| Abstract: | Rat liver epithelial cells in culture (WIRL-3C) have the enzymes that synthesize serine from 3-phophoglyceric acid. Both phosphoglyceric acid dehydrogenase (PGAD) and serine-phosphate (serine-P) forming activities fluctuate with time after subculture and are higher in growing than confluent cells. This activity pattern was not common for other dehydrogenases in WIRL-3C cells, nor was it common for PGAD activity in other cultured cells. At time of subculture, cells are removed from spent medium, treated with trypsin, and fed fresh medium. None of these parameters causes the rise in activity; in contrast, reduction in cell density and the accompanying stimulation of growth do. PGAD activity decreases when growth is slowed either as the cells progress to the end of the culture cycle, when cells are treated with dexamethasone-phosphate (Dx-P) or dibutyryl cyclic AMP(cAMP) and theophylline or when the serum concentration of the medium is reduced to 0.2%. Under these conditions, decreased PGAD activity is paralleled by a decline in growth and DNA accumulation. PGAD activity in WIRL-3C cells is regulated in a manner closely resembling what has been observed previously in rat liver from the whole animal. The possible use of this system in studying regulation of gene expression in mammalian cells is discussed. |
