Published in
Nature Research, Nature Immunology, 3(24), p. 452-462, 2023
DOI: 10.1038/s41590-023-01430-3
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CD40 signal rewires fatty acid and glutamine metabolism for stimulating macrophage anti-tumorigenic functions
,
Yi-Ting Chen,
Xiaoyun Li,
Pei-Chun Hsueh,
Sheue-Fen Tzeng ,
Hsi Chen,
Pei-Zhu Shi,
Xin Xie ,
Sweta Parik ,
Mélanie Planque ,
Sarah-Maria Fendt ,
Ping-Chih Ho
Full text: Unavailable
Abstract
AbstractExposure of lipopolysaccharide triggers macrophage pro-inflammatory polarization accompanied by metabolic reprogramming, characterized by elevated aerobic glycolysis and a broken tricarboxylic acid cycle. However, in contrast to lipopolysaccharide, CD40 signal is able to drive pro-inflammatory and anti-tumorigenic polarization by some yet undefined metabolic programming. Here we show that CD40 activation triggers fatty acid oxidation (FAO) and glutamine metabolism to promote ATP citrate lyase-dependent epigenetic reprogramming of pro-inflammatory genes and anti-tumorigenic phenotypes in macrophages. Mechanistically, glutamine usage reinforces FAO-induced pro-inflammatory and anti-tumorigenic activation by fine-tuning the NAD+/NADH ratio via glutamine-to-lactate conversion. Genetic ablation of important metabolic enzymes involved in CD40-mediated metabolic reprogramming abolishes agonistic anti-CD40-induced antitumor responses and reeducation of tumor-associated macrophages. Together these data show that metabolic reprogramming, which includes FAO and glutamine metabolism, controls the activation of pro-inflammatory and anti-tumorigenic polarization, and highlight a therapeutic potential of metabolic preconditioning of tumor-associated macrophages before agonistic anti-CD40 treatments.