MYO1F regulates T-cell activation and glycolytic metabolism by promoting the acetylation of GAPDH.

Cell Mol Immunol

The Key Laboratory for Human Disease Gene Study of Sichuan Province and the Department of Laboratory Medicine, Sichuan Provincial People's Hospital, University of Electronic Science and Technology of China, Chengdu, China.

Published: December 2024

AI Article Synopsis

  • Proper T-cell metabolism is essential for an effective immune response, but disruptions can lead to diseases like cancer and autoimmune disorders.
  • The study identifies MYO1F as crucial for T-cell activation and shows that knocking out Myo1f in mice increases tumor burden and affects autoimmune disease severity due to impaired T-cell function.
  • The research also demonstrates how MYO1F regulation influences glycolysis and T-cell growth, particularly in the context of a fusion protein related to a type of lymphoma, indicating potential therapeutic targets for treatment.

Article Abstract

Proper cellular metabolism in T cells is critical for a productive immune response. However, when dysregulated by intrinsic or extrinsic metabolic factors, T cells may contribute to a wide spectrum of diseases, such as cancers and autoimmune diseases. However, the metabolic regulation of T cells remains incompletely understood. Here, we show that MYO1F is required for human and mouse T-cell activation after TCR stimulation and that T-cell-specific Myo1f knockout mice exhibit an increased tumor burden and attenuated EAE severity due to impaired T-cell activation in vivo. Mechanistically, after TCR stimulation, MYO1F is phosphorylated by LCK at tyrosines 607 and 634, which is critical for glyceraldehyde-3-phosphate dehydrogenase (GAPDH) acetylation at Lys84, 86 and 227 mediated by α-TAT1, which is an acetyltransferase, and these processes are important for its activation, cellular glycolysis and thus the effector function of T cells. Importantly, we show that a fusion protein of VAV1-MYO1F, a recurrent peripheral T-cell lymphoma (PTCL)-associated oncogenic protein, promotes hyperacetylation of GAPDH and its activation, which leads to aberrant glycolysis and T-cell proliferation, and that inhibition of the activity of GAPDH significantly limits T-cell activation and proliferation and extends the survival of hVAV1-MYO1F knock-in mice. Moreover, hyperacetylation of GAPDH was confirmed in human PTCL patient samples containing the VAV1-MYO1F gene fusion. Overall, this study revealed not only the mechanisms by which MYO1F regulates T-cell metabolism and VAV1-MYO1F fusion-induced PTCL but also promising therapeutic targets for the treatment of PTCL.

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Source
http://dx.doi.org/10.1038/s41423-024-01247-6DOI Listing

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