The effects of calcium deficiency on the formation of the zonula occludens and blastocoel in the mouse embryo

Abstract The mechanism of fluid transport in the developing preimplantation mouse embryo has been studiedin vitro by inhibiting zonular tight junction formation. Compaction, the morphogenetic process permitting zonular blastomere adhesions at the 8-cell stage, was suppressed by lowering extracellular calcium (Ca). The Ca threshold required for compaction is 0.04–0.06 mM, and in concentrations above the threshold, the rate of compaction is concentration dependent, whereas the rate of blastocyst formation is not and proceeds normally. At 0.02 mM Ca, both compaction and blastocyst development are completely prevented. Although focal tight and gap junctions are present, zonular tight junctions do not develop. We conclude that Ca is required for the maximization of cell-cell contact, but not for focal tight junction and gap junction formation. When early morulae are cultured in 0.02 mM Ca, small trophoblastic vesicles develop frequently with intracellular fluid vacuoles. If early 8-cell embryos are similarly cultured, cell division continues and many blastomeres acquire small intracellular membrane-bounded vaculoes. These coalesce, the cell volume increases, and the nucleus becomes eccentrically positioned, resulting in a giant vacuolated blastomere reminiscent of a miniaturized blastocyst. We propose that (1) vacuole formation may be an exaggeration of an intermediate intracellular step in fluid transport and (2) normal cell polarity established by zonular tight junctions is required for transcellular fluid transport.