1. Neutrophil trafficking to the site of infection requires Cpt1a-dependent fatty acid β-oxidation.
- Author
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Pham L, Komalavilas P, Eddie AM, Thayer TE, Greenwood DL, Liu KH, Weinberg J, Patterson A, Fessel JP, Boyd KL, Schafer JC, Kuck JL, Shaver AC, Flaherty DK, Matlock BK, Wijers CDM, Serezani CH, Jones DP, Brittain EL, Rathmell JC, and Noto MJ
- Subjects
- Animals, Humans, Infant, Mice, Fatty Acids metabolism, Mitochondria metabolism, Carnitine O-Palmitoyltransferase genetics, Carnitine O-Palmitoyltransferase metabolism, Lipid Metabolism, Neutrophils metabolism
- Abstract
Cellular metabolism influences immune cell function, with mitochondrial fatty acid β-oxidation and oxidative phosphorylation required for multiple immune cell phenotypes. Carnitine palmitoyltransferase 1a (Cpt1a) is considered the rate-limiting enzyme for mitochondrial metabolism of long-chain fatty acids, and Cpt1a deficiency is associated with infant mortality and infection risk. This study was undertaken to test the hypothesis that impairment in Cpt1a-dependent fatty acid oxidation results in increased susceptibility to infection. Screening the Cpt1a gene for common variants predicted to affect protein function revealed allele rs2229738_T, which was associated with pneumonia risk in a targeted human phenome association study. Pharmacologic inhibition of Cpt1a increases mortality and impairs control of the infection in a murine model of bacterial pneumonia. Susceptibility to pneumonia is associated with blunted neutrophilic responses in mice and humans that result from impaired neutrophil trafficking to the site of infection. Chemotaxis responsible for neutrophil trafficking requires Cpt1a-dependent mitochondrial fatty acid oxidation for amplification of chemoattractant signals. These findings identify Cpt1a as a potential host determinant of infection susceptibility and demonstrate a requirement for mitochondrial fatty acid oxidation in neutrophil biology., (© 2022. The Author(s).)
- Published
- 2022
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