雌二醇衍生物、氢过硫化物和醚类脂质的性别特异性表达调节肾小管铁下垂敏感性

Andreas Linkermann, Alexia Belavgeni, Wulf Tonnus, Francesca Maremonti, Sider Penkov, Melodie Mallais, Christine Gaillet, Anne Brucker, Danny Schilling, Lisa Schlicker, Nina Himmerkus, Shubhangi Gavali, Marlena Schlecht, Karolin Flade, Jorunn Becker, Mirela Tmava, Anne Haag, Christian Hugo, Almut Schulze, Bernd Plietker, Jan Becker, Joel Weinberg, Svenja Lorenz, Bettina Proneth, Marcus Conrad, Raphaël Rodriguez, Stefan Bornstein, Tobias Dick, Derel Pratt, Maria Fedorova
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摘要

急性肾小管坏死(ATN)介导急性肾损伤(AKI)和肾单位损失,是慢性肾脏疾病(CKD)进展和终末期肾脏疾病(ESRD)的主要危险因素1-3。几十年来,人们已经知道女性组织对AKI的敏感性较低4,5,但潜在的机制仍然难以捉摸。作为一个特定的特征,ATN的特征是在雄性小鼠中,由铁下垂介导的细胞沿小管室动态死亡繁殖6,7。在此,我们证明了在女性肾小管中,铁致细胞死亡繁殖是被废除的。雌二醇及其衍生物作为自由基捕获抗氧化剂(rta)可降低女性对铁下垂的敏感性。女性性别特异性小管表达的铁下沉抑制蛋白1 (FSP1,也称为AIFM2)具有从其氧化产物中再生雌二醇衍生物的功能,从而增强RTA能力。此外,从最敏感的管腔室直接检测到的抗铁性过硫化物水平,雌性的水平要高得多。相比之下,雄性近端小管表达烷基甘油磷酸合成酶(AGPS)和脂肪酰基辅酶a还原酶1 (FAR1),这是产生对铁死亡敏感的醚类脂质的关键酶。总之,我们发现了三个独立的机制,共同解释了男性比女性管状组织更高的铁下垂敏感性,并可能作为治疗靶点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Sex-specific Expression of Estradiol Derivatives, Hydropersulfides and Ether Lipids Regulates Ferroptosis Sensitivity of Kidney Tubules
Abstract Acute kidney tubular necrosis (ATN) mediates acute kidney injury (AKI) and nephron loss, the major risk factor for chronic kidney disease (CKD) progression and end-stage renal disease (ESRD) 1-3 . For decades, it has been known that female tissue is less sensitive to AKI 4,5 , but the underlying mechanisms have remained elusive. As a specific feature, ATN is characterized by dynamic cell death propagation along the tubular compartment, mediated by ferroptosis in male mice 6,7 . Herein we demonstrate that ferroptotic cell death propagation is abrogated in female kidney tubules. Ferroptosis sensitivity in females was decreased by estradiol and its derivatives, which function as radical-trapping antioxidants (RTAs). Female sex-specific tubular expression of ferroptosis suppressor protein 1 (FSP1, also AIFM2) functions to regenerate the estradiol derivatives from their oxidation products, thereby potentiating RTA capacity. In addition, females exhibited much higher levels of anti-ferroptotic hydropersulfides detected directly from the most sensitive tubular compartment. In contrast, male proximal tubules express alkylglycerone phosphate synthase (AGPS) and fatty acyl-CoA reductase 1 (FAR1), key enzymes required for the generation of ether lipids which sensitize to ferroptosis. In summary, we uncover three independent mechanisms that collectively explain higher ferroptosis sensitivity of male over female tubular tissue and may function as therapeutic targets.
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