© 1998 American Heart Association, Inc.
Review |
Familial Hypertrophic Cardiomyopathy
From Mutations to Functional Defects
From the INSERM Unit 153 (G.B., L.C., K.S.), the Service de Biochimie B (P.R., B.H.), and the IFR de Physiologie et Génétique Cardiovasculaire (G.B., L.C., P.R., B.H., K.S.), Groupe Hospitalier Pitié-Salpêtrière, Paris, France.
Abstract—Hypertrophic
cardiomyopathy is characterized by left and/or
right ventricular hypertrophy, which is usually
asymmetric and involves the interventricular septum.
Typical morphological changes include myocyte hypertrophy
and disarray surrounding the areas of increased loose connective
tissue. Arrhythmias and premature sudden deaths are common.
Hypertrophic cardiomyopathy is familial in the
majority of cases and is transmitted as an autosomal-dominant trait.
The results of molecular genetics studies have shown that familial
hypertrophic cardiomyopathy is a disease of the
sarcomere involving mutations in 7 different genes encoding proteins of
the myofibrillar apparatus: ß-myosin heavy chain,
ventricular myosin essential light chain,
ventricular myosin regulatory light chain, cardiac troponin
T, cardiac troponin I, 
-tropomyosin, and cardiac myosin binding
protein C. In addition to this locus heterogeneity,
there is a wide allelic heterogeneity, since numerous
mutations have been found in all these genes. The recent development of
animal models and of in vitro analyses have allowed a better
understanding of the pathophysiological mechanisms
associated with familial hypertrophic
cardiomyopathy. One can thus tentatively draw the
following cascade of events: The mutation leads to a poison polypeptide
that would be incorporated into the sarcomere. This would alter the
sarcomeric function that would result (1) in an altered cardiac
function and then (2) in the alteration of the sarcomeric and myocyte
structure. Some mutations induce functional impairment and support the
pathogenesis hypothesis of a "hypocontractile" state followed by
compensatory hypertrophy. Other mutations induce cardiac
hyperfunction and determine a "hypercontractile" state that would
directly induce cardiac hypertrophy. The development of
other animal models and of other mechanistic studies linking the
genetic mutation to functional defects are now key issues in
understanding how alterations in the basic contractile unit of the
cardiomyocyte alter the phenotype and the function
of the heart.
Key Words: familial hypertrophic cardiomyopathy • genetic mutation • mouse model • sarcomeric protein • alteration in cardiac contractility
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