Isolation and characterization of a near-diploid differentiated cell line from a murine teratocarcinoma that differentiates into muscle

Two classes of continuous cell lines established from Syrian hamster 9 day gestation embryos: preneoplastic cells and progenitor cells

Primary cultures of 9-d-gestation Syrian hamster embryo (E9) cells are distinct from primary cultures of later gestational age in terms of their growth and differentiation. First, primary E9 cell cultures express multiple mesenchymal differentiation lineages (e.g., adipocyte, myoblast) only rarely seen in cultures of 13-d-gestation fetal (F13) cells. Second, although most primary E9 cultures have a limited in vitro proliferative life span and exhibit cellular senescence similar to primary cultures of F13 cells, E9 cultures seem to have higher frequency of escape from senescence and conversion to continuous cell lines compared to F13 cells. Moreover, this frequency can be further increased 4- to 5-fold by continuous exposure of the E9 cells to tumor promoters or epidermal growth factor. Eleven continuous cell lines have been isolated from untreated, promoter-treated, or epidermal growth factor-treated primary E9 cultures. Seven of these are neoplastic or preneoplastic. However, the remaining four do not show any evidence of being in neoplastic progression and three of these continue to express the same differentiated phenotype observed in ther parental primary cell cultures.

Differentiation of F9 embryonal carcinoma cells. Differences in the effects of retinoic acid, 5-bromodeoxyuridine, and N'-N'-dimethylacetamide

We found that monolayer cultures of F9 cells induced to differentiate with trans-retinoic acid (RA) contain two major subpopulations of cells. These two cell types can be distinguished by their cellular morphology, their pattern of laminin accumulation, and their ability to undergo further differentiation in response to N6-O2-dibutyryl adenosine 3':5' cyclic monophosphoric acid (dBcAMP). Furthermore, the developmental pathway induced by RA appears to lead to two alternative pathways, and differentiation at the branch point is either directly or indirectly controlled by cAMP. Differentiation along one branch of this pathway can be induced by 5-bromodeoxyuridine, whereas differentiation along an unrelated pathway is induced by N'-N'-dimethylacetamide. In all cases, differentiation is closely paralleled by suppression of the tumorigenic phenotype, indicating that these two processes are tightly linked and probably share a common step.