Age-related alterations in plasma membrane glycoprotein content and scheduled or unscheduled DMA synthesis

Abstract

WI-38 cells of various ages and SV40-transformed WI-38 cells were examined for differences in plasma membrane composition of glycoproteins and DNA synthesis. Sialic acid per milligram of protein content of the membranes of WI-38 cells decreased with passage of time in culture. Other glycoprotein fractions and alkaline phosphatase activity disappeared in the WI-38 cells with passage of time in culture (Phase III). Studies of DNA repair correlated with changes observed in the plasma membrane glycoprotein content of WI-38 cells over a passage of time in culture were also reported. Both the extent and rate of ultraviolet-induced unscheduled DNA synthesis remained relatively constant during the passage of the WI-38 cells until late phase III. At that time the extent of unscheduled DNA synthesis was measurably reduced. The number of cells in a population of phase III cells able to perform semiconservative DNA synthesis diminished with age in culture but not to an extent capable of explaining the observed changes seen in membrane composition of semiconservative DNA synthesis during passage of the cells in culture. Cells with an extended lifespan SV40-transformed WI-38 (VA 13.2 RA) cells, did not vary in membrane composition, semiconservative DNA synthesis, or unscheduled DNA synthesis over 200 serial subpassages of the cells in culture.