Molecular Metabolism (Apr 2024)

Maternal exercise preserves offspring cardiovascular health via oxidative regulation of the ryanodine receptorWhat is known?What new information does this article contribute?Novelty and significance:

  • Kelsey M. Pinckard,
  • Elisa Félix-Soriano,
  • Shanna Hamilton,
  • Radmila Terentyeva,
  • Lisa A. Baer,
  • Katherine R. Wright,
  • Drew Nassal,
  • Joao Victor Esteves,
  • Eaman Abay,
  • Vikram K. Shettigar,
  • Mark T. Ziolo,
  • Thomas J. Hund,
  • Loren E. Wold,
  • Dmitry Terentyev,
  • Kristin I. Stanford

Journal volume & issue
Vol. 82
p. 101914

Abstract

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Objective: The intrauterine environment during pregnancy is a critical factor in the development of obesity, diabetes, and cardiovascular disease in offspring. Maternal exercise prevents the detrimental effects of a maternal high fat diet on the metabolic health in adult offspring, but the effects of maternal exercise on offspring cardiovascular health have not been thoroughly investigated. Methods: To determine the effects of maternal exercise on offspring cardiovascular health, female mice were fed a chow (C; 21% kcal from fat) or high-fat (H; 60% kcal from fat) diet and further subdivided into sedentary (CS, HS) or wheel exercised (CW, HW) prior to pregnancy and throughout gestation. Offspring were maintained in a sedentary state and chow-fed throughout 52 weeks of age and subjected to serial echocardiography and cardiomyocyte isolation for functional and mechanistic studies. Results: High-fat fed sedentary dams (HS) produced female offspring with reduced ejection fraction (EF) compared to offspring from chow-fed dams (CS), but EF was preserved in offspring from high-fat fed exercised dams (HW) throughout 52 weeks of age. Cardiomyocytes from HW female offspring had increased kinetics, calcium cycling, and respiration compared to CS and HS offspring. HS offspring had increased oxidation of the RyR2 in cardiomyocytes coupled with increased baseline sarcomere length, resulting in RyR2 overactivity, which was negated in female HW offspring. Conclusions: These data suggest a role for maternal exercise to protect against the detrimental effects of a maternal high-fat diet on female offspring cardiac health. Maternal exercise improved female offspring cardiomyocyte contraction, calcium cycling, respiration, RyR2 oxidation, and RyR2 activity. These data present an important, translatable role for maternal exercise to preserve cardiac health of female offspring and provide insight on mechanisms to prevent the transmission of cardiovascular diseases to subsequent generations.

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