DECREASED EXPRESSION OF CALMODULIN MESSENGER-RNA IN HUMAN END-STAGE HEART-FAILURE

Calmodulin (CaM) is the primary Ca2+ regulatory protein in cardiac cells, thus alterations in calmodulin would greatly influence the contractile response and may play a role in the abnormal calcium handling observed in human heart failure. We used Northern blot analysis to determine changes in calmodulin mRNA expression in left ventricular tissues isolated from 20 failing and four control human hearts. Only hearts with failure due to idiopathic dilated cardiomyopathy (DCM) or ischaemic heart disease (IHD) were studied. A human calmodulin cDNA probe 95% homologous to Type 3 CaM was used, which hybridized to a single 2.3 kb mRNA. CaM mRNA levels were expressed as a function of total RNA, as determined by hybridization to an 18S cDNA probe, and as a function of myocyte specific mRNA, as determined by hybridization to a myosin heavy chain (MHC) cDNA probe. In both DCM and IHD, CaM mRNA expression relative to total RNA (CaM/18S), was significantly decreased (45% and 61%, respectively) compared to control hearts. CaM mRNA expression in DCM tissues was also significantly decreased (45%) relative to myocyte specific mRNA (CaM/MHC), when compared to control hearts. In IHD, CaM mRNA was not significantly decreased in relation to myocyte specific mRNA, which suggests a greater loss of myocytes or contractile proteins in IHD as compared with DCM. The decreased expressed of CaM mRNA observed in failing hearts could affect many Ca2+-dependent processes, and contribute to the inability of these hearts to handle Ca2+ in a viable manner. © 1993 Academic Press Limited.