Retinoic acid down-regulates the expression of EmH-3 homeobox-containing gene in the freshwater sponge Ephydatia muelleri

Abstract

The effects of retinoic acid (RA), a common morphogen and gene expression regulator in vertebrates, were studied in the freshwater sponge Ephydatia muelleri, both on morphogenesis and on the expression of EmH-3 homeobox-containing gene. At 0.3 microM, RA had no noticeable influence on sponge development, slightly up-regulating EmH-3 expression. In contrast, in sponges reared in 10, 8 microM and to a lesser extent 2 microM RA, there was a strong down-regulation of EmH-3 expression after hatching. This induced modifications in cell composition and morphology, greatly disturbing normal development. Archaeocytes kept the features found in newly hatched sponges while choanocytes and a functional aquiferous system were completely absent. The inhibition of morphogenesis and down-regulation of EmH-3 expression were reversible when sponges were no longer subjected to RA. After RA removal, EmH-3 expression returned to the high values found in untreated sponges, archaeocytes differentiated into choanocytes and sponges achieved a normal development. These results clearly show that, in freshwater sponges, the most primitive metazoan, RA may also act as a morphogen, regulating the expression of a homeobox-containing gene. They demonstrate that the expression of EmH-3 is necessary for the differentiation of archaeocytes into choanocytes and hence for the formation of a complete functional aquiferous system.