Literature DB >> 31155231

Lactate Is a Natural Suppressor of RLR Signaling by Targeting MAVS.

Weina Zhang1, Guihua Wang2, Zhi-Gang Xu3, Haiqing Tu4, Fuqing Hu5, Jiang Dai4, Yan Chang4, Yaqi Chen5, Yanjun Lu5, Haolong Zeng5, Zhen Cai6, Fei Han6, Chuan Xu6, Guoxiang Jin6, Li Sun6, Bo-Syong Pan6, Shiue-Wei Lai6, Che-Chia Hsu6, Jia Xu3, Zhong-Zhu Chen3, Hong-Yu Li7, Pankaj Seth8, Junbo Hu5, Xuemin Zhang4, Huiyan Li4, Hui-Kuan Lin9.   

Abstract

RLR-mediated type I IFN production plays a pivotal role in elevating host immunity for viral clearance and cancer immune surveillance. Here, we report that glycolysis, which is inactivated during RLR activation, serves as a barrier to impede type I IFN production upon RLR activation. RLR-triggered MAVS-RIG-I recognition hijacks hexokinase binding to MAVS, leading to the impairment of hexokinase mitochondria localization and activation. Lactate serves as a key metabolite responsible for glycolysis-mediated RLR signaling inhibition by directly binding to MAVS transmembrane (TM) domain and preventing MAVS aggregation. Notably, lactate restoration reverses increased IFN production caused by lactate deficiency. Using pharmacological and genetic approaches, we show that lactate reduction by lactate dehydrogenase A (LDHA) inactivation heightens type I IFN production to protect mice from viral infection. Our study establishes a critical role of glycolysis-derived lactate in limiting RLR signaling and identifies MAVS as a direct sensor of lactate, which functions to connect energy metabolism and innate immunity.
Copyright © 2019 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  MAVS; RLR signaling; glucose metabolism; interferon; lactate

Mesh:

Substances:

Year:  2019        PMID: 31155231      PMCID: PMC6625351          DOI: 10.1016/j.cell.2019.05.003

Source DB:  PubMed          Journal:  Cell        ISSN: 0092-8674            Impact factor:   41.582


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