Cardiac myofibroblasts isolated from the site of myocardial infarction express endothelin de novo.

Recently it was demonstrated that treatment with a nonselective endothelin (ET) receptor antagonist significantly reduces myocardial infarct size, which suggests a major role for ET in tissue repair following myocardial infarction (MI). Tissue repair and remodeling found at the site of MI are mainly attributed to myofibroblasts (myoFbs), which are phenotypically transformed fibroblasts that express alpha-smooth muscle actin. It is unclear whether myoFbs generate ET peptides and consequentially regulate pathophysiological functions de novo through expression of the ET-1 precursor (prepro-ET-1), ET-converting enzyme-1 (ECE-1), a metalloprotease that is required to convert Big ET-1 to ET-1 and ET receptors. To address these intriguing questions, we used cultured myoFbs isolated from 4-wk-old MI scar tissue. In cultured cells, we found: 1) expression of mRNA for ET precursor gene (ppET1), ECE-1, and ETA and ETB receptors by semiquantitative RT-PCR; 2) phosphoramidon-sensitive ECE-1 activity, which converts Big ET-1 to biologically active peptide ET-1; 3) expression of ETA and ETB receptors; 4) elaboration of Big ET-1 and ET-1 peptides in myoFb culture media; and 5) upregulation of type I collagen gene expression and synthesis by ET, which was blocked by bosentan (a nonselective ETA- and ETB receptor blocker). These studies clearly indicated that myoFbs express and generate ET-1 and receptor-mediated modulation of type I collagen expression by ET-1. Locally generated ET-1 may contribute to tissue repair of the infarcted heart in an autocrine/paracrine manner.