Citraconate preserves T cell stemness and antitumor immunity
Wenhui Li, Minmin Ge, Ziyi Luo, Minju Ni, Kexin Tang, Chenfeng Han, Jiajia Wang, Yifu Ma, Xiaowei Liu, Kaili Ma, Jingxing Yang, Wenjing Li, Cangang Zhang, Qitai Zhao, Guangcan Shao, Jaeoh Park, Yi Zh
Journal:Science Immunology
IF:16.4
DOI:10.1126/sciimmunol.adz0348
PMID:42066062
Published:2026-05-01
research field:肿瘤免疫学免疫代谢免疫治疗分子肿瘤学T细胞生物学
Abstract
Metabolic perturbations in the tumor microenvironment profoundly compromise the stemlike properties and effector functions of CD8 T cells. Deciphering the metabolic circuitry that sustains T cell stemness is critical for reinvigorating tumor-infiltrating lymphocytes and augmenting immunotherapeutic efficacy. Here, we identify citraconate, an itaconate isomer, as a metabolite markedly depleted in CD8 T cells subjected to chronic antigen stimulation or hypoxic conditions. Citraconate supplementation preserves stemlike characteristics, attenuates ferroptosis, and potentiates T cell–mediated antitumor immunity. Mechanistically, citraconate maintains intracellular cyclic adenosine monophosphate (cAMP) concentrations by suppressing phosphodiesterase1A/C (PDE1A/C) expression and preserving mitochondrial integrity, thereby activating protein kinase A (PKA) signaling. This activation transcriptionally represses arachidonate-5-lipoxygenase (ALOX5), consequently reducing arachidonic acid peroxidation. Clinically, diminished ALOX5 or PDE1A expression correlates with reduced T cell exhaustion and improved responses to immune checkpoint blockade (ICB) therapy. Our findings reveal the citraconate-mediated PDE1-cAMP-ALOX5 axis as a potential therapeutic target for enhancing cancer immunotherapy.
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