L. Xu et al., Ruthenium red modifies the cardiac and skeletal muscle Ca2+ release channels (ryanodine receptors) by multiple mechanisms, J BIOL CHEM, 274(46), 1999, pp. 32680-32691
The effects of ruthenium red (RR) on the skeletal and cardiac muscle ryanod
ine receptors (RyRs) were studied in vesicle-Ca2+ flux, [H-3]ryanodine bind
ing, and single channel measurements. In vesicle-Ca2+ flux measurements, RR
was more effective in inhibiting RyRs at 0.2 mu M than 20 mu M free Ca2+.
[H-3]Ryanodine binding measurements suggested noncompetitive interactions b
etween RR inhibition and Ca2+ regulatory sites of RyRs. In symmetric 0.25 M
KCl. with 10-20 mu M cytosolic Ca2+, cytosolic RR decreased single channel
activities at positive and negative holding potentials. In close to fully
activated skeletal (20 mu M Ca2+ + 2 mM ATP) and cardiac (200 mu M Ca2+) Ry
Rs, cytosolic RR induced a predominant subconductance at a positive but not
negative holding potential. Lumenal RR induced a major subconductance in c
ardiac RyR at negative but not positive holding potentials and several subc
onductances in skeletal RyR. The RR-related subconductances of cardiac RyR
showed a nonlinear voltage dependence, and more than one RR molecule appear
ed to be involved in their formation, Cytosolic and lumenal RR also induced
subconductances in Ca2+-conducting skeletal and cardiac RyRs recorded at 0
mV holding potential. These results suggest that RR inhibits RyRs and indu
ces subconductances by binding to cytosolic and lumenal sites of skeletal a
nd cardiac RyRs.