Tafazzin gene mutations are uncommon causes of dilated cardiomyopathy in adults

Barth syndrome is an X-linked genetic condition featuring neutropenia, skeletal myopathy, and dilated cardiomyopathy in boys due to tafazzin (TAZ) mutations. Pure dilated cardiomyopathy without other features of Barth syndrome may also result from TAZ mutations and survival into adulthood has been described. Although TAZ testing is routinely included in dilated cardiomyopathy panels in adults, the prevalence of TAZ mutations in the adult population, including women who may be at risk to develop later onset disease due to TAZ mutations, has not been measured. We screened 292 families with dilated cardiomyopathy (209 male and 83 female probands) for TAZ mutations using denaturing high-performance liquid chromatography and sequence analysis. Putative mutations were evaluated based on standard criteria including screening available relatives and healthy controls and for effects on splicing efficiency in the case of one intronic variant. Two variants suspicious for being pathogenic were found in two unrelated families (c.387T>C, Phe128Ser and c.507C>T, Leu169Leu). The Phe128Ser variant had been previously reported as a pathogenic mutation; however we determined that this variant is instead a rare polymorphism restricted to African Americans. The Leu169Leu variant was detected in a male patient and altered RNA processing in our minigene assay supporting a pathogenic role. No mutations in female subjects were detected. Tafazzin mutations were rare in our population of adults with dilated cardiomyopathy and none were found in females. Our findings indicate that genetic testing for tafazzin should not be routinely performed in dilated cardiomyopathy as suggested by current guidelines. Furthermore, the Phe128Ser variant is not pathogenic, but likely represents a benign polymorphism in persons of African American ancestry.

[1]  Nina Ghosh,et al.  Recent progress in the genetics of cardiomyopathy and its role in the clinical evaluation of patients with cardiomyopathy , 2011, Current opinion in cardiology.

[2]  A. Kimura,et al.  Molecular basis of hereditary cardiomyopathy: abnormalities in calcium sensitivity, stretch response, stress response and beyond , 2010, Journal of Human Genetics.

[3]  A. R. Fernandes,et al.  Left ventricular non-compaction: a new mutation predisposing to reverse remodeling? , 2009, Revista portuguesa de cardiologia : orgao oficial da Sociedade Portuguesa de Cardiologia = Portuguese journal of cardiology : an official journal of the Portuguese Society of Cardiology.

[4]  D. Annane,et al.  Cardiomyopathy in Duchenne muscular dystrophy: pathogenesis and therapeutics , 2009, Heart Failure Reviews.

[5]  L. Mestroni,et al.  Danon disease presenting with dilated cardiomyopathy and a complex phenotype , 2007, Journal of Human Genetics.

[6]  C. Long,et al.  Prevalence of Desmin Mutations in Dilated Cardiomyopathy , 2007, Circulation.

[7]  B. Byrne,et al.  Cardiac and Clinical Phenotype in Barth Syndrome , 2006, Pediatrics.

[8]  Luisa Mestroni,et al.  Cardiomyopathy, familial dilated , 2006, Orphanet journal of rare diseases.

[9]  Matthew W State,et al.  A common cardiac sodium channel variant associated with sudden infant death in African Americans, SCN5A S1103Y. , 2006, The Journal of clinical investigation.

[10]  M. Benson,et al.  A prospective evaluation of the transthyretin Ile122 allele frequency in an African-American population , 2005, Amyloid : the international journal of experimental and clinical investigation : the official journal of the International Society of Amyloidosis.

[11]  M. Durán,et al.  X‐linked cardioskeletal myopathy and neutropenia (Barth syndrome): An update , 2004, American journal of medical genetics. Part A.

[12]  D. Baralle,et al.  Identification of a mutation that perturbs NF1 agene splicing using genomic DNA samples and a minigene assay , 2003, Journal of medical genetics.

[13]  J. Towbin,et al.  Novel Gene Mutations in Patients With Left Ventricular Noncompaction or Barth Syndrome , 2001, Circulation.

[14]  L. Mestroni,et al.  Guidelines for the study of familial dilated cardiomyopathies. Collaborative Research Group of the European Human and Capital Mobility Project on Familial Dilated Cardiomyopathy. , 1999, European heart journal.

[15]  D. Toniolo,et al.  X chromosome inactivation in carriers of Barth syndrome. , 1998, American journal of human genetics.

[16]  J. Carey,et al.  Xq28-linked noncompaction of the left ventricular myocardium: prenatal diagnosis and pathologic analysis of affected individuals. , 1997, American journal of medical genetics.

[17]  E. Haan,et al.  The X-linked gene G4.5 is responsible for different infantile dilated cardiomyopathies. , 1997, American journal of human genetics.

[18]  M. Elliott,et al.  Heart Transplantation for Barth Syndrome , 1997, Pediatric Cardiology.

[19]  R. Mcinnes,et al.  Barth syndrome: clinical observations and genetic linkage studies. , 1994, American journal of medical genetics.