Endothelial modulation of skeletal muscle blood flow and VO(2) during low- and high-intensity contractions.

In the present study, we determined whether endothelin (ET)-1 contributed to the observed reduction in muscle blood flow (Q) during contractions with nitric oxide synthase (NOS) inhibition and whether muscle O(2) uptake (VO(2)) would be affected by the decrease in muscle Q with NOS inhibition at different contraction intensities. Muscle Q, VO(2), O(2) extraction ratio (OER), and tension development (TD) were studied in the in situ gastrocnemius muscle preparation in anesthetized dogs. A decrease in the VO(2)-to-TD ratio (VO(2)/TD) was used as an indicator of O(2) limitation. Three contraction protocols were used: 1) isometric twitch contractions at 2 twitches (tw)/s, 2) the same contractions at 4 tw/s, and 3) pretreatment with an ET(A)-receptor antagonist (BQ-123) before 2 tw/s contractions. The muscle was stimulated to contract, and measures were obtained at steady state (approximately 5-8 min). NOS inhibition (N(omega)-nitro-L-arginine methyl ester) was then induced, and measures were repeated at 2, 5, 10, and 15 min. During 2 tw/s contractions, NOS inhibition reduced Q with and without ET(A)-receptor blockade. In both groups, OER increased in response to the fall in Q, with the result being no change in VO(2)/TD. NOS inhibition also decreased Q during 4 tw/s contractions, but OER did not increase, resulting in a reduction in VO(2)/TD 5 and 15 min after N(omega)-nitro-L-arginine methyl ester. These data indicated that 1) a reciprocal increase in ET-1 during NOS inhibition does not influence active hyperemia in skeletal muscle, and 2) during 4 tw/s contractions, the ischemia with NOS inhibition was associated with either an O(2) limitation or an alteration in the efficiency of muscle contractions.