SFRP4 promotes autophagy and blunts FSH responsiveness through inhibition of AKT signaling in ovarian granulosa cells.

IF 8.2 2区生物学 Q1 CELL BIOLOGY

Cell Communication and Signaling Pub Date : 2024-08-14 DOI:10.1186/s12964-024-01736-1

Michael Bérubé, Atefeh Abedini, Evelyne Lapointe, Samuel Gusscott, Julie Brind'Amour, Gustavo Zamberlam, Derek Boerboom

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引用次数: 0

Abstract

Background: Secreted frizzled-related proteins (SFRPs) comprise a family of WNT signaling antagonists whose roles in the ovary are poorly understood. Sfrp4-null mice were previously found to be hyperfertile due to an enhanced granulosa cell response to gonadotropins, leading to decreased antral follicle atresia and enhanced ovulation rates. The present study aimed to elucidate the mechanisms whereby SFRP4 antagonizes FSH action.

Methods: Primary cultures of granulosa cells from wild-type mice were treated with FSH and/or SFRP4, and effects of treatment on gene expression were evaluated by RT-qPCR and RNAseq. Bioinformatic analyses were conducted to analyse the effects of SFRP4 on the transcriptome, and compare them to those of FSH or a constitutively active mutant of FOXO1. Additional granulosa cell cultures from wild-type or Sfrp4-null mice, some pretreated with pharmacologic inhibitors of specific signaling effectors, were used to examine the effects of FSH and/or SFRP4 on signaling pathways, autophagy and apoptosis by western blotting and TUNEL.

Results: Treatment of cultured granulosa cells with recombinant SFRP4 was found to decrease basal and FSH-stimulated mRNA levels of FSH target genes. Unexpectedly, this effect was found to occur neither via a canonical (CTNNB1-dependent) nor non-canonical WNT signaling mechanism, but was found to be GSK3β-dependent. Rather, SFRP4 was found to antognize AKT activity via a mechanism involving AMPK. This lead to the hypophosphorylation of FOXO1 and a decrease in the expression of a portion of the FSH and FOXO1 transcriptomes. Conversely, FSH-stimulated AMPK, AKT and FOXO1 phosphorylation levels were found to be increased in the granulosa cells of Sfrp4-null mice relative to wild-type controls. SFRP4 treatement of granulosa cells also induced autophagy by signaling via AKT-mTORC1-ULK1, as well as apoptosis.

Conclusions: This study identifies a novel GSK3β-AMPK-AKT signaling mechanism through which SFPR4 antagonizes FSH action, and further identifies SFRP4 as a novel regulator of granulosa cell autophagy. These findings provide a mechanistic basis for the phenotypic changes previously observed in Sfrp4-null mice, and broaden our understanding of the physiological roles of WNT signaling processes in the ovary.

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SFRP4 通过抑制卵巢颗粒细胞中的 AKT 信号转导，促进自噬并减弱 FSH 反应性。

背景：分泌型frizzled相关蛋白（SFRPs）是WNT信号拮抗剂家族的一员，其在卵巢中的作用尚不清楚。以前曾发现Sfrp4缺失小鼠由于颗粒细胞对促性腺激素的反应增强而不育，导致前卵泡闭锁减少和排卵率提高。本研究旨在阐明 SFRP4 拮抗 FSH 作用的机制：方法：用 FSH 和/或 SFRP4 处理野生型小鼠的颗粒细胞原代培养物，并通过 RT-qPCR 和 RNAseq 评估处理对基因表达的影响。生物信息学分析分析了 SFRP4 对转录组的影响，并将其与 FSH 或 FOXO1 的组成型活性突变体的影响进行了比较。此外，还用野生型小鼠或Sfrp4缺失小鼠的颗粒细胞培养物（其中一些用特定信号转导效应因子的药理抑制剂预处理），通过Western印迹和TUNEL检测FSH和/或SFRP4对信号转导通路、自噬和细胞凋亡的影响：结果：用重组 SFRP4 处理培养的颗粒细胞可降低 FSH 靶基因的基础和 FSH 刺激的 mRNA 水平。出乎意料的是，这种效应既不是通过典型的（依赖 CTNNB1）WNT 信号转导机制，也不是通过非典型的 WNT 信号转导机制，而是依赖 GSK3β。相反，研究发现 SFRP4 通过一种涉及 AMPK 的机制来抑制 AKT 的活性。这导致了 FOXO1 的低磷酸化以及 FSH 和 FOXO1 转录组部分表达的减少。相反，与野生型对照组相比，Sfrp4-null 小鼠颗粒细胞中 FSH 刺激的 AMPK、AKT 和 FOXO1 磷酸化水平升高。SFRP4治疗颗粒细胞还通过AKT-mTORC1-ULK1信号转导诱导自噬以及细胞凋亡：本研究发现了一种新的GSK3β-AMPK-AKT信号转导机制，SFPR4可通过该机制拮抗FSH的作用，并进一步发现SFRP4是颗粒细胞自噬的新调节因子。这些发现为之前在Sfrp4缺失小鼠中观察到的表型变化提供了机理基础，并拓宽了我们对卵巢中WNT信号转导过程的生理作用的认识。

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.