Philip Bedard scite author profile

In the present study, the effects of the cytosolic Ca2+ transport inhibitor on ATP-dependent Ca2+ uptake by, and unidirectional passive Ca2+ release from, sarcoplasmic reticulum enriched membrane vesicles were examined in parallel experiments to determine whether inhibitor-mediated enhancement in Ca2+ efflux contributes to inhibition of net Ca2+ uptake. When assays were performed at pH 6.8 in the presence of oxalate, low concentrations (less than 100 micrograms/mL) of the inhibitor caused substantial inhibition of Ca2+ uptake by SR (28-50%). At this pH, low concentrations of the inhibitor did not cause enhancement of passive Ca2+ release from actively Ca2+-loaded sarcoplasmic reticulum. Under these conditions, high concentrations (greater than 100 micrograms/mL) of the inhibitor caused stimulation of passive Ca2+ release but to a much lesser extent when compared with the extent of inhibition of active Ca2+ uptake (i.e., twofold greater inhibition of Ca2+ uptake than stimulation of Ca2+ release). When Ca2+ uptake and release assays were carried out at pH 7.4, the Ca2+ release promoting action of the inhibitor became more pronounced, such that the magnitude of enhancement in Ca2+ release at varying concentrations of the inhibitor (20-200 micrograms/mL) was not markedly different from the magnitude of inhibition of Ca2+ uptake. In the absence of oxalate in the assay medium, inhibition of Ca2+ uptake was observed at alkaline but not acidic pH.(ABSTRACT TRUNCATED AT 250 WORDS)

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Regulation of the ATP dependent calcium uptake activity of heart sarcolemmal vesicles by endogenous cytosolic proteins

Narayanan

Bedard

Waraich

et al. 1989

Mol Cell Biochem

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In a previous study we described the inhibitory action of a cytosolic protein fraction from heart muscle on ATP-dependent Ca2+ uptake by sarcoplasmic reticulum; further, this inhibition was shown to be blocked by an inhibitor antagonist, also derived from the cytosol (Narayanan et al. Biochim Biophys Acta 735: 53-66, 1983). The present study examined the effects of the endogenous cytosolic Ca2+ transport inhibitor and its antagonist on ATP-dependent Ca2+ uptake by sarcolemmal vesicles isolated from rat and canine heart. The cytosolic inhibitor caused strong inhibition (up to 97%) of Ca2+ uptake by sarcolemma (SL); this inhibition could be reversed by the cytosolic inhibitor antagonist. Studies on the characteristics of inhibition revealed the following: a) Inhibition was dependent on the concentration of the inhibitor (50% inhibition with approximately 80 micrograms inhibitor protein). b) The inhibitor reduced the velocity of Ca2+ uptake without appreciably influencing the apparent affinity of the transport system for Ca2+ but caused greater than 2-fold decrease in its apparent affinity for ATP. c) The rates of unidirectional passive Ca2+ release from actively Ca2+ loaded SL vesicles were not altered by low concentrations of the inhibitor (less than 100 micrograms/ml) which were effective in producing marked inhibition of Ca2+ uptake; at higher concentrations (greater than 100 micrograms/ml), the inhibitor caused increase in the rates of passive Ca2+ release. These findings demonstrate that the activity of the ATP-driven Ca2+ pump of cardiac SL can be regulated in vitro by endogenous cytosolic proteins.

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Philip Bedard

Inhibitory and stimulatory effects of fluoride on the calcium pump of cardiac sarcoplasmic reticulum

Effects of endogenous calcium transport inhibitor from heart muscle on the active calcium uptake and passive calcium release properties of sarcoplasmic reticulum

Regulation of the ATP dependent calcium uptake activity of heart sarcolemmal vesicles by endogenous cytosolic proteins

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