Vanadate and phosphate ions reduce tension and increase cross-bridge kinetics in chemically skinned heart muscle.

Tension development, immediate stiffness and ATPase of chemically skinned myocardial strips were measured in solutions with varying concentrations of phosphate (Pi) or vanadate (predominantly H2VO4 at pH 7) ion. Vanadate and Pi decreased stiffness in proportion to tension. The results show that, like Pi, vanadate accelerates the turnover rate of cross-bridges, but is effective at about 1/500 the concentration required for the Pi effect. Both Pi and vanadate increased the energy cost of isometric tension maintenance (that is, the ratio of ATPase to tension) and increased the velocity of delayed tension development following quick stretch of the chemically skinned myocardial strips. The results also show that changes in the rate of rise of delayed tension during stretch activation probably reflect changes in the kinetics of the biochemical cycle of the cross-bridges.