Molecular analysis of heterochronic changes in the evolution of direct developing sea urchins

Abstract

The sea urchin Heliocidaris erythrogramma is a direct developer; it progresses directly from the gastrula to the juvenile adult without forming a pluteus larva. No larval skeleton is formed by mesenchyme cells, but formation of the juvenile skeleton is accelerated. We have examined two alterations in mesenchyme cell behavior that accompany this striking change in developmental pattern. 1) Rapid cell proliferation produces 1700–2200 mesenchyme cells by mid‐gastrula, compared to 30–60 primary mesenchyme cells in species with typical larval development. This change may reflect the accelerated production of adult structures in H. erythrogramma. 2) B2C2 is a monoclonal antibody that recognizes primary (Anstrom et al., 1987) and adult mesenchyme cells associated with skeleton formation in typical developers. The altered pattern of B2C2 staining in H. erythrogramma (e.g., a later initial appearance of the B2C2 antigen) suggests that H. erythrogramma has deleted part of a larval program of development and accelerated its adult program of development. These results indicate that cellular and molecular heterochronies accompany the morphological changes in H. erythrogramma development. Copyright © 1988, Wiley Blackwell. All rights reserved