Novel deletions in MYH7 and MYBPC3 identified in Indian families with familial hypertrophic cardiomyopathy

Mutations causing familial hypertrophic cardiomyopathy (HCM) have been described in at least 11 genes encoding cardiac sarcomeric proteins. In this study, three previously unknown deletions have been identified in the human cardiac genes coding for β-myosin heavy chain ( MYH7 on chromosome 14) and m...

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Bibliographic Details
Published in:Journal of molecular and cellular cardiology 2003-06, Vol.35 (6), p.623-636
Main Authors: Waldmüller, Stephan, Sakthivel, Sadayappan, Saadi, Abdul Vahab, Selignow, Carmen, Rakesh, Pareppally Gopal, Golubenko, Maria, Joseph, Pulavelli Kurian, Padmakumar, Ramachandran, Richard, Pascale, Schwartz, Ketty, Tharakan, Jagan Mohan, Rajamanickam, Chellam, Vosberg, Hans-Peter
Format: Article
Language:English
Subjects:
Adolescent
Adult
Animals
Cardiomyopathy, Hypertrophic, Familial - genetics
Carrier Proteins - genetics
Child
Deletion mutations
DNA Mutational Analysis
Echocardiography
Exons
Familial hypertrophic cardiomyopathy
Family Health
Female
Gene Deletion
Heterozygote
Humans
India
Indian families
Introns
Male
Middle Aged
Mutation
MYBPC3
MYH7
Pedigree
Phenotype
Polymorphism, Genetic
RNA Splicing
Ventricular Myosins - genetics
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Summary:Mutations causing familial hypertrophic cardiomyopathy (HCM) have been described in at least 11 genes encoding cardiac sarcomeric proteins. In this study, three previously unknown deletions have been identified in the human cardiac genes coding for β-myosin heavy chain ( MYH7 on chromosome 14) and myosin-binding protein-C ( MYBPC3 on chromosome 11). In family MM, a 3-bp deletion in MYH7 was detected to be associated with loss of glutamic acid in position 927 (ΔE927) of the myosin rod. In two other families (HH and NP, related by a common founder) a 2-bp loss in codon 453 (exon 16) of MYBPC3 was identified as the presumable cause of a translation reading frame shift. Taken together 15 living mutation carriers were investigated. Six deceased family members (with five cases of premature sudden cardiac death (SCD) in families MM and NP) were either obligate or suspected mutation carriers. In addition to these mutations a 25-bp deletion in intron 32 of MYBPC3 was identified in family MM (five carriers) and in a fourth family (MiR, one HCM patient, three deletion carriers). In agreement with the loss of the regular splicing branch point in the altered intron 32, a splicing deficiency was observed in an exon trapping experiment using MYBPC3 exon 33 as a test substrate. Varying disease profiles assessed using standard clinical, ECG and echocardiographic procedures in conjunction with mutation analysis led to the following conclusions: (1) In family MM the ΔE927 deletion in MYH7 was assumed to be associated with complete penetrance. Two cases of reported SCD might have been related to this mutation. (2) The two families, HH and NP, distantly related by a common founder, and both suffering from a 2-bp deletion in exon 16 of MYBPC3 differed in their average phenotypes. In family NP, four cases of cardiac death were documented, whereas no cardiac-related death was reported from family HH. These results support the notion that mutations in HCM genes may directly determine disease penetrance and severity; however, a contribution of additional, unidentified factors (genes) to the HCM phenotype can—at least in some cases—not be excluded. (3) The deletion in intron 32 of MYBPC3 was seen in two families, but in both its relation to disease was not unequivocal. In addition, this deletion was observed in 16 of 229 unrelated healthy individuals of the population of the South Indian states of Kerala and Tamil Nadu. It was not seen in 270 Caucasians from Russia and western Europ
ISSN:0022-2828
1095-8584
DOI:10.1016/S0022-2828(03)00050-6