Background— DNA variants appearing to predispose to drug-associated “acquired” long-QT syndrome (aLQTS) have been reported in congenital long-QT disease genes. However, the incidence of these genetic risk factors has not been systematically evaluated in a large set of patients with aLQTS. We have previously identified functionally important DNA variants in genes encoding K⁺ channel ancillary subunits in 11% of an aLQTS cohort.

Methods and Results— The coding regions of the genes encoding the pore-forming channel proteins KvLQT1, HERG, and SCN5A were screened in (1) the same aLQTS cohort (n=92) and (2) controls, drawn from patients tolerating QT-prolonging drugs (n=67) and cross sections of the Middle Tennessee (n=71) and US populations (n=90). The frequency of three common nonsynonymous coding region polymorphisms was no different between aLQTS and control subjects, as follows: 24% versus 19% for H558R (SCN5A), 3% versus 3% for R34C (SCN5A), and 14% versus 14% for K897T (HERG). Missense mutations (absent in controls) were identified in 5 of 92 patients. KvLQT1 and HERG mutations (one each) reduced K⁺ currents in vitro, consistent with the idea that they augment risk for aLQTS. However, three SCN5A variants did not alter I_Na, which argues that they played no role in the aLQTS phenotype.

Conclusions— DNA variants in the coding regions of congenital long-QT disease genes predisposing to aLQTS can be identified in ≈10% to 15% of affected subjects, predominantly in genes encoding ancillary subunits.