Induction of two transformation-sensitive membrane polypeptides in normal fibroblasts by a block in glycoprotein synthesis or glucose deprivation.

Following transformation of chick embryo fibroblasts (CEF) by avian RNA tumor viruses, two membrane polypeptides with apparent molecular weights of 90,000 and 75,000 daltons have been found to be increased (Stone, Smith and Joklik, 1974). We find that this alteration in membrane proteins is not directly related to transformation.The 90,000 and 75,000 dalton proteins are present in increased amounts in a 3T3 fibroblast mutant (AD6) defective in glycoprotein synthesis. Feeding the mutant N-acetylglucosamine, a metabolite that bypasses the metabolic block, restores the amount of these two proteins to the levels found in normal cells. The 75,000 dalton protein is markedly reduced, and the 90,000 dalton protein disappears and is replaced by a fully glycosylated derivative with a molecular weight of 92,000 daltons.Two glucose derivatives, glucosamine and 2-deoxyglucose, are known to interfere with the glycosylation process. The addition of these substances to normal CEF and 3T3 cells specifically induces the accumulation of the 90,000 and 75,000 dalton membrane polypeptides.Finally, the deprivation of glucose for 24–48 hr also induces the synthesis of the 90,000 and 75,000 dalton polypeptides in normal fibroblasts. The induction of these two proteins by glucose starvation suggests that they have a role in glucose utilization.