Abundant expression of homeobox genes in mouse embryonal carcinoma cells correlates with chemically induced differentiation.

Mammalian homeobox-containing genes might play a role in embryonal pattern formation. In favor of this view is the recently reported expression of such genes during mouse embryogenesis [Manley, J. L. & Levine, M. S. (1985) Cell 43, 1-2]. The embryo-derived stem cells and in particular the pluripotent embryonal carcinoma (EC) cell lines are generally considered as a valid model of early mouse development. Homeobox-containing genes were shown to be expressed in differentiating EC cells. We have analyzed the expression of several of these genes in three EC cell lines triggered to differentiate by alternative treatments in the presence or in the absence of retinoic acid. In both types of conditions, C17S1 (clone 1003) and PCC7.S Aza R1 EC cells were induced to differentiate into mainly neurones, and PSA-1 EC cells were induced to differentiate into a large spectrum of tissue derivatives. Induction to high levels of expression of several homeobox-containing genes during differentiation occurs only in the presence of retinoic acid. Nonchemical treatment triggering differentiation does not lead to detectable expression of these genes. Accumulation to high amounts of homeobox-containing gene transcripts in these experiments seems to correlate with retinoic acid-induced EC cell differentiation rather than with EC cell differentiation as such.