LAUSR

Reduced expression and/or activity of Kv1.5 channels (encoded by KCNA5) is a common hallmark in human or experimental pulmonary arterial hypertension (PAH). Likewise, genetic variants in KCNA5 have been found in PAH patients, but their functional consequences and potential impact on the disease are largely unknown. Herein, we aimed to characterize the functional consequences of 7 KCNA5 variants found in a cohort of PAH patients. Potassium currents were recorded by patch-clamp technique in HEK293 cells transfected with WT or mutant Kv1.5 cDNA. Flow cytometry, western blot and confocal microscopy techniques were used for measuring protein expression and cell apoptosis in HEK293 and human pulmonary artery smooth muscle cells (hPASMC). KCNA5 variants found in PAH patients (namely, p.Arg184Pro and p.Gly384Arg) resulted in a clear loss of potassium channel function as assessed by electrophysiological and molecular modelling analyses. The p.Arg184Pro variant also resulted in a pronounced reduction of Kv1.5 expression. Transfection with p.Arg184Pro or p.Gly384Arg variants decreased apoptosis of hPASMCs compared with the WT, demonstrating that KCNA5 dysfunction in both variants affects cell viability. Thus, in addition to affecting channel activity, both variants were associated with impaired apoptosis, a crucial process linked to the disease. The estimated prevalence of dysfunctional KCNA5 variants in the PAH population analyzed was around 1 %. Our data indicate that some KCNA5 variants found PAH patients have critical consequences for channel function supporting the idea that KCNA5 pathogenic variants may be a causative or contributing factor for PAH.