Augmented Skeletal Muscle Vasodilation to Intravascular ATP During Exercise and Systemic Hypoxia in Humans

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We have recently demonstrated that vasodilation to the endothelium‐dependent agonist acetylcholine is amplified in contracting compared with quiescent skeletal muscle, highlighting the importance of the vascular endothelium in integrating vasomotor signals to regulate vascular tone in humans. In the present study, we tested the hypothesis that sensitivity to the endothelium‐dependent vasodilator ATP is augmented during exercise and systemic hypoxia, whereas sensitivity to the nitric oxide donor and endothelium‐independent dilator sodium nitroprusside (SNP) is not affected by these physiological conditions. In 12 young adults (7 M, 5 F), we measured forearm blood flow (FBF; Doppler ultrasound) and calculated changes in vascular conductance (FVC: quotient of FBF and mean arterial pressure) in response to local, intra‐arterial infusion of ATP or SNP during 1) control resting conditions (CON), 2) dynamic handgrip exercise (EX, 20 contractions per minute at 10% of maximal voluntary contraction), or 3) systemic hypoxia (HYP, 80% O2 saturation). Three doses of each vasodilator were infused via a brachial artery catheter during each condition (ATP: 1.25, 2.50, and 5.00 μg·dl forearm volume−1·min−1; SNP: 0.25, 0.50, and 1.00 μg·dl forearm volume−1·min−1). The order of drugs and conditions was randomized. Within each trial, infusions began after 3 min of rest, steady‐state exercise, or hypoxia, and each dose was infused for 2 min while the exercise or hypoxic stimulus was sustained. Compared to control conditions, vasodilatory sensitivity to the high dose of ATP was enhanced by 53 ± 18% during mild handgrip exercise (Δ FVC, CON: 120 ± 16 vs. EX: 176 ± 28 ml·min−1·100 mmHg−1; P < 0.05), whereas vasodilatory sensitivity was not affected at lower doses of ATP (P = NS; Dose × Condition interaction P < 0.05). In contrast, exercise had no effect on vascular sensitivity to any dose of SNP (P = NS). Similarly, during systemic hypoxia, vasodilation to ATP was enhanced by 18 ± 10% at the medium dose (Δ FVC, CON: 100 ± 15 vs. HYP: 125 ± 24 ml·min−1·100 mmHg−1; P < 0.05) and 28 ± 11% at the high dose (Δ FVC, CON: 120 ± 16 vs. HYP: 158 ± 27 ml·min−1·100 mmHg−1; P < 0.05; Dose × Condition interaction P < 0.05), whereas vasodilation to SNP was not different from control conditions at any dose (P = NS). These findings provide evidence that muscle contractions and hypoxia augment ATP‐mediated, endothelium‐dependent vasodilation in human skeletal muscle. Moreover, given that intravascular ATP increases under these physiological conditions, the results indicate that small changes in plasma ATP may result in augmented vasodilation and contribute to blood flow and oxygen delivery in humans.Support or Funding InformationHL119337This abstract is from the Experimental Biology 2018 Meeting. There is no full text article associated with this abstract published in The FASEB Journal.