Abstract

The two oncotrophoblast proteins, Regan isoenzyme (placental-type alkaline phosphatase) and human chorionic gonadotrophin, are readily studied oncodevelopmantal gene products in human cancer patients and in three experimental model systems. The latter consists of (a) HeLa sublines TCRC-1 and TCRC-2, which produce Regan and non-Regan isoenzymes, (b) HEp-2 and FL amnion cell lines as models for the reciprocal expression of developmental genes, and (c) modulation in vivo of developmental gene expression in HeLa cells. In the case of the third model, for example, HeLa TCRC-1 cells grow in immunosuppressed rats to form a tumor nodule, which expresses a new oncoamnion (FL) isoenzyme, while the Regan isoenzyme disappears. Return of the tumor cells to cell culture medium results in a disappearance of the oncoamnion (FL) species and the reappearance of Regan isoenzyme. This interesting model is expected to bridge the interpretation of experiments done in cell culture with observations made on tumors of cancer patients. Most helpful in interpretation of all these studies has been a chronology of early development. It appears that the counterparts of a number of tumor proteins appear as early as gametogenesis and as late as 10 weeks of gestation.