Putative role for EPC-1/PEDF in the G0 growth arrest of human diploid fibroblasts

EPC-1/PEDF expression is closely associated with reversible growth arrest in normal human diploid fibroblast-like (HDF) cells and is diminished with proliferative senescence in vitro. EPC-1 expression in HDF cells is induced under conditions of density-dependent contact inhibition and growth factor deprivation. Antiserum generated against EPC-1 recognizes a secreted protein of approximately 50 kDa from medium conditioned by early passage HDF cells, but not from senescent cells. The addition of EPC-1 antiserum to early population doubling level (PDL) cultures near the plateau phase of growth significantly increases the number of cells entering DNA synthesis. Affinity purified EPC-1 antibodies alone enhance the ability of near plateau-phase early PDL WI-38 cells to synthesize DNA by as much as threefold. Further, the addition of recombinant EPC-1 (rEPC-1) to logarithmically growing cells resulted in a marked decrease in the ability of these cells to enter DNA synthesis. We also demonstrate the loss of EPC-1 expression in WI-38 and IMR-90 HDF cell lines with both senescence and simian virus 40 (SV40) transformation. The loss of EPC-1 expression with SV40 transformation occurs at the level of steady-state mRNA and protein accumulation with genomic EPC-1 sequences grossly intact. Taken together, these results suggest that EPC-1 may play a role in the entry of early passage fibroblasts into a G(0) state or the maintenance of such a state once reached.     

Analysis of the growth factor requirements for stimulation of WI-38 cells after extended periods of density-dependent growth arrest

When cultures of WI-38 human diploid fibroblasts reach high cell densities, they cease to proliferate and enter a viable state of quiescence. WI-38 cells can remain in this quiescent state for long periods of time; however, the longer the cells remain growth arrested, the more time they require to leave G0, progress through G1, and enter S after stimulation with fresh serum. The experiments presented here compare the response of long-term quiescent WI-38 cells (stimulated 26 days after plating) and short-term quiescent WI-38 cells (stimulated 12 days after plating) to treatment with a variety of individual purified growth factors instead of whole serum. Our results show that the qualitative and quantitative growth factor requirements necessary to stimulate G1 progression and entry into S were the same for both short- and long-term quiescent WI-38 cells, in that the same defined medium (supplemented with epidermal growth factor [EGF], recombinant human insulin-like growth factor 1 [IGF-1], and dexamethasone [DEX]) stimulated both populations of cells to proliferate with the same kinetics and to the same extent as serum. However, the long-term quiescent WI-38 cells were found to exhibit a difference in the time during which either serum or these individual growth factors were required to be present during the prereplicative period. We believe that this difference may be the cause of the prolongation of the prereplicative phase after stimulation of long-term density-arrested WI-38 cells.     

Changes in membrane transport function in G0 and G1 cells

Confluent quiescent monolayers of aneuploid and euploid cells in culture can be stimulated to proliferate by appropriate nutritional changes. In confluent monolayers of WI-38 human diploid fibroblasts the uptake of cycloleucine is increased three hours after these cells are stimulated to proliferate by a change of medium plus 10% serum. No changes in the uptake of cycloleucine are observed in logarithmically-growing WI-38 cells exposed to fresh medium plus 10% serum, or in WI-38 confluent monolayers in which the conditioned medium has been replaced by fresh medium with 0.3% serum (a change that does not cause stimulation of cellular proliferation in WI-38 cells). In 3T6 cells in the stationary phase stimulated to proliferate by nutritional changes, there is a prompt increase in the uptake of cycloleucine, within one hour after stimulation of cell proliferation. Similar results were obtained with stationary 2RA cells which are SV-40 transformed WI-38 fibroblasts. In addition, chromatin template activity which is known to increase in the early stages after stimulation of confluent WI-38 cells, was unchanged in confluent 3T6 or 2RA cells stimulated to proliferate. These results show that at least two of the very early biochemical events occurring in response to stimulation of cell proliferation are different in WI-38 diploid cells and in aneuploid 2RA or 3T6 cells. It is proposed that WI-38 cells in the stationary phase are arrested in the G₀ phase of the cell cycle, while 2RA and 3T6 cells are arrested in the G₁ phase.     

Effects of prolonged quiescence on neuclei and chromatin of WI-38 fibroblasts.

DNA synthesis and cell division are markedly reduced in confluent mono-layers of WI-38 diploid fibroblasts, but resume again if the depleted medium is replaced by fresh medium containing 10% fetal calf serum. If the cells are kept quiescent for prolonged periods of time after confluence (1 or 2 weeks), the fraction of cells that can be stimulated to proliferate by fresh serum decreases and the length of the prereplicative phase increases. The template activity of isolated nuclei decreases with increasing time of quiescence, and parallel changes occur in chromatin as evidenced by circular dichroism spectra and capacity to bind the intercalating dye, ethidium bromide. When WI-38 cells are stimulated to proliferate after prolonged quiescence, the increase in template activity of nuclei is delayed by several hours in comparison to cells stimulated after short periods of quiescence. Two distinct steps, both requiring serum, can be identified in the prereplicative phase of cells stimulated to proliferative after prolonged quiescence. We interpret the results as indicating that, during prolonged quiescence, WI-38 fibroblasts go into a deeper GO state from which they can be rescued only after prolonged stimulation. In this respect, prolonged quiescence may bear some resemblance to the process of aging.     

Selective Loss of CDC2 and CDK2 Induction by Tumor Necrosis Factor-α in Senescent Human Diploid Fibroblasts

Normal human diploid fibroblasts undergo a finite number of doublings in culture. This process of senescence is accompanied by a loss in the ability to respond to proliferative stimuli and is therefore distinct from the quiescent state induced by nutrient deprivation. We have studied changes in gene expression induced in these cells following exposure to the cytokine, tumor necrosis factor-α (TNF). We observed that TNF induced CDC2 and CDK2 expression in early-passage quiescent WI-38 fibroblasts. However, as cells approached senescence, their ability to induce CDC2 and CDK2, as well as stimulate DNA synthesis in response to TNF, progressively declined, with minimal to absent induction in senescent cells. This occurred despite the TNF-dependent induction of such proliferation-independent genes as manganese superoxide dismutase and interleukin-6 in senescent and quiescent cells. Serum was similarly unable to induce CDC2 or CDK2 expression in senescent cells. These results demonstrate that senescent cells are selectively deficient in TNF-mediated induction of CDC2 and CDK2, genes crucial to DNA synthesis and mitosis.     

Expression of c-myc and induction of DNA synthesis by platelet-poor plasma in human diploid fibroblasts

When WI-38 human diploid fibroblasts become confluent, they stop synthesizing DNA and dividing. Addition of serum causes the quiescent cell to reenter the cell cycle. Prolonged quiescence after confluence decreases and delays the response to serum. For a few days after reaching confluence, WI-38 cells also respond to platelet-poor plasma. During this period, although not cycling, WI-38 cells still express c-myc and other growth-regulated genes, as measured by steady-state RNA levels. If the quiescence is prolonged further, c-myc expression (and that of two other growth-regulated genes) is no longer detectable, and its disappearance coincides with a loss of response to platelet-poor plasma. These results suggest that, also under physiological conditions, the expression of c-myc and other growth-regulated genes can cooperate with platelet-poor plasma in inducing cellular DNA synthesis in human diploid fibroblasts.     

Changes in the G0 state of WI-38 fibroblasts at different times after confluence

Some events in the prereplicative phase of WI-38 human diploid fibroblasts stimulated to proliferate are found to be a function of the length of time the cells have been quiescent. At 5 days after plating, when the cells first become confluent, the prereplicative phase upon stimulation by a nutritional change is relatively short, DNA synthesis begins at 8 h after stimulation, and there is no increase in chromatin template activity. At 9 days after plating the prereplicative phase of stimulated cells is lengthened to 14 h and there is an increase in chromatin template activity within 1 h of stimulation. Finally, in 18-day cells, the prereplicative phase is lengthened even further to 20 h, and there is a lag after stimulation before the increase in chromatin template activity. It is proposed that confluent WI-38 cells initially arrest in G 1, subsequently pass into G 0, and continue to go deeper into G 0 as they remain quiescent.     

Inhibition of cellular transition from G1-resting to G1-prereplicative phase by aminonucleoside of puromycin.

Human embryonic lung fibroblasts (IMR-90 and WI-38) were arrested in the G1 phase of the cell cycle by serum deprivation and high population density. Within 1 hr after the addition of medium containing fresh serum, these cells showed an increase in rRNA synthesis. The inclusion of 100 micrograms per ml aminonucleoside of puromycin (AMS) in the fresh medium eliminated the serum stimulation of rRNA synthesis and prevented the cells from making the G1-resting phase to G1-prereplicative phase transition. AMS also prevented the synthesis of HnRNA normally found within 10 hr after serum stimulation. Serum-stimulated RNA synthesis in starved, SV-40 transformed fibroblasts (WI-38-VA-13 cells) was inhibited, but not completely prevented, by AMS indicating that transformed cells may produce specific RNA's that are not AMS-sensitive and that may be responsible for the failure of transformed cells to be arrested in G1.     

Modulation of WI-38 cell proliferation by elevated levels of CaCl2

Elevating the level of extracellular calcium (CaEx2+) increases the saturation density achieved by the normal human diploid cell line, WI-38, but does not change the growth rate. Day 7 cell yields remain unchanged when [CaEx2+] is between 0.5 mM and 3.0 mM, decrease when [CaEx2+] less than 0.5 mM, and increase when [CaEx2+] greater than 3.0 mM. Combining hydrocortisone with additional CaCl2 results in an additive effect on the saturation density relative to that obtained with each treatment separately. The stimulatory effect of elevated [CaCl2] is independent of serum concentration but is lost when WI-38 cells are grown in conditioned medium. Stimulation is recovered when conditioned medium is diluted with serum-free medium. In the case of young cultures grown in conditioned medium, stimulation can also be recovered when higher than usual levels of additional CaCl2 are used (2-3 mM). A glutamine supplementation to the conditioned medium potentiates cell response to elevated [CaCl2]. These results indicate that the loss of an enhanced saturation density when cells are grown in conditioned medium is not due to serum depletion but is more likely the effect of metabolites and/or nutrient depletion. When older or less vigorously growing cultures are grown in conditioned medium, additions of up to 3 mM CaCl2 only lead to inhibition, suggesting an age-related change in proliferative regulation. Elevated levels of CaEx2+ also enhance the proliferative response of quiescent monolayers to serum stimulation. This finding, along with the increase in saturation density of Ca2+-treated cultures, suggests that an elevated level of CaEx2+ affects cell entry into and exit from quiescence brought on by density-dependent inhibition.     

Effect of vitamin A on epithelial morphogenesis in vitro

Quiescent confluent monolayers of WI-38 human diploid fibroblasts and of 3T6 mouse fibroblasts were stimulated to proliferate by nutritional changes. WI-38 cells had a stringent requirement for serum factor(s) but 3T6 did not require serum in order to proliferate again. In both cell lines there was an early increase in the synthesis of non-histone chromosomal proteins shortly after stimulation of cellular proliferation and this increase was linearly correlated to the number of cells entering the S phase several hours later. Only WI-38 diploid fibroblasts, however, showed an early increase in chromatin template activity 1 h after stimulation of cellular proliferation, while chromatin template activity in 3T6 cells remained unchanged. It is suggested that the activation of gene function represents a critical step for the passage of WI-38 cells in the G0 resting phase to the G1 phase of the cell cycle. It is also suggested that 3T6 cells are unable to enter or stay in a G0 phase but can be arrested predominantly in the G1 phase by nutritional deficit, probably amino acid starvation.     

Changes in template activity and structure of nuclei from WI-38 cells in the prereplicative phase.

Quiescent confluent monolayers of WI-38 fibroblasts were stimulated to proliferate by either adding 10% fetal calf serum or by trypsinization and replating at lower density. The length of the prereplicative phase was 12 hr after serum stimulation and 18 hr after trypsinization and replating at lower density. Nuclei were isolated from WI-38 cells at different time intervals after either type of stimulation and their template activity, circular dichroism spectra, and ability to bind ethidium bromide were investigated. All these parameters were similarly increased after either type of stimulation. However, these changes, like the onset of DNA synthesis, were delayed 6 hr in cells trypsinized and replated at lower density. While there were no detectable changes in nuclear protein content after serum stimulation, at least 40% of nuclear protein, mostly nonhistone chromosomal proteins, were lost after trypsinization. The amount of nuclear proteins returned to prestimulation levels only 6-8 hr after replating. These data seem to suggest that nonhistone chromosomal proteins lost by trypsinization are essential for the entrance of WI-38 cells into the "prereplicative phase".     

Tyrosine protein kinase expression in long-term quiescent WI-38 cells following growth factor simulation

We have used the WI-38 cell long-term quiescent model system to study the regulation of cell cycle progression at the molecular level. By modulating the length of time that WI-38 cells are density arrested, it is possible to proportionately alter the length of the prereplicative or G-1 phase which the cell traverses after growth factor stimulation in preparation for entry into DNA synthesis. Stimulation of long-and short-term density arrested WI-38 cells with different growth factors or higher concentrations of individual growth factors does not alter the time required by long-term cells to enter S after stimulation. However, the time during the prereplicative period for which these growth factors are needed is different. Long-term quiescent WI-38 cells require EGF to traverse the G-0/G-1 border but do not need and apparently cannot respond to IGF-1 during the first 10 h after EGF stimulation, the length of the prolongation of the prereplicative phase. This suggests that EGF stimulation of long-term quiescent WI-38 cells initiates a series of molecular events which make these cells “competent” to respond to the “progression” growth factor, IGF-1. In light of the well-established role of protein tyrosine kinases in signal transduction, we set out to identify, clone, and analyze the expression of receptor and non-receptor tyrosine kinases which potentially could play a role during the prolongation of the prereplicative phase in making the long-term quiescent WI-38 cells competent to respond to IGF-1. We obtained 49 clones representing 11 different receptor and non-receptor type protein tyrosine kinases. Analysis of expression of these clones revealed a variety of different patterns of expression. However, the most striking pattern was exhibited by IGF-1 receptor. Our results suggest that induction of IGF-1 receptor mRNA by EGF may be an important event in the establishment of competence by EGF in long-term density arrested WI-38 cells. © 1995 Wiley-Liss, Inc.     

Time of c-fos and c-myc expression in human diploid fibroblasts stimulated to proliferate after prolonged periods in quiescence

When human diploid fibroblasts such as WI-38 cells become crowded, they enter a viable state of quiescence (G0) in which they can remain for prolonged periods of time. These quiescent cells can be induced to re-enter the cell cycle by addition of fresh serum. However, cells held in G0 for long periods before stimulation require more time to enter DNA synthesis as compared to cells held in a quiescent state for short periods. We have used this model system to determine if a close temporal coupling exists between the time of expression of two proto-oncogenes associated with cell growth, c-fos and c-myc, and the time of entry into DNA synthesis. WI-38 cells were stimulated to enter DNA synthesis by the addition of fresh culture medium and serum at various lengths of time after plating, ranging from 7 to 34 days. At hourly intervals thereafter, cells were harvested and total RNA was isolated. These samples were then analyzed by RNase protection assay to determine the levels of c-fos and c-myc mRNA. Our results show that the time and pattern of c-fos and c-myc mRNA accumulation after stimulation is determined only by the time which the cells are treated with serum even when they exhibit a 19-h delay in the entry into DNA synthesis. In all of our experiments, c-fos could be detected 0.5 h after stimulation and remained detectable for approximately 2 h. Likewise, the peak of c-myc accumulation occurred at about 3 h after serum addition, regardless of how long it took to initiate DNA synthesis. These results suggest that the time of c-fos and c-myc induction clearly is not the only factor which determines the length of the prereplicative period and thus the ultimate time of initiation of DNA synthesis.     

Proteasome inhibitors shorten replicative life span and induce a senescent-like phenotype of human fibroblasts

The proteasome constitutes the main non-lysosomal cellular protease activity, and plays a crucial role not only in the disposal of unwanted material, but also in the regulation of numerous cellular processes. Previously, we have reported that during the replicative senescence of WI-38 fibroblasts there is a significant impairment in proteasome activity, which probably has important implications in the control of MAPK signaling and cellular proliferation. In this study, we report the potential role of the proteasome in the generation of the senescent phenotype in WI-38 fibroblasts. Our results indicate that inhibition of proteasome activity leads to an impairment in cell proliferation, and a shortening of the life span. The results also indicate that inhibition of the proteasome in young cells induces a premature senescent-like phenotype, as indicated by the increase in senescence-associated beta-galactosidase (SA beta-gal) activity and the abundance of both p21 and collagenase mRNAs, as well as a decreased level of EPC-1 mRNA known markers of cellular senescence, not previously shown to depend on proteasome activity. Together, our results suggest a molecular mechanism for the lack of responsiveness of human cells to growth factors, and point towards a role for the proteasome in the control of the life span of both cells and organisms.