Screening for mutations and polymorphisms in the genes KCNH2 and KCNE2 encoding the cardiac HERG/MiRP1 ion channel: implications for acquired and congenital long Q-T syndrome.

BACKGROUND: The voltage-gated, rapid-delayed rectifier current (I(Kr)) is important for repolarization of the heart, and mutations in the genes coding for the K+-ion channel conducting this current, i.e., KCNH2 for the alpha-subunit HERG and KCNE2 for the beta-subunit MiRP1, cause acquired and congenital long Q-T syndrome (LQTS) and other cardiac arrhythmias. METHODS: We developed a robust single-strand conformation polymorphism-heteroduplex screening analysis, with identical thermocycling conditions for all PCR reactions, covering all of the coding exons in KCNH2 and KCNE2. The method was used to screen 40 unrelated LQTS patients. RESULTS: Eleven mutations, of which six were novel, were found in KCNH2. Interestingly, six mutations were found in the region of the gene coding for the Per-Arnt-Sim (PAS) and PAS-S1 regions of the HERG protein, stressing the need to examine the entire gene when screening for mutations. No mutations were found in KCNE2, suggesting that direct involvement of MiRP1 in LQTS is rare. Furthermore, four novel single-nucleotide polymorphisms (SNPs) and one amino acid polymorphism (R1047L) were identified in KCNH2, and one novel SNP and one previously known amino acid polymorphism (T8A) were found in KCNE2. CONCLUSIONS: The potential role of rare polymorphisms in the HERG/MiRP1 K+-channel should be clarified with respect to drug interactions and susceptibility to arrhythmia and sudden death.

Long QT syndrome with a high mortality rate caused by a novel G572R missense mutation in KCNH2.

In a four-generation family with long QT syndrome, syncopes and torsades de pointes ventricular tachycardia (TdP) were elicited by abrupt awakening in the early morning hours. The syndrome was associated with a novel KCNH2 missense mutation, G572R, causing the substitution of a glycine residue at position 572, at the end of the S5 transmembrane segment of the HERG K(+)-channel, with an arginine residue. This segment is involved in the channel pore and the mutation may cause a reduction in the rapidly activating delayed rectifier K+ current (Ikr), or changed gating properties of the ion channel, leading to prolonged cardiac repolarization. The electrocardiograms of affected persons showed prolonged QT interval and notched T waves. Despite treatment with atenolol, 200 mg twice daily, the proband still experienced TdP episodes. Three untreated relatives of the proband died suddenly, and unexpectedly, at 18, 32, and 57 years of age. The G572R mutation is thus associated with a high mortality rate, and the clinical presentation illustrates that some mutations may not be controllable by just beta-blockade.

Impact of age and amyloidosis on thiol conjugation of transthyretin in hereditary transthyretin amyloidosis.

Variant forms and post-translational modifications of transthyretin (TTR) can be identified by electrospray ionisation mass spectrometry (ESI-MS). The aim of the present study was to investigate thiol conjugation of transthyretin and it's relation to age and symptomatic amyloid disease in different populations of variant TTR carriers. Plasma samples from 70 individuals from Denmark, Argentina, Sweden and Japan, with 2 different TTR mutations were analysed. The percentage cysteine (Cys) conjugated wild and variant TTR were calculated from the corresponding peaks of the spectra, and multiple regression analysis was employed to disclose relationships between age, symptomatic amyloid disease and origin. Age, origin and presence of symptomatic disease, were found to be independent factors related to transthyretin conjugation. A higher percentage of conjugated to unconjugated TTR was disclosed in symptomatic, but not in asymptomatic carriers. In summary: Thiol conjugation of TTR is dependent on age and presence of symptomatic amyloid disease. Furthermore, it varies between different populations. Variant TTR is more susceptible to thiol conjugation than the wild type. Post-translational factors may be related to amyloid formation and/or toxicity.

[Hereditary amyloid cardiomyopathy related to a mutation at transthyretin protein number 111. A clinical, genetic and echocardiographic study of an affected Danish family]. / Hereditaer amyloid kardiomyopati relateret til en mutation på plads nr. 111 i transthyretinproteinet. En klinisk, genetisk og ekkokardiografisk undersøgelse af en afficeret dansk familie.

Amyloidosis is a group of diseases characterized by amyloid deposition in various tissues. The diseases can roughly be divided into hereditary and non-hereditary forms. The hereditary forms are related to a mutation in the serum protein transthyretin which is produced mainly in the liver. The inheritance is autosomal dominant. A family in Denmark has earlier been described as having inherited cardiac amyloidosis with a mutation at amino acid number 111 in the transthyretin protein. The family now has been re-examined because of new diagnostic and therapeutic possibilities. The aims of the study were to identify carriers and non-carriers of the mutant transthyretin methionine 111 linked familial amyloid disease, to detect early signs of the restrictive cardiomyopathy and other clinical manifestations of this disease. Clinical, echocardiographic and genetic examination was carried out. Out of 125 living family members, 99 were available for examination. Twenty-five persons were heterozygous carriers of the mutant transthyretin methionine 111 genotype, while 74 were non-carriers. Eight carriers, all above the age of 35, showed echocardiographic abnormalities suggestive of developing or manifest restrictive cardiomyopathy. Nine carriers had carpal tunnel syndrome as opposed to none of the non-carriers. It is concluded that for early detection of familial amyloid cardiomyopathy, echocardiography is the investigation of choice. The first sign is diastolic dysfunction detected as an abnormal relaxation pattern. Carpal tunnel syndrome appears to be the earliest presenting clinical symptom. Early liver transplantation seems to be curative.

A clinical, echocardiographic and genetic characterization of a Danish kindred with familial amyloid transthyretin methionine 111 linked cardiomyopathy.

AIMS: To identify carriers and non-carriers of the mutant transthyretin methionine 111 linked familial amyloid disease, to detect early signs of the restrictive cardiomyopathy and other clinical manifestations characteristic of this inheritable disease. METHODS AND RESULTS: Out of 125 living family members 99 were available for clinical, echocardiographic and genetic examination. Twenty-five family members were heterozygous carriers of the mutant transthyretin methionine 111 genotype, while 74 were non-carriers. Among the 25 carriers, none had overt clinical signs of heart disease. Eight carriers, all above the age of 35, showed echocardiographic abnormalities suggestive of developing or manifest restrictive cardiomyopathy. Three had biopsy-verified transthyretin-related amyloid cardiomyopathy. None of the 15 carriers in the younger age group exhibited aberrant echocardiographic patterns. Nine carriers had carpal tunnel syndrome as opposed to none of the non-carriers. CONCLUSION: For early detection of familial amyloid cardiomyopathy, echocardiography is the investigation of choice. The first sign is diastolic dysfunction detected as an abnormal relaxation pattern. The appearance of echocardiographic aberrations solely in the older age group suggests that the cardiomyopathy is a late onset disease. Carpal tunnel syndrome appears to be the earliest presenting clinical symptom. A curative treatment seems to be an early liver transplantation.