Dw. Jung et al., THE SODIUM-CALCIUM ANTIPORT OF HEART-MITOCHONDRIA IS NOT ELECTRONEUTRAL, The Journal of biological chemistry, 270(2), 1995, pp. 672-678
Heart mitochondria contain a nNa(+)/Ca2+ antiport that participates in
the regulation of matrix [Ca2+]. Based largely on a single study (Bra
nd, M. D. (1985) Biochem, J. 229, 161-166), there has been a consensus
that this antiport promotes the electroneutral exchange of two Na+ fo
r one Ca2+. However, a recent study in our laboratory (Baysal, K., Jun
g, D. W., Gunter, K. K., Gunter, T. P., and Brierley, G. P. (1994) Am.
J. Physiol. 266, C800-C808) has shown that the Na+-dependent efflux o
f Ca2+ from heart mitochondria has more energy available to it than ca
n be supplied by a passive 2Na(+)/Ca2+ exchange. We have therefore re-
examined Brand's protocols using fluorescent probes to monitor matrix
pH and free [Ca2+]. Respiring heart mitochondria, suspended in KCl and
treated with ruthenium red to block Ca2+ influx, extrude Ca2+ and est
ablish a large [Ca2+](out):[Ca2+](matrix) gradient. The extrusion of C
a2+ under these conditions is Na+-dependent and diltiazem-sensitive an
d can be attributed to the nNa(+)/Ca2+ antiport. Addition of nigericin
increases the membrane potential (Delta Psi) and decreases Delta pH t
o 0.1 or less, but has virtually no effect on the magnitude of the [Ca
2+] gradient, Under these conditions a gradient maintained by electron
eutral 2Na(+)/Ca2+ antiport should be abolished because the mitochondr
ial Na+/H+ antiport keeps the [Na+] gradient equivalent to the [H+] gr
adient. The [Ca2+] gradient is abolished, however, when an uncoupler i
s added to dissipate Delta Psi or when the exogenous electroneutral an
tiport BrA23187 is added. In addition, [Ca2+] influx via the nNa(+)/Ca
2+ antiport in nonrespiring mitochondria is enhanced when Delta Psi is
abolished. These results are consistent with Ca2+ extrusion by an ele
ctrophoretic antiport that can respond to Delta Psi but not with an el
ectroneutral antiport.