Role of SH Groups in the Functioning of Ca2+-Transporting ATPases Regulating Ca2+ Homeostasis and Exocytosis

Using a ^Ca2+-sensitive fluorescent indicator, Fura-2/AM, and a metallochromic dye, arsenazo, we measured the intracellular concentration of Ca²⁺ (Ca²⁺] _i ) and the content of total calcium in isolated acinar cells of the rat submandibular salivary gland. It was shown that the influence of a mercaptide-forming compound, sodium p-chloromercuribenzoate (pChMB), increased both the Ca²⁺] _i and content of total calcium but did not change the intensity of exocytosis. Such a situation is probably related to the fact that pChMB inhibits plasmalemmal Ca²⁺-ATPase (PMCA). The absence of changes in the exocytotic activity can be explained as follows: the influence of a pChMB-induced significant increase in the Ca²⁺] _i is neutralized due to the functioning of Ca²⁺-ATPases of the endoplasmic reticulum (SERCA), which pump Ca²⁺ into the store. Incubation of a microsomal fraction with pChMB resulted in suppression of the specific PMCA and SERCA activities with apparent constants of inhibition (I ₅₀) 245 and 52 M, respectively. Dithiothreitol (DTT, 0.1 mM) increased the PMCA and SERCA activities (probably facilitating the access of substrate to the active centers of ATPases at the expense of a decrease in the number of disulfide bonds, which is followed by changes in the conformation of intracellular hydrophilic loops of their molecules). Dithiothreitol also recovered the suppression of PMCA and SERCA activities induced by pre-incubation with pChMB (by 45 and 32%, respectively); these activities did not, however, reach the initial levels. A probable interpretation of this fact is that DTT shields from the action of pChMB only superficial but not sterically less accessible SH groups. Limited proteolysis of the microsomes by -chymotrypsin decreased the specific PMCA and SERCA activities by 16 and 60%, respectively. Incubation of the microsomes in an -chymotrypsin-containing medium (15 sec) with subsequent addition of 150 M pChMB exerted almost no influence on the PMCA activity, whereas the SERCA activity dramatically increased (by 146%). This fact allows us to suggest that -chymotrypsin is capable of eliminating the inhibitory effect of pChMB on the SERCA activity; the mechanism of this effect remains unknown. Therefore, functionally important SH groups are present in the catalytic and active centers of both PMCA and SERCA; superficial SH groups dominate in the PMCA molecules, whereas SERCA is controlled by more deeply localized SH groups.