Inhibitory effects of ouabain on early heart development and cardiomyogenesis in the chick embryo

Abstract

Pericardial cavity formation and epithelialization of the cardiac precursor cell population constitute a critical developmental period that precedes stable cardiac cell commitment and differentiation. These events delineate the myocardial and endocardial precursor population in the embryo. Restriction of Na/K-ATPase (the sodium pump) expression to the pre-cardiomyocyte lateral membranes coincides with these events. Na/K-ATPase has been implicated developmentally in cavitation and in maintaining membrane potential. Experiments were undertaken to determine if the effects of perturbing sodium pump activity will affect pericardial cavity formation and, in turn, whether heart formation and/or cardiac cell commitment will be affected. We incubated whole chick embryos in vitro between stages 5 to 8 in the presence of the highly specific Na/K-ATPase inhibitor ouabain. Exposure of whole embryos to 10 microM ouabain (10(-5) M) demonstrated that heart development and precardiomyocyte differentiation are inhibited principally between stage 5 through stage 7. In each stage the degree of inhibition follows a rostrocaudal gradient as development proceeds along the anterior to posterior axis. After stage 8 ouabain no longer affects heart development or cardiomyogenesis. The inhibition is concentration- and developmental stage-dependent. The inhibition is reversible by elevating the outside potassium ion concentration [Ko] in the culture medium or by transferring the embryos into normal medium minus ouabain even after 20 hr of ouabain exposure. The results also suggest that the regulation of the formation of the three-dimensional organ is independent from regulation of myogenesis.