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1-Nitropyrene disrupts testicular steroidogenesis via oxidative stress-evoked PERK-eIF2α pathway

Xiu-liang Li, Yulin Liu, Jiayu Liu, Yanyan Zhu, Xinxin Zhu, Weiwei Zhang, Jian Li, Ye Zhao, Lingli Zhao, Cheng Zhang, Hua Wang, De‐Xiang Xu, Lan Gao

2023Ecotoxicology and Environmental Safety11 citationsDOIOpen Access PDF

Abstract

Our previous study showed 1-Nitropyrene (1-NP) exposure disrupted testicular testosterone synthesis in mouse, but the exact mechanism needs further investigation. The present research found 4-phenylbutyric acid (4-PBA), an endoplasmic reticulum (ER) stress inhibitor, recovered 1-NP-induced ER stress and testosterone synthases reduction in TM3 cells. GSK2606414, a protein kinase-like ER kinase (PERK) kinase inhibitor, attenuated 1-NP-induced PERK-eukaryotic translation initiation factor 2α (eIF2α) signaling activation and downregulation of steroidogenic proteins in TM3 cells. Both 4-PBA and GSK2606414 attenuated 1-NP-induced steroidogenesis disruption in TM3 cells. Further studies used N-Acetyl-L-cysteine (NAC) as a classical antioxidant to explore whether oxidative stress-activated ER stress mediated 1-NP-induced testosterone synthases reduction and steroidogenesis disruption in TM3 cells and mouse testes. The results showed NAC pretreatment mitigated oxidative stress, and subsequently attenuated ER stress, particularly PERK-eIF2α signaling activation, and downregulation of testosterone synthases in 1-NP-treated TM3 cells. More importantly, NAC extenuated 1-NP-induced testosterone synthesis in vitro and in vivo. The current work indicated that oxidative stress-caused ER stress, particularly PERK-eIF2α pathway activation, mediates 1-NP-downregulated steroidogenic proteins and steroidogenesis disruption in TM3 cells and mouse testes. Significantly, the current study provides a theoretical basis and demonstrates the experimental evidence for the potential application of antioxidant, such as NAC, in public health prevention, particularly in 1-NP-induced endocrine disorder.

Topics & Concepts

Endoplasmic reticulumOxidative stressUnfolded protein responseDownregulation and upregulationTestosterone (patch)EIF-2 kinaseEndocrinologyCell biologyKinaseProtein kinase AInternal medicineSignal transductionAntioxidantChemistryBiologyBiochemistryMedicineCyclin-dependent kinase 2GeneEndoplasmic Reticulum Stress and DiseaseAldose Reductase and TaurineVitamin C and Antioxidants Research
1-Nitropyrene disrupts testicular steroidogenesis via oxidative stress-evoked PERK-eIF2α pathway | Litcius