OBJECTIVES: to conduct a clinical, genetic, and functional analysis of 3 unrelated families with familial sinus bradycardia (FSB). BACKGROUND: mutations in the hyperpolarization-activated nucleotide-gated channel (HCN4) are known to be associated with FSB. METHODS AND RESULTS: three males of Moroccan Jewish descent were hospitalized: 1 survived an out-of-hospital cardiac arrest and 2 presented with weakness and presyncopal events. All 3 had significant sinus bradycardia, also found in other first-degree relatives, with a segregation suggesting autosomal-dominant inheritance. All had normal response to exercise and normal heart structure. Sequencing of the HCN4 gene in all patients revealed a C to T transition at nucleotide position 1,454, which resulted in an alanine to valine change (A485V) in the ion channel pore found in most of their bradycardiac relatives, but not in 150 controls. Functional expression of the mutated ion channel in Xenopus oocytes and in human embryonic kidney 293 cells revealed profoundly reduced function and synthesis of the mutant channel compared to wild-type. CONCLUSIONS: we describe a new mutation in the HCN4 gene causing symptomatic FSB in 3 unrelated individuals of similar ethnic background that may indicate unexplained FSB in this ethnic group. This profound functional defect is consistent with the symptomatic phenotype.
OBJECTIVES: to conduct a clinical, genetic, and functional analysis of 3 unrelated families with familial sinus bradycardia (FSB). BACKGROUND: mutations in the hyperpolarization-activated nucleotide-gated channel (HCN4) are known to be associated with FSB. METHODS AND RESULTS: three males of Moroccan Jewish descent were hospitalized: 1 survived an out-of-hospital cardiac arrest and 2 presented with weakness and presyncopal events. All 3 had significant sinus bradycardia, also found in other first-degree relatives, with a segregation suggesting autosomal-dominant inheritance. All had normal response to exercise and normal heart structure. Sequencing of the HCN4 gene in all patients revealed a C to T transition at nucleotide position 1,454, which resulted in an alanine to valine change (A485V) in the ion channel pore found in most of their bradycardiac relatives, but not in 150 controls. Functional expression of the mutated ion channel in Xenopus oocytes and in humanembryonic kidney293 cells revealed profoundly reduced function and synthesis of the mutant channel compared to wild-type. CONCLUSIONS: we describe a new mutation in the HCN4 gene causing symptomatic FSB in 3 unrelated individuals of similar ethnic background that may indicate unexplained FSB in this ethnic group. This profound functional defect is consistent with the symptomatic phenotype.
Authors: Philippe Chetaille; Christoph Preuss; Silja Burkhard; Jean-Marc Côté; Christine Houde; Julie Castilloux; Jessica Piché; Natacha Gosset; Séverine Leclerc; Florian Wünnemann; Maryse Thibeault; Carmen Gagnon; Antonella Galli; Elizabeth Tuck; Gilles R Hickson; Nour El Amine; Ines Boufaied; Emmanuelle Lemyre; Pascal de Santa Barbara; Sandrine Faure; Anders Jonzon; Michel Cameron; Harry C Dietz; Elena Gallo-McFarlane; D Woodrow Benson; Claudia Moreau; Damian Labuda; Shing H Zhan; Yaoqing Shen; Michèle Jomphe; Steven J M Jones; Jeroen Bakkers; Gregor Andelfinger Journal: Nat Genet Date: 2014-10-05 Impact factor: 38.330