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Literature DB >> 29791847

Neutrophils Provide a Favorable IL-1-Mediated Immunometabolic Niche that Primes GLUT4 Translocation and Performance in Skeletal Muscles.

Masahiro Tsuchiya¹, Shigenori Sekiai², Hiroyasu Hatakeyama³, Masashi Koide⁴, Chayanit Chaweewannakorn⁵, Fukie Yaoita⁶, Koichi Tan-No⁶, Keiichi Sasaki⁷, Makoto Watanabe⁸, Shunji Sugawara⁹, Yasuo Endo¹⁰, Eiji Itoi⁴, Yoshihiro Hagiwara⁴, Makoto Kanzaki¹¹.

Abstract

Metabolic immunomodulation involving IL-1 has been investigated for unfavorable metabolic effects, including obesity, but a potentially favorable role for IL-1 remains unclear. Here, we find mechanistic interactions between working skeletal muscles and locally recruited neutrophils expressing IL-1β, which supports muscle performance through priming exercise-dependent GLUT4 translocation. Thus, during exercise, both IL-1α/β-deficient and neutrophil-depleted mice similarly exhibit increased fatigability associated with impaired muscle glucose homeostasis due to GLUT4 dysregulation. Deficiency of IL-1-producing neutrophils results in intrinsic abnormalities represented by aberrant Rac1 signaling and irregular GLUT4-storage vesicles, suggesting that these properties are maintained by local IL-1 produced by recruited neutrophils upon exercise, possibly on a daily basis. We propose that neutrophils are highly engaged in skeletal muscle performance via IL-1 regulation, which coordinates favorable inflammatory microenvironments supporting muscle glucose metabolism.

Entities: Disease Gene Species

Keywords: Exercise; GLUT4; Rac1; immunometabolism; inflammation; metabolism; myokines

Mesh：

Substances：

Year: 2018 PMID： 29791847 DOI： 10.1016/j.celrep.2018.04.067

Source DB: PubMed Journal: Cell Rep Impact factor: 9.423

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