues. Papers published cover the clinical science and medical aspects of reproductive physiology, pathology and endocrinology; including andrology, gonad function, gametogenesis, fertilization, embryo development, implantation, early pregnancy, genetics, genetic diagnosis, oncology, infectious disease, surgery, contraception, infertility treatment, psychology, ethics and social issues.
期刊最新文献
Endometrioma patients are under-treated with endocrine endometriosis therapy. Endometrial extracellular vesicles regulate processes related to embryo development and implantation in human blastocysts. Intracytoplasmic sperm injection versus conventional in vitro fertilization in infertile couples with normal total sperm count and motility: does sperm morphology matter? Upregulated let-7 expression in the follicular fluid of patients with endometriomas leads to dysfunction of granulosa cells through targeting of IGF1R Reproductive factors and biological aging: the association with all-cause and cause-specific premature mortality
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