RXRα overexpression in cardiomyocytes causes dilated cardiomyopathy but fails to rescue myocardial hypoplasia in RXRα-null fetuses

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Abstract

Retinoid X receptor α–null (RXRα-null) mutants exhibit hypoplasia of their ventricular myocardium and die at the fetal stage. In the present study, we wished to determine whether transgenic re-expression of RXRα in mutant cardiac myocytes could rescue these defects. Two transgenic mouse lines specifically overexpressing an RXRα protein in cardiomyocytes were generated, using the cardiac α-myosin heavy chain (α-MHC) promoter. Breeding the high copy number transgenic line onto an RXRα-null genetic background did not prevent the myocardial hypoplasia and fetal lethality associated with the RXRα–/– genotype, even though the transgene was expressed in the ventricles as early as 10.5 days post-coitum. These data suggest that the RXRα function involved in myocardial growth may correspond to a non–cell-autonomous requirement forsignal orchestrating the growth and differentiation of myocytes. Interestingly, the adult transgenic mice developed a dilated cardiomyopathy, associated with myofibrillar abnormalities and specific deficiencies in respiratory chain complexes I and II, thus providing an additional model for this genetically complex disease.

Authors

Vemparala Subbarayan, Manuel Mark, Nadia Messadeq, Pierre Rustin, Pierre Chambon, Philippe Kastner