Regulation of the proliferative response in Rous sarcoma virus transformed chicken embryo fibroblasts by serum and multiplication-stimulating activity (MSA)

Abstract

A temperature sensitive mutant of Rous sarcoma virus (tsNY68) was used to obtain cultures of quiescent virus-infected chicken embryo fibroblasts arrested by serum starvation at the non-permissive temperature. Upon shift to the permissive temperature, these cells enter the replicative cell cycle as evidenced by increases in 2-deoxyglucose uptake, 3H-thymidine incorporation and percent labeled nuclei. These changes occur in the absence of serum and the cells become morphologically transformed within eight to ten hours after the temperature shift. Entry into the S phase temporally resembles that of normal quiescent fibroblasts stimulated with serum. This experimental system was used to examine the proliferative response of transformed cells to serum and purified multiplication-stimulating activity (MSA) during the transition from the resting to the growing state. Data are presented which show that the presence of serum in the medium enhances the proliferative response of quiescent infected cells shifted to the permissive temperature over those shifted in the absence of serum. In contrast, the presence of MSA has no additional effect on the response exhibited by infected cells shifted to the permissive temperature in serum-free medium. Labeled MSA binding experiments show that this lack of response is not due to a loss of MSA receptors on the cell surface since transformed cells are still capable of binding MSA at the same level as normal cells. The results are consistent with the hypothesis that the set of biochemical events initiated by MSA in normal cells are turned on in infected cells shifted to the permissive temperature by the activation of the src gene product.