TRP14 is the rate-limiting enzyme for intracellular cystine reduction and regulates proteome cysteinylation

细胞内 过氧化物还原蛋白 硫氧还蛋白 谷胱甘肽 生物化学 细胞外 胱氨酸 细胞生物学 生物 半胱氨酸 过氧化物酶
作者
Pablo Martí‐Andrés,Isabela Finamor,Isabel Torres-Cuevas,Salvador Pérez,Sergio Rius‐Pérez,Hildegard Colino-Lage,David Guerrero‐Gómez,Esperanza Morato,Anabel Marina,Patrycja Michalska,Rafael León,Qing Cheng,Eszter Petra Jurányi,Klaudia Borbényi-Galambos,Ivan Millán,Péter Nagy,Antonio Miranda‐Vizuete,Edward E. Schmidt,Antonio Martínez‐Ruiz,Elias Arnér,Juan Sastre
出处
期刊:The EMBO Journal [Springer Nature]
卷期号:43 (13): 2789-2812 被引量:1
标识
DOI:10.1038/s44318-024-00117-1
摘要

Abstract It has remained unknown how cells reduce cystine taken up from the extracellular space, which is a required step for further utilization of cysteine in key processes such as protein or glutathione synthesis. Here, we show that the thioredoxin-related protein of 14 kDa (TRP14, encoded by TXNDC17 ) is the rate-limiting enzyme for intracellular cystine reduction. When TRP14 is genetically knocked out, cysteine synthesis through the transsulfuration pathway becomes the major source of cysteine in human cells, and knockout of both pathways becomes lethal in C. elegans subjected to proteotoxic stress. TRP14 can also reduce cysteinyl moieties on proteins, rescuing their activities as here shown with cysteinylated peroxiredoxin 2. Txndc17 knockout mice were, surprisingly, protected in an acute pancreatitis model, concomitant with activation of Nrf2-driven antioxidant pathways and upregulation of transsulfuration. We conclude that TRP14 is the evolutionarily conserved enzyme principally responsible for intracellular cystine reduction in C. elegans , mice, and humans.

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