母体高脂肪饮食通过il -6介导的Kiss1基因甲基化调节雌性后代大鼠的生殖功能。

IF 2.8 4区医学 Q2 REPRODUCTIVE BIOLOGY

Reproductive toxicology Pub Date : 2025-06-18 DOI:10.1016/j.reprotox.2025.108975

Shanshan Zhao , Yihong Huang , Niankun Chen , Junling Zhou , Shaole Shi , Wei Chen , Lemin Yuan , Zilian Wang , Dongyu Wang

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引用次数: 0

摘要

众所周知，母体高脂肪饮食（HFD）会损害雌性后代的生殖功能，但这种发育程序的潜在表观遗传机制尚不清楚。在这项研究中，雌性大鼠被喂食对照饮食(CD；10%卡路里来自脂肪)或HFD（60%卡路里来自脂肪）。断奶后，雌性后代被随机分配继续使用CD或HFD，分为四组：C/C， C/HF， HF/C和HF/HF。母体HFD显著降低了3月龄雌性后代的原始卵泡数量，增加了卵泡闭锁和颗粒细胞凋亡，并破坏了性激素水平。hfd喂养的雌性后代在卵巢和下丘脑均表现出Kiss1基因表达降低和启动子甲基化增加。此外，IL-6/STAT3通路被激活，DNA去甲基化的关键调控因子ten - 11易位甲基胞嘧啶双加氧酶2 （TET2）的表达下调。断奶后的正常饮食在6个月大时部分减弱了这些影响。此外，体外实验表明，IL-6/STAT3信号通路下调TET2和Kisspeptin的表达。总体而言，我们的研究表明，母体食用HFD通过IL-6/STAT3途径降低雌性后代卵巢和下丘脑中TET2的表达，导致Kiss1启动子超甲基化，随后Kisspeptin水平降低。这些发现强调了一种潜在的表观遗传机制，将母体饮食与雌性后代的长期生殖毒性联系起来。

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Maternal high-fat diet programs reproductive function of female offspring rat through IL-6-mediated regulation of Kiss1 gene methylation

Maternal high-fat diet (HFD) is known to impair the reproductive function of female offspring, but the underlying epigenetic mechanisms of this developmental programming remain unclear. In this study, female rats were fed either a control diet (CD; 10 % kcal from fat) or an HFD (60 % kcal from fat) prior to and during gestation and lactation. After weaning, female offspring were randomly assigned to continue on either a CD or HFD, resulting in four groups: C/C, C/HF, HF/C, and HF/HF. Maternal HFD significantly reduced primordial follicle numbers, increased follicular atresia and granulosa cell apoptosis, and disrupted sex hormone levels in female offspring at 3 months of age. Female offspring from HFD-fed dams exhibited reduced Kiss1 gene expression and increased promoter methylation in both the ovaries and hypothalami. Additionally, the IL-6/STAT3 pathway was activated, and the expression of Ten-eleven translocation methylcytosine dioxygenase 2 (TET2), a key regulator of DNA demethylation, was downregulated. Post-weaning exposure to a normal diet partially attenuated these effects by 6 months of age. Furthermore, in vitro experiments demonstrated that IL-6/STAT3 signaling downregulated the expression of TET2 and Kisspeptin. Overall, our study demonstrates that maternal HFD consumption reduces TET2 expression in the ovaries and hypothalami of female offspring via the IL-6/STAT3 pathway, leading to Kiss1 promoter hypermethylation and a subsequent decrease in Kisspeptin levels. These findings highlight a potential epigenetic mechanism linking maternal diet to long-term reproductive toxicity in female offspring.

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来源期刊

Reproductive toxicology 生物-毒理学

CiteScore

6.50

自引率

3.00%

发文量

131

审稿时长

45 days

期刊介绍： Drawing from a large number of disciplines, Reproductive Toxicology publishes timely, original research on the influence of chemical and physical agents on reproduction. Written by and for obstetricians, pediatricians, embryologists, teratologists, geneticists, toxicologists, andrologists, and others interested in detecting potential reproductive hazards, the journal is a forum for communication among researchers and practitioners. Articles focus on the application of in vitro, animal and clinical research to the practice of clinical medicine. All aspects of reproduction are within the scope of Reproductive Toxicology, including the formation and maturation of male and female gametes, sexual function, the events surrounding the fusion of gametes and the development of the fertilized ovum, nourishment and transport of the conceptus within the genital tract, implantation, embryogenesis, intrauterine growth, placentation and placental function, parturition, lactation and neonatal survival. Adverse reproductive effects in males will be considered as significant as adverse effects occurring in females. To provide a balanced presentation of approaches, equal emphasis will be given to clinical and animal or in vitro work. Typical end points that will be studied by contributors include infertility, sexual dysfunction, spontaneous abortion, malformations, abnormal histogenesis, stillbirth, intrauterine growth retardation, prematurity, behavioral abnormalities, and perinatal mortality.