The apical lamina and its role in cell adhesion in sea urchin embryos.

Abstract

The hyaline layer (HL) is an extracellular matrix surrounding sea urchin embryos which has been implicated in a cell adhesion and morphogenesis. The apical lamina (AL) is a fibrous meshwork that remains after removal of hyalin from the HL and the fibropellins (FP) are glycoproteins thought to be the principal components of the AL. Using anti-FP antibodies (AL-1 and AL-2) we report immunoprecipitations and affinity purifications yield a high molecular weight complex comprised of the FP glycoproteins. The three components form a complex, stabilized by disulphide cross-linking and have stochiometric ratios of 2 FPIa molecules to 1 each of FPIb and FPIII. Pulse chase experiments indicate all 3 FP's are synthesized throughout development with peaks in synthesis during cleavage and a sustained peak beginning at hatching. Using immunogold and immunoperoxidase localization, the FP localize to a fibrillar complex forming the innermost layer of the HL. In cell adhesion experiments, cells adhere to affinity purified FP in a temperature, time and concentration dependent manner. Cell adhesion to Fp is about 70% of that seen when hyalin is used as a substrate. Pretreating with AL-1 and AL-2 reduces in vitro cell adhesion by about 65%. We conclude FP's form a fibrillar complex, which is synthesized throughout early development and functions, with other components of the HL, as a substrate for cell adhesion.