ABSTRACT
Mutations in the gene encoding the sodium channel Nav1.5 cause various cardiac arrhythmias. This variety may arise from different determinants of Nav1.5 expression between cardiomyocyte domains. At the lateral membrane and T-tubules, Nav1.5 localization and function remain insufficiently characterized. We used novel single-molecule localization microscopy (SMLM) and modeling to define nanoscale features of Nav1.5 localization and distribution at the lateral membrane, groove, and T-tubules in wild-type, dystrophin-deficient (mdx) mice, and mice expressing C-terminally truncated Nav1.5 (ΔSIV). We show that Nav1.5 organizes as distinct clusters in the groove and T-tubules which density and distribution partially depend on SIV and dystrophin. We found that overall reduction in Nav1.5 expression in mdx and ΔSIV cells results in a non-uniform redistribution with Nav1.5 being specifically reduced at the groove of ΔSIV and increased in T-tubules of mdx cardiomyocytes. Nav1.5 mutations may therefore site-specifically affect Nav1.5 localization and distribution depending on site-specific interacting proteins.
Footnotes
This article was originally submitted to BioRxiv.org on 18 June 2019 (doi:10.1101/674275, https://www.biorxiv.org/content/10.1101/674275v2)
Antibody validation is addressed in the Methods section (lines 339-358) and in new Supplementary figure 5.