Frontiers in Physiology (Nov 2022)

Acute exercise reduces feeding by activating IL-6/Tubby axis in the mouse hypothalamus

  • Thayana de Oliveira Micheletti,
  • Thayana de Oliveira Micheletti,
  • Andressa Cassia dos Santos,
  • Guilherme Zweig Rocha,
  • Vagner Ramon Rodrigues Silva,
  • Paula Gabriele Fernandes Quaresma,
  • Heloisa Balan Assalin,
  • Felipe Silva Junqueira,
  • Eduardo Rochete Ropelle,
  • Eduardo Rochete Ropelle,
  • Alexandre Gabarra Oliveira,
  • Mario Jose Abdalla Saad,
  • Patricia de Oliveira Prada,
  • Patricia de Oliveira Prada

DOI
https://doi.org/10.3389/fphys.2022.956116
Journal volume & issue
Vol. 13

Abstract

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Background: Acute exercise contributes to decreased feeding through leptin and interleukin/Janus kinase 2/signal transducers and activators of transcription 3 (IL-6/JAK2/STAT3) signaling. Considering the pleiotropic use of substrates by JAK2 and that JAK2 can phosphorylate the Tubby protein (TUB) in CHO-IR cells, we speculated that acute exercise can activate the IL-6/JAK2/TUB pathway to decrease food intake.Aims: We investigated whether acute exercise induced tyrosine phosphorylation and the association of TUB and JAK2 in the hypothalamus and if IL-6 is involved in this response, whether acute exercise increases the IL-6/TUB axis to regulate feeding, and if leptin has an additive effect over this mechanism.Methods: We applied a combination of genetic, pharmacological, and molecular approaches.Key findings: The in vivo experiments showed that acute exercise increased the tyrosine phosphorylation and association of JAK2/TUB in the hypothalamus, which reduced feeding. This response was dependent on IL-6. Leptin had no additive effect on this mechanism.Significance: The results of this study suggest a novel hypothalamic pathway by which IL-6 released by exercise regulates feeding and reinforces the beneficial effects of exercise.

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