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Articles by D Mancini Dinardo
Total Records ( 2 ) for D Mancini Dinardo
  A. J Saltzman , D Mancini DiNardo , C Li , W. K Chung , C. Y Ho , S Hurst , J Wynn , M Care , R. M Hamilton , G. W Seidman , J Gorham , B McDonough , E Sparks , J. G Seidman , C. E Seidman and H. L. Rehm
 

Rationale: The myosin-binding protein C isoform 3 (MYBPC3) variant Arg502Trp has been identified in multiple hypertrophic cardiomyopathy (HCM) cases, but compelling evidence to support or refute the pathogenicity of this variant is lacking.

Objective: To determine the prevalence, origin and clinical significance of the MYBPC3 Arg502Trp variant.

Methods and Results: The prevalence of MYBPC3 Arg502Trp was ascertained in 1414 sequential HCM patients of primarily European descent. MYBPC3 Arg502Trp was identified in 34 of these 1414 unrelated HCM patients. Segregation of MYBPC3 Arg502Trp with clinical status was assessed in family members. Disease haplotypes were examined in 17 families using two loci flanking MYBPC3. Family studies identified an additional 43 variant carriers, many with manifest disease, yielding a calculated odds ratio of 11 000:1 for segregation of MYBPC3 Arg502Trp with HCM. Analyses in 17 families showed at least 4 independent haplotypes flanked MYBPC3 Arg502Trp. Eight individuals (4 probands and 4 family members) also had another sarcomere protein gene mutation. Major adverse clinical events occurred in approximately 30% of MYBPC3 Arg502Trp carriers by age 50; these were significantly more likely (P<0.0001) when another sarcomere mutation was present.

Conclusions: MYBPC3 Arg502Trp is the most common and recurrent pathogenic mutation in a diverse primarily European descent HCM cohort, occurring in 2.4% of patients. MYBPC3 Arg502Trp conveys a 340-fold increased risk for HCM by 45 years of age, when more than 50% of carriers have overt disease. HCM prognosis worsens when MYBPC3 Arg502Trp occurs in the setting of another sarcomere protein gene mutation.

  Z Yang , B. H Funke , L. H Cripe , G. W Vick , D Mancini Dinardo , L. S Pena , R. J Kanter , B Wong , B. H Westerfield , J. J Varela , Y Fan , J. A Towbin and M. Vatta
 

Background— Danon disease is an X-linked dominant disorder characterized by the clinical triad of hypertrophic cardiomyopathy, skeletal myopathy, and variable mental retardation. Pathologically, autophagic vacuoles are noted in both skeletal and cardiac muscle. It exhibits an X-linked dominant mode of inheritance, and male carriers are severely affected, whereas female carriers develop milder and later-onset cardiac symptoms. Danon disease has been associated with mutations in the lysosome-associated membrane glycoprotein 2 (LAMP2) gene located at Xq24, typically resulting in splicing defects or protein truncation affecting the LAMP2. Because of its rarity, the full spectrum of genetic mutation resulting in Danon disease has not been elucidated.

Methods and Results— We analyzed 3 male cases with clinical and pathological findings consistent with Danon disease. Comprehensive mutational analysis failed to yield detectable products for selected LAMP2 exons, and genomic DNA deletion was suspected. Genomic junction fragment polymerase chain reaction analysis in case 1 identified a novel Alu-mediated 34-kb microdeletion encompassing the entire 5'-untranslated region and exon 1 of LAMP2. In case 2 and 3, junctional polymerase chain reaction and Southern blot analyses mapped the breakpoint to an MIRb and (TA)n simple repeats present in intron 3, which determined a 64-kb and a 58-kb deletion, respectively, thereby ablating exons 4 to 10. Western blot analysis confirmed the absence of LAMP2 in protein extract from lymphocytes of index case 2.

Conclusion— This article is the first report of Danon disease caused by microdeletions at Xq24, which functionally ablate LAMP2. The microdeletion mechanism appears to involve 1 Alu-mediated unequal recombination and 2 chromosomal breakage points involving TA-rich repeat sequences.

 
 
 
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