Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Interleukin 6 (IL-6) and leukaemia inhibitory factor (LIF) can have pleiotropic effects on different cell types. M1 myeloid leukaemic cells respond to IL-6 with activation of a terminal differentiation programme which includes activation of genes for certain haemopoietic regulatory proteins (IL-6, IL-1 alpha, IL-1 beta, granulocyte-macrophage colony-stimulating factor [GM-CSF], M-CSF, tumour necrosis factor and transforming growth factor [TGF] beta 1) and for receptors for some of these proteins, thus establishing a network of positive and negative regulatory cytokines. IL-6 and some other cytokines also induce during differentiation sustained levels of transcription factors that can regulate and maintain gene expression in the differentiation programme. M1 leukaemic cells induced to differentiate with IL-6 undergo programmed cell death (apoptosis) on withdrawal of IL-6, and can be rescued from apoptosis by IL-6, IL-3, M-CSF, G-CSF or IL-1, but not by GM-CSF. These differentiating leukaemic cells can also be rescued from apoptosis by the tumour promoter TPA (12-O-tetradecanoylphorbol-13-acetate) but not by the non-tumour-promoting isomer 4-alpha-TPA, and rescue from apoptosis can be achieved by different pathways. Apoptosis can also be induced in undifferentiated M1 leukaemic cells by expression of the wild-type form of the tumour suppressor p53 protein and IL-6 can rescue the cells from this wild-type p53-mediated apoptosis. There are clones of M1 cells that differentiate with IL-6 but not with LIF and another M1 clone that differentiates with either IL-6 or LIF. Differentiation induced by IL-6 or LIF is inhibited by TGF-beta 1. The pleiotropic effects of LIF, like those of IL-6, are presumably also in a network of interacting regulatory proteins.
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PMID:Regulation of leukaemic cells by interleukin 6 and leukaemia inhibitory factor. 142 20

Using the thyroid follicular cell as a model for multi-stage carcinogenesis, we have investigated the role of two potential negative growth regulators ('anti-oncogenes') in epithelial tumour progression--transforming growth factor-beta 1 (TGF beta 1) and p53. Normal follicular cells, as expected, showed marked growth inhibition in response to TGF beta 1. Adenoma cells were equally inhibited. In contrast, spontaneously and SV40-immortalised follicular cell lines showing features of malignant transformation (notably loss of growth factor dependence) had lost all responsiveness to TGF beta 1, accompanied by a partial loss of its receptors. p53 protein was below detectable limits in normal and in adenoma cells but in contrast very high levels were observed in all three transformed lines. In the SV40-immortalised cells, this was expected in view of the known stabilising effect of the viral large T protein. In the spontaneous line we found strong evidence for point mutation of p53, which is known to have the same effect. Both mechanisms result in loss of p53 tumour suppressor function despite increased protein content. We conclude that loss of inhibition by TGF beta and inactivation of p53 are important steps in in vitro immortalisation and/or in vivo tumour progression in human thyroid follicular cells, and speculate that p53 may mediate or be required for the inhibitory signal normally induced by TGF beta 1.
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PMID:Correlated abnormalities of transforming growth factor-beta 1 response and p53 expression in thyroid epithelial cell transformation. 182 Sep 69

Transforming growth factor beta 1 (TGF beta 1) is the prototype of a large family of polypeptides involved in growth control, extracellular matrix production, and development. The TGF beta s have marked stimulatory effects on connective tissue formation. They are chemotactic for fibroblasts, indirect mitogens for certain mesenchymal cells and stimulators of extracellular matrix deposition. The TGF beta s are also potent inhibitors of proliferation of most cell types in culture, and in vivo studies have indicated that the predominant effect of TGF beta 1 on cell proliferation is inhibition. We have investigated the mechanism of TGF beta 1 inhibition of skin keratinocyte growth. Earlier studies demonstrated that TGF beta 1 inhibition of keratinocyte proliferation involves suppression of c-myc transcription, and indirect evidence suggested that the product of the retinoblastoma tumor susceptibility gene, pRB, may be involved in this process. More recently, we have shown that transient expression of pRB in skin keratinocytes can repress human c-myc promoter/CAT transcription as effectively as TGF beta 1. The same c-myc promoter region, termed the TGF beta control element (TCE), was required for regulation by both TGF beta 1 and pRB. Oligonucleotides containing the TCE bound to several nuclear factors in mobility shift assays and a cellular protein of approximately 106 kD in Southwestern assays. Binding of these factors could be demonstrated in cells with or without normal pRB, and the binding of some factors was rapidly inhibited by TGF beta 1 treatment of TGF beta-sensitive but not TGF beta-insensitive cells. These data indicate that pRB can function to inhibit c-myc transcription and suggest the involvement of cellular factor(s) in addition to pRB in the TGF beta 1 pathway for suppression of c-myc transcription. Studies with other cell types have shown that another tumor suppressor gene, p53, can also regulate transcription of c-myc in transient assays. Whereas wild type p53 markedly suppressed transcription, four different mutant p53 clones caused transactivation. The data support the hypothesis that pRB and p53 can both cause growth inhibition by blocking the expression of the protooncogene, c-myc, and indicate that tumor suppressor genes may function in the response pathway for diffusible negative growth regulators such as TGF beta.
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PMID:TGF beta regulation of epithelial cell proliferation: role of tumor suppressor genes. 184 40

In vitro and in vivo metastatic variants derived from Lewis lung carcinoma (3LL) were examined for the level of the expression of several growth-regulated genes, oncogenes, and transforming growth factor (TGF) genes. To determine whether the proliferative advantage of metastatic cells is due to an increased growth fraction of the cell population or to a deregulated expression of some growth-regulated genes, the mRNA levels of the S-phase-specific H3 histone gene were compared with that of some cell cycle-related genes (vimentin, calcyclin, c-myc, and p53) and oncogenes (Ki-ras, Ha-ras, c-sis, c-src, c-fes, and c-erb). In addition, to evaluate whether an autocrine pattern of cell proliferation is responsible for the proliferative advantage of metastatic cells, the level of the expression of TGF genes (alpha and beta 1) was studied. Northern blot analysis demonstrated that in 3LL metastatic variants the expression of TGF-alpha as well as the expression of all growth-regulated genes and oncogenes studied are similar. Only the TGF-beta 1 gene is expressed at higher levels in highly metastatic 3LL variants maintained either in vitro or in vivo. Data suggest that the proliferative advantage of 3LL metastatic cells is not due to a deregulated expression of some growth-regulated genes and oncogenes, but more likely is acquired through the expression of genes which might interfere with the ability of the tumor cells to escape hostile microenvironmental conditions.
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PMID:Differential expression of transforming growth factor-beta 1 gene in 3LL metastatic variants. 191 69

Transforming growth factor beta (TGF beta) is a pluripotent modulator of cell function and an important suppressor of cervical epithelial cell proliferation. In the present study, we examine the effects of TGF beta 1 on the level and activity of the epidermal growth factor receptor (EGFR) in HPV-16 immortalized cervical epithelial cells. In ECE16-1 cells, increased EGFR levels are observed within 24 h after initiation of TGF beta 1 treatment and levels continue to increase with time. This increase is correlated with a TGF beta 1-dependent decrease in proliferation rate. Scatchard analysis indicates that the population of EGFR sites induced by TGF beta 1 have a low affinity for EGF (Kd = 4.08 nM) compared to the receptors present prior to TGF beta 1 treatment (Kd = 0.3 and 1.6 nM). TGF beta 1 treatment also reduces EGFR kinase autophosphorylation activity. Cell cycle studies indicate that TGF beta 1-treated cells arrest in the G1 phase of the cell cycle and that regulation of EGFR level was independent of cell cycle stage in both TGF beta 1-treated and untreated cells. However, EGFR level was related to the G1 phase time. Parallel studies indicate that a TGF beta 1-dependent increase in p53 level is also correlated with increased time spent in G1. These results suggest that TGF beta 1 inhibition of ECE16-1 cell proliferation may act both by the replacement of high affinity/high kinase activity EGFR sites with low affinity/low kinase activity EGFR sites and a p53-mediated cell cycle arrest.
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PMID:Transforming growth factor beta regulation of epidermal growth factor receptor in ectocervical epithelial cells. 755 48

PDGF-B released from colon tumor cells regulated tumor growth in athymic mice in a paracrine manner by inducing blood vessel formation. A positive correlation was found between expression of PDGF B-chain in cells grown in vitro and the number of factor VIII-positive blood vessels in tumors induced by three classes of colon carcinoma cell lines. Elevated expression of PDGF-B was also correlated with tumor size. Each cell line had the same mutations in the colon cancer genes APC, DCC, and p53 and had wild type c-K-ras genes (Huang et al. [1994] Oncogene, 9:3701-3706.) eliminating the possibility that any differences in tumor blood vessel formation were due to mutations and/or deletions in these genes. Colon carcinoma cells released biologically active PDGF capable of stimulating the growth of NIH3T3 cells, which was inhibited by neutralizing antisera to PDGF-AB chains. An inverse correlation was found between induction of factor VIII-positive blood vessels and expression of vascular endothelial growth factor (VEGF), while no correlation was seen with expression of either TGF alpha or k-FGF. Basic fibroblast growth factor (FGF) expression was not detected in these tumor cells. TGF beta 1 was capable of inducing PDGF-B expression in the undifferentiated U9 colon carcinoma cell line, but this sensitivity was not seen in differentiated cells. In contrast, TGF beta 1 inhibited VEGF expression in both undifferentiated cells and differentiated colon cancer cells. Thus, TGF beta 1 has two roles in the growth of undifferentiated U9 colon carcinoma cells in vivo: direct stimulation of cell proliferation as we have showed in earlier studies, and an increase in angiogenesis by inducing PDGF-B.
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PMID:Platelet-derived growth factor-B increases colon cancer cell growth in vivo by a paracrine effect. 759 1

DNA from archival Papanicolaou stained smears was successfully amplified using the polymerase chain reaction (PCR) to see if it could be used for retrospective genome studies such as detection of the presence of human papilloma virus (HPV) and changes in p53 gene expression. DNA was isolated and purified by treatment with proteinase K, phenol/chloroform, and isoamyl alcohol. Segments of the human beta actin and TGF beta 1 gene were amplified by PCR. Of all stains used in the preparation of Papanicolaou smears, only eosin was detectable as a greenish band in ethidium bromide treated DNA gels under ultraviolet illumination.
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PMID:PCR amplification of DNA from stained cytological smears. 768 6

Transforming growth factor beta (TGF beta) is an important regulator of cellular proliferation. In normal ovarian epithelial cells, TGF beta acts to inhibit growth. However, in ovarian cancer cell lines, this effect is usually lost. Although the regulatory pathway of TGF beta remains unclear, TGF beta-treated cells arrest late in G1. This inhibition appears to involve blocking of the cyclin-dependent kinase phosphorylation of the retinoblastoma protein. Recently, a general inhibitor of cyclin-dependent kinases, CIP1/WAF1/p21, was identified. Expression of CIP1 is positively regulated by binding of wild-type p53 to a consensus response element upstream of the CIP1 gene. Overexpression of the CIP1 protein causes growth suppression, analogous to TGF beta and wild-type p53. We have examined the induction of CIP1 by TGF beta 1 in ovarian cancer cell lines that have been previously characterized for their proliferative response to TGF beta 1. OVCA420, a cell line that is dramatically growth inhibited by TGF beta 1, significantly induced CIP1 expression in response to TGF beta 1. CIP1 induction was accompanied by a decrease in cdk2 kinase activity and cdk2 protein levels. In three other cell lines that respond weakly to TGF beta 1, CIP1 expression was not induced. To determine if TGF beta 1 induction occurs via p53, regulation of p53 RNA and protein was examined. No differences in p53 transcription, steady-state protein level, de novo synthesis, phosphorylation, or subcellular accumulation were noted. Furthermore, TGF beta 1 could not induce transcription from a consensus p53 DNA binding site in the TGF beta 1-response cell line.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Transforming growth factor beta 1 can induce CIP1/WAF1 expression independent of the p53 pathway in ovarian cancer cells. 769 78

Although loss of sensitivity to transforming growth factor beta (TGF beta) may be a key step in the escape of epithelial tumours from normal growth control, the intracellular signals determining responsiveness remain controversial, particularly the role of p53. We have investigated this question using thyroid epithelial lines as a model. We analysed (i) human thyroid cancer cell lines having either wild-type (wt) or mutant p53; (ii) rat thyroid lines derived by spontaneous immortalisation following introduction of mutant H-ras, which exhibit high levels of wt p53 but loss of p53-mediated cell-cycle control. Loss of response to TGF beta 1 was found in all human lines bearing mutant p53, and in the majority of the functionally equivalent rat lines, consistent with a role of wt p53 in mediating response. However, introduction of a dominant negative p53 mutant into TGF beta 1 responsive human lines containing wt p53 did not reduce responsiveness, demonstrating that p53 function is not necessary for TGF beta 1 response. On the other hand, expression of a temperature-sensitive (ts) p53 gene in a partially-responsive rat line demonstrated a highly significant modulation of TGF beta response, which fell from 65% inhibition of 3H-thymidine labelling index at 32.5 degrees C (wt p53 conformation) to only 14% at 37.5 degrees C (mutant conformation). The results suggest that p53 and TGF beta generate separate but interacting inhibitory signals, i.e. that p53 modulates but does not mediate TGF beta response. This conclusion explains previous conflicting data and is consistent with current models of cell cycle control by multiple inhibitors of cyclin-dependent kinases.
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PMID:Interaction between p53 and TGF beta 1 in control of epithelial cell proliferation. 783 30

Epidermal keratinocyte cultures were established from newborn mice expressing a null mutation in the p53 gene to explore the contribution of p53 to epidermal growth regulation and neoplasia. Keratinocytes were initiated by transduction with a replication-defective retrovirus encoding the v-rasHa oncogene and grafted onto nude mouse hosts. Tumors arising from keratinocytes heterozygous or null for functional p53 in the presence of v-rasHa have growth rates approximately 5-fold higher than those derived from p53(+/+) controls and rapidly form carcinomas, in contrast to the benign phenotype observed in p53(+/+)/v-rasHa grafts. In vitro, p53-deficient keratinocytes with and without v-rasHa expression display decreased responsiveness to the negative growth regulators transforming growth factors beta 1 and beta 2. In combination with v-rasHa, p53-deficient keratinocytes also exhibit decreased responsiveness to elevated Ca2+. These differences between genotypes cannot be attributed to changes in transforming growth factor beta receptor types present or altered levels of epidermal growth factor receptor and are independent of c-myc transcript levels. mRNA expression for the p-53 inducible protein WAF1 correlates with p53 gene dosage, but low levels are still detectable in p53(-/-) keratinocytes. The altered responsiveness of p53 deficient keratinocytes to negative growth regulators may provide a growth advantage to such cells in vivo and render them more susceptible to genetic alterations and malignant conversion.
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PMID:p53 gene dosage modifies growth and malignant progression of keratinocytes expressing the v-rasHa oncogene. 792 1


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