Colocalization of voltage-gated Na+channels with the Na+/Ca2+exchanger in rabbit cardiomyocytes during development

Abstract

Reverse-mode activity of the Na(+)/Ca(2+) exchanger (NCX) has been previously shown to play a prominent role in excitation-contraction coupling in the neonatal rabbit heart, where we have proposed that a restricted subsarcolemmal domain allows a Na(+) current to cause an elevation in the Na(+) concentration sufficiently large to bring Ca(2+) into the myocyte through reverse-mode NCX. In the present study, we tested the hypothesis that there is an overlapping expression and distribution of voltage-gated Na(+) (Na(v)) channel isoforms and the NCX in the neonatal heart. For this purpose, Western blot analysis, immunocytochemistry, confocal microscopy, and image analyses were used. Here, we report the robust expression of skeletal Na(v)1.4 and cardiac Na(v)1.5 in neonatal myocytes. Both isoforms colocalized with the NCX, and Na(v)1.5-NCX colocalization was not statistically different from Na(v)1.4-NCX colocalization in the neonatal group. Western blot analysis also showed that Na(v)1.4 expression decreased by sixfold in the adult (P < 0.01) and Na(v)1.1 expression decreased by ninefold (P < 0.01), whereas Na(v)1.5 expression did not change. Although Na(v)1.4 underwent large changes in expression levels, the Na(v)1.4-NCX colocalization relationship did not change with age. In contrast, Na(v)1.5-NCX colocalization decreased ∼50% with development. Distance analysis indicated that the decrease in Na(v)1.5-NCX colocalization occurs due to a statistically significant increase in separation distances between Na(v)1.5 and NCX objects. Taken together, the robust expression of both Na(v)1.4 and Na(v)1.5 isoforms and their colocalization with the NCX in the neonatal heart provides structural support for Na(+) current-induced Ca(2+) entry through reverse-mode NCX. In contrast, this mechanism is likely less efficient in the adult heart because the expression of Na(v)1.4 and NCX is lower and the separation distance between Na(v)1.5 and NCX is larger.