<i>KCNH2</i>
            -K897T Is a Genetic Modifier of Latent Congenital Long-QT Syndrome

Crotti, Lia; Lundquist, Andrew L.; Insolia, Roberto; Pedrazzini, Matteo; Ferrandi, Chiara; Ferrari, Gaetano M. De; Vicentini, Alessandro; Yang, Ping; Roden, Dan M.; George, Alfred L.; Schwartz, Peter J.

doi:10.1161/circulationaha.105.549071

Cited by 225 publications

(172 citation statements)

References 43 publications

(44 reference statements)

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“…Therefore genes that contribute to sudden cardiac death occurrence have to be separated from genes that lead to associated conditions. Secondly, even for the so-called "monogenic syndromes" such as the long QT syndrome, there may be additional modifier genes that are involved (50,94). For the complex phenotype of overall sudden cardiac death, it is quite likely that for an individual patient, screening may have to be conducted for a panel of genes instead of a single gene.…”

Section: Potential Role Of Genetic Factors In Predicting Risk Of Suddmentioning

confidence: 99%

Epidemiology of Sudden Cardiac Death: Clinical and Research Implications

Chugh

Reinier

Teodorescu

et al. 2008

Progress in Cardiovascular Diseases

582

453

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The current annual incidence of sudden cardiac death in the US is likely to be in the range of 180-250,000 per year. Coinciding with the decreased mortality from coronary artery disease, there is evidence pointing toward a significant decrease in rates of sudden cardiac death in the US during the second half of the twentieth century. However the alarming rise in prevalence of obesity and diabetes in the first decade of the new millennium both in the US and worldwide, would indicate that this favorable trend is unlikely to persist. We are likely to witness a resurgence of coronary artery disease and heart failure, as a result of which sudden cardiac death will have to be confronted as a shared and indiscriminate, worldwide public health problem. There is also increasing recognition of the fact that discovery of meaningful and relevant risk stratification and prevention methodologies will require careful prospective community-wide analyses, with access to large archives of DNA, serum and tissue that link with well-phenotyped databases. The purpose of this review is to summarize current knowledge of sudden cardiac death epidemiology. We will discuss the significance and strengths of community-wide evaluations of sudden cardiac death, summarize recent observations from such studies, and finally highlight specific potential predictors that warrant further evaluation as determinants of sudden cardiac death in the general population.

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Section: Potential Role Of Genetic Factors In Predicting Risk Of Suddmentioning

confidence: 99%

Epidemiology of Sudden Cardiac Death: Clinical and Research Implications

Chugh

Reinier

Teodorescu

et al. 2008

Progress in Cardiovascular Diseases

582

453

View full text Add to dashboard Cite

show abstract

“…The concept of modifier genes, including compound heterozygosity 26 and the addition of single-nucleotide polymorphisms (SNPs) 27,28 to LQTS mutations, has been proposed to explain the phenomenon of phenotypic heterogeneity. 29 Although modifier genes have previously been reported in the context of amplifying the effect of LQTS mutations, 26 -28 a recent study has provided some evidence that SNPs might ameliorate the clinical phenotype of a LQTS mutation.…”

Section: Potential Role Of Modifying Factorsmentioning

confidence: 99%

Low Incidence of Sudden Cardiac Death in a Swedish Y111C Type 1 Long-QT syndrome Population

Winbo

Diamant

Stattin

et al. 2009

Circ Cardiovasc Genet

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Background-A 10% cumulative incidence and a 0.3% per year incidence rate of sudden cardiac death in patients younger than 40 years and without therapy have been reported in type 1 long-QT syndrome. The Y111C-KCNQ1 mutation causes a severe phenotype in vitro, suggesting a high-risk mutation. This study investigated the phenotype among Y111C-KCNQ1 mutation carriers in the Swedish population with a focus on life-threatening cardiac events. Methods and Results-We identified 80 mutation carriers in 15 index families, segregating the Y111C-KCNQ1 mutation during a national inventory of mutations causing the long-QT syndrome. Twenty-four mutation carriers Ͻ40 years experienced syncope (30%). One mutation carrier had an aborted cardiac arrest (1.25%). No case of sudden cardiac death was reported during a mean nonmedicated follow-up of 25Ϯ20 years. This corresponds to a low incidence rate of life-threatening cardiac events (0.05%/year versus 0.3%/year, Pϭ0.025). In 8 Y111C families connected by a common ancestor, the natural history of the mutation was assessed by investigating the survival over the age of 40 years for 107 nonmedicated ascertained mutation carriers (nϭ24) and family members (nϭ83) born between 1873 and 1968. In total, 4 deaths in individuals younger than 40 years were noted: 1 case of noncardiac death and 3 infant deaths between 1873 and 1915. Conclusions-The dominant-negative Y111C-KCNQ1 mutation, associated with a severe phenotype in vitro, presents with a low incidence of life-threatening cardiac events in a Swedish population. This finding of discrepancy emphasizes the importance of clinical observations in the risk stratification of long-QT syndrome. (Circ Cardiovasc Genet. 2009;2:558-564.)

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“…Meanwhile, our research group has identified rather serendipitously a first modifier gene for the severity of LQTS [48]. This finding had been preceded by our quantification [49] of the curious phenomenon of 'double' or 'two independent mutations', by which it appears that approximately 5% of LQTS patients inherit two relatively mild mutations by the parents (often asymptomatic) and then manifest severe LQTS, and by the observation by Westenskow et al [50] that two to three individuals from one family carrying one LQTS mutation and the rare single nucleotide polymorphism (SNP) D85N (on KCNE1) had more severe clinical manifestations.…”

Section: Modifier Genesmentioning

confidence: 99%

The congenital long QT syndromes from genotype to phenotype: clinical implications

Schwartz

2005

Journal of Internal Medicine

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208

121

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The long QT syndrome (LQTS) is a genetic disorder responsible for many sudden deaths before age 20. The identification of several LQTS genes, all encoding cardiac ion channels, has had a major impact on the management strategy for both patients and family members. Genotype-guided therapy allows more effective individually tailored therapy. Therapeutic options, including b-blockers, left cardiac sympathetic denervation, and implantable defibrillators are discussed for patients of known and of unknown genotype. The recent identification of modifier genes which amplify the effect of an LQTS mutation may change the approach to risk stratification.

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KCNH2 -K897T Is a Genetic Modifier of Latent Congenital Long-QT Syndrome

Cited by 225 publications

References 43 publications

Epidemiology of Sudden Cardiac Death: Clinical and Research Implications

Epidemiology of Sudden Cardiac Death: Clinical and Research Implications

Low Incidence of Sudden Cardiac Death in a Swedish Y111C Type 1 Long-QT syndrome Population

The congenital long QT syndromes from genotype to phenotype: clinical implications

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