Cell interactions in the developing somite: in vitro comparisons between amputated (am/am) and normal mouse embryos.

Facial, axial and limb development are all abnormal in the homozygous mutant mouse embryo (amputated). An interpretation of cell behaviour in vivo based on sectioned material which may explain these abnormalities has been previously suggested. In this study, somite cells cultured in vitro were found to behave exactly as predicted in this interpretation: they clump together, forming extensive areas of cell contact, and this has a profound effect on their mobility as measured by time-lapse cinemicrography. The similarity of cell behaviour in vitro and in vivo under two distinct sets of environmental conditions suggests that the abnormal cell behaviour is intrinsic to the cell, and directly linked to the mutation. The more extensive areas of cell contact formed between mutant cells suggests that the mutation changes the adhesive properties of the cell surface, but it cannot be excluded that the cells' motile apparatus is also affected.