To investigate whether activity of the sarcolemmal Na pump modulates the influence of sodium current on excitation-contraction (E-C) coupling, we measured [Ca(2+)](i) transients (fluo-3) in single voltage-clamped mouse ventricular myocytes ([Na+](pip) = 15 or 0 mM) when the Na pump was activated (4.4 mM K(+)(o)) and during abrupt inhibition of the pump by exposure to 0 K with a rapid solution-switcher device. After induction of steady state [Ca2+](i) transients by conditioning voltage pulses (0.25 Hz), inhibition of the Na pump for 1.5 s immediately before and continuing during a voltage pulse (200 ms, -80 to 0 mV) caused a significant increase (15 +/- 2%; n = 16; p < 0.01) in peak systolic [Ca2+](i) when [Na+](pip) was 15 mM. In the absence of sodium current (I(Na), which was blocked by 60 microM tetrodotoxin (TTX)), inhibition of the Na pump immediately before and during a voltage pulse did not result in an increase in peak systolic [Ca2+](i). Abrupt blockade of I(Na) during a single test pulse with TTX caused a slight decrease in peak [Ca2+](i), whether the pump was active (9%) or inhibited (10%). With the reverse-mode Na/Ca exchange inhibited by KB-R 7943, inhibition of the Na pump failed to increase the magnitude of the peak systolic [Ca2+](i) (4 +/- 1%; p = NS) when [Na+](pip) was 15 mM. When [Na+](pip) was 0 mM, the amplitude of the peak systolic [Ca2+](i) was not altered by abrupt inhibition of the Na pump immediately before and during a voltage pulse. These findings in adult mouse ventricular myocytes indicate the Na pump can modulate the influence of I(Na) on E-C coupling in a single beat and provide additional evidence for the existence of Na fuzzy space, where [Na+] can significantly modulate Ca2+ influx via reverse Na/Ca exchange.
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