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Department of Physiology and Biophysics, University of Miami School of Medicine, Miami, Florida 33136
Submitted 8 January 2003; accepted in final form 24 March 2003
We investigated how inhibition of mitochondrial Ca2+
uptake affects stimulation-induced increases in cytosolic
[Ca2+] and phasic and asynchronous transmitter release
in lizard motor terminals in 2 and 0.5 mM bath [Ca2+].
Lowering bath [Ca2+] reduced the rate of rise, but not
the final amplitude, of the increase in mitochondrial
[Ca2+] during 50-Hz stimulation. The amplitude of the
stimulation-induced increase in cytosolic [Ca2+] was
reduced in low-bath [Ca2+] and increased when
mitochondrial Ca2+ uptake was inhibited by depolarizing
mitochondria. In 2 mM Ca2+, end-plate potentials (epps)
depressed by 53% after 10 s of 50-Hz stimulation, and this depression
increased to 80% after mitochondrial depolarization. In contrast, in 0.5 mM
Ca2+ the same stimulation pattern increased epps by
3.4-fold, and this increase was even greater (transiently) after
mitochondrial depolarization. In both 2 and 0.5 mM
[Ca2+], mitochondrial depolarization increased
asynchronous release during the 50-Hz train and increased the total vesicular
release (phasic and asynchronous) measured by destaining of the styryl dye
FM2-10. These results suggest that by limiting the stimulation-induced
increase in cytosolic [Ca2+], mitochondrial
Ca2+ uptake maintains a high ratio of phasic to
asynchronous release, thus helping to sustain neuromuscular transmission
during repetitive stimulation. Interestingly, the quantal content of the epp
reached during 50-Hz stimulation stabilized at a similar level (20
quanta) in both 2 and 0.5 mM Ca2+. A similar convergence
was measured in oligomycin, which inhibits mitochondrial ATP synthesis without
depolarizing mitochondria, but quantal contents fell to <20 when
mitochondria were depolarized in 2 mM Ca2+.
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