AH van der Hout scite author profile

Abstract-Mutations in SCN5A, the gene encoding the cardiac Na ϩ channel, have been identified in 2 distinct diseases associated with sudden death: one form of the long-QT syndrome (LQT 3 ) and the Brugada syndrome. We have screened SCN5A in a large 8-generation kindred characterized by a high incidence of nocturnal sudden death, and QT-interval prolongation and the "Brugada ECG" occurring in the same subjects. An insertion of 3 nucleotides (TGA) at position 5537, predicted to cause an insertion of aspartic acid (1795insD) in the C-terminal domain of the protein, was linked to the phenotype and was identified in all electrocardiographically affected family members. ECGs were obtained from 79 adults with a defined genetic status (carriers, nϭ43; noncarriers, nϭ36). In affected individuals, PR and QRS durations and QT intervals are prolonged (PϽ0.0001 for all parameters). ST segment elevation in the right precordial leads is present as well (PϽ0.0001). Twenty-five family members died suddenly, 16 of them during the night. Expression of wild-type and mutant Na ϩ channels in Xenopus oocytes revealed that the 1795insD mutation gives rise to a 7.3-mV negative shift of the steady-state inactivation curve and an 8.1-mV positive shift of the steady-state activation curve. The functional consequence of both shifts is likely to be a reduced Na ϩ current during the upstroke of the action potential. LQT 3 and Brugada syndrome are allelic disorders but may also share a common genotype. Key Words: long-QT syndrome Ⅲ Brugada syndrome Ⅲ SCN5A Ⅲ arrhythmia Ⅲ Na ϩ channel S CN5A, the gene that encodes the human cardiac Na ϩ channel ␣ subunit, 1 is mutated in one form of the long-QT syndrome (LQT 3 ) and in Brugada syndrome. 2,3 There are characteristic and readily distinguishable ECG patterns in these 2 syndromes. In LQT 3 patients, a long isoelectric ST segment precedes a peaked T wave. 4 Brugada syndrome is diagnosed on the basis of characteristic ECG features in the absence of structural heart disease; these features include right precordial ST-segment elevation, which may be intermittent, and which is exacerbated by Na ϩ channel block and ameliorated by isoproterenol. 5,6 QT intervals have been reported to be normal in patients with Brugada syndrome. 5 Clinically, there appears to be some overlap between the 2 syndromes, as both exhibit a relatively high incidence of nocturnal sudden cardiac death without prior symptoms. 6 -8 The prolonged QT interval in LQT 3 results from persistent inward Na ϩ current during the plateau phase of the action potential, secondary to incomplete inactivation of mutated channels. 9 Changes in the ␣ and ␤ 1 subunit interaction have also been implicated. 10 Although functional abnormalities have been described for Brugada syndrome-related SCN5A mutant channels, 3,11 the mechanism(s) whereby these explain the Brugada phenotype are less clear.In this study we present clinical and genetic data of a single large SCN5A-linked family, phenotypically characterized by nocturnal death and electrocardiograph...

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Phenotypic expression of double heterozygosity for BRCA1 and BRCA2 germline mutations

Leegte

Hout²,

Deffenbaugh³

et al. 2005

Journal of Medical Genetics

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Loss of heterozygosity at the short arm of chromosome 3 in renal‐cell cancer correlates with the cytological tumour type

Hout

Berg

Vlies

et al. 1993

Intl Journal of Cancer

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A majority of renal-cell tumours retain heterozygosity at the short arm of chromosome 3. To investigate possible histopathological differences between tumours with and without such losses, we compared loss of heterozygosity data from 51 tumours with I histological and 2 different cytological classifications of renal-cell tumour. Using the cytological classification of Thoenes et al., we only found tumours with loss of heterozygosity in these authors' clear-cell category. Possibly, only these tumours arise by a mechanism of double loss of a tumour-suppressor gene on 3p, non-clear-cell renal tumours having a different genetic background. Alternatively, deletions may occur in all subtypes, in which case those subtypes in which no LOH is found may also contain deletions too small to be detected with the set of 3p probes we used. A cytogenetic analysis was carried out on 30 of the tumours. Results of molecular and microscopic cytogenetic analyses did not seem to be in agreement in 12 cases. In 6 of these we found allelic losses in tumours showing morphologically normal copies of chromosome 3. Mitotic recombination or loss of one chromosome 3 homologue followed by duplication of the remaining homologue is a likely explanation. The other 6 cases showed microscopic abnormalities of chromosome 3 which were not reflected, or only partly reflected, as allelic losses. These discrepancies are caused either by the limitations of microscopic analysis in exactly determining a breakpoint or tracing a translocated part of a chromosome, or by the failure of molecular analysis to demonstrate LOH if this occurs in only a minority of cells.

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The HLA class III subregion is responsible for an increased breast cancer risk

Jong¹,

Nolte

Vries

et al. 2003

Human Molecular Genetics

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AH van der Hout

A Single Na ⁺ Channel Mutation Causing Both Long-QT and Brugada Syndromes

Phenotypic expression of double heterozygosity for BRCA1 and BRCA2 germline mutations

Loss of heterozygosity at the short arm of chromosome 3 in renal‐cell cancer correlates with the cytological tumour type

The HLA class III subregion is responsible for an increased breast cancer risk

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AH van der Hout

A Single Na + Channel Mutation Causing Both Long-QT and Brugada Syndromes

Phenotypic expression of double heterozygosity for BRCA1 and BRCA2 germline mutations

Loss of heterozygosity at the short arm of chromosome 3 in renal‐cell cancer correlates with the cytological tumour type

The HLA class III subregion is responsible for an increased breast cancer risk

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Resources

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A Single Na ⁺ Channel Mutation Causing Both Long-QT and Brugada Syndromes