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Methylmercury Chloride Exposure Affects Oocyte Maturation Through AMPK/mTOR-Mediated Mitochondrial Autophagy

Sheng-Kui Hou, Caiyu Wang, Xin Ma, Jing Zhao, Jun Wang, Yi Fang, Hongyu Liu, He Ding, Jing Guo, Wen-Fa Lu

2025International Journal of Molecular Sciences8 citationsDOIOpen Access PDF

Abstract

Mercury, a prevalent heavy metal, negatively impacts oocyte maturation. However, the exact mechanism by which methylmercury chloride (MMC) affects this process remains elusive. The present study found that MMC administration triggered meiotic failure in oocytes by disrupting cumulus cell expansion, leading to compromised spindle apparatus and altered chromosomal architecture, which are crucial for oocyte development. This disruption is characterized by abnormal microtubule organization and defective chromosome alignment. Additionally, MMC exposure caused oxidative stress-induced apoptosis due to mitochondrial dysfunction, as indicated by decreased mitochondrial membrane potential, mitochondrial content, mitochondrial DNA copy number, and adenosine triphosphate levels. Proteomic analysis identified 97 differentially expressed proteins, including P62, an autophagy marker. Our results confirmed that MMC induced autophagy, particularly through the hyperactivation of the mitochondrial autophagy to remove damaged and normal mitochondria. The mitochondrial reactive oxygen species (ROS) scavenger Mito-TEMPO alleviated oxidative stress and mitochondrial autophagy levels, suggesting that mitochondrial ROS initiates this autophagic response. Notably, MMC activates mitochondrial autophagy via the monophosphate-activated protein kinase (AMPK)/mammalian target of rapamycin (mTOR) signal pathway due to mitochondrial dysfunction. In vivo studies in mice revealed that MMC exposure decreased reproductive performance, attributed to excessive mitochondrial autophagy leading to reduced oocyte quality. Overall, these findings demonstrate that MMC exposure impairs oocyte maturation via the hyperactivation of mitochondrial autophagy induced by mitochondrial dysfunction.

Topics & Concepts

AutophagyCell biologyMitochondrionOocyteBiologyPI3K/AKT/mTOR pathwayAMPKMitochondrial ROSOxidative stressReactive oxygen speciesMitochondrial DNAMitochondrial fissionmitochondrial fusionApoptosisProtein kinase ASignal transductionBiochemistryKinaseGeneEmbryoUrological Disorders and TreatmentsMercury impact and mitigation studiesSelenium in Biological Systems