Background-In the congenital long-QT syndrome (LQTS), there can be a marked phenotypic heterogeneity. Founder effects, by which many individuals share a mutation identical by descent, represent a powerful tool to further understand the underlying mechanisms and to predict the natural history of mutation-associated effects. We are investigating one such founder effect, originating in South Africa in approximately AD 1700 and segregating the same KCNQ1 mutation (A341V). Methods and Results-The study population involved 320 subjects, 166 mutation carriers (MCs) and 154 noncarriers.When not taking -blocker therapy, MCs had a wide range of QTc values (406 to 676 ms), and 12% of individuals had a normal QTc (Յ440 ms). A QTc Ͼ500 ms was associated with increased risk for cardiac events (ORϭ4.22; 95% CI, 1.12 to 15.80; Pϭ0.033). We also found that MCs with a heart rate Ͻ73 bpm were at significantly lower risk (ORϭ0.23; 95% CI, 0.06 to 0.86; Pϭ0.035). This study also unexpectedly determined that KCNQ1-A341V is associated with greater risk than that reported for large databases of LQT1 patients: A341V MCs are more symptomatic by age 40 years (79% versus 30%) and become symptomatic earlier (7Ϯ4 versus 13Ϯ9 years, both PϽ0.001). Accordingly, functional studies of KCNQ1-A341V in CHO cells stably expressing IK s were conducted and identified a dominant negative effect of the mutation on wild-type channels. Conclusions-KCNQ1-A341V is a mutation associated with an unusually severe phenotype, most likely caused by the dominant negative effect of the mutation. The availability of an extended kindred with a common mutation allowed us to identify heart rate, an autonomic marker, as a novel risk factor. (Circulation. 2005;112:2602-2610.)
Lower resting HR and "relatively low" BRS are protective factors in KCNQ1-A341V carriers. A plausible underlying mechanism is that blunted autonomic responses prevent rapid HR changes, arrhythmogenic when I(Ks) is reduced. These findings help understanding phenotypic heterogeneity in LQTS and identify a physiological risk modifier, which is probably genetically determined.
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