AIMS: Emerging evidence indicates a critical role for junctophilin-2 (JP2) in T-tubule integrity and assembly of cardiac dyads in adult ventricular myocytes. In the postnatal stage, one of the critical features of myocyte maturation is development of the T-tubule system, though the mechanisms remain poorly understood. In this study, we aim to determine whether JP2 is required for normal cardiac T-tubule maturation. METHODS AND RESULTS: Using in situ confocal imaging of intact murine hearts, we found T-tubules were absent in both left- and right-ventricular myocytes at postnatal Day 8 and did not appear until Day 10. Quantification of T-tubule structural integrity using the T-tubule power (TT(power)) index revealed a progressive increase in TT(power) between postnatal Days 10 and 19. By postnatal Day 19, TT(power) was similar to that in adult murine cardiomyocytes, indicative of a nearly matured T-tubule network. JP2 levels increased dramatically during development, reaching levels observed in adult hearts by postnatal Day 14. Deficiency of JP2, using a mouse model in which a JP2-specific shRNA is expressed during embryonic development, severely impaired T-tubule maturation, with equivalent decreases in the left- and right-ventricular TT(power). We also detected a gradual increase in the density of transverse but not longitudinal tubules during development, and JP2 deficiency abolished the increase in the density of transverse elements. Alterations in T-tubules caused significant reduction in Ca(2+) transient amplitude and marked increase in Ca(2+) release dyssynchrony, Ca(2+) alternans, and spontaneous Ca(2+) waves, leading to contractile failure. CONCLUSION: Our data identify a critical role for JP2 in T-tubule and excitation-contraction coupling maturation during development.
AIMS: Emerging evidence indicates a critical role for junctophilin-2 (JP2) in T-tubule integrity and assembly of cardiac dyads in adult ventricular myocytes. In the postnatal stage, one of the critical features of myocyte maturation is development of the T-tubule system, though the mechanisms remain poorly understood. In this study, we aim to determine whether JP2 is required for normal cardiac T-tubule maturation. METHODS AND RESULTS: Using in situ confocal imaging of intact murine hearts, we found T-tubules were absent in both left- and right-ventricular myocytes at postnatal Day 8 and did not appear until Day 10. Quantification of T-tubule structural integrity using the T-tubule power (TT(power)) index revealed a progressive increase in TT(power) between postnatal Days 10 and 19. By postnatal Day 19, TT(power) was similar to that in adult murine cardiomyocytes, indicative of a nearly matured T-tubule network. JP2 levels increased dramatically during development, reaching levels observed in adult hearts by postnatal Day 14. Deficiency of JP2, using a mouse model in which a JP2-specific shRNA is expressed during embryonic development, severely impaired T-tubule maturation, with equivalent decreases in the left- and right-ventricular TT(power). We also detected a gradual increase in the density of transverse but not longitudinal tubules during development, and JP2deficiency abolished the increase in the density of transverse elements. Alterations in T-tubules caused significant reduction in Ca(2+) transient amplitude and marked increase in Ca(2+) release dyssynchrony, Ca(2+) alternans, and spontaneous Ca(2+) waves, leading to contractile failure. CONCLUSION: Our data identify a critical role for JP2 in T-tubule and excitation-contraction coupling maturation during development.
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