Identification of an Autocrine Signaling Pathway That Amplifies Induction of Endocardial Cushion Tissue in the Avian Heart

Abstract

Endocardial cushion tissue is formed by an epithelial-mesenchymal transformation of endocardial cells, a process which results from an inductive interaction between the myocardium and endocardium within the atrioventricular (AV) and outflow tract (OT) regions of the heart. We report here that a protein previously found to be required for myocardially induced transformation of endocardial cells in vitro, ES/130, is highly expressed within the AV and OT regions not only by myocardial cells, but also by the endocardium and its mesenchymal progeny. Given these findings and others, we have tested the hypothesis that endocardial cushion tissue secretes factors which autoregulate its transformation to mesenchyme. Endocardial cushion tissue was cultured and its conditioned growth medium was harvested and applied to nontransformed endocardial cells maintained in the absence of the inductive myocardium. This treatment resulted in endocardial cell invasion into three-dimensional collagen gels plus increased expression of proteins associated with endocardial cell transformation in vivo. Whereas endocardial cushion tissue was found to express ES/130 protein in vivo and in vitro, minimal detection of ES/130 in its conditioned growth medium was observed in immunoblots. Attempts to inhibit the mesenchyme-promoting activity of the conditioned medium with ES/130 antisense were unsuccessful. However, strong intracellular ES/130 expression was detected in endocardial cells, and this expression correlated with the ability of endocardial cells to transform. For example, the minority of endocardial cultures that failed to transform in response to conditioned medium treatment also failed to undergo increased expression of ES/130. These observations are interpreted to suggest that (i) endocardial cushion tissue secretes factors that promote its transformation to mesenchyme, and (ii) while endocardial cushion tissue appears to signal through secretion of factors other than or in addition to ES/130, intracellular ES/130 expression nevertheless may be a target endocardial cell response required for endocardial cell transformation.