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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The
mdm2 protein
interacts with a number of proteins involved in cell growth control. Such interactions favour cell proliferation and may explain the oncogenic potential of mdm2 when over-expressed in cells. Interaction with the tumour suppressor
p53
involves the N-terminus of mdm2 and targets
p53
for rapid degradation by the ubiquitin pathway. We now describe a novel, highly conserved exon of mdm2 (exon alpha) which includes an in-frame UGA stop codon. Expression of exon alpha disrupts in vitro translation of the
p53
binding domain of mdm2. We propose that exon alpha induces translation re-initiation at an internal AUG codon within the mdm2 alpha mRNA isoform. The putative mdm2 alpha protein lacks the N-terminus of mdm2 and shows little, if any, binding capacity for
p53
. Mdm2 alpha mRNA is expressed in a tissue-specific manner and is observed predominantly in testis and peripheral blood lymphocytes. We propose that mdm2 alpha expression may provide a mechanism for uncoupling mdm2-
p53
interaction in certain cell types and/or under specific conditions of cell growth.
...
PMID:A novel exon within the mdm2 gene modulates translation initiation in vitro and disrupts the p53-binding domain of mdm2 protein. 1059 3
In this study the effects of SN-38 on colon adenocarcinoma cell lines expressing wild-type
p53
(LS174T) or mutant non-functional
p53
(HT29) have been investigated. On exposure to SN-38, HT29 cells rapidly progressed through G1 and S and arrested in G2/M. Release and concomitant increase in apoptosis after 48 h was concentration- and time-dependent (P < 0.001), being more rapid at higher concentrations, but reaching plateau at 10 ng ml(-1) with prolonged exposure. LS174T cells showed only a small increase in apoptosis, and only at high concentrations (50-100 ng ml(-1)). The main effect of SN-38 in LS174T cells was prolonged cell cycle arrest, which was independent of concentration. Arrest occurred in all phases of the cell cycle, with the distribution depending on concentration (P < 0.001) and not duration (P > 0.05). With increasing concentration, LS174T cells arrested in G2/M, S and G1. Cell cycle arrest was coincident with increased
p53
expression in each phase of the cell cycle. Expression in G1 increased with time and concentration (P < 0.001, P = 0.01 respectively)whereas in S and G2/M
p53
expression increased only with time (P< 0.001). Dose-dependent
p53
-associated G1 arrest, in the absence of DNA synthesis indicates an additional cytotoxic mechanism for SN-38, which requires higher concentrations than the S phase mechanism, and detection of which seems to involve
p53
. For incubations with the same ED (exposure x duration), apoptosis in HT29 cells was significantly higher for prolonged exposure to lower concentrations, whereas in LS174T cells there was a trend towards increased apoptosis with shorter exposures to higher concentrations, indicating a schedule effect of SN-38. Although expression of wild-type
p53
leads to a more rapid induction of apoptosis, SN-38 cytotoxicity was generally greater in cells with mutant p53, as wild-type cells escaped apoptosis by
p53 associated
prolonged cell cycle arrest. Thus, pulsed schedules with higher doses may be more effective in cells expressing wild-type
p53
, whereas continued exposure with protracted schedules may be more active in cells expressing mutant p53.
...
PMID:Schedule-dependent cytotoxicity of SN-38 in p53 wild-type and mutant colon adenocarcinoma cell lines. 1060 24
TP53
and MDM2 genes and their protein expression were evaluated in frozen and paraffin-embedded tissue from 27 patients with malignant fibrous histiocytoma to elucidate the relationship between them, their implication in tumor progression mechanisms and their possible diagnostic-prognostic value in malignant fibrous histiocytoma. Single-strand conformation polymorphism analysis and direct sequencing of polymerase chain reaction-amplified DNA were used to establish two
TP53
mutations (7.4%): a point mutation and a 63-bp duplication. Amplification of the MDM2 gene was observed in two tumors (7.4%) by means of Southern-blot analysis, one of them also carrying the
TP53
point mutation. Immunohistochemical and Western-blot techniques were used to study nuclear accumulation of
p53
and mdm2 proteins: 11 cases (40.7%) with
p53 protein
expression and thirteen cases (48.1%) with
mdm2 protein
expression were detected. We confirmed overexpression of
mdm2 protein
in eight of ten cases (80%) with
p53 protein
expression without
TP53
gene mutation. Statistical analysis shows that simultaneous co-expression of
p53
and mdm2 in malignant fibrous histiocytoma is significantly correlated with survival in absence of gene alteration in contrast to the lack of statistical correlation with survival of
p53 protein
expression alone.
...
PMID:Analysis of p53 and mdm2 proteins in malignant fibrous histiocytoma in absence of gene alteration: prognostic significance. 1062 2
Intracranial germ cell tumors (ICGTs) are uncommon neoplasms. The histological appearance of ICGTs is indistinguishable from that of the usual testicular germ cell tumors (TGTs). Recently, several reports have associated molecular abnormalities of
p53
and mdm2 in TGTs with their malignancies. However, whether ICGTs are associated with molecular abnormalities is still unknown. We analyzed a series of 16 ICGTs for mutations in the
TP53
gene by single-strand conformation polymorphisms, and for amplification of the MDM2 gene using differential PCR. In addition, the same 16 tumors were examined for
p53
and
mdm2 protein
overexpression using antibodies directed against
p53
[monoclonal antibodies (mAb) 1801 and DO7] and mdm2 (IF2), respectively. Twelve (75%) and 2 (13%) of the 16 ICGTs reacted with DO7 and PAb1801, respectively, and 1 (6%) carried a
TP53
gene mutation. Thirteen (81%) of the 16 ICGTs reacted with IF2, and 3 (19%) carried MDM2 gene amplification. The less frequent
TP53
gene mutation compared with MDM2 gene amplification, and the frequently expressed
p53
and
mdm2 protein
, are similar to the case for TGTs. It is tempting to speculate that ICGTs might have the same cellular origins as TGTs with abnormalities in
p53
and mdm2, which could play an important role of tumorigenesis.
...
PMID:Molecular analysis for p53 and mdm2 in intracranial germ cell tumors. 1065 Oct 23
Cockayne syndrome (CS) is a human autosomal recessive disorder characterized by many neurological and developmental abnormalities. CS cells are defective in the transcription coupled repair (TCR) pathway that removes DNA damage from the transcribed strand of active genes. The individuals suffering from CS do not generally develop cancer but show increased neurodegeneration. Two genetic complementation groups (CS-A and CS-B) have been identified. The lack of cancer formation in CS may be due to selective elimination of cells containing DNA damage by a suicidal pathway. In this study, we have evaluated the role of the CSB gene in UV induced apoptosis in human and hamster cells. The hamster cell line UV61 carries a mutation in the homolog of the human CSB gene. We show that both human CS-B and hamster UV61 cells display increased apoptotic response following UV exposure compared with normal cells. The increased sensitivity of UV61 cells to apoptosis is complemented by the transfection of the wild type human CSB gene. In order to determine which functional domain of the CSB gene participates in the apoptotic pathway, we constructed stable cell lines with different CSB domain disruptions. UV61 cells were stably transfected with the human CSB cDNA containing a point mutation in the highly conserved glutamic acid residue in ATPase motif II. This cell line (UV61/ pc3.1-CSBE646Q) showed the same increased apoptosis as the UV61 cells. In contrast, cells containing a deletion in the acidic domain at the N-terminal end of the CSB protein had no effect on apoptosis. This indicates that the integrity of the ATPase domain of CSB protein is critical for preventing the UV induced apoptotic pathway. In primary human CS-B cells, the induction and stabilization of the
p53 protein
seems to correlate with their increased apoptotic potential. In contrast, no change in the level of either
p53
or activation of
mdm2 protein
by
p53
was observed in hamster UV61 cells after UV exposure. This suggests that the CSB dependent apoptotic pathway can occur independently of the transactivation potential of
p53
in hamster cells.
...
PMID:Role of the ATPase domain of the Cockayne syndrome group B protein in UV induced apoptosis. 1069 17
The ARF tumor suppressor protein stabilizes
p53
by antagonizing its negative regulator, Mdm2 (
Hdm2
in humans). Both mouse p19(ARF) and human p14(ARF) bind to the central region of Mdm2 (residues 210 to 304), a segment that does not overlap with its N-terminal
p53
-binding domain, nuclear import or export signals, or C-terminal RING domain required for Mdm2 E3 ubiquitin ligase activity. The N-terminal 37 amino acids of mouse p19(ARF) are necessary and sufficient for binding to Mdm2, localization of Mdm2 to nucleoli, and
p53
-dependent cell cycle arrest. Although a nucleolar localization signal (NrLS) maps within a different segment (residues 82 to 101) of the human p14(ARF) protein, binding to Mdm2 and nucleolar import of ARF-Mdm2 complexes are both required for cell cycle arrest induced by either the mouse or human ARF proteins. Because many codons of mouse ARF mRNA are not recognized by the most abundant bacterial tRNAs, we synthesized ARF minigenes containing preferred bacterial codons. Using bacterially produced ARF polypeptides and chemically synthesized peptides conjugated to Sepharose, residues 1 to 14 and 26 to 37 of mouse p19(ARF) were found to interact independently and cooperatively with Mdm2, while residues 15 to 25 were dispensable for binding. Paradoxically, residues 26 to 37 of mouse p19(ARF) are also essential for ARF nucleolar localization in the absence of Mdm2. However, the mobilization of the p19(ARF)-Mdm2 complex into nucleoli also requires a cryptic NrLS within the Mdm2 C-terminal RING domain. The Mdm2 NrLS is unmasked upon ARF binding, and its deletion prevents import of the ARF-Mdm2 complex into nucleoli. Collectively, the results suggest that ARF binding to Mdm2 induces a conformational change that facilitates nucleolar import of the ARF-Mdm2 complex and
p53
-dependent cell cycle arrest. Hence, the ARF-Mdm2 interaction can be viewed as bidirectional, with each protein being capable of regulating the subnuclear localization of the other.
...
PMID:Cooperative signals governing ARF-mdm2 interaction and nucleolar localization of the complex. 1071 75
Tumor suppressor protein
p53
is a positive regulator of MDM2 gene expression and the
mdm2 protein
can bind to
p53
, preventing the transactivation of
p53
responsive genes, thus mimicking
TP53
mutation. The authors looked for alterations that could affect, directly and indirectly,
p53
function in 13 patients with extrahepatic cholangiocarcinoma. Molecular analysis by single strand conformation polymorphism and DNA sequencing revealed that
TP53
gene mutations occurred in only 2 of 13 cholangiocarcinomas. High levels of
mdm2 protein
were found, by immunohistochemical staining, in 61% of the cholangiocarcinomas and in almost all specimens (70%) displaying stabilized
p53 protein
in the absence and in the presence of
TP53
mutations. The finding of co-overexpressed mdm2 and
p53
proteins in cholangiocarcinomas indicates that they can upregulate the expression of
mdm2 protein
to a level sufficient for binding and accumulating
p53
in a presumably inactive complexed form. The presence of
TP53
mutations or upregulation of MDM2 gene expression in 9 of the 13 cholangiocarcinomas strongly supports that the impairment of the
p53
pathway is an important and specific step in cholangiocarcinoma pathogenesis. At variance with other authors, no alteration of p16ink4/CDKN2 gene was observed in all 13 cholangiocarcinomas.
...
PMID:TP53 mutations and mdm2 protein overexpression in cholangiocarcinomas. 1071 12
Biochemical characterisation of the interaction of
mdm2 protein
with
p53 protein
has demonstrated that full-length mdm2 does not bind stably to
p53
-DNA complexes, contrasting with C-terminal truncations of mdm2 which do bind stably to
p53
-DNA complexes. In addition, tetrameric forms of the p53His175 mutant protein in the PAb1620+ conformation are reduced in binding to
mdm2 protein
. These data suggest that the mdm2 binding site in the BOX-I domain of
p53
becomes concealed when either
p53
binds to DNA or when the core domain of
p53
is unfolded by missense mutation. This further suggests that the C-terminus of
mdm2 protein
contains a negative regulatory domain that affects
mdm2 protein
binding to a second, conformationally sensitive interaction site in the core domain of
p53
. We investigated whether there was a second docking site on
p53
for
mdm2 protein
by examining the interaction of full-length mdm2 with
p53
lacking the BOX-I domain. Although
mdm2 protein
did bind very weakly to
p53 protein
lacking the BOX-I domain, addition of RNA activated
mdm2 protein
binding to this truncated form of
p53
. These data provide evidence for three previously undefined regulatory stages in the
p53
-mdm2 binding reaction: (1) conformational changes in
p53 protein
due to DNA binding or point mutation conceals a secondary docking site of
mdm2 protein
; (2) the C-terminus of mdm2 is the primary determinant which confers this property upon
mdm2 protein
; and (3)
mdm2 protein
binding to this secondary interaction site within
p53
can be stabilised by RNA.
...
PMID:Mdm2 binding to a conformationally sensitive domain on p53 can be modulated by RNA. 1078 12
The present study was designed to analyze the expression of
p53
and mdm2 in clear cell renal cell carcinoma with special emphasis on their association with tumor grade and clinical outcome. In particular, the value of individual protein overexpression as well as combined
p53
/mdm2 positivity was evaluated because both proteins are functionally connected, and their expression is controlled by an autoregulatory feedback loop. A cohort of 97 clear cell renal cell carcinomas was analyzed. The overexpression of mdm2 and
p53
proteins was investigated on paraffin-embedded material by using monoclonal antibodies. Eighteen tumors showed mdm2 positivity, whereas 35 of the tumors overexpressed
p53
. Whereas
p53
and mdm2 positivity correlated significantly (P = 0.00004), no correlation could be found between
mdm2 protein
overexpression and tumor stage, lymph node involvement, and presence of distant metastases. mdm2 positivity was found significantly more frequently in tumors of higher grade. In univariate analysis, there was a statistically significant correlation between
p53
and mdm2 overexpression in the same tumor and poor survival (P = 0.00179). Multivariate analysis revealed that coincident mdm2/
p53
overexpression, the presence of distant metastases, and tumor grade were independent predictors for tumor progression. Our results indicate that mdm2/
p53
co-overexpression, nuclear grade, and preoperative presence of distant metastasis are independent predictors for poor survival.
...
PMID:mdm2 expression as a prognostic indicator in clear cell renal cell carcinoma: comparison with p53 overexpression and clinicopathological parameters. 1081 6
Mdm2, localized on chromosome 12, is considered a negative regulator of
p53
function and seems to play a role in the pathogenesis of a variety of tumors. The mdm2 amplification in advanced-stage gastric carcinoma has not yet been investigated. Mdm2 amplification was determined in 43 gastric carcinomas, and the genetic results were correlated with
mdm2 protein
expression,
p53
alterations, and clinicopathologic data. The tumors were classified according to Lauren: 20 intestinal-type tumors, 19 tumors of diffuse growth inclusive of a primary small cell carcinoma, and 4 carcinomas with mixed differentiation. Staging was based on the pTNM classification system. Mdm2 and
p53
were demonstrated by immunohistology on formalin-fixed and paraffin-embedded tumor tissue. The mdm2 oncogene was amplified by nonradioactive hybridization of tumor DNA with an mdm2 cDNA probe. The Southern blots were evaluated densitometrically. For
p53
mutation screening, we analyzed the highly conservative regions of the
p53
gene (exons 4 to 8) with the use of the polymerase chain reaction-single-strand conformation polymorphism technique. Polymerase chain reaction products with band shifting were directly sequenced. Mdm2 amplification was demonstrated in 18 tumors (41.8%). The mdm2 gene was amplified more frequently in carcinomas with a diffuse growth pattern. Gastric carcinomas of the intestinal type, however, showed a higher frequency of
p53
alterations. There was no statistical significance of the molecular genetic and immunohistologic results of the mdm2/
p53
status to staging as well as to age and sex of the patients. The mdm2/
p53
pathway is a part of the carcinogenesis of gastric carcinoma. Only approximately 20% of gastric carcinomas failed to show mdm2 and/or
p53
alterations. The upregulation of the mdm2 oncogene and the accompanying inactivation of the tumor suppressor gene 53 seem to play a role above all in carcinomas of the diffuse type.
...
PMID:Mdm2 gene amplification in gastric cancer correlation with expression of Mdm2 protein and p53 alterations. 1087 65
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