Erythrocyte and the Regulation of Human Skeletal Muscle Blood Flow and Oxygen Delivery. Role of Circulating ATP

doi:10.1161/01.RES.0000044939.73286.E2

Circulation Research. 2002
Published online before print October 31, 2002, doi: 10.1161/01.RES.0000044939.73286.E2

A more recent version of this article appeared on November 29, 2002

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Submitted on August 9, 2002
Revised on October 21, 2002
Accepted on October 23, 2002

Erythrocyte and the Regulation of Human Skeletal Muscle Blood Flow and Oxygen Delivery. Role of Circulating ATP

José González-Alonso ^*; David B. Olsen ; and Bengt Saltin

From The Copenhagen Muscle Research Centre, Rigshospitalet, University of Copenhagen, Denmark.

^* To whom correspondence should be addressed. E-mail: jga{at}cmrc.dk.

Blood flow to contracting skeletal muscle is tightly coupledto the oxygenation state of hemoglobin. To investigate if ATPcould be a signal by which the erythrocyte contributes to theregulation of skeletal muscle blood flow and oxygen (O₂) delivery,we measured circulating ATP in 8 young subjects during incrementalone-legged knee-extensor exercise under conditions of normoxia,hypoxia, hyperoxia, and CO+normoxia, which produced reciprocalalterations in arterial O₂ content and thigh blood flow (TBF),but equal thigh O₂ delivery and thigh O₂ uptake. With increasingexercise intensity, TBF, thigh vascular conductance (TVC), andfemoral venous plasma [ATP] augmented significantly (P<0.05)in all conditions. However, with hypoxia, TBF, TVC, and femoralvenous plasma [ATP] were (P<0.05) or tended (P=0.14) to beelevated compared with normoxia, whereas with hyperoxia theytended to be reduced. In CO+normoxia, where femoral venous O₂Hband (O₂+CO)Hb were augmented compared with hypoxia despite equalarterial deoxygenation, TBF and TVC were elevated, whereas venous[ATP] was markedly reduced. At peak exercise, venous [ATP] inexercising and nonexercising limbs was tightly correlated toalterations in venous (O₂+CO)Hb (r²=0.93 to 0.96; P<0.01).Intrafemoral artery infusion of ATP at rest in normoxia (n=5)evoked similar increases in TBF and TVC than those observedduring exercise. Our results in humans support the hypothesisthat the erythrocyte functions as an O₂ sensor, contributingto the regulation of skeletal muscle blood flow and O₂ delivery,by releasing ATP depending on the number of unoccupied O₂ bindingsites in the hemoglobin molecule.

Key words: skeletal muscle blood flow • erythrocytes • oxygen sensor • oxygen delivery

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