Force-velocity relation in chemically skinned rat portal vein

Abstract

Rat portal veins were chemically skinned using Triton X-100 and mounted for isometric and quick release experiments at 20°C. The skinned preparations were activated by Ca²⁺ (EGTA-buffered) in solutions containing 2 mM free-Mg²⁺ and 1 μM calmodulin. Half maximal isometric force was obtained at pCa=6.2. Maximal force of the skinned preparations, at pCa=4.5, was 8.2±0.8 mN/mm² (n=6). Force-velocity relations were determined at varied Ca²⁺-concentrations. Maximal shortening velocity (V_max) was 0.10±0.01 lengths/s at pCa=4.5. At decreasing Ca²⁺-levelsV_max decreased (at pCa=6.25,V_max=0.05 l/s). At pCa =9 an increased level of free-Mg²⁺ (15mM) induces a slow and submaximal increase in tension. Force velocity relations of Mg²⁺-induced contractures were not different from those of Ca²⁺-contractures of similar magnitude (pCa=6.3). The results indicate that the degree of activation of the contractile system, as regulated by Ca²⁺ and Mg²⁺, influences the kinetic properties of the actomyosin interaction as well as the force development.