UNIPROT:P04637 - FACTA Search

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

During the past few years molecular genetics has been providing answers concerning the mechanisms that are involved in the pathogenesis of human malignancies. Essentially two different mechanisms are involved. One results in the activation of cellular protooncogenes. This activation can occur by activation of transcription, mutation, or gene fusion. Chromosomal translocations and inversions in malignant cells have provided very powerful tools to identify and characterize genes involved in malignant transformation and to probes specific for breakpoint cluster regions are being used extensively for the diagnosis, prognosis, and clinical monitoring of hematopoietic malignancies. The other mechanism results in loss of function of cancer suppressor genes or antioncogenes. Loss of heterozygosity at specific sites of the human genome has provided the means to identify, by the molecular genetic approach, genes the function of which is eliminated or suppressed in human cancers. During the last few years a number of such genes, such as Rb and p53, have been identified and characterized. By this approach a potential candidate involved in the 3p deletion characteristic of lung cancer has been identified. Interestingly, this gene codes for a protein tyrosine phosphatase (14). If this gene should turn out to be involved in the pathogenesis of lung and kidney tumors, it will indicate that transmembrane protein tyrosine phosphatase may represent a class of tumor suppressors.
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PMID:Genetic approaches to the study of the molecular basis of human cancer. 165 9

We have studied the role of a previously described tubulovesicular compartment near the cis-Golgi apparatus in endoplasmic reticulum (ER)-to-Golgi protein transport by light and immunoelectron microscopy in Vero cells. The compartment is defined by a 53-kDa transmembrane protein designated p53. When transport of the vesicular stomatitis virus strain ts045 G protein was arrested at 39.5 degrees C, the G protein accumulated in the ER but had access to the p53 compartment. At 15 degrees C, the G protein was exported from the ER into the p53 compartment which formed a compact structure composed of vesicular and tubular profiles in close proximity to the Golgi. Upon raising the temperature to 32 degrees C, the G protein migrated through the Golgi apparatus while the p53 compartment resumed its normal structure again. These results establish the p53 compartment as the 15 degrees C intermediate of the ER-to-Golgi protein transport pathway.
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PMID:Identification of an intermediate compartment involved in protein transport from endoplasmic reticulum to Golgi apparatus. 196 13

Amplification of 12q13-14 occurs in a subset of human sarcomas including malignant fibrous histiocytoma and liposarcoma. This chromosomal region has previously been found to include a number of growth-related genes including the GLI proto-oncogene and the p53-associated protein, MDM2. We now report the characterization of SAS (sarcoma amplified sequence), a novel transcript found in this region. Sequence analysis demonstrates that SAS is a novel member of a transmembrane protein family (transmembrane 4 superfamily or TM4SF) thought to be involved in growth-related cellular processes. This observation adds a TM4SF protein to the cluster of genes at 12q13-14 frequently amplified in human sarcomas.
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PMID:SAS, a gene amplified in human sarcomas, encodes a new member of the transmembrane 4 superfamily of proteins. 813 23

p53/58 is a transmembrane protein that continuously recycles between the ER and pre-Golgi intermediates composed of vesicular-tubular clusters (VTCs) found in the cell periphery and at the cis face of the Golgi complex. We have generated an antibody that uniquely recognizes the p53/58 cytoplasmic tail. Here we present evidence that this antibody arrests the anterograde transport of vesicular stomatitis virus glycoprotein and leads to the accumulation of p58 in pre-Golgi intermediates. Consistent with a role for the KKXX retrieval motif found at the cytoplasmic carboxyl terminus of p53/58 in retrograde traffic, inhibition of transport through VTCs correlates with the ability of the antibody to block recruitment of COPI coats to the p53/58 cytoplasmic tail and to p53/58-containing membranes. We suggest that p53/58 function may be required for the coupled exchange of COPII for COPI coats during segregation of anterograde and retrograde transported proteins.
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PMID:p53/58 binds COPI and is required for selective transport through the early secretory pathway. 915 66

The tumor necrosis factor (TNF) cytokine family regulates development and function of the immune system [1]. TNF is expressed primarily by activated lymphocytes and macrophages and induces gene transcription or apoptosis in target cells [2,3]. We have identified a novel relative of TNF that binds to the recently discovered, death-domain-containing receptor called Apo3 [4] (also known as DR3, WSL-1, TRAMP or LARD [5-9]). The Apo3 ligand (Apo3L) is a 249 amino-acid, type II transmembrane protein. The extracellular sequence of Apo3L shows highest identity to that of TNF. We detected Apo3L mRNA in many human tissues and mapped its encoding gene to chromosome 17p13, near the p53 tumor-suppressor gene. Soluble Apo3L induced apoptosis and nuclear factor kappaB (NF-kappaB) activation in human cell lines. Caspase inhibitors blocked apoptosis induction by Apo3L, as did a dominant-negative mutant of the cell death adaptor protein Fas-associated death domain protein (FADD/MORT1), which is critical for apoptosis induction by TNF [3]. Dominant-negative mutants of several factors that play a key role in NF-kappaB induction by TNF [10] inhibited NF-kappaB activation by Apo3L. Thus, Apo3L has overlapping signaling functions with TNF, but displays a much wider tissue distribution.
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PMID:Identification of a ligand for the death-domain-containing receptor Apo3. 956 Mar 43

In coastal locations, marine invertebrates, primarily molluscs, develop fatal leukemias in their blood or hemolymph. In the clam Mya arenaria, non-adhesive, mitotic, spherical leukemia cells replace adhesive, motile, normal hemocytes as leukemia progresses. End-stage leukemia cells express a unique antigen, IE10, while normal cells express the 2A4 marker. The goals of this work were to further differentiate the normal and leukemia specific antigens relative to protein structure, determine if other protein distinctions exist, and examine p53 gene family expression in both cell types. Recognized by the monoclonal antibody 2A4, normal cells express a 185-kDa glycoprotein that may have multiple forms. Detected by the monoclonal antibody 1E10, leukemic cells express a very hydrophobic 252-kDa glycoprotein that is likely to be a transmembrane protein with spectrin/dystrophin-like characteristics. After normalization to the major cytoskeletal protein actin, sodium dodecyl sulfate-polyacrylamide gel electrophoresis reveals major distinguishing protein and glycoprotein differences between the two cell types. Most obvious is the near-absence of tubulin in the non-mitotic normal hemocytes. We have also characterized the expression of p53 gene family members in normal and end-stage leukemia cells, finding shifts in expression of the p53 gene homologues p73 and p97 coincident with leukemia-specific protein synthesis.
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PMID:Multiple protein differences distinguish clam leukemia cells from normal hemocytes: evidence for the involvement of p53 homologues. 1148 30

The tumor suppressor p53 has two alternative effects, causing either cell cycle arrest or apoptosis. These different effects are supposed to be mediated by the transcriptional activation of different target genes. perp, encoding a transmembrane protein of the Pmp22 family, is a transcriptional p53 target exclusively upregulated in apoptotic cells. However, its role during normal development had remained largely unclear. Here, we report the isolation and characterization of a zebrafish perp homolog. Upon overexpression in early zebrafish embryos, perp induces apoptosis. In addition, it contributes to p53-dependent and UV-induced cell death. However, during normal zebrafish development, perp displays a p53-independent and spatially restricted expression in specific cell types and tissues. Antisense-mediated loss of Perp function leads to increased apoptosis in perp-expressing cells of the developing skin and notochord. We conclude that, in contrast to its proapoptotic function in stressed cells, Perp plays an antiapoptotic role during normal zebrafish development to regulate tissue-specific cell survival.
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PMID:Perp is required for tissue-specific cell survival during zebrafish development. 1552 76

HGFIN, previously identified as nmb, and its homologs, osteoactivin are single transmembrane protein that is expressed in differentiated immune cells, and are linked to tumor progression. These dichotomous roles suggest that HGFIN could be linked to cell cycle regulation. We hypothesize that HGFIN is linked to different phases of cell cycle regulation via specific transcription factors. This study cloned and analyzed two fragments in the 5' flanking region of HGFIN: HGFIN-RM/2.0: 2.0 kb upstream of Exon 1; HGFIN-RM/1.5: 5' deletion (500 bp) of HGFIN-RM/2.0. Computer analyses indicated that HGFIN has unique upstream sequence with eight potential p53 sites. Electrophoretic mobility shift assay with Cy3-labeled PCR fragments indicated that p53 could interact with fragments encompassing p53 consensus regions. Reporter gene activities with HGFIN-RM/2.0 and HGFIN-RM/1.5 in cells with different p53 levels showed that p53 is relevant to HGFIN activities. Studies with modified T47D in which cytokine production was downregulated, but with p53 level similar to parental line showed synergism between p53 and mediators of cytokine in the regulation of HGFIN. In summary, p53 cooperate with cytokine-mediated transcription factors to regulate the expression of HGFIN.
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PMID:Cloning and characterization of the 5' flanking region of the HGFIN gene indicate a cooperative role among p53 and cytokine-mediated transcription factors: relevance to cell cycle regulation. 1568 12

TRAIL (Apo2 ligand) described as a type II transmembrane protein belonging to the TNF superfamily can induce apoptotic cell death in a variety of cell types. In the present study, a putative cDNA sequence encoding the 299 amino acids of TRAIL (GC-TRAIL) and its genomic organization were identified in grass carp Ctenopharyngodon idella. The predicted GC-TRAIL sequence showed 44 and 41% identities to chicken and human TRAILs, respectively. In a domain search, a tumor necrosis factor homology domain (THD) was identified in the C-terminal portion of TRAILs. The GC-TRAIL gene consists of five exons, with four intervening introns, spaced over approximately 4 kb of genomic sequence. Analysis of GC-TRAIL promoter region revealed the presence of a number of putative transcription factor binding sites, such as Sp1, NF-kappaB, AP-1, GATA, NFAT, HNF, STAT, P53 and IRF1 sequences which are important for the expression of other TNF family members. Phylogenetic analysis placed GC-TRAIL and the putative zebrafish (Danio rerio) TRAIL obtained from searching the zebrafish database into one separate cluster near mammalian TRAIL genes, but apart from the reported zebrafish TRAIL-like protein, indicating that the GC-TRAIL is an authentic fish TRAIL. Expression analysis revealed that GC-TRAIL is expressed in many tissues, such as in gills, liver, trunk kidney, head kidney, intestine and spleen.
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PMID:Characterization and expression analysis of TNF-related apoptosis inducing ligand (TRAIL) in grass carp Ctenopharyngodon idella. 1621 37

CD43 is a highly glycosylated transmembrane protein expressed on the surface of most hematopoietic cells. Expression of CD43 has also been demonstrated in many human tumor tissues, including colon adenomas and carcinomas, but not in normal colon epithelium. The potential contribution of CD43 to tumor development is still not understood. Here, we show that overexpression of CD43 increases cell growth and colony formation in mouse and human cells lacking expression of either p53 or ARF (alternative reading frame) tumor-suppressor proteins. In addition, CD43 overexpression also lowers the detection of the FAS death receptor on the cell surface of human cancer cells, and thereby helps to evade FAS-mediated apoptosis. However, when both p53 and ARF proteins are present, CD43 overexpression activates p53 and suppresses colony formation due to induction of apoptosis. These observations suggest CD43 as a potential contributor to tumor development and the functional ARF-p53 pathway is required for the elimination of cells with aberrant CD43 expression.
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PMID:CD43 promotes cell growth and helps to evade FAS-mediated apoptosis in non-hematopoietic cancer cells lacking the tumor suppressors p53 or ARF. 1789 Nov 81

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