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Query: UMLS:C0677930 (
primary tumor
)
20,210
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We performed expression, mutation, loss of heterozygosity (LOH) and fluorescence in situ hybridization (FISH) analyses of the
p73
gene in neuroblastomas (NBs). Reverse transcription-polymerase chain reaction (RT-PCR) using primers which can detect both the p73alpha and p73beta transcripts was performed on 30 fresh NBs and 22 NB cell lines. Aberrant expression of the
p73
gene was found in 4 (25%) of 16 primary tumors found by mass screening and in 10 (71.4%) of 14 primary tumors found clinically. The rates of expression in these two types of tumors were significantly different (p=0.026, Fisher's exact test). The incidence of aberrant expression of the
p73
gene was significantly higher in stage IV patients than in stages I, II, III plus IVS patients (p=0.0236, Fisher's exact test). No homozygous deletions or rearrangements of the
p73
gene were found in any samples examined. In addition to the polymorphism in exon 2, a silent mutation (codon 336 GCC/GCT) was found in one
primary tumor
. LOH of the
p73
gene was detected in 5 (15%) of 33 primary NBs using PCR-LOH analysis. FISH analysis showed that all 17 NB cell lines used in this study revealed allelic loss of the
p73
gene, while most of them expressed the
p73
gene. These results suggest that the
p73
gene is not monoallelically expressed in NB. We conclude that the
p73
gene is less involved in the development but involved in the progression of neuroblastoma.
...
PMID:The p73 gene is less involved in the development but involved in the progression of neuroblastoma. 1071 54
We are in an era where the potential exists for deriving comprehensive profiles of DNA alterations characterizing each form of human cancer. Such profiles would provide invaluable insight into mechanisms underlying the evolution of each tumor type and will provide molecular markers, which could radically improve cancer detection. To date, no one type of DNA change has been defined which accomplishes this purpose. Herein, by using a candidate gene approach, we show that one category of DNA alteration, aberrant methylation of gene promoter regions, can enormously contribute to the above goals. We have now analyzed a series of promoter hypermethylation changes in 12 genes (p16(INK4a), p15(INK4b), p14(ARF),
p73
, APC,(5) BRCA1, hMLH1, GSTP1, MGMT, CDH1, TIMP3, and DAPK), each rigorously characterized for association with abnormal gene silencing in cancer, in DNA from over 600
primary tumor
samples representing 15 major tumor types. The genes play known important roles in processes encompassing tumor suppression, cell cycle regulation, apoptosis, DNA repair, and metastastic potential. A unique profile of promoter hypermethylation exists for each human cancer in which some gene changes are shared and others are cancer-type specific. The hypermethylation of the genes occurs independently to the extent that a panel of three to four markers defines an abnormality in 70-90% of each cancer type. Our results provide an unusual view of the pervasiveness of DNA alterations, in this case an epigenetic change, in human cancer and a powerful set of markers to outline the disruption of critical pathways in tumorigenesis and for derivation of sensitive molecular detection strategies for virtually every human tumor type.
...
PMID:A gene hypermethylation profile of human cancer. 1130 70
p27 is a cyclin-dependent kinase inhibitor which regulates progression of cells from G1 into S phase in a cell cycle. Loss of the negative regulator may contribute to oncogenesis and tumor progression. The aim of this study was to examine p27 expression in normal mucosa, primary and metastatic tumors from patients with colorectal adenocarcinomas and to analyze association of p27 with patient survival and clinicopathological variables. p27 expression was estimated by immunohistochemistry in 178 primary colorectal cancers, 34 lymph node metastases and 48 normal mucosa samples from patients with colorectal adenocarcinoma. Associations of p27 with patient survival, clinicopathological characteristics and expression of p53,
p73
and DCC were analyzed. Loss of p27 was found in 51% of primary tumors, 68% of metastases and 56% of normal samples. The intensity of p27 staining was similar in the matched
primary tumor
, metastasis and normal mucosa. In patients with Dukes' B or with proximal tumors, the loss of p27 predicted poorer prognosis (p = 0.03 and p = 0.05, respectively). However, there were no significant differences in the patients with other individual Dukes' stage or distal tumors. No relationships were found between p27 and patients' gender, age, tumor location, growth pattern and expression of p53,
p73
and DCC (p > 0.05). The data suggest that loss of p27 was associated with poor prognosis in patients with Dukes' B tumor or those with proximal tumor. p27 might be a useful marker to identify the more progressive tumors in these groups.
...
PMID:Loss of p27 expression predicts poor prognosis in patients with Dukes' B stage or proximal colorectal cancer. 1140 21
Aberrant methylation of promoter CpG regions is a putative mechanism whereby tumor suppressor genes are inactivated. We used a candidate gene approach to investigate the patterns and significance of this epigenetic change in natural killer (NK) cell malignancies. Thirty-three patients were studied for promoter methylation in five putative tumor suppressor genes by methylation-specific polymerase chain reaction (MSP), which has a sensitivity of 10(-3). The
p73
gene was methylated in 94% of cases, a frequency that is the highest known for any human malignancy. In the NK cell lymphoma line NK92,
p73
was also completely methylated, and the
p73
transcript was correspondingly not detectable by quantitative polymerase chain reaction. Treatment of the cell line with 5-azacytidine, a demethylation reagent, led to demethylation of the
p73
promoter and reinduction of
p73
gene expression. These results suggested that promoter CpG methylation might be an important mechanism in suppressing
p73
gene expression in NK cells. Other methylated genes included hMLH1 (63%), p16 (63%), p15 (48%), and RAR beta (47%). Methylation of two or more genes occurred in 88% of cases. With promoter methylation as a molecular marker, MSP identified two cases of occult marrow metastasis. Interestingly, the
primary tumor
and metastasis showed different methylation patterns, implying that separate clonal evolutions might have occurred at these sites. Furthermore, MSP also identified tumor infiltration in random oropharyngeal biopsies in a case where histological examination could not show evidence of tumor involvement. We conclude that NK cell malignancies show a specific pattern of promoter methylation, with
p73
being consistently involved. These results suggest that
p73
may be an important target in the neoplastic transformation of NK cells, and the demonstration of its methylation may serve as a potential molecular tool for NK cell lymphoma detection.
...
PMID:Specific patterns of gene methylation in natural killer cell lymphomas : p73 is consistently involved. 1178 99
The recently identified p53 family member,
p73
, shows substantial structural and functional homology with p53. However, despite the established role of p53 as a proto-type tumor suppressor, a similar function of
p73
in malignancy is questionable. Overexpression of
p73
can activate typical p53-responsive genes, and activation of
p73
has been implicated in apoptotic cell death induced by aberrant cell proliferation and some forms of DNA-damage. These data together with the localization of TP73 on chromosome 1p36, a region frequently deleted in a variety of human tumors, led to the hypothesis that
p73
has tumor suppressor activity just like p53. However, unlike p53-/- mice,
p73
knockout mice do not develop tumors. Extensive studies on
primary tumor
tissues have revealed overexpression of wild-type
p73
in the absence of
p73
mutations instead, suggesting that
p73
may augment, rather than inhibit tumor development. In contrast to p53, differential splicing of the TP73 gene locus gives rise to a complex pattern of interacting
p73
isoforms with antagonistic functions. In fact, induction of apoptosis by increased levels of
p73
can be blocked by both p53 mutants and the N-terminally truncated
p73
isoforms, which were recently shown to possess oncogenic potential. In the light of these new findings the contradictory role of
p73
in malignancy will be discussed.
...
PMID:Role of p73 in malignancy: tumor suppressor or oncogene? 1185 6
The
p73
gene is a p53 homologue which induces apoptosis and inhibits cell proliferation. Although
p73
maps at 1p36.3 and is frequently deleted in neuroblastoma (NB), it does not act as a classic oncosuppressor gene. In developing sympathetic neurons of mice,
p73
is predominantly expressed as a truncated anti-apoptotic isoform (DeltaNp73), which antagonizes both p53 and the full-length
p73
protein (TAp73). This suggests that
p73
may be part of a complex tumor-control mechanism. To determine the role of DeltaNp73 in NB we analyzed the pattern of expression of this gene in vivo and evaluated the prognostic significance of its expression. Our results indicate that DeltaNp73 expression is associated with reduced apoptosis in a NB tumor tissue. Expression of this variant in NB patients significantly correlates with age at diagnosis and VMA urinary excretion. Moreover it is strongly associated with reduced survival (HR=7.93; P<0.001) and progression-free survival (HR=5.3; P<0.001) and its role in predicting a poorer outcome is independent from age,
primary tumor
site, stage and MYCN amplification (OS: HR=5.24, P=0.012; PFS: HR=4.36, P=0.005). In conclusion our data seem to indicate that DeltaNp73 is a crucial gene in neuroblastoma pathogenesis.
...
PMID:Expression of DeltaNp73 is a molecular marker for adverse outcome in neuroblastoma patients. 1185 3
Cutaneous melanoma is a tumor with high metastatic potential, but the mechanisms leading to progression are still not fully understood. In this study, we examined whether p16, p27, p53,
p73
and Nup88 proteins were involved in the progression from primary to metastatic melanomas by immunocytochemistry and Western blotting in eleven melanoma cell lines from five matched primary and metastatic melanomas. We demonstrated that the primary and metastatic melanomas expressed differently p16, p27,
p73
and Nup88 proteins. When expressed in the primary melanoma cells p16 and p27 were lost or reduced in almost all the metastatic melanoma cell lines. In contrast,
p73
and Nup88 were expressed in most of the tested melanoma cell lines and were increased in the metastatic melanomas. p53 was expressed at the same level in both the primary and metastatic melanoma cells. These data suggest that a reduced expression of p16 and p27 and an enhanced expression of
p73
and Nup88 might play an important role in the progression of melanoma from
primary tumor
to metastasis.
...
PMID:Expression of p16, p27, p53, p73 and Nup88 proteins in matched primary and metastatic melanoma cells. 1206 48
The question of whether
p73
is a tumor suppressor gene, is not yet answered with full confidence. The lack of spontaneous tumor formation in
p73
null mice and infrequent
p73
mutations seen in a variety of cancers analyzed would straightaway negate its role as a
primary tumor
suppressor gene. However, accumulating evidence suggest that
p73
gene and its target genes are hypermethylated in the cancer of lymphoid origin. Here I discuss some facts and thoughts that support the idea that
p73
could still be a tumor suppressor gene. The tumor suppressor network in which
p73
appears to be a participant involves E2F1, JunB, INK4a/p16, ARF/p19, p57kip2 and BRCA1. Knock out of each gene in E2F-1-
p73
-JunB-p16INK4a network of tumor suppressor proteins result in lymphoma/leukemia formation. Further, I tried to explain why lymphomas are not seen in
p73
null mice and why
p73
gene is not prone to frequent mutation.
...
PMID:Some facts and thoughts: p73 as a tumor suppressor gene in the network of tumor suppressors. 1740 86
Loss of heterozygosity and chromosomal rearrangement of the WWOX gene, which is located at 16q23.3-24.1, have been detected in ovarian, breast, hepatocellular, and prostate carcinomas and in other neoplasias. This gene, which spans the common chromosomal fragile site 16D, contains 9 exons and encodes a 46 kDa WWOX protein that contains 414 amino acids. The evidence from cancer cell lines and
primary tumor
tissues suggests that WWOX is a tumor suppressor gene and that its inactivation contributes to cancer development. The results from studies of WWOX gene knockout cancer cells and a WWOX knockout mouse model partly confirm this hypothesis. The nature of the various proteins that the WWOX protein can interact with, such as c-Jun, TNF, p53,
p73
, AP-2 gamma, and E2F-1, suggests that WWOX plays a central role in tumor suppression through transcriptional repression and apoptosis, with its apoptotic function the more prominent of the two. However, there is not universal agreement that WWOX is a tumor suppressor gene. Further analysis is needed to reveal the true nature of WWOX.
...
PMID:WWOX tumor suppressor gene. 1843 86
