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- Title
Inhibition of BCAT1-mediated cytosolic leucine metabolism regulates Th17 responses via the mTORC1-HIF1α pathway.
- Authors
Kang, Yeon Jun; Song, Woorim; Lee, Su Jeong; Choi, Seung Ah; Chae, Sihyun; Yoon, Bo Ruem; Kim, Hee Young; Lee, Jung Ho; Kim, Chulwoo; Cho, Joo-Youn; Kim, Hyun Je; Lee, Won-Woo
- Abstract
Branched-chain amino acids (BCAAs), particularly leucine, are indispensable AAs for immune regulation through metabolic rewiring. However, the molecular mechanism underlying this phenomenon remains unclear. Our investigation revealed that T-cell receptor (TCR)-activated human CD4+ T cells increase the expression of BCAT1, a cytosolic enzyme responsible for BCAA catabolism, and SLC7A5, a major BCAA transporter. This upregulation facilitates increased leucine influx and catabolism, which are particularly crucial for Th17 responses. Activated CD4+ T cells induce an alternative pathway of cytosolic leucine catabolism, generating a pivotal metabolite, β-hydroxy β-methylbutyric acid (HMB), by acting on BCAT1 and 4-hydroxyphenylpyruvate dioxygenase (HPD)/HPD-like protein (HPDL). Inhibition of BCAT1-mediated cytosolic leucine metabolism, either with BCAT1 inhibitor 2 (Bi2) or through BCAT1, HPD, or HPDL silencing using shRNA, attenuates IL-17 production, whereas HMB supplementation abrogates this effect. Mechanistically, HMB contributes to the regulation of the mTORC1-HIF1α pathway, a major signaling pathway for IL-17 production, by increasing the mRNA expression of HIF1α. This finding was corroborated by the observation that treatment with L-β-homoleucine (LβhL), a leucine analog and competitive inhibitor of BCAT1, decreased IL-17 production by TCR-activated CD4+ T cells. In an in vivo experimental autoimmune encephalomyelitis (EAE) model, blockade of BCAT1-mediated leucine catabolism, either through a BCAT1 inhibitor or LβhL treatment, mitigated EAE severity by decreasing HIF1α expression and IL-17 production in spinal cord mononuclear cells. Our findings elucidate the role of BCAT1-mediated cytoplasmic leucine catabolism in modulating IL-17 production via HMB-mediated regulation of mTORC1-HIF1α, providing insights into its relevance to inflammatory conditions. Immune regulation: leucine's role in Th17 response modulation T-cell, a type of infection-fighting white blood cell, alter their metabolic process, relying heavily on amino acids, the building blocks of proteins. This study investigates how T cells use the amino acid leucine to power their response. Researchers conducted experiments with human T-cell and a mouse model of autoimmune disease, a condition where the body attacks its own cells. They studied how leucine's metabolic process affects T-cell function. The study discovered that a specific process involving leucine's metabolic pathway in T cells is vital for their ability to produce IL-17. Blocking a crucial enzyme reduced IL-17 production and eased symptoms in a mouse model of autoimmune disease. These findings underline the importance of leucine's metabolic process in T-cell function and suggest a potential target for treating autoimmune diseases more effectively, offering hope for new treatments. This summary was initially drafted using artificial intelligence, then revised and fact-checked by the author.
- Publication
Experimental & Molecular Medicine EMM, 2024, Vol 56, Issue 8, p1776
- ISSN
1226-3613
- Publication type
Article
- DOI
10.1038/s12276-024-01286-z