乳酸盐通过 MGAT1 对线粒体中 N-糖基化的影响来支持 Treg 功能和免疫平衡。

Jinren Zhou,Jian Gu,Qufei Qian,Yigang Zhang,Tianning Huang,Xiangyu Li,Zhuoqun Liu,Qing Shao,Yuan Liang,Lei Qiao,Xiaozhang Xu,Qiuyang Chen,Zibo Xu,Yu Li,Ji Gao,Yufeng Pan,Yiming Wang,Roddy O'Connor,Keli L Hippen,Ling Lu,Bruce R Blazar
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摘要

目前的研究报告称,乳酸盐会影响 Treg 的新陈代谢,但其确切机制仅得到部分阐明。在这项研究中,我们提出的证据表明,乳酸盐水平升高会增强人类 Tregs 的细胞增殖、抑制能力和氧化磷酸化(OXPHOS)。单羧酸盐转运体 1/2/4(MCT1/2/4)的表达水平调节细胞内乳酸浓度,从而影响在幼稚Tregs和记忆Tregs中观察到的不同反应。通过对人类 Tregs 的线粒体分离、测序和分析,我们确定α-1,3-甘露糖基-糖蛋白 2-β-N-乙酰葡糖胺基转移酶(MGAT1)是启动下游 N-糖基化事件的关键驱动力,这些事件涉及原花青素(GRN)和缺氧上调 1(HYOU1),从而增强了 Treg 的 OXPHOS。MGAT1在线粒体中上调的机制取决于细胞内乳酸的升高,它促进了XBP1s的活化,而XBP1s又支持MGAT1的转录以及乳酸与线粒体外膜70(TOM70)导入受体易位酶的相互作用,从而促进了MGAT1转位到线粒体中。在异种移植物抗宿主病(GvHD)模型中,用乳酸盐预处理Tregs可降低死亡率。这些发现共同强调了乳酸盐通过上调MGAT1的转录并促进其转位到线粒体而在人类Treg代谢中发挥的积极调节作用。
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Lactate supports Treg function and immune balance via MGAT1 effects on N-glycosylation in the mitochondria.
Current research reports that lactate affects Treg metabolism, although the precise mechanism has only been partially elucidated. In this study, we presented evidence demonstrating that elevated lactate levels enhanced cell proliferation, suppressive capabilities, and oxidative phosphorylation (OXPHOS) in human Tregs. The expression levels of Monocarboxylate Transporters 1/2/4 (MCT1/2/4) regulate intracellular lactate concentration, thereby influencing the varying responses observed in naive Tregs and memory Tregs. Through mitochondrial isolation, sequencing, and analysis of human Tregs, we determined that Alpha-1,3-Mannosyl-Glycoprotein 2-Beta-N-Acetylglucosaminyltransferase (MGAT1) served as the pivotal driver initiating downstream N-glycosylation events involving progranulin (GRN) and hypoxia-upregulated 1 (HYOU1), consequently enhancing Treg OXPHOS. The mechanism by which MGAT1 was upregulated in mitochondria depended on elevated intracellular lactate that promoted the activation of XBP1s, which, in turn, supported MGAT1 transcription as well as the interaction of lactate with the translocase of the mitochondrial outer membrane 70 (TOM70) import receptor, facilitating MGAT1 translocation into mitochondria. Pre-treatment of Tregs with lactate reduced mortality in a xenogeneic graft-versus-host disease (GvHD) model. Together, these findings underscored the active regulatory role of lactate in human Treg metabolism through the upregulation of MGAT1 transcription and its facilitated translocation into the mitochondria.
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