RESTORATION OF NORMAL GROWTH-CONTROL AND MEMBRANE ANTIGEN COMPOSITION IN MALIGNANT-CELLS BY N,N-DIMETHYLFORMAMIDE

Abstract

The effects of the differentiation agent, N,N-dimethylformamide (DMF), on malignant [mouse embryo] AKR-MCA cells were studied. The properties of DMF-treated AKR-MCA cells were compared to those of the normal parental AKR-2B mouse embryo fibroblasts. AKR-MCA cells grown in 1% DMF were more similar to their normal counterparts than to untreated AKR-MCA cells by several criteria. These criteria included the loss of the transformed morphology, a 2-fold reduction of doubling time, a 10-fold reduction of saturation density, and the complete loss of the ability to grow with anchorage independence. The expression of high-molecular-weight membrane antigens (MW 110,000-450,000), which was found to be greatly reduced in AKR-MCA cells in comparison to normal AKR-2B cells, was restored by treatment of AKR-MCA cells with DMF. The expression of a low-molecular-weight AKR-MCA cell-associated membrane antigen was suppressed. Studies on the mitogenic response of these cells indicated that AKR-MCA and AKR-2B cells may be regulated by different types of growth control. Growth-arrested AKR-MCA cells did not respond to epidermal growth factor, but responded to nutrient replenishment. AKR-2B cells responded to epidermal growth factor, but did not respond to nutrient replenishment. Treatment of AKR-MCA cells with DMF restored their ability to respond to epidermal growth factor, while their ability to respond to nutrient replenishment was lost. The results of this study indicated that DMF treatment induced the normalization of malignant AKR-MCA cells with regard to membrane antigen composition and growth control properties.