The Journal of Clinical Investigation (Apr 2023)

NaV1.6 dysregulation within myocardial T-tubules by D96V calmodulin enhances proarrhythmic sodium and calcium mishandling

  • Mikhail Tarasov,
  • Heather L. Struckman,
  • Yusuf Olgar,
  • Alec Miller,
  • Mustafa Demirtas,
  • Vladimir Bogdanov,
  • Radmila Terentyeva,
  • Andrew M. Soltisz,
  • Xiaolei Meng,
  • Dennison Min,
  • Galina Sakuta,
  • Izabella Dunlap,
  • Antonia D. Duran,
  • Mark P. Foster,
  • Jonathan P. Davis,
  • Dmitry Terentyev,
  • Sándor Györke,
  • Rengasayee Veeraraghavan,
  • Przemysław B. Radwański

Journal volume & issue
Vol. 133, no. 7

Abstract

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Calmodulin (CaM) plays critical roles in cardiomyocytes, regulating Na+ (NaV) and L-type Ca2+ channels (LTCCs). LTCC dysregulation by mutant CaMs has been implicated in action potential duration (APD) prolongation and arrhythmogenic long QT (LQT) syndrome. Intriguingly, D96V-CaM prolongs APD more than other LQT-associated CaMs despite inducing comparable levels of LTCC dysfunction, suggesting dysregulation of other depolarizing channels. Here, we provide evidence implicating NaV dysregulation within transverse (T) tubules in D96V-CaM–associated arrhythmias. D96V-CaM induced a proarrhythmic late Na+ current (INa) by impairing inactivation of NaV1.6, but not the predominant cardiac NaV isoform NaV1.5. We investigated arrhythmia mechanisms using mice with cardiac-specific expression of D96V-CaM (cD96V). Super-resolution microscopy revealed close proximity of NaV1.6 and RyR2 within T-tubules. NaV1.6 density within these regions increased in cD96V relative to WT mice. Consistent with NaV1.6 dysregulation by D96V-CaM in these regions, we observed increased late NaV activity in T-tubules. The resulting late INa promoted aberrant Ca2+ release and prolonged APD in myocytes, leading to LQT and ventricular tachycardia in vivo. Cardiac-specific NaV1.6 KO protected cD96V mice from increased T-tubular late NaV activity and its arrhythmogenic consequences. In summary, we demonstrate that D96V-CaM promoted arrhythmias by dysregulating LTCCs and NaV1.6 within T-tubules and thereby facilitating aberrant Ca2+ release.

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