Hypertrophic cardiomyopathy is most commonly transmitted as an autosomal dominant trait, caused by mutations in genes encoding cardiac sarcomere and associated proteins. Knowledge of the genetic pathophysiology of the disease has advanced significantly since the initial identification of a point mutation in the beta-myosin heavy chain (MYH7) gene in 1990. Other genetic causes of the disease include mutations in genes coding for proteins implicated in calcium handling or which form part of the cytoskeleton. The recent emergence of next-generation sequencing allows quicker and less expensive identification of causative mutations. However, a causative mutation is not identified in up to 50% of probands. At present, the primary clinical role of genetic testing in hypertrophic cardiomyopathy is in the context of familial screening, allowing the identification of those at risk of developing the condition. Genetic testing can also be used to exclude genocopies, particularly in the presence of certain diagnostic ‘red flag’ features, where lysosomal, glycogen storage, neuromuscular or Ras-MAPK pathway disorders may be suspected. The role of individual mutations in predicting prognosis is limited at present. However, the higher incidence of sudden cardiac death in the presence of a family history of such, suggests that genetics play a significant role in determining outcome. With an increased understanding of the impact of these mutations on a cellular level and on longer-term clinical outcomes, the aim in future for gene and mutation specific prognosis or potential disease-modifying therapy is closer.
Next generation sequencing of RB1gene for the molecular diagnosis of ethnic minority with retinoblastoma in Yunnan
