ABSTRACT
Although previous studies have shown that cardiac myosin heavy chain (MHC) composition undergoes a switch from the alpha- to beta-isoform in the heart during adult aging, the underlying mechanisms responsible for this switch are unknown. Cardiac MHC gene expression is regulated, in part, by thyroid hormone responsive elements present in the regulatory control regions of the alpha- and beta-MHC genes. Age-associated changes in the expression of thyroid hormone receptors (THRs) and/or retinoid X receptors (RXRs), the heterodimeric partner for THRs, could explain the age-associated changes in MHC expression. Accordingly, we measured mRNA levels for the cardiac muscle MHCs and the rat THR and RXR genes in the left ventricles of Wistar rats at 2, 6, and 24 months of age. Although there were no significant changes in RXR alpha or RXR beta mRNA levels with age, both alpha 1 and alpha 2 THR mRNA levels decreased significantly between 2 and 6 months of age. During this same time period, the mRNA levels for alpha-MHC declined by more than half, whereas beta-MHC mRNA levels remained low and unchanged. On the other hand, between 6 and 24 months, when mRNA levels for beta-MHC increased and alpha-MHC continued to decrease, there was a significant decline in THR beta 1 and RXR gamma mRNA levels accompanied by a reduction in the THR beta 1 and RXR gamma protein levels. These data show a pattern of change that suggests that the decline in alpha-MHC gene expression may be biphasic and due to a decline in alpha 1 (and possibly alpha 2) THR levels between 2 and 6 months of age and a decline in THR beta 1 and RXR gamma levels at later stages. In contrast, the increase in beta-MHC gene expression was associated only with the changes in THR beta 1 and RXR gamma mRNA and protein levels.