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)

The spontaneously immortalized early passaged fibroblasts from three different strains of mouse are observed to represent two distinct stages of immortalization. The cells at stage I are characterized by slow growth rate, contact inhibition and requisition of serum factors for their growth and proliferation. Stage II cells are marked by fast, multilayer growth that is independent of serum supplementation in growth medium and by the elevated levels of the two marker proteins, i.e., p53 and p81. The change from cytosolic distribution of mortalin, a senescence inducing protein (J. Biol. Chem. (1993) 268, 6615-6621; 22239-22242) to the perinuclear locale is detected as an early event during cellular immortalization. Furthermore, the distinct stages could be characterized by thermal analysis of intact cells, that to the best of our knowledge is employed for the first time for the analysis of cellular mortal and immortal phenotypes. The study characterizes at least two distinct end points in rodent transformation suggesting that there are multiple routes to immortalization.
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PMID:Identification of genetic events involved in early steps of immortalization of mouse fibroblasts. 780 69

The mechanism(s) involved in immortalization that constitute the first step during malignant transformation has been the subject of our interest. By the use of spontaneously immortalized mouse embryonic fibroblasts we have earlier identified two stages of immortalization which are characterized by growth characteristics of the cells, their conditioned medium and the protein markers such as p53, p81 and mortalin (Kaul et al. (1994) Biochim. Biophys. Acta, in press). The present study was planned to purify the mitogenic factors from the conditioned medium of stage II cells. Sequential purification by chromatography followed by peptide sequencing has characterized one of these as vascular endothelial growth factor (VEGF). Further analysis by RT-PCR suggests that the spontaneously immortalized stage II fibroblasts have enhanced synthesis and secretion of VEGF as compared to their mortal parent cells. Expression of a novel 304 bp long form of VEGF is identified in immortal fibroblasts in addition to the three known alternatively spliced forms. The study points to the involvement of VEGF function during spontaneous immortalization of mouse embryonic fibroblasts.
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PMID:Enhanced expression of multiple forms of VEGF is associated with spontaneous immortalization of murine fibroblasts. 780 91

The mortalin genes, mot-1 and mot-2, are hsp70 family members that were originally cloned from normal and immortal murine cells, respectively. Their proteins differ by only two amino acid residues but exhibit different subcellular localizations, arise from two distinct genes, and have contrasting biological activities. We report here that the two proteins also differ in their interactions with the tumor suppressor protein p53. The pancytosolic mot-1 protein in normal cells did not show colocalization with p53; in contrast, nonpancytosolic mot-2 and p53 overlapped significantly in immortal cells. Transfection of mot-2 but not mot-1 resulted in the repression of p53-mediated transactivation in p53-responsive reporter assays. Inactivation of p53 by mot-2 was supported by the down-regulation of p53-responsive genes p21(WAF-1) and mdm-2 in mot-2-transfected cells only. Furthermore, NIH 3T3 cells transfected with expression plasmid encoding green fluorescent protein-tagged mot-2 but not mot-1 showed an abrogation of nuclear translocation of wild-type p53. These results demonstrate a novel mechanism of p53 inactivation by mot-2 protein.
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PMID:Inactivation of tumor suppressor p53 by mot-2, a hsp70 family member. 979 67

5-Bromodeoxyuridine was found to induce flat and enlarged cell shape, characteristics of senescent cells, and senescence-associated beta-galactosidase in mammalian cells regardless of cell type or species. In immortal human cells, fibronectin, collagenase I, and p21(wafl/sdi-1) mRNAs were immediately and very strongly induced, and the mortality marker mortalin changed to the mortal type from the immortal type. Human cell lines lacking functional p21(wafl/sdi-1), p16(ink4a), or p53 behaved similarly. The protein levels of p16(ink4a) and p53 did not change uniformly, while the level of p21(wafl/sdi-1) was increased by varying degrees in positive cell lines. Telomerase activity was suppressed in positive cell lines, but accelerated telomere shortening was not observed in tumor cell lines. These results suggest that 5-bromodeoxyuridine activates a common senescence pathway present in both mortal and immortal mammalian cells.
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PMID:5-Bromodeoxyuridine induces senescence-like phenomena in mammalian cells regardless of cell type or species. 1057 56

Mouse mortalin proteins, mot-1 and mot-2, differ by only two amino acid residues in their C-terminus. In previous studies we showed that they differ in their subcellular distributions and interactions with the tumor suppressor protein, p53. By using mot-1 deletion mutants and amino acid substitution constructs, we report here that inability of mot-1 to affect p53 activity in vivo is dependent on the presence of both of the unique mot-1 amino acids and all three of the predicted hsp70, EF hand, and leucine zipper motif regions. The two proteins and their single amino acid mutants showed different mobilities on SDS-polyacrylamide gel presenting an evidence for their different secondary structures. Taken together, the data suggest that each of the two differing amino acids between mot-1 and mot-2 is an important determinant of their secondary structures and in vivo activities.
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PMID:Transcriptional inactivation of p53 by deletions and single amino acid changes in mouse mot-1 protein. 1111 32

MKT-077, a cationic rhodacyanine dye analogue has been under preclinical cancer therapeutical trials because of its selective toxicity to cancer cells. Its cellular targets and mechanism of action remain poorly understood. Here we report that MKT-077 binds to an hsp70 family member, mortalin (mot-2), and abrogates its interactions with the tumor suppressor protein, p53. In cancer cells, but not in normal cells, MKT-077 induced release of wild-type p53 from cytoplasmically sequestered p53-mot-2 complexes and rescued its transcriptional activation function. Thus, MKT-077 may be particularly useful for therapy of cancers with wild-type p53.
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PMID:Selective toxicity of MKT-077 to cancer cells is mediated by its binding to the hsp70 family protein mot-2 and reactivation of p53 function. 1115 71

MKT-077, a cationic rhodacyanine dye analogue, causes selective toxicity to cancer cells. Its cellular targets elucidated thus far include oncogenic Ras, F-actin, mortalin (hmot-2)/mthsp70, and telomerase. Here we report that MKT-077 causes growth arrest of cancer cells in culture independent of their Ras, p53, or telomerase status. Telomerase activity is inhibited in vitro by MKT-077 in the telomerase assay used. However, the in vivo toxicity seen in telomerase-positive cancer cells was not accompanied by inhibition of telomerase activity or telomere shortening. Furthermore, cells with an alternative mechanism for lengthening of telomeres were also sensitive to MKT-077 and showed enhanced formation of alternative mechanism for lengthening of telomeres-associated PML bodies in their nuclei. The data suggested that inhibition of telomerase activity is unlikely to be a prime cause of MKT-077-induced toxicity in cancer cells.
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PMID:Rhodacyanine dye MKT-077 inhibits in vitro telomerase assay but has no detectable effects on telomerase activity in vivo. 1215 51

Mortalin is a novel member of the hsp70 family of proteins that exhibits a different staining pattern in normal and immortal cells. It was also cloned as glucose regulated protein, GRP75 and peptidebinding protein, PBP74. It has been assigned multiple functions ranging from stress response, intracellular trafficking, antigen processing, control of cell proliferation, differentiation and tumorigenesis. The present article compiles and reviews information on multiple sites and functions of mortalin. In view of its upregulation in many tumors and transcriptional inactivation function of p53, its potential use in biotechnology and biomedicine is discussed.
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PMID:Mortalin: a potential candidate for biotechnology and biomedicine. 1237 Nov 45

Apoptosis of vascular smooth muscle cells (VSMCs) plays an important role in remodeling of vessel walls, one of the major determinants of long-term blood pressure elevation and an independent risk factor for cardiovascular morbidity and mortality. Recently, we have found that apoptosis in cultured VSMCs can be inhibited by inversion of the intracellular [Na+]/[K+] ratio after the sustained blockage of the Na+,K+-ATPase by ouabain. To understand the mechanism of ouabain action, we analyzed subsets of hydrophilic and hydrophobic VSMC proteins from control and ouabain-treated cells by 2-dimensional electrophoresis. Ouabain treatment led to overexpression of numerous soluble and hydrophobic cellular proteins. Among proteins that showed the highest level of ouabain-induced expression, we identified mortalin (also known as GRP75 or PBP-74), a member of the heat shock protein 70 (HSP70) superfamily and a marker for cellular mortal and immortal phenotypes. Northern and Western blotting and immunocytochemistry all have confirmed that treatment of VSMCs with ouabain results in potent induction of mortalin expression. Transient transfection of cells with mortalin cDNA led to at least a 6-hour delay in the development of apoptosis after serum deprivation. The expression of tumor suppressor gene, p53, in mortalin-transfected cells was delayed to the same extent, and the expressed protein showed abnormal perinuclear distribution, suggesting that p53 is retained and inactivated by mortalin. Our studies therefore define a new [Na+]i/[K+]i-responsive signaling pathway that may play an important role in the regulation of programmed cell death in VSMCs.
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PMID:Proteome analysis and functional expression identify mortalin as an antiapoptotic gene induced by elevation of [Na+]i/[K+]i ratio in cultured vascular smooth muscle cells. 1243 36

Using comparative proteomic analysis we have identified over-expression of mortalin in colorectal adenocarcinomas. Mortalin, also known as mitochondrial heat-shock protein 70 (mhsp 70), is involved in cell cycle regulation with important roles in cellular senescence and immortalization pathways. It is known to bind to and inactivate wild-type tumour suppressor protein p53 and influences the Ras-Raf-MAPK pathway. By immunostaining a colorectal cancer tissue microarray linked to a patient database, we further found that mortalin over-expression correlates with poor patient survival and, in multivariate analysis, is independent of standard prognostic variables (p = 0.04). Our findings demonstrate that mortalin over-expression may predict outcome in colorectal cancer and suggest that this protein is involved in colorectal neoplasia. Our experimental approach emphasises the analytical power of combining proteomics with tissue microarray analysis in the context of a well-defined tumour database.
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PMID:Mortalin is over-expressed by colorectal adenocarcinomas and correlates with poor survival. 1553 96


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