Uncoupler-reversible inhibition of mitochondrial ATPase by metal chelates of bathophenanthroline. II. Comparison with other inhibitors.

(1) Trisbathophenanthroline-Fe2+ (BPh3Fe2+)alters the hyperbolic relationship between concentration of ATP and reaction velocity of F1-ATPase to sigmoidal, with a simultaneous decrease in maximal velocity. (2) BPh3Fe2+ binds to the beta-subunit of F1 and competes with the binding of aurovertin. The reversal of this effect uncouplers in enhanced by ADP and diminished by ATP. BPh3Fe2+ also changes the hyperbolic concentration dependence of aurovertin binding to sigmoidal. (3) BPh3Fe2+ stabilizes F1 against the cold inactivation and cold dissociation in an uncoupler-reversible manner. (4) BPh3Fe2+ efficiently protects F1 against the light-induced inactivation occurring in the presence of Rose Bengal, and the effect is reversed by uncouplers. (5) The results are discussed in relation to the reaction mechanism of F1-ATPase and other enzymes catalyzing the reversible hydrolysis of pyrophosphate bonds.