A ketogenic diet alleviates the apoptosis of granulosa cells by inhibiting the activation of cGAS-STING signaling pathway in PCOS mice.

IF 8.2 2区生物学 Q1 CELL BIOLOGY

Cell Communication and Signaling Pub Date : 2024-11-27 DOI:10.1186/s12964-024-01939-6

Bining Zhao, Haowen Wu, Qiyang Yao, Wenpei Bai, Jihong Kang

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引用次数: 0

Abstract

Background: Polycystic ovary syndrome (PCOS) is the most common cause of anovulatory infertility. The ketogenic diet (KD), a diet high in fat and low in carbohydrates, has been applied clinically for the treatment of obese women with PCOS. We have previously demonstrated that KD improved the reproductive phenotype in an androgen-induced PCOS mouse model, yet the underlying molecular mechanisms remain largely unclear. The aim of the present study was to investigate the effect of KD on the reproductive phenotype of a letrozole-induced PCOS mouse model.

Methods: Female C57BL/6N mice were divided into three groups, designated control, letrozole, and letrozole + KD groups. Mice of control and letrozole groups were fed the control diet, whereas letrozole + KD mice were fed a KD with 89.9% (kcal) fat for 3 weeks after the PCOS mouse model was generated. β-hydroxybutyrate (BHB), the most abundant ketone body in the body, was used to treat KGN cells with testosterone (T) to simulate the KD effect on PCOS mouse ovaries in vitro.

Results: Our data showed that KD treatment significantly increased blood ketone levels and reduced body weight. Ovarian functions were improved in some letrozole + KD mice. Results from in vitro experiments indicated mitochondrial damage owing to high T levels, which resulted in the leakage of cytochrome C and mitochondrial DNA into the cytosol and thus induced the activation of the intracellular caspase cascade and the cGAS-STING-NF-κB pathway, leading to granulosa cell inflammation and apoptosis. BHB exhibited certain protective effects on mitochondria of T-treated KGN cells via inhibiting the cGAS-STING pathway. Moreover, the cGAS-STING pathway was activated in ovaries of letrozole mice and was down-regulated in letrozole + KD mice.

Conclusion: These findings, for the first time, revealed that hyperandrogenism induced ovarian dysfunction possibly through activation of the cGAS-STING pathway, which could be partially inhibited by ketone bodies produced from KD administration.

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生酮饮食通过抑制 cGAS-STING 信号通路的激活，缓解多囊卵巢综合症小鼠颗粒细胞的凋亡。

背景：多囊卵巢综合征（PCOS多囊卵巢综合征（PCOS）是导致无排卵性不孕的最常见原因。生酮饮食（KD）是一种高脂肪、低碳水化合物的饮食，已在临床上用于治疗患有多囊卵巢综合征的肥胖妇女。我们以前曾证实，生酮饮食可改善雄激素诱导的多囊卵巢综合症小鼠模型的生殖表型，但其潜在的分子机制在很大程度上仍不清楚。本研究旨在探讨 KD 对来曲唑诱导的 PCOS 小鼠模型生殖表型的影响：方法：将雌性 C57BL/6N 小鼠分为三组，分别为对照组、来曲唑组和来曲唑+KD 组。对照组和来曲唑组小鼠饲喂对照饮食，而来曲唑+KD组小鼠在PCOS小鼠模型产生后饲喂含89.9%（千卡）脂肪的KD饮食3周。β-羟丁酸（BHB）是人体内最丰富的酮体，我们用睾酮（T）处理KGN细胞，在体外模拟KD对多囊卵巢综合征小鼠卵巢的影响：结果：我们的数据显示，KD治疗能明显提高血液酮体水平并减轻体重。一些来曲唑+KD小鼠的卵巢功能得到改善。体外实验结果表明，高T水平导致线粒体损伤，细胞色素C和线粒体DNA泄漏到细胞膜，从而诱导激活细胞内caspase级联反应和cGAS-STING-NF-κB通路，导致颗粒细胞炎症和凋亡。BHB通过抑制cGAS-STING通路对T处理的KGN细胞线粒体有一定的保护作用。此外，来曲唑小鼠卵巢中的cGAS-STING通路被激活，来曲唑+KD小鼠的cGAS-STING通路被下调：这些发现首次揭示了高雄激素可能通过激活 cGAS-STING 通路诱导卵巢功能障碍，而 KD 给药产生的酮体可部分抑制该通路。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Cell Communication and Signaling CELL BIOLOGY-

CiteScore

11.00

自引率

0.00%

发文量

180

期刊介绍： Cell Communication and Signaling (CCS) is a peer-reviewed, open-access scientific journal that focuses on cellular signaling pathways in both normal and pathological conditions. It publishes original research, reviews, and commentaries, welcoming studies that utilize molecular, morphological, biochemical, structural, and cell biology approaches. CCS also encourages interdisciplinary work and innovative models, including in silico, in vitro, and in vivo approaches, to facilitate investigations of cell signaling pathways, networks, and behavior. Starting from January 2019, CCS is proud to announce its affiliation with the International Cell Death Society. The journal now encourages submissions covering all aspects of cell death, including apoptotic and non-apoptotic mechanisms, cell death in model systems, autophagy, clearance of dying cells, and the immunological and pathological consequences of dying cells in the tissue microenvironment.