Txnrd1 依赖性代谢转换改变肝脏的脂肪生成、糖原储存和解毒功能。

A Txnrd1-dependent metabolic switch alters hepatic lipogenesis, glycogen storage, and detoxification.

机构信息

Department of Immunology and Infectious Disease, Montana State University, Bozeman, MT 59718, USA.

出版信息

Free Radic Biol Med. 2013 Oct;63:369-80. doi: 10.1016/j.freeradbiomed.2013.05.028. Epub 2013 Jun 3.

DOI:10.1016/j.freeradbiomed.2013.05.028

PMID:23743293

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3827783/

Abstract

Besides helping to maintain a reducing intracellular environment, the thioredoxin (Trx) system impacts bioenergetics and drug metabolism. We show that hepatocyte-specific disruption of Txnrd1, encoding Trx reductase-1 (TrxR1), causes a metabolic switch in which lipogenic genes are repressed and periportal hepatocytes become engorged with glycogen. These livers also overexpress machinery for biosynthesis of glutathione and conversion of glycogen into UDP-glucuronate; they stockpile glutathione-S-transferases and UDP-glucuronyl-transferases; and they overexpress xenobiotic exporters. This realigned metabolic profile suggested that the mutant hepatocytes might be preconditioned to more effectively detoxify certain xenobiotic challenges. Hepatocytes convert the pro-toxin acetaminophen (APAP, paracetamol) into cytotoxic N-acetyl-p-benzoquinone imine (NAPQI). APAP defenses include glucuronidation of APAP or glutathionylation of NAPQI, allowing removal by xenobiotic exporters. We found that NAPQI directly inactivates TrxR1, yet Txnrd1-null livers were resistant to APAP-induced hepatotoxicity. Txnrd1-null livers did not have more effective gene expression responses to APAP challenge; however, their constitutive metabolic state supported more robust GSH biosynthesis, glutathionylation, and glucuronidation systems. Following APAP challenge, this effectively sustained the GSH system and attenuated damage.

摘要

除了帮助维持还原的细胞内环境外，硫氧还蛋白（Trx）系统还影响生物能量和药物代谢。我们表明，编码 Trx 还原酶-1（TrxR1）的肝特异性 Txnrd1 缺失会导致代谢转换，其中脂肪生成基因受到抑制，门周肝细胞充满糖原。这些肝脏还过度表达用于合成谷胱甘肽和将糖原转化为 UDP-葡糖醛酸的机制；它们储存谷胱甘肽-S-转移酶和 UDP-葡糖醛酸转移酶；并过度表达外排泵。这种重新调整的代谢特征表明，突变的肝细胞可能已经预先适应更有效地解毒某些外来物挑战。肝细胞将前毒素对乙酰氨基酚（APAP，扑热息痛）转化为细胞毒性 N-乙酰-p-苯醌亚胺（NAPQI）。APAP 的防御包括 APAP 的葡糖醛酸化或 NAPQI 的谷胱甘肽化，允许通过外排泵去除。我们发现 NAPQI 直接使 TrxR1 失活，但 Txnrd1 缺失的肝脏对 APAP 诱导的肝毒性具有抗性。Txnrd1 缺失的肝脏对 APAP 挑战没有更有效的基因表达反应；然而，它们的组成代谢状态支持更强大的 GSH 生物合成、谷胱甘肽化和葡糖醛酸化系统。在 APAP 挑战后，这有效地维持了 GSH 系统并减轻了损伤。

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Liver-specific loss of Atg5 causes persistent activation of Nrf2 and protects against acetaminophen-induced liver injury.肝特异性敲除 Atg5 导致 Nrf2 的持续激活，并可预防对乙酰氨基酚诱导的肝损伤。

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