Noradrenergic regulation of skeletal muscle oxygen pressures: Impact of heart failure with preserved ejection fraction and heat therapy.

Authors

Edward T N Calvo, Jacob M Pontorno, Benjamin Zeidler, Taciane M M Pejon, Michael D Belbis, Scott K Ferguson, Craig J Goergen, Timothy P Gavin, Bruno T Roseguini, Igor A Fernandes, Daniel M Hirai

Published in

Experimental physiology. Jul 20, 2025. Epub Jul 20, 2025.

Abstract

Attenuation of sympathetic vasoconstriction during exercise (functional sympatholysis) contributes to skeletal muscle oxygen delivery-utilization matching. However, the extent to which muscle contractions impact noradrenergic regulation of interstitial oxygen pressures ( ${P_{O_2}}_{\mathrm{is}}$ ; the driving force for blood-myocyte oxygen flux) is unknown. We tested the hypotheses that (1) muscle contractions would attenuate the noradrenaline-induced reduction in muscle ${P_{O_2}}_{\mathrm{is}}$ compared to rest (thus indicating functional sympatholysis) in healthy rats, and (2) functional sympatholysis would be impaired in rats with heart failure with preserved ejection fraction (HFpEF) but ameliorated with heat therapy. Skeletal muscle ${P_{O_2}}_{\mathrm{is}}$ was determined via phosphorescence quenching in anaesthetized healthy (Sprague-Dawley, n = 14) and HFpEF rats (obese ZSF1, n = 20) at rest and during contractions following noradrenaline superfusion (5 × 10^-4  M). HFpEF rats underwent 8 weeks of heat therapy (HEAT, n = 10) or control treatment (CON; n = 10). Functional sympatholysis was evaluated based on the noradrenaline-induced changes in ${P_{O_2}}_{\mathrm{is}}$ at rest and during contractions normalized to mean arterial pressure (Δ ${P_{O_2}}_{\mathrm{is}}$ /MAP; %/mmHg). Consistent with our hypothesis, muscle contractions attenuated the noradrenaline-evoked ${P_{O_2}}_{\mathrm{is}}$ reductions in healthy rats (rest: -0.50 ± 0.23, contractions: -0.25 ± 0.16; P < 0.05). Compared to healthy rats, the noradrenergic response at rest was exacerbated in HFpEF-CON (-0.85 ± 0.13; P < 0.05) but restored in HFpEF-HEAT (-0.61 ± 0.25; P > 0.05). During contractions, the noradrenergic response was not different between HFpEF-CON and HFpEF-HEAT (-0.94 ± 0.07 and -0.86 ± 0.09, respectively; P > 0.05). Moreover, the magnitude of sympatholysis was lower in both HFpEF-CON and HFpEF-HEAT compared to healthy. Taken together, these results indicate that heat therapy failed to improve functional sympatholysis in HFpEF rats but restored the noradrenergic response in resting skeletal muscle.

PMID:
40684360
Bibliographic data and abstract were imported from PubMed on 20 Jul 2025.

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