Calcium-binding of Synaptosomes isolated from rat brain cortex. II. Inhibitory effects of magnesium ions and some other cations.

As in our previous report (Kamino, Uyesaka & Inouye, J. Membrane Biol. 17:13 1974), the absorbance changes of murexide caused by Ca2+ and followed up by a dual wavelength spectrophotometer were applied to measure synaptosomal Ca2+-binding in the presence of cations such as Rb+, Mn2+ or La3+. All the cations tested showed a significant inhibition of synaptosomal Ca2+-binding except Li+. The inhibitory effects could be divided into the following three categories: (1) noncompetive, co-operative K+-type, which includes alkali metal ions. The potency of inhibition is K+ greater than Rb+ greater than Cs+ greater than Li+, Na+ =0; (2) competitive Mn2+ -type which includes many divalent cations. The inhibitory potency was found to be in the following order: Mn2+ greater than Sr2+ greater than Cd2+, Ba2+ greater than Mg2+; (3) nonspecific, noncompetitive La3+ -type; among the cations tested, La3+ and Ce3+ were found to markedly reduce the Ca-binding capacity of synaptosomal particles, resulting in a noncompetitive inhibition, at least in the range of Ca2+ concentration used.