Current Issues in Molecular Biology (Sep 2024)

Exercise-Induced Shear Stress Drives mRNA Translation In Vitro

  • Daniel Conde,
  • Mario A. Garcia,
  • Manuel Gomez,
  • Alvaro N. Gurovich

DOI
https://doi.org/10.3390/cimb46090589
Journal volume & issue
Vol. 46, no. 9
pp. 9895 – 9905

Abstract

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The vascular endothelium is the first line of defense to prevent cardiovascular disease. Its optimal functioning and health are maintained by the interaction of the proteins—endothelial nitric oxide synthase (eNOS), sirtuin 1 (SIRT1), and endothelin 1 (ET1)—and the genes that encode them—NOS3, SIRT1, and EDN1, respectively. Aerobic exercise improves endothelial function by allegedly increasing endothelial shear stress (ESS). However, there are no current data exploring the acute effects of specific exercise-induced ESS intensities on these regulatory proteins and genes that are associated with endothelial function. The purpose of this study was to assess the acute changes in endothelial proteins and gene expression after exposure to low-, moderate-, and high-intensity exercise-induced ESS. Human umbilical vein endothelial cells (HUVECs) were exposed to resting ESS (18 dynes/cm2, 60 pulses per minute (PPM)), low ESS (35 dynes/cm2, 100 PPM), moderate ESS (50 dynes/cm2, 120 PPM), and high ESS (70 dynes/cm2, 150 PPM). Protein and gene expression were quantified by fluorescent Western blot and RTqPCR, respectively. All exercise conditions showed an increase in eNOS and SIRT1 expression and a decrease in NOS3 and SIRT1 gene expression when compared to resting conditions. In addition, there was no expression of ET1 and an increase in EDN1 gene expression when compared to resting conditions. These results show that (1) exercise-induced ESS increases the expressions of vascular protective proteins and (2) there is an inverse relationship between the proteins and their encoding genes immediately after exercise-induced ESS, suggesting that exercise has a previously unexplored translational role catalyzing mRNA to proteins.

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