[The mechanism of calcium control of smooth muscle tonic contraction]. / Mekhanizm kal'tsievogo kontrolia tonicheskogo sokrashcheniia gladkoi myshtsy.

It has been shown in the experiments carried out on a fraction of inverted vesicles of myometrium sarcolemma that ATP-dependent Ca2+ transport system prevents dissipation of the calcium gradient directed from the intervesicular space outward with subsequent establishment of the stationary level of cation content inside the membrane vesicles (a blocker of electro-controlled calcium channels diltiasems was present in the incubation medium). Ortovanadatean inhibitor of the sarcolemma calcium pump suppressed Ca2+ stationary exchange in the vesicles fraction. The value of calcium stationary content in the vesicle membrane was regulated both by a change of the calcium pump activity (by varying Mg2+ concentration in the ATP-containing incubation medium), and by modification of calcium permeability of the vesicles (by varying concentration of ionophore A-23187 in this medium). In the presence of diltiasem and ortovanadate the Ca2+ basal current entering the myocytes from hyperpotassium washing solution activated the smooth muscle tonic contraction. In the absence of ortovanadate no contractile response was observed. On the basis of the evidence obtained a mechanism of calcium control of myometrium tonic contraction is proposed. According to this mechanism the Ca2+ current entering the unexcited myocytes under physiological conditions is efficiently compensated by the calcium pump of the sarcolemma. The inhibition of the latter (or an increase of the sarcolemma basal calcium permeability) provides further slow transition of the stationary value of Ca2+ concentration in the myoplasm to a new higher level and activation of the smooth muscle contraction accordingly.

[Delta pH-induced transport of Ca 2+ into smooth muscle plasma membrane vesicle fraction]. / Del'ta pH-indutsiruemyi transport Ca 2+ vo fraktsii vezikul plazmaticheskoi membrany gladkomyshechnykh kletok.

Using the fluorescent dye acridine orange, the feasibility of formation in myometrium sarcolemma of closed inside-out oriented vesicles and of a proton gradient created by the pH-jump method and stable in time, was demonstrated. At the initial value of delta pH = 2, the characteristic time of the gradient dissipation providing for the pH change by one unity is 4 to 5 minutes. The proton gradient oriented from the intravesicular space to the environment stimulated the Ca2+ influx into the vesicles. The transmembrane gradient of H+ with the inside-out oriented sarcolemmal vesicles prevents the Ca2+ influx. It is concluded that plasma membranes of smooth muscle cells contain alongside with the ATP- and Na(+)-dependent Ca2+ transport systems also a mechanism of the delta pH-induced transport of this bivalent cation.

[Static and dynamic pH-dependent components of calcium exchange in the fraction of smooth muscle sarcolemma vesicles]. / Staticheskaia i dinamicheskaiia pH-zavisimye komponenty kal'tsievogo obmena vo fraktsii vezikul sarkolemmy gladkoi myshtsy.

It is proved that in the fraction of inverted vesicles of the myometrium sarcolemma there are two components of calcium metabolism which depend on the proton concentration in the incubation medium. The first component, a static one, identified under alkalization of the incubation medium from pH 6.0 up to pH 8.0 under equilibrium conditions (Ca2+ concentration inside and outside vesicles is the same) is manifested as an increase of the calcium capacity of vesicles at the expense of Ca2+-binding centres of the inner surface of membrane vesicles. The second component, a dynamic one, is represented as a passive transmembrane flow of Ca2+ outflowing from the vesicles induced by alkalization of the extravesicle space. Alkalization-stimulated Ca2+ release from vesicles is analyzed kinetically. Possible functional role of two components of pH-dependent metabolism of Ca2+ in providing the electrical and pharmacological-mechanical conjugation in the smooth-muscular tissue is under discussion.