EGF-dependent phosphorylation of the EGF receptor in plasma membranes isolated from young and senescent WI-38 cells

Tyrosine-specific phosphorylation of the receptor for epidermal growth factor (EGF) in plasma membranes isolated from WI-38 cells is EGF-dependent and occurs to an equivalent extent and on identical tryptic peptides in preparations from cells of various in vitro ages. There is a marked reduction, however, in phosphorylation of receptor molecules from senescent as compared with young WI-38 cells, if enzyme activity is assayed in an immune complex following solubilization of plasma membranes with Nonidet P-40 (NP-40). Differences in the level of receptor phosphorylation in young vs. senescent NP-40 extracts are not resolved by changing the temperature at which the assay is performed, or the length of incubation. Moreover, addition of NP-40 or chloroform-methanol extracts of young cells to assays measuring receptor phosphorylation in senescent cell NP-40 preparations does not augment the senescent enzyme activity. The immunopurified senescent receptor is, however, capable of catalyzing phosphorylation of exogenous substrates. These results indicate that the loss of receptor autophosphorylation in solubilized preparations may result from a differential sensitivity of the senescent cell receptor to the detergent. This finding provides a marker for senescence and suggests subtle changes in protein structure, conformation, or regulation of the EGF receptor in senescent cells.     

HDACs and the senescent phenotype of WI-38 cells

Background  

Normal cells possess a limited proliferative life span after which they enter a state of irreversible growth arrest. This process, known as replicative senescence, is accompanied by changes in gene expression that give rise to a variety of senescence-associated phenotypes. It has been suggested that these gene expression changes result in part from alterations in the histone acetylation machinery. Here we examine the influence of HDAC inhibitors on the expression of senescent markers in pre- and post-senescent WI-38 cells.     

Glycosylases that excise modified DNA pyrimidines in young and senescent human WI-38 fibroblasts

Cellular DNA is continuously subject to damages by both endogenous and exogenous oxidizing agents. Excision repair in human cells is initiated by DNA glycosylases which remove oxidized bases from DNA. 5-Hydroxymethyluracil-DNA glycosylase excises 5-hydroxymethyluracil from DNA. A different enzyme has glycosylic activity against many ring-saturated DNA pyrimidines. Levels of these enzymes were examined in WI-38 fibroblasts of different culture ages. All glycosylases were assayed by measurements of direct release of modified free bases from their respective DNA substrates. Levels of 5-hydroxymethyluracil-DNA glycosylase were reduced in aging cells. Specific activities of the glycosylase that releases ring-saturated pyrimidines and of uracil-DNA glycosylase were not substantially altered in senescent cells. Therefore, although aging cells might have reduced excision of DNA 5-hydroxymethyluracil, there is no overall age-dependent decrease of DNA glycosylase activities.     

Prolyl and lysyl hydroxylase activation and cofactor specificity in young and senescent WI-38 fibroblast cultures.

The activation of prolyl hydroxylase and lysyl hydroxylase by ascorbate was studied in young and senescent WI-38 fibroblast cultures using a tritium-release assay. Prolyl hydroxylase activity could be increased 3–4 fold in young cultures but remained unchanged in senescent cultures when these cultures underwent a two-hour preincubation in medium containing 0.2mM sodium ascorbate. Lysyl hydroxylase levels were unaffected both in young and senescent cultures. In another series of experiments, ascorbate was replaced with several other compounds in the tritium-release assay demonstrating that this reducing agent is not a specific cofactor of the partially purified enzymes from WI-38 cultures.     

Renewed DNA synthesis in senescent WI-38 cells by expression of an inducible chimeric c-fos construct.

As normal human cells approach the end of their proliferative lifespan in vitro they lose responsiveness to a variety of growth factors, to which they respond with DNA replication when they are young. Recently it has been reported that the protooncogene c-fos is not expressed in senescent cells (Seshadri and Campisi, 1990). In this study we have found that both c-jun and jun B, partners of c-fos in heterodimeric transactivating complexes, are equivalently expressed in young and senescent cells at both early (1-6 hr) and late (12 or 16 hr) time points following serum stimulation of quiescent cells. We have also investigated the effect of the enforced expression of c-fos in senescent WI-38 cells using an inducible construct carrying the murine c-fos gene under the control of the sheep metallothionein promoter. We have found that the transient transfection and subsequent activation of the conditional promoter with Zn++ stimulated DNA synthesis in a significant fraction of senescent cells which had completed 90%-95% of their proliferative lifespan. However, populations which had completed 100% of their proliferative life span and nondividing cultures which had been selected with BrdU did not respond to the expression of the c-fos gene. These results demonstrate that one of the primary events associated with senescence in human cells is the suppression of c-fos gene expression, but additional phenotypic changes must also occur in order to explain the ultimate loss of proliferative responsiveness of these cells.     

Comparison of EGF receptors from young and old WI-38 cells

EGF receptors from young and old WI-38 cells were compared by immunoprecipitation of the receptor followed by electrophoresis. There was no difference in molecular weight between young and old receptors. Both were composed of two components with molecular weights of about 165,000 and 145,000. Young EGF receptors were phosphorylated when incubated with (gamma-32P)ATP. Old receptors had markedly reduced phosphorylation, indicating a loss of kinase activity with age. These results demonstrate a major metabolic difference between young and old cells which clarifies the nature of the decline in mitogenic response with age.     

Reactivation of chick erythrocyte nuclei in young and senescent WI38 cells

The chromatin of the dormant chick nucleus is dispersed in the heterokaryons made by Sendai virus fusion of phase II WI38 cells with chick erythrocyte nuclei. The erythrocyte nucleus resumes RNA synthesis and enters into DNA synthesis with the host nucleus. In the heterokaryons of phase III WI38 cells and chick erythrocytes, the nuclear chromatin is not dispersed and RNA synthesis occurs at a reduced rate. The differences in the physiological state of the young and senescent cells measured by [³H]uridine incorporation into nuclear RNA is reflected in the extent of reactivation of the chick erythrocyte nuclei in the cytoplasm of these cells. The reactivation of the chick nucleus in enucleated fibroblasts parallels the nucleated cells. The results of these studies are interpreted as evidence that there is a specific loss of nuclear function in the senescent cells.     

Subcellular fractionation of WI-38 fibroblasts: Compatison between young and old cells

WI-38 fibroblasts cultivated in vitro were homogenized and their subcellular organelles analysed by the techniques of differential centrifugation and isopycnic equilibration in density gradient. In these experiments, the assayed enzymes were known to be specifically associated with subcellular components in other cells types. In most cases, their behaviour and properties corresponded with observations made in earlier studies and we could consider them as being representative of the specific subcellular organelles.Some significant differences were observed between young and old fibroblasts. The specific activity of alkaline phosphodiesterase was lower in the old cells whereas for the other enzymes it was identical or higher, especially for the 5′-nucleotidase; also the particulate fractions obtained by differential centrifugation contained more material. After equilibration in density gradient, the average density of the 5′-nucleotidase, alkaline phosphodiesterase and $\text{N-}\text{acetyl}\text{-β-}\text{D}\text{-glucosaminidase}$ was less in the old than in the young cells, whereas that of the galactosyltransferase of Golgi apparatus was greater. For mitochondria, endolasmic reticulum and peroxisomes, the differences observed were small.     

Reinitiation of cellular DNA synthesis in BrdU-selected nondividing senescent WI-38 cells by simian virus 40 infection

Bromodeoxyuridine-selected nondividing senescent WI-38 cells were stimulated to synthesize DNA, as evidenced by incorporation of [3H]thymidine into nuclei of senescent cells, after infection with simian virus 40 (SV40). Cellular DNA synthesis was confirmed by DNA-DNA hybridization experiments and the use of temperature-sensitive A gene mutants. The DNA synthesis was, at least in part, semiconservative, as microdensitometry of Feulgen-stained nuclei revealed increased DNA content in a large fraction of the cells in the infected population. Thus, senescent cells retain the capacity to replicate their DNA, despite their intrinsic inability to initiate DNA synthesis.     

Autofluorescent structures in cultured WI-38 cells

Human fibroblasts (WI-38) were monitored for intracellular fluorescence at several passage levels. It was found that late-passage cells contained marked increments in particulate intracellular fluorescence when compared with early-passage cells. Intracellular hydrolysis of α-glycerophosphate at pH 5 was used to localize acid phosphatase activity. Most fluorescent structures contained acid phosphatase, and it was concluded that the fluorescence was associated with lysosomes. Autoradiographic analysis of labeled-thymidine uptake into nuclei was employed to distinguish dividing and nondividing cells in cultures of varying passage levels, and these results were correlated with intracellular fluorescence. It was found that cells containing high levels were unable to incorporate thymidine into nuclei. These results suggest a correlation between fluorescence accumulation in lysosomes during aging and inhibition of cell cycling.     

Glutamine synthetase activity in WI-38 cells

In the presence of complete growth media (Eagle's MEM), human diploid WI-38 cells have a low level of glutamine synthetase activity. The activity could be increased by depriving the cells of exogenous glutamine; addition of hydrocortisone to either glutamine-deficient or complete medium had no effect on the activity of the enzyme. Cell growth ceased under conditions that enhanced glutamine synthetase activity, and hydrocortisone could not reverse this inhibition.     

Differences in electron transport potential,antioxidant defenses,and oxidant generation in young and senescent fetal lung fibroblasts (WI-38)

The activities and mRNA abundances of enzymes that regulate the rate of electron flow through the electron transport chain (ETC), including NADH dehydrogenase, succinate dehydrogenase, and cytochrome c oxidase, were examined in young and senescent fetal lung fibroblasts (WI-38). We also determined the activities and mRNA abundances of antioxidant defenses including superoxide dismutase, catalase, and glutathione peroxidase. We confirmed our previous report of a senescence-related increase in the abundance of ND4, a mitochondrially encoded subunit of NADH dehydrogenase. The activities of cytochrome c oxidase and NADH dehydrogenase were also elevated in senescent cultures. No differences were observed in the mRNA abundances of COX-1, a mitochondrially encoded subunit of cytochrome c oxidase or of nuclearly encoded subunits of various electron transport components (SD, COX-4, and ND 51). Lucigenin-detected chemiluminescence and H₂O₂ generation were both elevated in senescent cells. Catalase activity was also elevated in senescent fibroblasts. However, no differences in catalase mRNA abundance were observed. A small decrease in GSH peroxidase (GPx) mRNA abundance was observed in senescent cells. No other changes in the activities or mRNA abundances of any of the antioxidant defenses were observed in early and late passage cultures. The relationships between oxidant generation, mitochondrial enzyme activities, and antioxidant defense observed during proliferative senescence are dissimilar to those detected between fetal and postnatal fibroblasts as well as those found between fibroblast lines obtained from young and old individuals. The relevance of the differences between these models is discussed. J. Cell. Physiol. 180:114–122, 1999. © 1999 Wiley-Liss, Inc.     

Replicative potentials of various fusion products between WI-38 and SV40 transformed WI-38 cells and their components

Hybrid cells derived from whole-cell fusions of replicating phase-II normal fibroblast cells (WI-38s) with SV40 transformed WI-38 fibroblast cells (CL-1s) demonstrated that the majority of the hybrid experimental cells still maintained a finite life-span. Approximately 2% demonstrated sustained and possibly indefinite replication. Experimental binucleate cells and subsequent hybrid synkaryons were also formed by fusing CL-1 karyoplasts into phase-II WI-38 replicating normal fibroblasts. In addition, viable cells were constructed from WI-38 fibroblast cytoplasts with CL-1 karyoplasts. Sustained replication was not observed in these crosses.     

Repair of x-ray damage in aging WI-38 cells

Rate of strand rejoining and the ability to perform repair replication were determined in young ad old X-irradiated WI-38 cells. No differences in either process were apparent and we conclude that reduced efficiency in one or both of them is not responsible for _{in vitro} aging of human cells.     

Effect of ascorbic acid on rhinovirus replication in WI-38 cells.

Exposure of WI-38 cells to ascorbic acid plus glutathione mixtures in growth medium for 2 days prior to infection with rhinovirus serotype 20 and during virus replication suppressed multicyclic but not single-cycle growth of the virus. Multicyclic growth was suppressed over the range of multiplicity of infection (m.o.i.) of 4 times 10-minus 1 minus 4 times 10-minus 4 PFU/cell. There was some suggestion that, in the presence of ascorbic acid plus glutathione, interferon was produced at the highest m.o.i. tested but at barely detectable levels.     

Induction of alpha type DNA polymerases in human cytomegalovirus-infected WI-38 cells.

Productive infection of WI-38 cells with human cytomegalovirus (HCMV) induced the increase in the activity of DNA polymerases as well as the synthesis of viral and cellular DNA. Sedimentation analyses in sucrose gradients of high ionic strength showed that the HCMV infection caused marked increase in the activity of alpha-type polymerases (resolved into alpha1, 8 S, and alpha 2, 6 S, in the present experiments), while the infection little affected the level of beta-type polymerase (about 3.5 S) activity in both the nuclei and cytoplasm. Such increase in alpha-type polymerases was also observed when DNA synthesis in WI-38 cells was enhanced by SV40 infection or by an increased concentration of serum in medium. Phosphonacetate, which selectively blocked the synthesis of HCMV DNA, did not significantly affect the HCMV-mediated induction of DNA polymerases. However, phosphonoacetate added in the reaction mixture for DNA polymerase assay inhibited the activity of the HCMV-induced polyperase alpha, but not of the polymerases alpha2 and beta. These results support the idea that alpha-type polymerases are involved in the replicative synthesis of cellular and viral DNA.