UMLS:C0178874 - FACTA Search

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Query: UMLS:C0178874 (tumor progression)
40,807 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Only few studies have evaluated the usefulness of the GLUT1 and p63 status of thyroid carcinomas in revealing tumorigenesis. We studied GLUT1, p53, and p63 immunoexpression in a total of 86 cases of various thyroid carcinoma types to determine the biological significance of GLUT1 and p63 expression in thyroid carcinomas. GLUT1 was detected in six cases of anaplastic carcinoma and in one case of poorly differentiated carcinoma with membranous staining. p63 was detected in five cases of anaplastic carcinoma, in one case of poorly differentiated carcinoma, and in five cases of papillary carcinoma with nuclear positivity. p53 was detected in six cases of anaplastic carcinoma, in one case of poorly differentiated carcinoma, and in one case of follicular carcinoma with nuclear positivity. Five of seven cases of anaplastic carcinoma expressed all three of these markers. The results suggest that GLUT1, p63, and p53 are not expressed in well-differentiated thyroid carcinomas, and that they are usually expressed late in the course of thyroid tumor progression. These data strongly suggest that in anaplastic carcinomas, impairment of p53-mediated repression results in increased GLUT1 and p63 expression, and that this probably reflects the differential regulation of hypoxia-responsive pathways and basal/stem cell regulatory pathways.
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PMID:Expression of the GLUT1 glucose transporter, p63 and p53 in thyroid carcinomas. 1702 9

The p53 family comprises the tumor suppressor p53 and the structural homologs p63 and p73. How the three family members cooperate in tumor suppression remains unclear. Here, we report different but complementary functions of the individual members for regulating retinoblastoma protein (RB) function during myogenic differentiation. Whereas p53 transactivates the retinoblastoma gene, p63 and p73 induce the cyclin-dependent kinase inhibitor p57 to maintain RB in an active, hypophosphorylated state. DeltaNp73 inhibits these functions of the p53 family in differentiation control, prevents myogenic differentiation, and enables cooperating oncogenes to transform myoblasts to tumorigenicity. DeltaNp73 is frequently overexpressed in rhabdomyosarcoma and essential for tumor progression in vivo. These findings establish differentiation control as a key tumor suppressor activity of the p53 family.
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PMID:p53 family members in myogenic differentiation and rhabdomyosarcoma development. 1704 6

Molecular links between apoptosis, tumorigenesis and drug resistance provide starting points for new therapeutic approaches and for a targeted cancer therapy. The discovery of the p53-related genes p63 and p73 raised the possibility that they may be cancer-associated genes and as a consequence that p53 is not the only component in predicting prognosis and response to chemotherapy, but instead the status of a network that contains p53, p73 and p63. This review focuses on the status and interrelationship of the p53 family members in human cancer as critical elements for tumor progression and response to therapy. Literature up to December 2006 is reviewed. p63 and p73--as well as p53--each use multiple promoters and alternative splicing to generate an array of isoforms, including full-length isoforms with a transactivation (TA-) domain homologous to that of full-length p53, and amino-terminally truncated (DeltaN-) isoforms. Whereas the full-length TA isoforms of p63 and p73 can activate downstream target genes and induce apoptosis, the DeltaN isoforms which lack the transactivation domain can act as dominant inhibitors of the full-length forms of p53, p63 and p73, inhibiting transactivation of target genes and induction of apoptosis. Deregulated dominant negative p63 and p73 isoforms play an oncogenic role in human cancer and contribute to chemoresistance. Thus, therapeutic modulation of TAp63/DeltaNp63, TAp73/DeltaNp73 and mutant p53 levels might be used to target the large percentage of human tumors that harbor p53 mutations and/or overexpress DeltaNp63 or DeltaNp73. Interfering with the expression or function of DeltaNp63 and/or DeltaNp73 and/or mutant p53 in tumor cells may render such tumors more responsive to therapy and reduce their aggressiveness and metastatic capacity.
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PMID:One, two, three--p53, p63, p73 and chemosensitivity. 1728 42

At variance with other human malignancies, p53 mutations are not frequent in thyroid cancer and are believed to be responsible mainly for cancer progression to poorly differentiated and aggressive phenotype. p63 and p73, two proteins with a high degree of homology with p53, are overexpressed in thyroid cancer, but their role in cancer initiation or progression is controversial. Regulation of p53 family protein function depends on: (1) the balance between the expression of transcriptionally active (p53, TAp63, and TAp73) and inactive isoforms (DeltaNp63 and DeltaNp73); (2) their interaction and competition at DNA-responsive elements; (3) their interaction with regulatory proteins, either inhibitory or activating. In thyroid cancer, therefore, although mutations of the p53 oncosuppressor protein family are rare, other mechanisms are present, including aberrant expression of p53 family dominant negative isoforms, up-regulation of inhibitory proteins, and functional inhibition of activating proteins. The overall result is a defective oncosuppressor activity. These inactivating mechanisms may be present in the early stages of thyroid cancer and in different cancer histotypes. A better understanding of this complex network may not only ameliorate our comprehension of cancer biology, but also open the possibility of innovative diagnostic procedures and the development of targeted therapies.
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PMID:p53 family proteins in thyroid cancer. 1739 74

Nedd4-binding partner-1 (N4BP1) has been identified as a protein interactor and a substrate of the homologous to E6AP C terminus (HECT) domain-containing E3 ubiquitin-protein ligase (E3), Nedd4. Here, we describe a previously unrecognized functional interaction between N4BP1 and Itch, a Nedd4 structurally related E3, which contains four WW domains, conferring substrate-binding activity. We show that N4BP1 association with the second WW domain (WW2) of Itch interferes with E3 binding to its substrates. In particular, we found that N4BP1 and p73 alpha, a target of Itch-mediated ubiquitin/proteasome proteolysis, share the same binding site. By competing with p73 alpha for binding to the WW2 domain, N4BP1 reduces the ability of Itch to recruit and ubiquitylate p73 alpha and inhibits Itch autoubiquitylation activity both in in vitro and in vivo ubiquitylation assays. Similarly, both c-Jun and p63 polyubiquitylation by Itch are inhibited by N4BP1. As a consequence, genetic and RNAi knockdown of N4BP1 diminish the steady-state protein levels and significantly impair the transcriptional activity of Itch substrates. Notably, stress-induced induction of c-Jun was impaired in N4BP1(-/-) cells. These results demonstrate that N4BP1 functions as a negative regulator of Itch. In addition, because inhibition of Itch by N4BP1 results in the stabilization of crucial cell death regulators such as p73 alpha and c-Jun, it is conceivable that N4BP1 may have a role in regulating tumor progression and the response of cancer cells to chemotherapy.
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PMID:The Nedd4-binding partner 1 (N4BP1) protein is an inhibitor of the E3 ligase Itch. 1759 38

p63 is a member of the p53 tumor suppressor family that is critical for epithelial differentiation and also has an important role in cancer progression. Currently, the molecular mechanisms governing regulation of p63 function remain largely unclear. This study identifies a unique E3 ubiquitin ligase for p63, SCF(betaTrCP1). SCF(betaTrCP1) is able to bind p63gamma isoforms, with a higher affinity for the TAp63gamma isoform. Strikingly, co-expression of TAp63gamma and betaTrCP1 leads to the stabilization of TAp63gamma. This stabilization of TAp63gamma leads to up-regulation of p21 at the mRNA and protein level by increased binding of TAp63gamma at the p21 promoter. The up-regulation of p21 causes a subsequent increase in G(1) phase cell cycle arrest. Last, SCF(betaTrCP1) is able to ubiquitylate TAp63gamma, and this ubiquitylation, as well as the increased activity of TAp63gamma, is ablated with the expression of a ubiquitin-deficient mutant of betaTrCP1 (DeltaFbetaTrCP1). Therefore, our study reveals that SCF(betaTrCP1) is an E3 ligase that activates p63 through ubiquitylation.
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PMID:SCF TrCP1 activates and ubiquitylates TAp63gamma. 1796 58

Transgenic mice that allow targeting of SV40 T antigen (Tag) to the prostate provide a unique model to identify cancer-initiating cells and follow their progression from a normal cell phenotype into prostate cancer cells. We have developed the FG/Tag transgenic mouse model of prostate cancer using the human fetal globin (FG) promoter linked to Tag. Immunohistochemistry results show that before the development of prostate intraepithelial neoplasia (PIN), a subset of p63(+) basal epithelial cells expresses Tag. As in the case of human prostate cancer, there is a loss of p63(+) basal cells with neoplastic progression, and a long period of time is required for PIN lesions to develop into palpable prostate tumors. Other immunohistochemistry results show cellular heterogeneity in FG/Tag PIN lesions and primary tumors with neuroendocrine differentiation. Cell lines derived from primary prostate tumors showed characteristics of a neuroendocrine-epithelial intermediate cell type. The FG promoter has high transcriptional activity in intermediate (DU 145, PC-3) and p63(+) basal epithelial (LHSR-AR) prostate cancer cells. Therefore, the unexpected development of prostate cancer in the FG/Tag mice may be due to the presence of DNA elements in the FG promoter that can target Tag to specific basal or intermediate cells. We conclude that FG/Tag mouse is a unique model of prostate cancer because the initiating cells are a subset of p63(+) basal (possibly stem cells), which may be the true cells of origin for carcinogenesis in aggressive human prostate cancer.
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PMID:Progression of prostate cancer from a subset of p63-positive basal epithelial cells in FG/Tag transgenic mice. 1798 14

The transition of ductal carcinoma in situ (DCIS) to invasive carcinoma is a poorly understood key event in breast tumor progression. Here, we analyzed the role of myoepithelial cells and fibroblasts in the progression of in situ carcinomas using a model of human DCIS and primary breast tumors. Progression to invasion was promoted by fibroblasts and inhibited by normal myoepithelial cells. Molecular profiles of isolated luminal epithelial and myoepithelial cells identified an intricate interaction network involving TGFbeta, Hedgehog, cell adhesion, and p63 required for myoepithelial cell differentiation, the elimination of which resulted in loss of myoepithelial cells and progression to invasion.
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PMID:Regulation of in situ to invasive breast carcinoma transition. 1845 23

p63, known to play a role in development, has more recently also been implicated in cancer progression. Mutations in p63 have been shown to be responsible for several human developmental diseases. Differential splicing of the p63 gene gives rise to p63 isoforms, which can act either as tumor suppressors or as oncogene. In this report, we studied the effects of naturally occurring TAp63gamma mutants on the regulation of p53/p63 and p63 specific target genes. We observed significant differences among p63 mutants to regulate the p53/p63 and p63 specific target genes. Additionally, we observed a differential effect of p63 mutants on wildtype-p63-mediated induction of p53/p63 and p63 specific target genes. We also demonstrated that these mutants differentially regulate the binding of wildtype p63 to the promoter of target genes. Furthermore, the effects of these mutants on cell death and survival were consistent with their ability to regulate the downstream targets when compared to wildtype TAp63gamma. In summary, our data demonstrate that p63 mutants exhibit differential effects on p63 and p53/p63 specific target genes and on the induction of apoptosis, and provide further insight into the function of p63.
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PMID:Differential effects of p63 mutants on transactivation of p53 and/or p63 responsive genes. 1862 11

Our recent studies revealed that focal basal cell layer disruption (FBCLD) induced auto-immunoreactions represented a contributing factor for human prostate tumor progression and invasion. As the basement membrane surrounds and attaches to the basal cell layer, our current study assessed whether FBCLD would impact the physical integrity of the associated basement membrane. Paraffin sections from 25-human prostate tumors were subjected to double immunohistochemistry to simultaneously elucidate the basal cell layer and the basement membrane with corresponding biomarkers. The physical integrity of the basement membrane overlying FBCLD was examined to determine the extent of correlated alterations. Of a total of 89 FBCLD encountered, 76 (85 %) showed correlated alterations in the overlying basement membrane, which included distinct focal disruptions or fragmentations. In the remaining 13 (15%) FBCLD, the overlying basement membrane showed significant attenuation or reduction of the immunostaining intensity. The basement membrane in all or nearly all ducts or acini with p63 positive basal cells was substantially thicker and more uniform than that in ducts or acini without p63 positive basal cells, and also, a vast majority of the focal disruptions occurred near basal cells that lack p63 expression. These findings suggest that focal disruptions in the basal cell layer and alterations in the basement membrane are correlated events and that the physical and functional status of the basal cells could significantly impact the physical integrity of the overlying basement membrane. As the degradation of both the basal cell layer and the basement membrane is a pre-requisite for prostate tumor invasion or progression, ducts or acini with focally disrupted basal cell layer and basement membrane are likely at greater risk to develop invasive lesions. Thus, further elucidation of the specific molecules and mechanism associated with these events may lead to the development of a more effective alternative for repeat biopsy to monitor tumor progression and invasion.
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PMID:Correlated alterations in prostate basal cell layer and basement membrane. 1934 13

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