Iron-responsive ZNF185 overexpression drives mitochondrial fission and endoplasmic reticulum stress via cytoskeletal remodeling in granulosa cells

Zhaoyue Huang; Yang You; Qi Qiu; Nan Dong; Dong Ningning; X.-H. Hu; Meihong Cai; Yaoqiu Wu; Chen‐Chen Cao; Qingxue Zhang

doi:10.1038/s41420-025-02719-y

Iron-responsive ZNF185 overexpression drives mitochondrial fission and endoplasmic reticulum stress via cytoskeletal remodeling in granulosa cells

Zhaoyue Huang, Yang You, Qi Qiu, Nan Dong, Dong Ningning, X.-H. Hu, Meihong Cai, Yaoqiu Wu, Chen‐Chen Cao, Qingxue Zhang

In: Cell Death Discovery · 2025 · vol. 11(1) , pp. 414 · doi:10.1038/s41420-025-02719-y · PMID:40877235 · PMC12394633 · W4413790442

article OA: gold CC0 ⤵ 1 in-corpus citation

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⚙ AI-generated summary by claude@2026-06, 2026-06-08 ⓘ

Iron overload in granulosa cells upregulates ZNF185, which disrupts the cytoskeleton, drives mitochondrial fission and ER stress, and ultimately causes apoptosis.

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Abstract

Ovarian endometrioma (OMA), an estrogen-dependent gynecological disorder, is characterized by the presence of abundant free iron resulting from recurrent hemorrhage of endometrial cells within the cyst, which adversely affects ovarian function. However, the underlying mechanisms through which iron overload impairs ovarian function remain unclear. In this study, we stimulated KGN cells with ferric ammonium citrate (FAC) in vitro and observed dose-dependent significant alterations, including decreased mitochondrial membrane potential, increased reactive oxygen species (ROS), decreased cell viability, and elevated apoptosis rates. RNA sequencing analysis of iron-overloaded KGN cells demonstrated significant upregulation of ZNF185 expression across multiple concentration gradients and treatment durations. ZNF185 overexpression was found to disrupt F-actin dynamics, triggering a cascade of cellular events including Drp1-mediated mitochondrial hyperfission, endoplasmic reticulum stress, and cytochrome C release, ultimately leading to granulosa cell apoptosis. Importantly, knockdown of ZNF185 was shown to preserve cytoskeletal integrity and attenuate apoptotic responses under conditions of iron overload. Our findings demonstrated that ZNF185 served as a novel iron-responsive regulator involved in iron overload-induced granulosa cell apoptosis. These results might provide potential therapeutic strategies for ovarian fertility preservation in OMA patients.

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Cited by (1)

From gut-reproductive microbiota to ferroptosis: a comprehensive insight into the molecular-pathogenicity of endometriosis 2026

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europepmc: last seen: 2026-06-13T06:22:48.782012+00:00
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License: CC0 · commercial use OK

[1] Contents of Endometriotic Cysts, Especially the High Concentration of Free Iron, Are a Possible Cause of Carcinogenesis in the Cysts through the Iron-Induced Persistent Oxidative Stress via openalex

[2] Endometriosis: pathogenetic implications of the anatomic distribution. via openalex

[3] Histological assessment of impact of ovarian endometrioma and laparoscopic cystectomy on ovarian reserve via openalex

[4] Implantation failures in women with infertility associated endometriosis via openalex

[5] Iron availability is increased in individual human ovarian follicles in close proximity to an endometrioma compared with distal ones via openalex

[6] Iron overload modulates follicular microenvironment via ROS/HIF-1α/FSHR signaling via openalex

[7] Novel therapeutic targets to improve IVF outcomes in endometriosis patients: a review and future prospects via openalex

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[9] Ovarian endometriosis: a marker for more extensive pelvic and intestinal disease via openalex

[10] Oxidative stress status in normal ovarian cortex surrounding ovarian endometriosis via openalex

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[12] W2328568398 via openalex

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[28] W2149811051 via openalex

[29] W2168463967 via openalex

[30] W2314218964 via openalex