Abstract Hypertrophic cardiomyopathy (HCM) is a genetically and clinically heterogeneous myocardial disease caused by mutations in genes encoding sarcomeric proteins. To assess the genetic background and phenotypic expression of HCM in eastern Finland, we screened 35 unrelated patients with HCM from the Kuopio University Hospital area for variants in 9 genes encoding sarcomeric proteins with the PCR‐SSCP method. We herewith describe our previous findings in five sarcomeric genes and also report hitherto unpublished data on four additional sarcomeric genes. Mutations in the cardiac myosin‐binding protein C gene (MYBPC3) were most frequent, accounting for 26% of cases. A novel mutation (Gln1061X) in this gene was the most common mutation, found in 6 of 35 families and accounting for 17% of all cases. Other novel mutations in MYBPC3 (IVS5‐2A → C, IVS14‐13G → A, and Ex25ΔLys) were found in one family each. A previously described α‐tropomyosin (TPM1) mutation (Asp175Asn) was found in 11% of cases. Haplotype analysis suggested that the two most common variants (MYBPC3‐Gln1061X and TPM1‐Asp175Asn) were founder mutations. Only one mutation (Arg719Trp) in the β‐myosin heavy chain gene (MYH7) was found in one family, and no disease‐causing mutations were found in the genes encoding α‐actin, cardiac troponin I, T, C, or myosin essential and regulatory light chains. Altogether, the aforementioned 6 mutations found in MYBPC3, TPM1, and MYH7 accounted for 61% of familial and 40% of all HCM cases. The mutations were associated mostly with benign or intermediary phenotypes with only few HCM‐related deaths. We conclude that the genetic profile of HCM in eastern Finland is unique, characterized by few founder mutations with benign or intermediary phenotypes. KeywordscardiomyopathyFinlandhypertrophicmutationsarcomere
OBJECTIVE: To determine the role of the hepatocyte nuclear factor (HNF)-1alpha and HNF-4alpha genes in the etiology of late-onset type 2 diabetes in Finnish and Chinese subjects. RESEARCH DESIGN AND METHODS: The whole coding regions of the genes encoding for HNF-1alpha and HNF-4alpha, including approximately 800 bp of the HNF-1alpha promoter, were investigated in 40 Finnish subjects (fasting C-peptide 50-570 pmol/l) and 47 Chinese subjects with type 2 diabetes by single-strand conformation polymorphism (SSCP) analysis. Frequencies of the variants of these genes were analyzed by restriction fragment-length polymorphism analysis in additional samples of 100 Finnish diabetic patients and 82 Finnish control subjects and in 58 Chinese diabetic patients and 51 Chinese control subjects. RESULTS: No previously reported gene defects were detected, but one novel functionally silent GCC-->GCG variant (nucleotide 73, exon 10) was observed in the HNF-4alpha gene in a Chinese diabetic patient. Interestingly, the Ala98Val substitution of the HNF-1alpha gene occurred at a significantly higher frequency in 140 Finnish diabetic patients compared with 82 control subjects (P = 0.014). The Ala98Val variant was not, however, associated with abnormalities in insulin secretion evaluated by oral and intravenous glucose tolerance tests in subjects with normal (n = 295) or impaired (n = 38) glucose tolerance. CONCLUSIONS: Variants in the HNF-1alpha and HNF-4alpha genes are unlikely to play a major role in the pathogenesis of late-onset type 2 diabetes in Finnish and Chinese subjects. However, the association of the Ala98Val variant of the HNF-1alpha gene with type 2 diabetes in Finnish subjects may indicate a diabetogenic locus close to the HNF-1alpha gene.
