UMLS:C0038187 - FACTA Search

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Query: UMLS:C0038187 (starvation)
24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The human hepatocellular carcinoma (HCC) cell line, HLF, expresses only mutant-type p53 (mt-p53), which has an amino acid substitution at the 244th residue from glycine to alanine. HLF cells were transfected with wild-type p53 (wt-p53) cDNA construct pC53-SN3, mt-p53 cDNA construct pC53-SCX [which differs by a single nucleotide, resulting in alanine instead of valine at the 143rd residue in p53 (p53-143)], or pCMV-Neo-Bam, as a control, by a liposome method. After G418 selection, three wt-p53 stable transformants (WT), four mt-p53 transformants (MT), and three control vector transformants (VT) were obtained. We analyzed the cell growth and morphological changes of these transformants under different culture conditions [fetal calf serum (FCS), 10%, 1%, and 0%]. Whereas no difference from control in the growth rate and morphology was observed under the 10% FCS conditions, serum starvation induced remarkable phenotypical changes in all three WTs, but not in the other transformant. Corresponding to these phenotypical changes, the transcriptional activity of wt-p53 was increased more than nine fold. These results indicated that serum starvation would induce wt-p53 biological function, which is tightly linked to morphological changes and growth suppression. To induce these changes, the introduction of the wt-p53 gene itself was not sufficient, and additional triggering, i.e., serum starvation, was indispensable.
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PMID:Wild-type p53 gene-induced morphological changes and growth suppression in hepatoma cells. 921 46

Mutations in the tumor suppressor p53 are a common event in hepatocellular carcinoma (HCC). Because HCCs typically occur in livers with chronic injury and impaired function, we have explored the role of wild-type p53 in regulating the growth and differentiation of Hep 3B hepatoma cells, a p53-negative line derived from a liver cancer. Stable Hep 3B cell lines were generated in which inducible p53 was introduced using either a temperature-sensitive mutant (p53val135) or a tamoxifen-regulated p53-estrogen receptor chimera (p53-mERtm-pBabepuro). In both cell lines, induction of transcriptionally active p53 was confirmed by assessing several p53 targets: Mdm2 protein, p21waf1 mRNA and protein, and the cyclin G promoter. Despite marked induction of p21waf1, cells with active p53 failed to undergo growth arrest, which is probably due to the presence of a non-functional retinoblastoma protein (pRb) in these cells. Apoptosis also was not observed, even after prolonged (48 h) serum starvation or exposure to cisplatinum. Lack of apoptosis was correlated with unchanged bax mRNA levels following p53 induction. Additionally, albumin mRNA levels remained unchanged, and there was no change in basal transactivation of a reporter containing the promoter of the haptoglobin gene, encoding an acute phase protein. This suggests that growth arrest may be required to promote liver-specific gene expression. Overall, our data demonstrate that introduction of transcriptionally active p53 does not alter the malignant, dedifferentiated phenotype of Hep 3B hepatoma cells. Hence, not all cancer cells are equally responsive to the re-activation of wild-type 53. The ability of a cancer cell to undergo p53-mediated phenotypic alterations may depend on the retention of functional downstream effector pathways.
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PMID:Resistance to p53-mediated growth arrest and apoptosis in Hep 3B hepatoma cells. 923 78

Cell cycle control subsequent to gamma irradiation or growth factor starvation has been studied in immative hematopoietic cells of 19 previously untreated chronic myeloid leukemia (CML) patients in chronic phase compared with 18 normal controls. CD34-positive cells were cultured for seven days in the presence of optimal concentrations of appropriate growth factors. At day 7 of culture both S-phase fraction and differentiation were identical in normal and leukemic cells. In normal cells the proportion of S-phase cells was reduced by irradiation with 500 rad from 40 +/- 3% to 16 +/- 2%. In contrast, in CML cells a reduction of S-phase cells from 35 +/- 2% to 25 +/- 3% was observed. Moreover, irradiated CML cells arrested at a smaller number of cells in G2. Similarly, a significantly higher proportion of CML cells remained in S phase after withdrawal of growth factors. Semiquantitative PCR of p21 (waf1/cip1) induction by gamma irradiation provided no evidence for a major functional deficiency of p53 response to irradiation in these cells. Our results demonstrate an abnormal cell cycle arrest in chronic-phase CML cells both after gamma irradiation and after growth factor removal. This observation might have important implications for understanding the pathogenesis of both hyperplasia of chronic phase and the development of blast crisis in CML. The molecular mechanisms underlying these abnormalities in bcr-abl-positive cells remain to be clarified.
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PMID:Deficient cell cycle control in myeloid cells of patients with newly diagnosed chronic myeloid leukemia. 938 81

p53 mutation is commonly associated with high-grade, high-stage human urothelial carcinomas. Recent studies suggest that p53 mutation in low-grade, low-stage bladder carcinomas may be correlated with the progression of the disease. In the present study, we used antisense RNA methodology in vitro to evaluate the significance of the loss of p53 function at an early stage of urinary bladder carcinogenesis. An immortalized nontumorigenic rat urothelial cell line (MYP3) that strongly expresses wild-type (WT) p53 was transfected with a plasmid (pcDL-SR alpha-296) containing a rat WT p53 cDNA in antisense orientation. The transfection resulted in a significant reduction in p53 mRNA expression and protein synthesis, in stimulation of anchorage-dependent growth, and in acquisition of anchorage-independent growth potential. Three such clones, when tested in athymic nude mice, all formed muscle-invasive, high-grade transitional cell carcinomas at s.c. injection sites. When cells were inoculated into an orthotopic site (urinary bladder), one of two antisense transfectants tested formed bulky tumors in the bladder in all seven nude mice and metastases to lungs in three of the seven mice. Analysis of these cells revealed a decrease in the expression of p21 (WAF1, sdi1, or CIP1) and retinoblastoma (Rb) gene product. Phosphorylation of Rb protein was not inhibited when the cells were starved. No significant difference was observed in the expression of p16 protein. In cell cycle analysis, all antisense transfectants tested escaped from G1 arrest by starvation. Furthermore, secretion of interleukin (IL)-6 into culture medium was increased significantly. Treatment with anti-IL-6 antibody suppressed anchorage-dependent growth. This study directly demonstrates that the loss of p53 function at an early stage of urothelial carcinogenesis may result in acquisition of a malignant phenotype by regulating IL-6 production as well as cell cycle related genes.
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PMID:Antisense RNA-mediated reduction of p53 induces malignant phenotype in nontumorigenic rat urothelial cells. 947 96

The GADD45 gene is a growth arrest-associated gene that is induced by certain DNA-damaging agents and other stresses, such as starvation, in all mammalian cells. In addition to a strong p53-binding element in an intronic sequence, we have recently found that p53, while not required or sufficient alone, may contribute to the stress responsiveness of the promoter. Much of the responsiveness was localized to a GC-rich motif in the proximal promoter which contains multiple Egr1 sites and a larger WT1 site; this 20-bp WT1 motif is identical to the WT1-binding site in the PDGF-A gene. In extracts from a human breast carcinoma cell line expressing p53 and WT1, which is known to associate with p53 in vivo, evidence was obtained that these proteins are in a complex that binds this 20-bp element. A combination of p53 and WT1 expression vectors strongly induced a GADD45-reporter construct, while mutation of the WT1-Egr1 site in the promoter prevented this induction. Abrogation of p53 function by a dominant-negative vector or abrogation of WT1 function by an antisense vector markedly reduced the induction of this promoter. Since p53 does not bind directly to the promoter, these results indicate that p53 can contribute to the positive regulation of a promoter by protein-protein interactions.
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PMID:Tumor suppressor p53 can participate in transcriptional induction of the GADD45 promoter in the absence of direct DNA binding. 956 96

Cervical carcinoma-associated human papillomavirus type 16 (HPV16) encodes E6 and E7 oncoproteins which inactivate p53 and Rb, respectively, but these interactions are not sufficient to account for the oncogenic potential of the virus. Several viral promoters were shown to be regulated by E6 and E7. To identify genes as cellular targets of the HPV16 early proteins, we transfected a new HPV-negative and p53-mutated cervical carcinoma-derived cell line with either the HPV16 full-length genome or the HPV16 E6 gene. HPV16 clones but not 16E6 clones showed a decreased doubling time that was not related to the viral DNA and mRNA patterns. In exponentially growing cells as well as in cells synchronized by serum starvation, expression of the E6 gene was associated with upregulation of the c-fos and c-jun proto-oncogenes and with downregulation of the c-Ha-ras gene. Furthermore, a viral gene other than E6 may be involved in downregulation of p53 because a reduced mRNA level at the G1/S transition was observed only in HPV16-cells. The present study on natural host cells indicates p53-independent transcriptional modulations of cell cycle regulatory genes related to HPV16 E6 and E7 expression.
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PMID:The early HPV16 proteins can regulate mRNA levels of cell cycle genes in human cervical carcinoma cells by p53-independent mechanisms. 958 83

A diet high in fiber is associated with a decreased incidence and growth of colon cancers. Butyrate, a four-carbon short-chain fatty acid product of fiber fermentation within the colon, appears to mediate these salutary effects. We sought to determine the molecular mechanism by which butyrate mediates growth inhibition of colonic cancer cells and thereby to elucidate the molecular link between a high-fiber diet and the arrest of colon carcinogenesis. We show that concomitant with growth arrest, butyrate induces p21 mRNA expression in an immediate-early fashion, through transactivation of a promoter cis-element(s) located within 1.4 kb of the transcriptional start site, independent of p53 binding. Studies using the specific histone hyperacetylating agent, trichostatin A, and histone deacetylase 1 indicate that growth arrest and p21 induction occur through a mechanism involving histone hyperacetylation. We show the critical importance of p21 in butyrate-mediated growth arrest by first confirming that stable overexpression of the p21 gene is able to cause growth arrest in the human colon carcinoma cell line, HT-29. Furthermore, using p21-deleted HCT116 human colon carcinoma cells, we provide convincing evidence that p21 is required for growth arrest to occur in response to histone hyperacetylation, but not for serum starvation nor postconfluent growth. Thus, p21 appears to be a critical effector of butyrate-induced growth arrest in colonic cancer cells, and may be an important molecular link between a high-fiber diet and the prevention of colon carcinogenesis.
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PMID:p21(WAF1) is required for butyrate-mediated growth inhibition of human colon cancer cells. 961 91

Cells expressing the R273H mutant of p53, which lacks sequence specific DNA binding capacity, do not undergo cell cycle arrest in G1 following exposure to ionizing or UV radiation because of their inability to induce p21Waf1/Cip1, a cyclin-dependent kinase inhibitor and downstream mediator of p53-dependent DNA damage-induced growth arrest. Following UV-irradiation or treatment with an inhibitor of RNA pol II, we observed a rapid induction of the apoptotic process, as evidenced by DNA fragmentation and the proteolytic cleavage of poly(ADP-ribose) polymerase. Using mimosine, a p21Waf1/Cip1 inducer that bypasses the requirement for transcriptional transactivation by p53, we demonstrated that a G1 cell cycle arrest can prevent apoptosis following UV-irradiation or treatment with an RNA polymerase 11 inhibitor. Serum starvation, which also synchronized cells in G1 but did not induce p21Waf1/Cip1, did not protect cells from apoptosis. These results demonstrate that restoring a late G1 checkpoint by inducing p21Waf1/Cip1 expression can protect cells from DNA damage induced apoptosis. Our results suggest that p21Waf1/Cip1 can interrupt the apoptotic process at a point downstream from p53 accumulation but upstream from caspase-3 activation.
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PMID:p21-induced cycle arrest in G1 protects cells from apoptosis induced by UV-irradiation or RNA polymerase II blockage. 969 54

A universal inhibitor of cyclin-dependent kinases, WAF1/Cip1 can dephosphorylate the RB gene product to arrest the cell cycle at the G1 phase. Here we show that the mRNA level and the promoter activities of the RB and WAF1/Cip1 genes exhibit cell cycle-dependent change when cells are released from either serum-starvation or the confluent cell state with serum. RB expression and promoter activity are elevated at middle to late G1. In contrast, the mRNA and promoter activity of the WAF1/Cip1 gene increase at early G1. These results suggest that the RB and WAF1/Cip1 expression and promoter activities depend not only on serum, but also on the cell cycle progression itself. Moreover, we identified the responsive region for serum-released cell cycle progression in the RB promoter and mapped it to the region between -4 and -182 relative to the initiating codon of the RB gene. The region in the WAF1/Cip1 promoter responsible for the serum-released cell cycle progression mapped not to the p53 binding site, but to the 374 base-pair region between -1770 and -1396 from the transcription start site.
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PMID:Cell cycle-dependent modulation of promoter activities of RB and WAF1/Cip1 genes. 970 60

The role of the p53 protein in mediating G1 and G2 cell-cycle arrests after genotoxic insult has been clearly and reproducibly established in primary diploid fibroblasts, but data obtained from p53 wild-type (wt) cancer cell lines are inconsistent. Furthermore, a large proportion of human tumors have p53 wt genotypes but present genetic aberrations that may result from defective cell-cycle checkpoints. We therefore investigated the integrity of G1/S and G2/M cell-cycle arrests in p53 wt cancer cell lines. In the study presented here, we showed that in most cancer cells tested, G1 arrest was relaxed or absent in comparison with arrest in normal diploid fibroblasts, despite seemingly normal p53 and p21 responses. Two cell lines (MCF7 and HCT116) were synchronized in G0/G1 by leucine starvation and subjected to genotoxic stress to determine more precisely the relative proportion of cells arresting in G1 and G2. Whereas the MCF7 cells showed consistent G1 arrest, the HCT116 cells showed none at all. Furthermore, cell-cycle arrests in G1 and G2 in response to gamma irradiation and bleomycin treatment were transient, as the cells resumed cycling after 48-72 h. The cells resuming proliferation suffered massive apoptosis, but a proportion of the cells were rescued and showed normal doubling times. These cells retained a p53 wt genotype but presented gross chromosomal aberrations in 15-20% of the analyzed metaphases. The aberrations were not clonal. These data show that p53 wt cancer cells have relaxed cell-cycle controls after genotoxic insult and tolerate unrepaired chromosomal damage, despite normal p53 function.
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PMID:Relaxed cell-cycle arrests and propagation of unrepaired chromosomal damage in cancer cell lines with wild-type p53. 976 32

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