Alterations of cAMP metabolism and hormone responsiveness of cloned differentiated rat liver cells (RL-PR-C) upon spontaneous transformation

In normal Rat Liver Primary Culture (RL-PR-C) liver cells, cAMP was low prior to confluency, then rose continuously as cells became contact inhibited. In contrast, spontaneously transformed RL-PR-C cells did not become contact inhibited, and cAMP decreased steadily with increasing cell density. Normal cells released large amounts of cAMP into the extracellular fluid at all densities, while transformed cells did not do so at any density. Neither exogenous db-cAMP nor phosphodiesterase inhibitors reversed the uncontrolled growth of transformed cells, nor did conditioned media from contact-inhibited normal cells.While both normal and transformed RL-PR-C hepatocytes produced large amounts of cAMP in response to epinephrine and cholera toxin, transformed cells were much more sensitive to these agents; however, only normal cells responded to glucagon. Although the plasma membrane adenylate cyclase of transformed hepatocytes responded better than did that of normal cells to epinephrine, cholera toxin and fluoride, the basal cyclase activity of transformed cells was only about half that of normal cells. The adenylate cyclase of transformed cells did not respond to glucagon, although the number of glucagon receptors of such cells far exceeded that of normal cells. The V_max of cyclic nucleotide phosphodiesterase of normal hepatocytes was five times that of transformed cells, although the K_m was unchanged.The data indicate that spontaneous transformation of diploid differentiated RL-PR-C hepatocytes leads to cultural hormone receptor and cAMP changes similar to those seen in undifferentiated fibroblasts and other cells transformed by viruses and chemical carcinogens. Although there are significant changes in various parameters of cAMP metabolism upon transformation, decreased cAMP per se does not seem to be responsible for transformation. Furthermore, it is possible that following transformation, these hepatocytes lose some factor necessary for coupling of the glucagon receptor to adenylate cyclase.