UMLS:C0027960 - FACTA Search

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Query: UMLS:C0027960 (mole)
21,279 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Some cases of pancreatic cancer (PC) are described to cluster within families. With the exception of PALLD gene mutations, which explain only a very modest fraction of familial cases, the genetic basis of familial PC is still obscure. Here the literature was reviewed in order to list the known genes, environmental factors, and health conditions associated with PC or involved in the carcinogenesis of the pancreas. Most of the genes listed are responsible for various well-defined cancer syndromes, such as CDKN2A (familial atypical mole-multiple melanoma, FAMMM), the mismatch repair genes (Lynch Syndrome), TP53 (Li-Fraumeni syndrome), APC (familial adenomatous polyposis), and BRCA2 (breast-ovarian familial cancer), where PC is part of the cancer spectrum of the disease. In addition, in this review I ranked known/possible risk factors extending the analysis to the hereditary pancreatitis (HP), diabetes, or to specific environmental exposures such as smoking. It appears that these factors contribute strongly to only a small proportion of PC cases. Recent work has revealed new genes somatically mutated in PC, including alterations within the pathways of Wnt/Notch and DNA mismatch repair. These new insights will help to reveal new candidate genes for the susceptibility to this disease and to better ascertain the actual contribution of the familial forms.
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PMID:Genetic predisposition and environmental risk factors to pancreatic cancer: A review of the literature. 1915 Apr 14

Invasive trophoblastic mole is an extremely rare condition. Its early recognition is essential since it can transform into an invasive type of tumour. Immunohistochemistry was performed with monoclonal antibodies against inhibin-alpha, -betaA and -betaB, Ki67, p53 and glycodelin A in a rare case of accidentally diagnosed invasive trophoblastic mole. There was labelling of the inhibin/activin subunits, Ki67 and p53, while glycodelin A showed minimal immunopositivity. Therefore, since the pathological diagnosis of an invasive mole is difficult, the immunohistochemical detection of inhibin/activin subunits, Ki67, p53 and glycodelin A might be additional useful tumour markers.
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PMID:Invasive hydatidiform mole: immunohistochemical labelling of inhibin/activin subunits, Ki67, p53 and glycodelin A in a rare case. 1919 90

Melanocytic nevi frequently harbor oncogenic BRAF mutations, but only a minority progress to melanoma. In human melanocytes, persistent BRAF(V600E) expression triggers oncogene-induced senescence, which implies that bypass of oncogene-induced senescence is necessary for malignant transformation of melanocytes. We show that a subpopulation of primary human melanocytes with persistent expression of BRAF(V600E) do not enter oncogene-induced senescence, but instead survive despite heightened MAPK activity. Disruption of the p53 pathway using short-hairpin RNA initiated rapid growth of these V600E(+) melanocytes in vitro. The resultant V600E(+)/p53(sh) melanocytes grew anchorage-independently in soft agar, formed pigmented lesions reminiscent of in situ melanoma in artificial skin reconstructs, and were weakly tumorigenic in vivo. Array comparative genomic hybridization analysis demonstrated that the transformed melanocytes acquired a substantial deletion in chromosome 13, which encodes the Rb1 tumor suppressor gene. Gene expression profiling study of nevi and melanomas showed that p53 target genes were differentially expressed in melanomas compared with nevi, suggesting a dysfunctional p53 pathway in melanoma in vivo. In summary, these data demonstrate that a subpopulation of melanocytes possesses the ability to survive BRAF(V600E)-induced senescence, and suggest that p53 inactivation may promote malignant transformation of these cells.
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PMID:The role of BRAF mutation and p53 inactivation during transformation of a subpopulation of primary human melanocytes. 1938 34

Tumor suppressor p53 is the most frequently mutated gene in human tumors. Meanwhile, under stress conditions, p53 also acts as a transcription factor, regulating the expression of a series of target genes to maintain the integrity of genome. The target genes of p53 can be classified into genes regulating cell cycle arrest, genes involved in apoptosis, and genes inhibiting angiogenesis. p53 protein contains a transactivation domain, a sequence-specific DNA binding domain, a tetramerization domain, a non-specific DNA binding domain that recognizes damaged DNA, and a later identified proline-rich domain. Under stress, p53 proteins accumulate and are activated through two mechanisms. One, involving ataxia telangiectasia-mutated protein (ATM), is that the interaction between p53 and its down-regulation factor murine double minute 2 (MDM2) decreases, leading to p53 phosphorylation on Ser15, as determined by the post-translational mechanism; the other holds that p53 increases and is activated through the binding of ribosomal protein L26 (RPL26) or nucleolin to p53 mRNA 5( untranslated region (UTR), regulating p53 translation. Under hypoxia, p53 decreases transactivation and increases transrepression. The mutations outside the DNA binding domain of p53 also contribute to tumor progress, so further studies on p53 should also be focused on this direction. The subterranean blind mole rat Spalax in Israel is a good model for hypoxia-adaptation. The p53 of Spalax mutated in residue 172 and residue 207 from arginine to lysine, conferring it the ability to survive hypoxic conditions. This model indicates that p53 acts as a master gene of diversity formation during evolution.
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PMID:Cellular adaptation to hypoxia and p53 transcription regulation. 1943 69

The naked mole-rat is the longest living rodent with a maximum lifespan exceeding 28 years. In addition to its longevity, naked mole-rats have an extraordinary resistance to cancer as tumors have never been observed in these rodents. Furthermore, we show that a combination of activated Ras and SV40 LT fails to induce robust anchorage-independent growth in naked mole-rat cells, while it readily transforms mouse fibroblasts. The mechanisms responsible for the cancer resistance of naked mole-rats were unknown. Here we show that naked mole-rat fibroblasts display hypersensitivity to contact inhibition, a phenomenon we termed "early contact inhibition." Contact inhibition is a key anticancer mechanism that arrests cell division when cells reach a high density. In cell culture, naked mole-rat fibroblasts arrest at a much lower density than those from a mouse. We demonstrate that early contact inhibition requires the activity of p53 and pRb tumor suppressor pathways. Inactivation of both p53 and pRb attenuates early contact inhibition. Contact inhibition in human and mouse is triggered by the induction of p27(Kip1). In contrast, early contact inhibition in naked mole-rat is associated with the induction of p16(Ink4a). Furthermore, we show that the roles of p16(Ink4a) and p27(Kip1) in the control of contact inhibition became temporally separated in this species: the early contact inhibition is controlled by p16(Ink4a), and regular contact inhibition is controlled by p27(Kip1). We propose that the additional layer of protection conferred by two-tiered contact inhibition contributes to the remarkable tumor resistance of the naked mole-rat.
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PMID:Hypersensitivity to contact inhibition provides a clue to cancer resistance of naked mole-rat. 1990 93

NRAS mutations are a common oncogenic event in skin cancer, occurring frequently in congenital nevi and malignant melanoma. To study the role of NRAS in zebrafish, a transgenic approach was applied to generate fish that express human oncogenic NRAS(Q61K) under the control of the melanocyte-restricted mitfa promoter. By screening the progeny of the injected animals, two strains stably expressing the NRAS transgene were identified: Tg(mitfa:EGFP:NRAS(Q61K))(1) and Tg(mitfa:EGFP:NRAS(Q61K))(2). Stable expression of this transgene results in hyperpigmented fish displaying a complete ablation of the normal pigment pattern. Although oncogenic NRAS expression alone was found to be insufficient to promote tumor formation, loss of functional p53 was found to collaborate with NRAS expression in the genesis of melanoma. The tumors derived from these animals are variably pigmented and closely resemble human melanoma. Underscoring the pathological similarities between these tumors and human disease and suggesting that common pathways are similar in these models and human disease, gene set enrichment analysis performed on microarray data found that the upregulated genes from zebrafish melanomas are highly enriched in human tumor samples. This work characterizes two zebrafish melanoma models that will be useful tools for the study of melanoma pathogenesis.
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PMID:Oncogenic NRAS cooperates with p53 loss to generate melanoma in zebrafish. 1995 45

The risk to develop melanoma from small or medium size congenital naevus remain controversial. The main goal of the present study was to determine the interest of three immunohistochemical markers (Ki67, HMB45 and p53) in predicting malignant transformation of these congenital naevi and to see if a specific immunohistochemical profile of such transformed naevi can be identified. The markers (Ki67, HMB45 and p53) have been used retrospectively on sections of small or medium size congenital naevi (group NC, n = 15), of melanoma developed on small or medium size congenital naevi (group MNC, n = 15) and of melanoma developed on acquired naevi (group MNA, n = 15). The labelled cells have been counted in different cutaneous layers: junction, superficial dermal layer and deep dermal layer. No reactivity was observed for the three markers in group NC. The percentage of labelled cells was significantly different for the three markers between the group NC and the groups MNC and MNA. There was no difference between the groups MNC and MNA. In the groups MNC and MNA, a gradient in the percentage of labelled cells was observed between superficial and deep layers. These three markers do not differentiate melanoma developed from congenital naevi of small or medium size and melanoma developed from acquired naevi. Moreover, the results suggest that these three markers are useless in predicting the risk of malignant transformation of small or medium size congenital naevi.
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PMID:[Interest of immunohistochemic markers (Ki67, HMB45, p53) in risk analysis of congenital naevi of little and middle size]. 1999 92

Oncogene-induced senescence (OIS) is a robust and sustained antiproliferative response brought about by oncogenic signaling resulting from an activating mutation of an oncogene, or the inactivation of a tumor-suppressor gene. The pathways mediating OIS are complex and incompletely elucidated but, the proliferative arrest involves activation of both the RB and p53 pathways. In addition, whereas there are indications that at least in some situations, negative feedback loops abolish the increased mitogenic signaling resulting from the oncogenic mutations, also an unexpected contribution of interleukin-mediated signaling has recently been found. OIS brings about cessation of growth of some benign tumors, including melanocytic nevi and several other lesions, including pituitary and thyroid adenomas. It protects against progression to cancer, and in this way complements oncogene-induced apoptosis. Perhaps, OIS has evolved as an alternative to apoptosis especially regarding long-lived cell types that are not replaceable in large numbers. Contrary to the earlier belief, OIS is not entirely irreversible, at least in some well documented in vitro systems. This means that its induction does not entirely eliminate the oncogenic threat resulting from the mutated cell. It also means that OIS, or related phenomena that may affect a proportion of the tumor cells of some cancers, may have an influence on responsiveness to cytotoxic cancer therapies, because OIS is associated with an antiapoptosis phenotype.
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PMID:Oncogene-induced cellular senescence. 2003 38

The tumor suppressor gene, p53, in response to DNA damage/hypoxia, induces growth arrest and/or apoptosis. Inactivation of p53, by mutations and/or overexpression of the mdm2 gene, confers a selective advantage to tumor cells under hypoxic microenvironment during tumor progression. The mole rat, Spalax, spends its life underground at low-oxygen tensions and hence has developed a wide range of respiratory/molecular adaptations to hypoxic stress. We previously reported that the highly conserved p53 Arg(R)-174 is substituted by lysine (K) in Spalax, identical to a tumor-associated mutation. Functionality assays revealed that Spalax p53 and human R174K-mutated p53 were unable to induce human/Spalax apaf1, an apoptotic target gene, while over-activating the mdm2 gene. Moreover, cells transfected with human p53 underwent more extensive apoptosis (44.8%) as compared to Spalax p53 (23.2%) transfected cells. To support our hypothesis that the pattern of activity in Spalax is related to hypoxia tolerance, we quantified apaf1 and mdm2 mRNA levels under normoxia (21% O(2)), short-acute hypoxic stress (5 h at 6% O(2)) and long-mild hypoxic insult (44 h at 10% O(2)). Results were compared to those of rats under similar conditions. Following hypoxia, Spalax apaf1 mRNA levels decreased significantly, but increased in rats. apip mRNA levels, a negative regulator of apaf1, increased in Spalax and decreased in rats. mdm2 mRNA levels under hypoxia were significantly higher in Spalax. We conclude that, similar to our previous in-vitro work, two parallel hypoxia-adaptive mechanisms evolved in Spalax: mutated p53 and p53 response element leading to a bias against apoptosis and increased mdm2, which are analogous to observations in tumor development.
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PMID:The expression of p53-target genes in the hypoxia-tolerant subterranean mole-rat is hypoxia-dependent and similar to expression patterns in solid tumors. 2070 75

DJ-1 is found to be important in human neurodegenerative diseases and cancers by regulating oxidative damage and apoptosis. DJ-1 is also a regulator of PTEN, a frequently mutated tumor suppressor gene in cancers. In this study, we investigated the expression of DJ-1 and PTEN in normal placentas and gestational trophoblastic disease in relation to apoptotic indices and p53 status. A total of 95 trophoblastic samples were retrieved for immunohistochemical study whereas 79 trophoblastic samples, 3 normal trophoblastic and 2 choriocarcinoma cell lines were collected for quantitative real time reverse transcription polymerase chain reaction detection. There was a significant correlation between DJ-1 and PTEN immunostaining indices in the trophoblastic samples (P=0.013). Significantly higher DJ-1 and PTEN immunoreactivity indices were found in the complete mole (P<0.01) and choricarcinoma (P<0.01) compared with the first trimester placenta. Quantitative real time reverse transcription polymerase chain reaction also detected significantly higher messenger ribonucleic acid expressions of DJ-1 and PTEN in hydatidiform moles (P<0.05) and choriocarcinomas (P<0.05) compared with the first trimester placentas. A significant negative correlation was found between DJ-1 and the apoptosis resistant gene Bcl-2 (P=0.031), whereas a positive correlation was shown between PTEN and wild-type p53 (P=0.019). Significant correlations between PTEN and embryonic stem cell transcription factors, Stat3 and Nanog, were also displayed (P=0.001, 0.015). Our findings showed, for the first time, overexpression of DJ-1 at both transcriptional and protein levels in gestational trophoblastic disease. Overexpressed DJ-1 may play a role in regulating apoptotic activities of trophoblasts in relation to PTEN and p53.
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PMID:Overexpression of the Parkinson disease protein DJ-1 and its regulator PTEN in gestational trophoblastic disease. 2073 73

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