NOX4缺陷通过使PERK/ATF4通路失活来抑制内质网应激,从而改善经脱氢表雄酮处理的卵巢颗粒细胞受损的活力,抑制其凋亡并抑制自噬。
NOX4 deficiency improves the impaired viability, inhibited the apoptosis and suppressed autophagy of DHEA-treated ovarian granulosa cells through inhibiting endoplasmic reticulum stress via inactivating PERK/ATF4 pathway.
作者信息
Yu Na, Wu Lingyuan, Xing Xin
机构信息
Reproductive Medicine Center, Key Laboratory of Maternal & Fetal Medicine of National Health Commission of China, Shandong Provincial Maternal and Child Health Care Hospital Affiliated to Qingdao University, Jinan, Shandong Province 250014, China.
Department of Obstetrics and Gynecology, The First Affiliated Hospital of Shandong First Medical University, Jinan, Shandong Province 250014, China.
出版信息
Tissue Cell. 2025 Feb;92:102640. doi: 10.1016/j.tice.2024.102640. Epub 2024 Nov 28.
BACKGROUND
PCOS is the most prevalent endocrine and metabolic problem in women of reproductive age. This current study was formulated to thoroughly expound the ovary-protecting effects of NOX4 deficiency in PCOS and probe into the intrinsic mechanisms underlying the protective effects of NOX4 deficiency against DHEA injury in ovarian GCs.
METHODS
KGN cells were subjected to 20 nM DHEA for 48 h to establish PCOS cellular model. For loss-of-function experiments, KGN cells were transfected with si-NOX4. In addition, to investigate the biological roles of ERS and PERK/ATF4 pathway in the ovary-protecting effects of NOX4 deficiency in DHEA-treated ovarian GCs, KGN cells were pretreated with ERS agonist TM or PERK agonist CCT020312.
RESULTS
NOX4 was highly expressed in DHEA-treated ovarian GCs. NOX4 deficiency improved the impaired viability, inhibited the apoptosis and suppressed autophagy of DHEA-treated ovarian GCs. Besides, NOX4 deficiency inactivated PERK/ATF4 pathway in DHEA-treated ovarian GCs. NOX4 deficiency repressed DHEA-induced ERS of ovarian GCs through inactivating PERK/ATF4 pathway. Pretreatment with ERS agonist TM or pretreatment with PERK agonist CCT020312 can both reduced the viability, promoted the apoptosis and strengthened autophagy of ovarian GCs, partially abolishing the ovary-protecting effects of NOX4 deficiency in DHEA-treated ovarian GCs. In general, NOX4 deficiency could improve the impaired viability, inhibited the apoptosis and suppressed autophagy of DHEA-treated ovarian GCs through repressing ERS depending on inactivation of PERK/ATF4 pathway.
CONCLUSION
To conclude, downregulation of NOX4 could exert ovary-protecting effects in DHEA-induced PCOS cellular model through repressing ERS via inactivating PERK/ATF4 pathway.
背景
多囊卵巢综合征(PCOS)是育龄期女性中最常见的内分泌和代谢问题。本研究旨在全面阐述NOX4缺乏在PCOS中的卵巢保护作用,并探究NOX4缺乏对卵巢颗粒细胞(GCs)中脱氢表雄酮(DHEA)损伤的保护作用的内在机制。
方法
将KGN细胞用20 nM DHEA处理48小时以建立PCOS细胞模型。对于功能丧失实验,将KGN细胞用si-NOX4转染。此外,为了研究内质网应激(ERS)和PERK/ATF4通路在DHEA处理的卵巢GCs中NOX4缺乏的卵巢保护作用中的生物学作用,将KGN细胞用ERS激动剂TM或PERK激动剂CCT020312预处理。
结果
NOX4在DHEA处理的卵巢GCs中高表达。NOX4缺乏改善了DHEA处理的卵巢GCs受损的活力,抑制了其凋亡并抑制了自噬。此外,NOX4缺乏使DHEA处理的卵巢GCs中的PERK/ATF4通路失活。NOX4缺乏通过使PERK/ATF4通路失活来抑制DHEA诱导的卵巢GCs的ERS。用ERS激动剂TM预处理或用PERK激动剂CCT020312预处理均可降低卵巢GCs的活力,促进其凋亡并增强自噬,部分消除NOX4缺乏对DHEA处理的卵巢GCs的卵巢保护作用。总体而言,NOX4缺乏可通过依赖PERK/ATF4通路失活来抑制ERS,从而改善DHEA处理的卵巢GCs受损的活力,抑制其凋亡并抑制自噬。
结论
总之,NOX4的下调可通过使PERK/ATF4通路失活来抑制ERS,从而在DHEA诱导的PCOS细胞模型中发挥卵巢保护作用。
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