Scientific Reports (Nov 2022)

Exercise alters the circadian rhythm of REV-ERB-α and downregulates autophagy-related genes in peripheral and central tissues

  • Alisson L. da Rocha,
  • Ana P. Pinto,
  • Bruno L. S. Bedo,
  • Gustavo P. Morais,
  • Luciana C. Oliveira,
  • Ruither O. G. Carolino,
  • Jose R. Pauli,
  • Fernando M. Simabuco,
  • Leandro P. de Moura,
  • Eduardo R. Ropelle,
  • Dennys E. Cintra,
  • Donato A. Rivas,
  • Adelino S. R. da Silva

DOI
https://doi.org/10.1038/s41598-022-24277-4
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 13

Abstract

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Abstract The transcriptional repressor REV-ERB-α, encoded by Nuclear Receptor Subfamily 1 Group D Member 1 (Nr1d1), has been considered to play an essential role in the skeletal muscle oxidative capacity adaptation and muscle mass control. Also, this molecule regulates autophagy via the repression of autophagy-related genes both in skeletal muscle and brain regions. Classically, training programs based on endurance or strength characteristics enhance skeletal muscle mass content and/or oxidative capacity, leading to autophagy activation in several tissues. Thus, it seems that REV-ERB-α regulates similar responses induced by exercise. However, how this molecule responds to different exercise models/intensities in different tissues is still unclear. Therefore, the main aim was to characterize the responses of REV-ERB-α and autophagy-related genes to different exercise protocols (endurance/interval run/strength) in distinct tissues (gastrocnemius, soleus and hippocampus). Since REV-ERB-α presents a circadian rhythm, the analyses were performed in a time-course manner. The endurance and strength groups attenuated REV-ERB-α transcriptional response during the time course in gastrocnemius and soleus. Conversely, the interval group enhanced the Nr1d1 expression in the hippocampus. All protocols downregulated the REV-ERB-α protein levels in gastrocnemius following the exercise session with concomitant nuclear exclusion. The major autophagy-related genes presented downregulation after the exercise session in all analyzed tissues. Altogether, these results highlight that REV-ERB-α is extremely sensitive to physical exercise stimuli, including different models and intensities in skeletal muscle and the hippocampus.