Magnesium and manganese ions modulate Ca2+ uptake and its energetic coupling in sarcoplasmic reticulum.

ATP hydrolysis, either coupled or uncoupled from Ca2+ uptake by sarcoplasmic reticulum (SR), is essentially independent of Mg2+ (millimolar range) up to 50 mM. Conversely, a sharp enhancement of Ca2+ uptake by Mg2+ is observed with a consequent increase of pumping efficiency (Ca2+ per ATP). Therefore, Mg2+ modulates pumping efficiency through the molecular mechanism of the pump itself. Manganese ions also stimulate Ca2+ uptake with an apparent efficiency lower than that of Mg2+. Additionally, Mn2+ competes with Ca2+ for the pump system and is accumulated into SR vesicles. Although the affinity of the pump is about three orders of magnitude higher for Ca2+ than for Mn2+, the capacity of the vesicles for Mn2+ is about three times that commonly observed for Ca2+. It is concluded that Mg2+ (millimolar range) couples ATP hydrolysis to Ca2+ uptake and that active transport of cations (Ca2+ and Mn2+) can proceed without a compensatory countertransport of a divalent cation. Finally, it is suggested that the SR pump operates physically as general cation translocator instead of as a Ca2+-specific pump, as commonly assumed.