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)

ELAM is an E-Selectin adhesion molecule involved in the inflammatory process but it is also thought to potentially participate in the development of blood borne metastases, by facilitating tumour cell adhesion to vessels wall. ELAM expression in tumours was immunohistochemically investigated in 203 breast carcinomas. Frozen tissue sections were probed with monoclonal anti ELAM (Clone 1.2B6) using automated and quantitative immunoperoxidase systems. A positive anti-ELAM immunoreaction was observed in 113 tumours (57%). The mean surface of positive tumours varied from 3% to 50% (mean = 11.75%, SD = 8.7) and was correlated with histoprognostic indicators and tumour expression of various antigens detected according to the same method as ELAM. The results showed that ELAM immunoexpression was independent of the tumour size, grade and type and of the nodal status but significantly increased parallel to patients' age (p<0. 01). ELAM expression was independent of Ki-67/MIB1, anti-P53 and anti-Bcl2, anti-CD44v, anti-c-erbB-2, anti-CD31, anti-RE/RP, anti-PS2, and anti-VLA3 immunoreactions. But ELAM expression correlated with that of the VCAM vascular cell adhesion molecule (p=0.0004), VLA2 (p<0.0001), P-glycoprotein (p=0.025), and of Cathepsin D to a lower degree (p=0.06) and inversely correlated with E-cadherin (p=0.03). The results suggest that endothelial cell activation is independent of tumour cell proliferative activity and of stromal angiogenesis and that the precise role and regulation of ELAM in tumours remains to be elucidated. Also the clinical relevance of ELAM immunohistochemical expression requires further investigation and correlation with patients' follow-up.
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PMID:ELAM selectin expression in breast carcinomas detected by automated and quantitative immunohistochemical assays. 953 26

Progression through the cell cycle is controlled by the induction of cyclins and the activation of cognate cyclin-dependent kinases. The 3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase inhibitor lovastatin induces growth arrest and cell death in certain cancer cell types. We have pursued the mechanism of growth arrest in PC-3-M cells, a p53-null human prostate carcinoma cell line. Lovastatin treatment increased protein and mRNA levels of the cyclin-dependent kinase inhibitor p21(WAF1/CIP1), increased binding of p21 with Cdk2, markedly inhibited cyclin E- and Cdk2-associated phosphorylation of histone H1 or GST-retinoblastoma protein, enhanced binding of the retinoblastoma protein to the transcription factor E2F-1 in vivo, and induced the activation of a p21 promoter reporter construct. By using p21 promoter deletion constructs, the lovastatin-responsive element was mapped to a region between -93 and -64 relative to the transcription start site. Promoter mutation analysis indicated that the lovastatin-responsive site coincided with the previously identified transforming growth factor-beta-responsive element. These data indicate that in human prostate carcinoma cells an inhibitor of the HMG-CoA reductase pathway can circumvent the loss of wild-type p53 function and induce critical downstream regulatory events leading to transcriptional activation of p21.
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PMID:Inhibition of the 3-hydroxy-3-methylglutaryl-coenzyme A reductase pathway induces p53-independent transcriptional regulation of p21(WAF1/CIP1) in human prostate carcinoma cells. 955 23

The inhibitors of protein prenylation have been proposed for chemotherapy of tumors. Lovastatin, a 3-hydroxy-3-methylglutaryl-Coenzyme A (HMG-CoA) reductase inhibitor, displays proapoptotic activity in tumor cells blocking the synthesis of isoprenoids compounds. To test whether HMG-CoA reductase inhibition can induce apoptosis in proliferating thyroid cells, we studied the effects of lovastatin in normal and neoplastic thyroid cells and in primary cultures from normal human thyroids. In an immortalized human thyroid cell line (TAD-2) and in neoplastic cells, lovastatin induced cell rounding within 24 h of treatment. After 48 h the cells were detached from the plate and underwent apoptosis, as evidenced by DNA fragmentation. Morphological changes and apoptosis did not occur in serum-starved quiescent TAD-2 cells or in primary cultures of normal thyrocytes. Mevalonate, the product of the HMG-CoA reductase enzymatic activity, and the protein synthesis inhibitor cycloheximide completely blocked the effects of lovastatin in a dose-dependent fashion. The geranylgeranyl transferase GGTI-298 inhibitor mimicked the effects of lovastatin on cell morphology and induced cell death, whereas the farnesyl transferase inhibitor FTI-277 was less effective to induce both cell rounding and apoptosis. Resistance to lovastatin-induced apoptosis by expression of the viral serpine CrmA and by the peptide inhibitor of caspases, Z-DEVD-fmk, demonstrated the involvement of CrmA-sensitive, caspase-3-like proteases. Inhibition of endogenous p53 activity did not affect the sensitivity of thyroid cells to lovastatin, demonstrating that this type of apoptosis is p53 independent. We conclude that lovastatin is a potent inducer of apoptosis in proliferating thyroid cells through inhibition of protein prenylation. This type of apoptosis requires protein synthesis, is CrmA sensitive and caspase-3-like protease dependent, and is independent from p53.
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PMID:Prenyltransferase inhibitors induce apoptosis in proliferating thyroid cells through a p53-independent CrmA-sensitive, and caspase-3-like protease-dependent mechanism. 992 96

Diverse classes of phytochemicals initiate biological responses that effectively lower cancer risk. One class of phytochemicals, broadly defined as pure and mixed isoprenoids, encompasses an estimated 22,000 individual components. A representative mixed isoprenoid, gamma-tocotrienol, suppresses the growth of murine B16(F10) melanoma cells, and with greater potency, the growth of human breast adenocarcinoma (MCF-7) and human leukemic (HL-60) cells. beta-Ionone, a pure isoprenoid, suppresses the growth of B16 cells and with greater potency, the growth of MCF-7, HL-60 and human colon adenocarcinoma (Caco-2) cells. Results obtained with diverse cell lines differing in ras and p53 status showed that the isoprenoid-mediated suppression of growth is independent of mutated ras and p53 functions. beta-Ionone suppressed the growth of human colon fibroblasts (CCD-18Co) but only when present at three-fold the concentration required to suppress the growth of Caco-2 cells. The isoprenoids initiated apoptosis and, concomitantly arrested cells in the G1 phase of the cell cycle. Both suppress 3-hydroxy-3-methylglutaryl CoA reductase activity. beta-Ionone and lovastatin interfered with the posttranslational processing of lamin B, an activity essential to assembly of daughter nuclei. This interference, we postulate, renders neosynthesized DNA available to the endonuclease activities leading to apoptotic cell death. Lovastatin-imposed mevalonate starvation suppressed the glycosylation and translocation of growth factor receptors to the cell surface. As a consequence, cells were arrested in the G1 phase of the cell cycle. This rationale may apply to the isoprenoid-mediated G1-phase arrest of tumor cells. The additive and potentially synergistic actions of these isoprenoids in the suppression of tumor cell proliferation and initiation of apoptosis coupled with the mass action of the diverse isoprenoid constituents of plant products may explain, in part, the impact of fruit, vegetable and grain consumption on cancer risk.
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PMID:Apoptosis and cell-cycle arrest in human and murine tumor cells are initiated by isoprenoids. 1020 54

We investigated the influence of lovastatin, simvastatin and pravastatin on proliferation and viability of vascular smooth muscle cells (SMC) in vitro and studied the effects of lovastatin on a mouse SMC line transgenic for a temperature-sensitive mutant of SV40 large T antigen (TAg), known to inhibit the function of p53 and pRb family members. We found that lovastatin and simvastatin inhibited cell proliferation by provoking G0/G1 phase arrest with concomitant depression of the proliferation antigen Ki-67/MIB-1. Lovastatin at high concentrations of 20 micromol/l caused cell death in the presence of serum but not under serum starved conditions, which was verified on the basis of increased DNA strand breaks, decreased DNA content and morphological alterations seen by electron microscopy. Cell death was also found for simvastatin, whereas pravastatin did not exhibit antiproliferative or cytotoxic effects. Mouse SMC transgenic for TAg did not show any impaired sensitivity to the antiproliferative and cell death inducing effect of lovastatin, but both effects could be antagonized by the supplementation of mevalonate. The data indicate that antiproliferative and cytotoxic effects of lovastatin are caused by the using up of products of mevalonate metabolism and do not require the presence of p53 or pRb.
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PMID:Differences in the effects of HMG-CoA reductase inhibitors on proliferation and viability of smooth muscle cells in culture. 1085 25

Induction of differentiation is an attractive approach to the management of infiltrative tumors such as malignant glioma. Here, we report that lovastatin and phenylacetate induce apoptosis, but fail to induce differentiation, in malignant glioma cell lines and untransformed rat astrocytes. Lovastatin and phenylacetate promote p21 accumulation but fail to induce cell cycle arrest. BCL-2 gene transfer inhibits apoptosis induced by lovastatin but not apoptosis induced by phenylacetate. Wild-type p53 gene transfer promotes lovastatin-induced apoptosis in p53 wild-type LN-229 cells but not in p53 mutant T98G cells. Phenylacetate-induced apoptosis is attenuated by wild-type p53 gene transfer in both cell lines. Neither lovastatin nor phenylacetate modulate glioma cell sensitivity to CD95 ligand-induced apoptosis or cancer chemotherapy. Thus, this study provides no rationale for clinical trials of lovastatin or phenylacetate in the differentiation therapy of malignant glioma. We conclude that neoplastic glioma cells as well as untransformed rat astrocytes are refractory to the induction of differentiation by lovastatin and phenylacetate.
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PMID:Lovastatin and phenylacetate induce apoptosis, but not differentiation, in human malignant glioma cells. 1130 20

Lovastatin, the drug used for the treatment of hypercholesterolemia, has previously been reported to exert antitumor activity in experimental murine models. Butyrate and butyric acid derivatives are well known to induce differentiation and apoptosis of tumour cells and also have recently gained acceptance as potential anticancer agents. In this study, we examined the antitumor effects of the combination of lovastatin and butyrate or its prodrug tributyrin in vitro and in vivo against a murine Lewis lung carcinoma (3LL). This combination therapy showed synergistic antitumor activity against 3LL cells in vitro. These effects were at least in part due to apoptosis induction that occurred after 12 hr of incubation with lovastatin and butyrate and was preceded by changes in cell cycle distribution of treated cells and expression of p21, p53 and cyclin D1. Remarkably, a systemic treatment of syngeneic mice inoculated with 3LL cells with both drugs resulted in significant tumour growth retardation.
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PMID:Potentiating antitumor effects of a combination therapy with lovastatin and butyrate in the Lewis lung carcinoma model in mice. 1185 49

The effects of lovastatin, a potent inhibitor of HMG CoA reductase, on experimental mammary and prostate oncogenesis, were studied in vitro and in vivo. Lovastatin inhibited cell growth in vitro in a dose-dependent manner for both mammary and prostate cancer cell lines, which was associated with p53-independent apoptosis. Flow cytometric analyses of lovastatin-treated mammary and prostate cancer cells demonstrated cell-cycle G(1) arrest, as well as decreases in S and G(2)/M fractions. p21(Waf1) and p27(Kip1) were induced by lovastatin in both types of cancer cells. Gene expression profiling of cells treated with lovastatin, however, was remarkable for a paucity of transcriptional changes induced by lovastatin. Treatment with lovastatin for 4 weeks did inhibit the formation of pre-neoplastic mammary intraepithelial neoplasias (MIN) in vivo, but not invasive carcinomas in the C3(1)/SV40 TAg transgenic model of mammary cancer. The decreased multiplicity of MIN lesions was associated with increased levels of apoptosis in these lesions. However, cell proliferation in the mammary lesions was not significantly different between lovastatin-treated and control mice 1 day after lovastatin treatment. In female mice treated with lovastatin for 12 weeks, there was a tendency for reduced tumor volume, which did not reach statistical significance. However, lovastatin did not suppress any lesion formation in the prostate of C3(1)/SV40 TAg transgenic male mice. Our results suggest that as lovastatin exerts an inhibitory effect on the development of early mammary lesions of mammary carcinogenesis, this compound may be useful for the chemoprevention of mammary cancer and might have utility as an adjuvant in breast cancer therapy. The chemopreventive effects of lovastatin in vivo, however, may be tissue-specific.
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PMID:Comparative effects of lovastatin on mammary and prostate oncogenesis in transgenic mouse models. 1266 4

Here we report the characterization of a series of telomerase-immortalized human umbilical vein endothelial cell lines (i-HUVEC). These cells maintain endothelial characteristics such as marker expression, dependence on basic fibroblast growth factor for proliferation, and the ability to form tube structures on Matrigel. In addition, these cells do not show signs of tumorigenic transformation because their growth is contact-inhibited, serum-dependent, and anchorage-dependent. In addition, i-HUVEC do not grow or survive when implanted subcutaneously in immunocompromised mice. Notably, the i-HUVEC lines maintain normal p53-dependent checkpoint control, inducing expression of p21(Cip1/Waf1) in response to DNA damage. These cells subsequently decrease phosphorylation of pRb and arrest in G1. Furthermore, the i-HUVEC lines maintain normal p53-independent checkpoint control, inducing expression of p27(Kip1) in response to lovastatin treatment, with a subsequent decrease in pRb phosphorylation. Lovastatin-treated i-HUVEC lines undergo a G1 arrest that can be reversed with comparable kinetics to that of low passage HUVEC. Together these data demonstrate that telomerase-immortalized endothelial cells can retain normal phenotypes and cell cycle regulation. This result could have significant implications in the study of angiogenic processes such as tumor growth, wound healing, and the vascularization of engineered tissue.
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PMID:Maintenance of G1 checkpoint controls in telomerase-immortalized endothelial cells. 1511 9

Lung cancer causes over one million deaths per year worldwide and cigarette smoking, the proximate cause, results in a field cancerization of the respiratory track. Lung cancer cells or premalignant cells may be susceptible to apoptosis or necrosis-inducing agents. Statins inhibit the acetyl coenzyme A pathway reducing L-mevalonate that is a precursor to isoprenoids necessary for post-translational processing, resulting in apoptosis. Lovastatin was added to four lung cancer cell lines and normal human bronchial epithelial cells followed by Western blots to evaluate proteins in the cell cycle, oxidant, and apoptotic pathways. Flow cytometry revealed significant increases in three of four lung cancer cell lines in apoptosis and necrosis after lovastatin treatment at 10 microM for 72 h. Lovastatin adversely affected lung cancer cell survival with increases in cell-cycle check-point inhibitors p21WAF and/or p27KIP and a decrease in cyclin D1. All four lung cancer cell lines had a decrease in glutathione after lovastatin treatment consistent with reduced protection against reactive oxidant species. Three of four lung cancer cell lines had increased cytochrome c release with reduced pro-caspase-3 and increases in activated caspase-3. Lovastatin induces apoptosis and necrosis in lung cancer cell lines by causing alterations in the cell cycle, reducing glutathione, and activating p53, Bax protein, and caspases while increasing cytochrome c in apoptosis pathways. Targeting HMG-CoA reductase may represent an approach to lung cancer chemotherapy, e.g., reversing ground glass opacities detected on CT scans or resolving airway preneoplasias detected by bronchoscopy before they progress to malignant transformation.
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PMID:In vitro mechanisms of lovastatin on lung cancer cell lines as a potential chemopreventive agent. 1803 78


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