| Abstract: | Using a Ca2+-selective electrode and Quin 2 and chlortetracycline fluorescence spectra, a comparative study of caffeine- and Ca2+-induced release of Ca2+ from the terminal cisterns of rabbit fast skeletal muscle sarcoplasmic reticulum was carried out. It was shown that the caffeine-induced release of Ca2+ depends on Ca2+ and Mg2+ concentration in the medium; Mg2+ inhibit, while Ca2+ stimulate this process. The caffeine-induced transport of Ca2+ is blocked by ruthenium red, tetracaine and dimethylsulfoxide. The Ca2+ release induced by Ca2+ was shown to occur in two ways, i. e., via Mg2+-dependent (inhibited by Mg2+ and caffeine blockers) and Mg2+-independent (insensitive to caffeine inhibitors, including Mg2+) routes. It was assumed that caffeine stimulates the Mg2+-dependent, Ca2+-induced release of Ca2+. The sensitivity of Ca2+ transport to caffeine testifies to the fact that about 80% of the total Ca2+ transport activity of fast skeletal muscle homogenates belongs to terminal cisterns. The total amount of sarcoplasmic reticulum membranes in the muscle makes up to 15-20 mg of protein/g of tissue. |
