Comparative studies of two types of “spontaneous” malignant alteration of ST/A mouse lung fibroblasts propagated in vitro

Abstract

Two types of apparently spontaneous malignant alterations of fibroblastlike ST/a mouse lung cells (ST-L cells) grown in vitro are described. One type is characterized by a high tumorigenic potential of the altered cells in nonconditioned syngeneic recipients, a fibro-blastlike morphology with cell surface showing very few microvilli by scanning electron-microscopy (SEM), and a growth pattern typical of nontransformed cells. These cells were described as R⁻ cells. The other type is characterized by a low tumorigenic potential in nonconditioned, immunocompetent syngeneic recipients, rounding up of the cells which by SEM showed numerous microvilli on the surface, and a growth pattern typical of transformed cells. These cells were described as round cells or R⁺ cells. In immunoincompetent mice, R⁺ cells readily produced sarcomas, which grew faster than those produced by R⁻ cells. Both types of ST-L cells expressed murine leukemia virus (MuLV) when tested in a peroxidase anti-p30 plaque test. The concentration of murine leukemia virus envelope glycoprotein (gp70) has previously (5) been shown to be threefold higher in R⁺ cells compared to R⁻ cells. Furthermore, round-cell transformation was accompanied by the development of crossreacting rejection antigens protective against a secondary challenge with Ehrlich ascites tumor and with syngeneic dimethylbenzanthracene induced ST/a mouse leukemia (STABAL). A similar protection was obtained by preimmunization with a cloned embryonic feral mouse cell line (SC-1) infected with ST-L virus as well as with virus-free SC-1 cells, suggesting the presence of rejection antigens both of viral (gp70) and nonviral origin.