Autopsy findings in siblings with hypertrophic cardiomyopathy caused by Arg92Trp mutation in the cardiac troponin T gene showing dilated cardiomyopathy-like features

BACKGROUND: Hypertrophic cardiomyopathy (HCM) is caused by mutations in the genes that encode sarcomeric proteins. Although some patients with HCM have shown dilated cardiomyopathy (DCM)-like features, the relationship between genotype and histologic findings is not well known. HYPOTHESIS: Family members with the same gene mutation may show the same histopathologic changes and clinical manifestations. METHODS: Siblings with HCM caused by an Arg92Trp mutation in the cardiac troponin T gene, showing DCM-like features, were examined. RESULTS: The patients were a 69-year-old woman and her 57-year-old brother who both died from congestive heart failure. Their autopsies revealed the same histopathologic findings in the heart. The anterior walls and interventricular septa of their hearts were replaced with extensive fibrosis and showed thinning. Myocyte hypertrophy, disarray, and thickened medial walls of the intramural coronary arteries were found. On electron microscopy, the number of mitochondria was seen to be increased and they formed many clusters. CONCLUSIONS: Patients with HCM caused by an Arg92Trp mutation in the cardiac troponin T gene may have the same histopathologic findings, which may result in DCM-like features.     

Selected mutations in the myosin binding protein C gene in the Polish population of patients with hypertrophic cardiomyopathy

BACKGROUND: Mutations in the gene of myosin binding protein C (MYBPC3) are currently considered the most frequent cause of hypertrophic cardiomyopathy (HCM). AIM: To assess the frequency of selected mutations in MYBPC3 in the Polish population of HCM patients. METHODS: One hundred eighteen patients with HCM and 118 healthy, age and sex-matched controls were screened for the presence of 14 mutations of MYBPC3 using real time polymerase chain reaction. RESULTS: Five different mutations were found in six patients in the HCM group whereas no mutations were present in the control group. In three cases the mutations were missense (Arg502Gln, Cys566Arg, Asn755Lys) and in three cases terminal (Gln425ter, Gln1061ter in two unrelated probands). CONCLUSION: Mutations in MYBPC3 should be considered a frequent cause of HCM in Poland.     

中国汉族家族性肥厚型心肌病人群MYH7基因Arg723Gly突变分析

目的研究中国汉族人群家族性肥厚型心肌病的致病基因突变位点,分析基因型与表型的关系。方法对5个肥厚型心肌病家系的先证者进行β-肌球蛋白重链基因扫描,聚合酶链反应扩增其功能区的外显子片段,双脱氧末段终止法测序。对阳性结果患者进行家系调查,收集临床资料,分析其临床表型。结果在1个家系中发现Arg723Gly杂合突变,而正常对照组同一位置未见异常,此为我国患者中首次发现Arg723Gly突变。结论β-肌球蛋白重链可能是我国家族性肥厚型心肌病的常见致病基因之一。Arg723Gly所致肥厚型心肌病外显率高、临床症状出现较早、进展较快、易发生心力衰竭、预后较差,心脏室、房扩大也较常见,是一种恶性突变。     

Tcap gene mutations in hypertrophic cardiomyopathy and dilated cardiomyopathy

OBJECTIVES: We sought to explore the relationship between a Tcap gene (TCAP) abnormality and cardiomyopathy. BACKGROUND: Hypertrophic cardiomyopathy (HCM) and dilated cardiomyopathy (DCM) cause severe heart failure and sudden death. Recent genetic investigations have revealed that mutations of genes encoding Z-disc components, including titin and muscle LIM protein (MLP), are the primary cause of both HCM and DCM. The Z-disc plays a role in establishing the mechanical coupling of sarcomeric contraction and stretching, with the titin/Tcap/MLP complex serving as a mechanical stretch sensor. Tcap interacts with the calsarcin, which tethers the calcineurin to the Z-disc. METHODS: The TCAP was analyzed in 346 patients with HCM (236 familial and 110 sporadic cases) and 136 patients with DCM (34 familial and 102 sporadic cases). Two different in vitro qualitative assays-yeast two-hybrid and glutathion S-transferase pull-down competition-were performed in order to investigate functional changes in Tcap's interaction with MLP, titin, and calsarcin-1 caused by the identified mutations and a reported DCM-associated mutation, R87Q. RESULTS: Two TCAP mutations, T137I and R153H, were found in patients with HCM, and another TCAP mutation, E132Q, was identified in a patient with DCM. It was demonstrated by the qualitative assays that the HCM-associated mutations augment the ability of Tcap to interact with titin and calsarcin-1, whereas the DCM-associated mutations impair the interaction of Tcap with MLP, titin, and calsarcin-1. CONCLUSIONS: These observations suggest that the difference in clinical phenotype (HCM or DCM) may be correlated with the property of altered binding among the Z-disc components.     

心脏型肌球蛋白结合蛋白C基因13261 G＞A突变导致肥厚型心肌病的临床表型分析

目的研究中国人肥厚型心肌病致病基因,分析基因型与临床表型的关系。方法在一肥厚型心肌病家系中进行心脏型肌球蛋白结合蛋白C基因（MYBPC3）和β-肌球蛋白重链基因（MYH7）突变筛查,利用聚合酶链反应（PCR）扩增其功能区的外显子片段,双脱氧末段终止法测序。家系调查资料包括临床表现、体格检查、心脏超声和心电图。结果在该家系27例有血缘关系的研究对象中9例携带MYBPC3 13261 G〉A（G758D）突变,正常对照组同一位置未见异常。该突变位点是MYBPC3基因第23号外显子的甘氨酸突变为天冬氨酸,其中2例携带者发病,一例表现为心室扩大,左室射血分数减低等扩张型心肌病样表现,伴室间隔不对称肥厚,厚度为14mm,另外一例患者为典型的肥厚型心肌病表现。MYH7基因未发现突变。结论MYBPC3基因13261 G〉A突变是该肥厚型心肌病家系的致病突变,其外显率为22％,其中一例患者表现为肥厚型心肌病的扩张相,MYBPC3基因G758D突变可能是肥厚型心肌病进展为扩张型心肌病样改变的原因之一。对临床表现为扩张型心肌病的患者进行家族史调查及基因检查十分必要。     

Identification of an Arg403Gln beta myosin heavy chain gene mutation in a Portuguese family with hypertrophic cardiomyopathy.

INTRODUCTION: The etiology of Familial Hypertrophic Cardiomyopathy (HCM) is attributed to the mutation of genes that encode sarcomeric proteins in the heart. Until now no gene mutations had been identified in Portuguese families with HCM. OBJECTIVE: The main objective of this study is to describe a Portuguese family with HCM carrying an Arg403Gln mutation in the beta myosin heavy chain gene. METHODS: With the help of several Molecular Biology tools, 40 families with HCM were studied. In all these families, one member was identified as carrying an Arg403Gln mutation in the beta myosin heavy chain gene. All family members were submitted to a physical exam, EKG and echocardiography. Those carrying a gene mutation were also submitted to Holter monitoring and to magnetic ressonance imaging. RESULTS: Molecular biology techniques are extremely important for the diagnosis of HCM, particularly in healthy carriers. CONCLUSION: The use of molecular diagnostic tools in HCM is very useful because it allows us to identify the healthy carriers and establish earlier clinical and prevention programs for these individuals.     

Coexistence of mitochondrial DNA and beta myosin heavy chain mutations in hypertrophic cardiomyopathy with late congestive heart failure

OBJECTIVE: To investigate the possible coexistence of mitochondrial DNA (mtDNA) mutations in patients with beta myosin heavy chain (beta MHC) linked hypertrophic cardiomyopathy (HCM) who develop congestive heart failure. DESIGN: Molecular analysis of beta MHC and mtDNA gene defects in patients with HCM. SETTING: Cardiovascular molecular diagnostic and heart transplantation reference centre in north Italy. PATIENTS: Four patients with HCM who underwent heart transplantation for end stage heart failure, and after pedigree analysis of 60 relatives, eight additional affected patients and 27 unaffected relatives. A total of 111 unrelated healthy adult volunteers served as controls. Disease controls included an additional 27 patients with HCM and 102 with dilated cardiomyopathy. INTERVENTION: Molecular analysis of DNA from myocardial and skeletal muscle tissue and from peripheral blood specimens. MAIN OUTCOME MEASURES: Screening for mutations in beta MHC (exons 3-23) and mtDNA tRNA (n = 22) genes with denaturing gradient gel electrophoresis or single strand conformational polymorphism followed by automated DNA sequencing. RESULTS: One proband (kindred A) (plus seven affected relatives) had arginine 249 glutamine (Arg249Gln) beta MHC and heteroplasmic mtDNA tRNAIle A4300G mutations. Another unrelated patient (kindred B) with sporadic HCM had identical mutations. The remaining two patients (kindred C), a mother and son, had a novel beta MHC mutation (lysine 450 glutamic acid) (Lys450Glu) and a heteroplasmic missense (T9957C, phenylalanine (Phe)-->leucine (Leu)) mtDNA mutation in subunit III of the cytochrome C oxidase gene. The amount of mutant mtDNA was higher in the myocardium than in skeletal muscle or peripheral blood and in affected patients than in asymptomatic relatives. Mutations were absent in the controls. Pathological and biochemical characteristics of patients with mutations Arg249Gln plus A4300G (kindreds A and B) were identical, but different from those of the two patients with Lys450Glu plus T9957C(Phe-->Leu) mutations (kindred C). Cytochrome C oxidase activity and histoenzymatic staining were severely decreased in the two patients in kindreds A and B, but were unaffected in the two in kindred C. CONCLUSIONS: beta MHC gene and mtDNA mutations may coexist in patients with HCM and end stage congestive heart failure. Although beta MHC gene mutations seem to be the true determinants of HCM, both mtDNA mutations in these patients have known prerequisites for pathogenicity. Coexistence of other genetic abnormalities in beta MHC linked HCM, such as mtDNA mutations, may contribute to variable phenotypic expression and explain the heterogeneous behaviour of HCM.     

Hypertrophic cardiomyopathy in a Portuguese population: mutations in the myosin-binding protein C gene.

BACKGROUND: Hypertrophic cardiomyopathy (HCM) is the most common genetic heart disease and is often a consequence of mutations in the myosin-binding protein C gene (MYBPC3). Until now, however, no systematic review has been published on mutations of this gene in a Portuguese population. OBJECTIVES: In a Portuguese population of HCM patients: 1) to determine the prevalence of mutations in the MYBPC3 gene; 2) to characterize the mutations genetically; 3) to analyze the phenotype and compare it with the genotype-phenotype correlations for mutations in this gene described in the literature. METHODS: We studied 45 consecutive index patients with HCM (41 with familial HCM). In each patient, we performed a genetic study to detect mutations in the MYBPC3 gene. Once a mutation was identified and genetically characterized, a broad phenotypic evaluation was performed. The genetic and clinical data were then compared with those described in the literature. RESULTS: Of the 45 patients, 5 (11.1%) showed mutations in the MYBPC3 gene (2 deletions and 3 missense mutations), all in patients with familial HCM. Of these, 4 were 'new' mutations: Ala 522 Thr (exon 17); Gli 1205 Asp (exon 32); Lis 505 Del (exon 17) and Lis 813 Del (exon 25). The other mutation, Arg 502 Gln (exon 17), had been previously described in the literature. Three of the 5 mutations were located in exon 17. Four of these 5 patients were symptomatic, mainly with heart failure and supraventricular arrhythmias. No patient was at high risk for sudden cardiac death. Most of the patients had non-obstructive HCM. The ECG, echocardiogram, Holter monitoring and treadmill exercise test showed highly variable results, reflecting the heterogeneity typical of this disease. CONCLUSIONS: In a Portuguese population of 45 HCM patients, 5 (11.1%) had mutations in the MYBPC3 gene (3 missense mutations--theoretically less frequent in the MYBPC3 gene--and 2 deletions). Four of these were 'new' mutations and 3 of them were located in exon 17 (which may be a 'hot spot' for MYBPC3 gene mutations in the Portuguese population). In all the patients, the phenotypic expression was different from that usually described for these mutations; in 3 of our patients, the clinical manifestations and penetrance were of early onset and one patient had a highly symptomatic form of obstructive hypertrophic cardiomyopathy. These data reflect the large number of exceptions to the classic genotype-phenotype correlations in HCM, highlighting the role of other factors, genetic and non-genetic, in regulating penetrance, clinical expression and prognosis in each family and in each individual patient.     

Mutation in the alpha-cardiac actin gene associated with apical hypertrophic cardiomyopathy, left ventricular non-compaction, and septal defects.

AIMS: The E101K mutation in the alpha-cardiac actin gene (ACTC) has been associated with apical hypertrophic cardiomyopathy (HCM). As prominent trabeculations were described in some carriers, we screened for the E101K mutation in our index patients with HCM, dilated cardiomyopathy (DCM), or left ventricular non-compaction (LVNC). METHODS AND RESULTS: Clinical, echocardiographic, and genetic screening by restriction fragment length polymorphism of the ACTC E101K mutation in 247 families with HCM, DCM, or LVNC. The mutation was found in five index patients (one with LVNC and four with HCM). Clinical and morphological data were obtained from 94 family members. Forty-six individuals had cardiomyopathy (43 with the mutation and three with no genetic study): 23 fulfilled criteria for LVNC, 22 were diagnosed as apical HCM, and one had been diagnosed as restrictive cardiomyopathy. There had been one heart transplant and one congestive heart failure death in patients with severe diastolic dysfunction, and five premature sudden deaths. The E101K mutation was not found in 48 unaffected relatives. Septal defects (eight atrial and one ventricular) were found in nine mutant carriers from four families, and were absent in relatives without the mutation (P = 0.003). CONCLUSION: LVNC and HCM may appear as overlapping entities. The ACTC E101K mutation should be considered in the genetic diagnosis of LVNC, apical HCM, and septal defects.     

Cardiac troponin T Arg92Trp mutation and progression from hypertrophic to dilated cardiomyopathy

BACKGROUND: Mutations in the cardiac troponin T gene causing familial hypertrophic cardiomyopathy (HCM) are associated with a very poor prognosis but only mild hypertrophy. To date, the serial morphologic changes in patients with HCM linked to cardiac troponin T gene mutations have not been reported. HYPOTHESIS: The aim of this study was to determine the long-term course of patients with familial HCM caused by the cardiac troponin T gene mutation, Arg92Trp. METHODS: In all, 140 probands with familial HCM were screened for mutations in the cardiac troponin T gene. RESULTS: The Arg92Trp missense mutation was present in 10 individuals from two unrelated pedigrees. They exhibited different cardiac morphologies: three had dilated cardiomyopathy-like features, five had asymmetric septal hypertrophy with normal left ventricular systolic function, one had electrocardiographic abnormalities without hypertrophy, and one had the disease-causing mutation but did not fulfill the clinical criteria for the disease. The mean maximum wall thickness was 14.1 +/- 6.0 mm. The three patients with dilated cardiomyopathy-like features had progressive left ventricular dilation. Three individuals underwent right ventricular endomyocardial biopsy. There was a modest degree of myocardial hypertrophy (myocyte diameter: 18.9 +/- 5.2 microm), and minimal myocardial disarray and mild fibrosis were noted. CONCLUSION: The Arg92Trp substitution in the cardiac troponin T gene shows a high degree of penetrance, moderate hypertrophy, and early progression to dilated cardiomyopathy in Japanese patients. Early identification of individuals with this mutation may provide the opportunity to evaluate the efficacy of early therapeutic interventions.     

扩张型心肌病家系罕见受磷蛋白致病基因突变

目的 对一扩张型心肌病(dilated cardiomyopathy, DCM)家系行候选致病基因全外显子高通量测序,以寻找该家系的致病基因,并分析其基因型和表型的关系。方法 收集在武汉大学人民医院就诊的一位DCM患者及其家系成员的临床资料及血液标本。与先证者及其家属签订知情同意书,绘制家谱图,由我院临床分子诊断中心对先证者进行候选致病基因全外显子高通量测序,获得可疑突变后,用Sanger测序对家系其他成员进行验证,寻找致病基因。结果 家系先证者6号染色体外显子上存在受磷蛋白(phospholamban, PLN)基因的精氨酸缺失突变c.36_38delAAG (p.Arg13del),为该家系的可疑致病基因。先证者目前心脏扩大,心功能显著下降,且超声心动图提示左心室附壁血栓形成,心电图提示肢导低电压以及胸导联R波极度减低。先证者母亲及其大姐因心脏病死亡,二姐目前患有扩张型心肌病,其子女未检测到致病基因。受磷蛋白作为肌质网钙离子循环中的调节蛋白,它的基因表达、分布、功能与心室的收缩功能密切相关。结论 本研究发现DCM家系中存在PLN基因缺失突变：PLN c.36_38delAAG (p.Arg13del),是家族性扩张型心肌病的重要致病基因,此突变在汉族人群中尚属首次报道。     

Clinical and prognostic evaluation of familial hypertrophic cardiomyopathy in two South African families with different cardiac beta myosin heavy chain gene mutations.

BACKGROUND--Familial hypertrophic cardiomyopathy is the most common inherited cardiac disorder, with sudden cardiac death at a young age the most frequent cause of death in affected individuals. Some cases of familial hypertrophic cardiomyopathy are caused by missense mutations of the beta myosin heavy chain (beta MHC) gene on chromosome 14 and at least 17 such mutations have been described. Recent reports suggest that a correlation exists between a specific beta MHC gene mutation and prognosis in familial hypertrophic cardiomyopathy. This premise is currently being used as a basis to provide counselling for affected families. This mutation/prognosis association, however, has not been widely assessed as yet. The clinical and prognostic features of two South African families of mixed racial descent, in which different beta MHC gene mutations were segregating, were studied to evaluate this correlation. The results were compared with those of previously published reports of European families carrying the same mutations. METHODS--The beta MHC gene missense mutations in two affected families were identified by single strand conformation polymorphism analysis and sequencing (pedigree 106: Arg403Trp; pedigree 108: Arg249Gln). All family members were subjected to genotypic analysis using polymerase chain reaction amplification and restriction enzyme based mutation detection techniques. Clinical, electrocardiographic, and echocardiographic studies were performed on genotypically affected individuals in these two kindreds. RESULTS--The number of individuals identified in pedigree 106 with the Arg403Trp mutation was 32.10 individuals bore the Arg249Gln mutation in pedigree 108. The penetrance rate in adults (equal to or greater than 16 years), using the strict echocardiographic criterion of maximum left ventricular wall thickness > or = 13 mm, was 25% for pedigree 106 and 33% for pedigree 108. Familial hypertrophic cardiomyopathy compatible electrocardiographic and echocardiographic abnormalities were seen in 60% of genotypically positive individuals aged > or = 16 years in pedigree 106 and 80% in pedigree 108. The prognosis was uniformly benign in the two families. For pedigree 106 this corresponded to a report of no early sudden cardiac deaths in a French family with the Arg403Trp mutation. For pedigree 108 the absence of such deaths was in apparent contrast to the four cases reported in 24 genotypically affected individuals in a study of a kindred of European ancestry bearing the Arg249Gln mutation. CONCLUSION--This study of a large South African kindred confirmed the benign nature of the Arg403Trp mutation suggested in a previous report. The number and the relatively young age of affected individuals in a second South African family must be considered when comparing the absence of familial hypertrophic cardiomyopathy associated deaths with the intermediate survival reported for the Arg249Gln mutation in a European family. This investigation lends support to current evidence relating specific beta MHC gene mutations to prognosis, which may be used as a basis to provide counselling for affected families.     

Sudden cardiac death in patients with hypertrophic cardiomyopathy: From bench to bedside with an emphasis on genetic markers

Hypertrophic cardiomyopathy (HCM) is the most common cause of death in the young, particularly in young competitive athletes. Death often occurs suddenly in asymptomatic, apparently healthy individuals. Several clinical parameters as well as genetic factors have been characterized that can identify those HCM patients who are at high risk for sudden cardiac death (SCD). The clinical parameters that have some predictive values for SCD in HCM patients are the following: a prior history of SCD, a family history of SCD, history of syncope, symptomatic ventricular tachycardia on Holter monitoring, inducible ventricular tachycardia during electrophysiologic studies, and myocardial ischemia in children with HCM. Recent identification of mutations in the beta myosin heavy chain gene and genotype-phenotype correlation in HCM patients have shown that the beta myosin heavy chain mutations are also prognosticators in HCM families. Several mutations such as Arg⁴⁰³Gln and Arg⁷¹⁹Gln are associated with a high incidence of SCD, while Leu⁹⁰⁸Val mutation is associated with a benign course and a low incidence of SCD in HCM families. Additional genetic factors such as a polymorphism in angiotensin-converting enzyme I gene may also contribute to a high incidence of SCD in HCM families. Identification and characterization of HCM patients at high risk for SCD provide the opportunity to render prophylactic therapeutic interventions, such as implantation of defibrillators, in these individuals.     

Variable clinical manifestation of a novel missense mutation in the alpha-tropomyosin (TPM1) gene in familial hypertrophic cardiomyopathy

OBJECTIVES: This study was initiated to identify the disease-causing genetic defect in a family with hypertrophic cardiomyopathy (HCM) and high incidence of sudden death. BACKGROUND: Familial hypertropic cardiomyopathy (FHC) is an autosomal dominant transmitted disorder that is genetically and clinically heterogeneous. Mutations in 11 genes have been associated with the pathogenesis of the disease. METHODS: We studied a large FHC family, first by linkage analysis, to identify the gene involved, and subsequently screened the gene, encoding alpha-tropomyosin (TPM1), for mutations by using single-strand conformation polymorphism and sequencing analysis. RESULTS: Twelve family members presented clinical features of HCM, five of whom died at young age, while others had only mild clinical features. Marker analysis showed linkage for the TPM1 gene on chromosome 15q22 (maximal logarithm of the odds score is 5.16, theta = 0); subsequently, a novel missense mutation (Glu62Gln) was identified. CONCLUSIONS: The novel mutation identified in TPM1 is associated with the clinical features of cardiac hypertrophy in all but one genetically affected member of this large family. The clinical data suggest a malignant phenotype at young age with a variable clinical manifestation and penetrance at older age. The Glu62Gln mutation is the sixth TPM1 mutation identified as the cause of FHC, indicating that mutations in this gene are very rare. This is the first reported amino acid substitution at the f-position within the coiled-coil structure of the tropomyosin protein.     

肥厚型心肌病心律失常与心肌离子通道突变的关系

目的:探讨肥厚型心肌病(HCM)患者是否存在与心律失常有关的通道改变。方法:以PCR加SSCP方法对24例HCM患者心肌离子通道IKr、IKs和INa的编码基因KvLQT1、HERG、SCN5A进行筛查。正常对照100例。结果:在其中伴严重室性心律失常(短阵室性心动过速及因室性心动过速频发而安装ICD)的12例HCM患者中发现2例存在KvLQT1基因突变,分别为Pro448Arg突变和Val607Ala/Ile608Leu/Met619Leu三突变串联,后一种突变为首次报道。在其余无明显心律失常的12例HCM患者和正常对照中未发现突变。结论:心肌离子通道突变可能是部分HCM患者发生严重心律失常的机制之一。     

Inherited and de novo mutations in the cardiac actin gene cause hypertrophic cardiomyopathy

Mutations in genes encoding sarcomeric proteins cause hypertrophic cardiomyopathy (HCM). The sarcomeric protein actin plays a central, dual role in cardiac myocytes, generating contractile force by interacting with myosin and also transmitting force within and between cells. Two missense mutations in the cardiac actin gene (ACTC), postulated to impair force transmission, have been associated with familial dilated cardiomyopathy (DCM). Recently, a missense mutation in ACTC was found to cosegregate with familial HCM. To further test the hypothesis that mutations within functionally distinct domains of ACTC cause either DCM or HCM, we performed mutational analyses in 368 unrelated patients with familial or sporadic HCM. Single strand conformation polymorphism and sequence analyses of genomic DNA were performed. De novo mutations in ACTC were identified in two patients with sporadic HCM who presented with syncope in early childhood. Patients were heterozygous for missense mutations resulting in Pro164Ala and Ala331Pro amino acid substitutions, adjacent to regions of actin-actin and actin-myosin interaction, respectively. A mutation that cosegregated with familial HCM was also found, causing a Glu99Lys substitution in a weak actomyosin binding domain. The cardiac phenotype in many affected patients was characterized by an apical form of HCM. These findings support the hypothesis that a single amino acid substitution in actin causes either congestive heart failure or maladaptive cardiac hypertrophy, depending on its effect on actin structure and function.     

十个汉族家族性肥厚型心肌病MYH7、MYBPC3和TNNT2基因筛查结果及相应的临床特征

目的研究10个汉族家族性肥厚型心肌病的致病基因及突变特点,分析基因型与临床表型的相互关系。方法对10个无血缘关系的汉族家族性肥厚型心肌病的家系的MYH7基因、MYBPC3基因和TNNT2基因进行扫描,聚合酶链式反应扩增其外显子及剪接部位基因组DNA片段,直接测序分析,并分析各突变患者相应临床表型特点。结果10个汉族家族性肥厚型心肌病的家系中5个家系发现上述基因突变,3个家系MYH7基因发生错义突变,分别为Arg663His、Glu924Lys和Ile736Thr,Glu924Lya在中国患者中首次发现。这3个家系中3例患者猝死;2个家系MYBPC3基因发生错义突变、剪接突变和移码突变,1个家系先证者为复合突变即18外显子错义突变ArgS02Trp及27外显子剪接突变即IVS27＋12C〉T,先证者之母携带错义突变,先证者之父携带剪接突变;在另一家系首次发现Gly347fa移码突变,该家系中1例猝死。10个家系中未发现TNNT2基因的功能区突变,但在内含子3中发现一个STR多态性即CTTCT5个碱基的插入／缺失,7个家系先证者发现D基因型。结论MYH7基因为中国汉族家族性肥厚型心肌病最常见致病基因,临床表现较重,猝死率较高。MYBPC3突变也较常见,症状较轻,发病较晚,但复合突变发病早、症状重。同一突变的临床表型存在异质性提示多因素参与了肥厚型心肌病的发生与发展。     

Epidemiologic and clinical characteristics of cardiomyopathies in Japan: results from nationwide surveys.

Nationwide clinico-epidemiological surveys of cardiomyopathies in Japan were carried out. Disorders surveyed included idiopathic dilated cardiomyopathy (DCM), hypertrophic cardiomyopathy (HCM), restrictive cardiomyopathy (RCM), arrhythmogenic right ventricular dysplasia (ARVD), mitochondrial disease, Fabry's disease of the heart and prolonged Q-T interval syndrome. The total number of patients was estimated at 17,700 for DCM, 21,900 for HCM, 300 for RCM, 520 for ARVD, 640 for mitochondrial disease, 150 for Fabry's disease of the heart, and 1,000 for prolonged Q-T interval syndrome. The prevalence of both DCM and HCM was higher in men than women: the male-to-female ratios were 2.6 and 2.3 for DCM and HCM, respectively. Detailed data on patients with DCM or HCM were collected by a follow-up survey. In 1 year more patients with DCM (5.6%) died than with HCM (2.8%): congestive heart failure (CHF) and arrhythmias were the leading causes of death for DCM and HCM, respectively. Angiotensin converting enzyme inhibitors (64.6%) and beta-adrenergic blockers (40.9%) are commonly used to treat the CHF complicating DCM and may be associated with the clinical improvement in a significant number of DCM patients. Thus, the nationwide surveys of Japanese patients have yielded important current epidemiological and clinical information on the characteristics of cardiomyopathies in Japan.     

MYBPC3基因G12101A和MYH7基因G15391A突变与肥厚型心肌病临床表型

目的 研究中国人家族性肥厚型心肌病(HCM)的致病基因突变位点,分析基因型与临床表型的相互关系.方法 在2个中国汉族HCM家系中进行心脏肌钙蛋白T基因(TNNT2)、心脏肌球蛋白结合蛋白C基因(MYBPC3)和心脏β-肌球蛋白重链基因(MYH7)的突变筛查,聚合酶链式反应(PCR)扩增基因功能区外显子片段并对PCR产物进行测序分析.结果 在ZZJ家系接受调查的8名成员中有4名成员携带MYBPC3基因G12101A杂合突变,该突变位点位于MYBPC3基因的21号外显子并使668位的精氨酸(R)转换为组氨酸(H),携带该突变的家族成员发病年龄较晚且均无梗阻及晕厥史.在FHL家系接受调查的6名成员中有3名成员携带MYH7基因G15391A杂合突变,该突变位点位于MYH7基因的23号外显子并使930位的谷氨酸(E)转换为赖氨酸(K),该突变导致的临床表型呈现发病年龄早、梗阻率高以及外显率高的特点.两家系成员TNNT2基因未发现突变,且正常对照组相同位置未发现异常.结论 MYBPC3基凶和MYH7基因是我国家族性HCM的致病基因,MYBPC3基因G12101A突变所致HCM临床症状相对较轻,而MYH7基因G15391A突变所致HCM临床症状出现早、进展较快且预后较差,是一种恶性突变.     

Amyloid heart disease mimicking hypertrophic cardiomyopathy

OBJECTIVE: To investigate the importance of transthyretin (TTR) gene mutations in explaining the phenotypic expression in patients diagnosed with hypertrophic cardiomyopathy (HCM) in northern Sweden. BACKGROUND: Hypertrophic cardiomyopathy is relatively common and often caused by mutations in sarcomeric protein genes. Mutations in the TTR gene are also common, one of which causes familial amyloid polyneuropathy (FAP), with peripheral polyneuropathy and frequently, cardiac hypertrophy. These circumstances were highlighted by the finding of an index case with amyloidosis, presenting itself as HCM. Initial rectal and fat biopsies did not show amyloid deposits. Later on, the patient was shown to carry a TTR gene mutation, and cardiac amyloidosis was confirmed by myocardial biopsy. Only then was a repeated fat biopsy positive for amyloid deposits. DESIGN: Cross-sectional study. SETTING: Cardiology tertiary referral centre. SUBJECTS: Forty-six unrelated individuals with HCM and the index case were included. Common diagnostic criteria for HCM were used. The 46 patients with HCM were previously analysed for mutations in eight sarcomeric protein genes and the TTR gene was now analysed by denaturing high-performance liquid chromatography and direct sequencing. RESULTS: One mutation in the TTR gene (Val30Met) was found in three individuals and the index case. CONCLUSIONS: Three of the 46 cases with HCM carried the Val30Met mutation, and were considered likely to have cardiac amyloidosis, like the index case. As a correct diagnosis of cardiac amyloidosis is mandatory for a potentially life-saving treatment, TTR mutation analysis should be considered in cases of HCM not explained by mutations in sarcomeric protein genes.