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)

Carcinoma of the uterine cervix is the most frequent malignancy in women, with an incidence of approximately 456.000 cases per year, leading to 200.000 deaths per year. Twenty-six archived formalin-fixed paraffin-embedded samples of squamous cell carcinoma, selected from 30 Papanicolaou-positive smears, have been analyzed using standard HE stain and the IHC indirect tristadial ABC peroxidase method for four antibodies: p53, p63, Ki-67, HPV. Statistical analysis has been done using the Student t-test, one-group two tails, "paired two samples for mean" variant. Two thirds of the cases were medium and poor differentiated carcinomas. The expression pattern of the proliferation and prognostic factors was biologically correlated with the histopathological type and HPV-infection. Two statistically significant correlations were found between p63 and Ki-67 and between p63 and p53 (p<0.001). The significant increase of the expression of the analyzed immunomarkers was observed in most of the cases with late stage of cervical neoplasm. P63, followed by Ki-67, showed better correlation with cancer progression than p53. This observation could be used in clinical practice with the purpose of identifying those patients requiring more aggressive treatment.
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PMID:P53, p63 and Ki-67 assessment in HPV-induced cervical neoplasia. 1969 Jul 60

Osteopontin (OPN) is a secreted glycoprotein implicated to function in cancer development and metastasis. Although elevated expression of OPN are observed in cancer cells of various types, in some cases, only the cells in the stromal region surrounding the tumor express OPN, suggesting distinct functional roles for this protein derived from host cells and from cancer cells. To provide a model for addressing the functions and mechanisms of host-derived OPN in cancer progression and metastasis, a cutaneous squamous cell carcinoma cell line (ONSC) that lacks the OPN gene, Spp1, was established. This line of cells was derived from a squamous cell carcinoma that developed in a female, OPN-null mouse subjected to two-stage skin carcinogenesis. Morphologically, ONSC cells resemble epithelial cells, and they express the epithelial markers, K1, K14, and p63, as confirmed by immunohistochemical analyses. Genomic analyses indicate the presence of mutated H-Ras and p53 genes. ONSC cells form colonies in soft agar and, subcutaneously injected into athymic nude mice, develop into squamous cell carcinomas that metastasize to the lungs. Lacking OPN expression, these squamous cell carcinoma cells provide a model to address the function of host OPN in the context of cancer progression and metastasis.
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PMID:Establishment and characterization of an osteopontin-null cutaneous squamous cell carcinoma cell line. 1991 34

The p53 gene super family consists of three members; TP53, TP63 and TP73, encoding proteins p53, p63 and p73. Whilst p63 appears to have an essential role in embryonic development with a less clear role in carcinogenesis, irregularities in p53 and p73 signalling are implicated in tumour formation. As such, p53 is a tumour suppressor which is mutated in over 50% cancers and p73 was recently formally classified as a tumour suppressor based on data showing p73 deficient mice generate spontaneous tumours similar to those observed in p53 null mice. Dysregulation of both p53 and p73 has been correlated with cancer progression in many cell types and although mutation of these genes is often observed, some form of p53/p73 deregulation likely occurs in all tumour cells. The discovery that complementary micro RNAs (miRNAs) are able to target both of these genes provides a potential new means of perturbing p53/p73 signalling networks in cancer cells. Here we summarise the current literature regarding the involvement of miRNAs in the modulation of p53 family proteins and cancer development and detail the use of in silico methods to reveal key miRNA targets.
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PMID:Regulating the genome surveillance system: miRNAs and the p53 super family. 2009 Dec 34

The role of paracrine tumor-stroma regulation in the progression of cancer is under intense investigation. Activated fibroblasts are key components of the tumor microenvironment providing the soluble factors mediating the regulation. Nemosis is an experimental model to study these parameters: formation of a multicellular spheroid activates fibroblasts and leads to increased production of soluble factors involved in the promotion of growth and motility. Role of nemosis was investigated in the tumorigenesis of HaCaT derivatives representing skin carcinoma progression. Conditioned medium from fibroblast spheroids increased proliferation rate of HaCaT derivatives. Expression of proliferation marker Ki-67 increased significantly in benign A5 and low-grade malignant II-4 cells, but did not further increase in the metastatic RT3 cells. Expression of p63, keratinocyte stem cell marker linked to cancer progression, was augmented by medium from nemotic fibroblasts; this increase was also seen in RT3 cells. Scratch-wound healing of the keratinocytes was enhanced in response to fibroblast nemosis. Neutralizing antibodies against growth factors inhibited wound healing to some extent; the response varied between benign and malignant keratinocytes. Migration and invasion were enhanced by conditioned medium from nemotic fibroblasts in benign and low-grade malignant cells. RT3 keratinocyte migration was further augmented, but invasion was not, indicating their intrinsic capacity to invade. Our data demonstrate that fibroblast nemosis increases proliferation and motility of HaCaT keratinocyte derivatives, and thus nemosis can be used as a model to study the role of soluble factors secreted by fibroblasts in tumor progression.
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PMID:Proliferation and motility of HaCaT keratinocyte derivatives is enhanced by fibroblast nemosis. 2009 97

The p53 homologue p63/TP73L is required for the proper development of squamous epithelia, mammary glands and limb buds, with some of these tissues also displaying strong canonical Wnt signalling activity. It was previously suggested that DeltaNp63alpha, the predominant isoform of p63 in epithelia, positively regulates beta-Catenin through inhibition of GSK3beta. Results reported in this communication show that, upon transient overexpression, DeltaNp63alpha indeed promotes Wnt-inducible reporter gene activity in human cells, as well as secondary axis formation in Xenopus embryos. However, in apparent contradiction to these observations, siRNA-mediated knockdown of endogenous p63 equally enhanced the expression of Wnt-responsive genes. While p63 knockdown did not detectably affect beta-Catenin levels or phosphorylation, DeltaNp63alpha was found in a complex with members of the TCF/LEF family of Wnt-responsive transcription factors. On The basis of these findings, we propose that DeltaNp63alpha has a function in recruiting transcriptional repressors to Wnt-responsive genes. Overexpression of p63 may lead to sequestration of such repressors (squelching), resulting in a similar effect like siRNA-mediated removal of p63, i.e., activation of Wnt-responsive genes. The role of p63 as a negative Wnt-regulator thus matches with the frequently observed downregulation of p63 during tumor progression, when cancer cells adopt a more mesenchymal, invasive phenotype.
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PMID:p63 antagonizes Wnt-induced transcription. 2019 May 79

Although human papillomavirus (HPV) 16 is the cause of cervical cancer in most countries including Japan, the involvement of cervical cancer with HPV types in Mongolian and Myanmar populations is largely unknown. We examined the expression of HPV in formalin-fixed and paraffin-embedded cervical tissues from 40 Japanese, 32 Mongolian, and 30 Myanmar cervical cancer patients. We performed immunohistochemistry using anti-HPV16 and anti-HPV 1, 6, 11, 16, 18 and 31 cocktail and then correlated it with the expression of Ki-67 and p63. HPV 16 was detected in 72%, 65% and 50% of Japanese, Mongolian and Myanmar cervical cancer patients, respectively, whereas 5 (13%) of the 40 patients, 8 (25%) of the 32 patients and 7 (23%) of the 30 patients in HPV 16-negative cancers were positive for other HPV types included in the cocktail, respectively. Ki-67 labeling index (LI) as well as p63 LI was significantly higher in HPV 16-positive patients than in HPV 16-negative ones in the Japanese and Mongolian samples. p63 expression was significantly associated with stage III and IV in Japan and Mongolia. These findings suggest that HPV 16 may be associated with cell proliferative activity and tumor progression, possibly depending upon the expression of p63 in the cervical cancer. In addition, immunohistochemical detection for distinguishing the type of HPV may also be useful for cervical cancer in the clinical setting.
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PMID:Human papillomavirus infection and its possible correlation with p63 expression in cervical cancer in Japan, Mongolia, and Myanmar. 2012 71

TP63 is a p53-related gene that contains two alternative promoters, which give rise to transcripts that encode proteins with (TAp63) or without (DeltaNp63) an amino-transactivating domain. Whereas the expression of p63 is required for proper development of epithelial structures, the role of p63 in tumorigenesis remains unclear. Here, we investigated the role of Snail and Slug transcription factors, known to promote epithelial-to-mesenchymal transitions during development and cancer, in the regulation of p63 isoforms in human squamous cell carcinoma (SCC). In the present study, we observed that the expressions of DeltaN and TAp63 isoforms were, respectively, down- and up-regulated by both Snail and Slug. However, the induction of TAp63 was not directly caused by these two transcription factors but resulted from the loss of DeltaNp63, which acts as dominant-negative inhibitor of TAp63. In SCC cell lines and cancer tissues, high expression of Snail and Slug was also significantly associated with altered p63 expression. Finally, we showed that DeltaNp63 silencing reduced cell-cell adhesion and increased the migratory properties of cancer cells. These data suggest that the disruption of p63 expression induced by Snail and Slug plays a crucial role in tumor progression. Therefore, p63 and its regulating factors could constitute novel prognosis markers in patients with SCC and attractive targets for the therapeutic modulation of neoplastic cell invasiveness.
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PMID:Regulation of p63 isoforms by snail and slug transcription factors in human squamous cell carcinoma. 2015 Apr 31

SOX2 is a master pluripotency controller that was recently identified as a novel major oncogene, recurrently amplified and activated in Squamous Cell Carcinoma (SCC). These studies have used a similar strategy of chromosomal aberrations screening to identify the SOX2 locus as one of the most frequently amplified site over the SCC genome. They have further highlighted the recurrent SOX2 activation and its necessary role for squamous cell survival. Finally, they showed that SOX2 is also involved in the early steps of lung SCC, as participating to transform human bronchial epithelial cells. Furthermore, SOX2 overexpression can induce the expression of the squamous markers p63 and keratin 6, supporting the idea that SOX2 might be implicated in SCC differentiation. In addition, SOX2 overexpression stimulates lung squamous cell migration. However, neither study assessed the impact of the recurrent activation of SOX2 in advanced primary tumors nor how SOX2 may mechanistically participate to tumor progression and aggressiveness. Here we present these studies and additional data from integrative transcriptomic analyses of primary lung SCC that altogether shed new light and open new exciting perspectives on the multiples roles that SOX2 exerts all along SCC carcinogenesis.
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PMID:SOX2 in squamous cell carcinoma: amplifying a pleiotropic oncogene along carcinogenesis. 2037 69

Bladder cancer is the fifth most common human malignancy and the second most frequently diagnosed genitourinary tumor after prostate cancer. The majority of malignant tumors arising in the urinary bladder are urothelial carcinomas. Clinically, superficial bladder tumors (stages Ta and Tis) account for 75% to 85% of neoplasms, while the remaining 15% to 25% are invasive (T1, T2-T4) or metastatic lesions at the time of initial presentation. Several studies have revealed that distinct genotypic and phenotypic patterns are associated with early vs. late stages of bladder cancer. Early superficial disease appears to segregate into 2 main pathways: (1) superficial papillary bladder tumors, which are characterized by gain-of-function mutations affecting oncogenes such as H-RAS, FGFR3, and PI3K, and deletions of the long arm of chromosome 9 (9q); (2) Carcinoma in situ, a "flat" high grade lesion considered to be a precursor of invasive cancer, is characterized by loss-of-function mutations affecting tumor suppressor genes, such as p53, RB, and PTEN. Based on these data, a model for bladder tumor progression has been proposed in which 2 separate genetic pathways characterize the evolution of early bladder neoplasms. Several molecular markers have been correlated with tumor stage, but the rationale for these 2 well-defined genetic pathways still remains unclear. Normal urothelium is a pseudo-stratified epithelium that coats the bladder, composed of 3 cell types: basal, intermediate, and superficial ("umbrella") cells. We have identified a series of markers that are differently expressed in these distinct cells types, and postulated a novel model for urothelium development and configuration. Briefly, it is our working hypothesis that 2 distinct progenitor cells are responsible for basal/intermediate cells and "umbrella" cells, respectively. Basal and intermediate cells are characterized by a p63 positive phenotype, as well as expression of high molecular weight cytokeratins (CKs), such as CK5, CK10, and CK14. On the contrary, "umbrella" cells display a p63 negative phenotype and are characterized by expression of 2 specific low molecular weight CKs: CK18 and CK20. Neither urothelial stem cells nor bladder cancer stem cells have been identified to date. In this review, we will further expand on the issues discussed above.
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PMID:Molecular pathways of urothelial development and bladder tumorigenesis. 2061 Feb 78

Dysregulated cell-cell adhesion plays a critical role in epithelial cancer development. Studies of human and mouse cancers have indicated that loss of adhesion complexes known as adherens junctions contributes to tumor progression and metastasis. In contrast, little is known regarding the role of the related cell-cell adhesion junction, the desmosome, during cancer development. Studies analyzing expression of desmosome components during human cancer progression have yielded conflicting results, and therefore genetic studies using knockout mice to examine the functional consequence of desmosome inactivation for tumorigenesis are essential for elucidating the role of desmosomes in cancer development. Here, we investigate the consequences of desmosome loss for carcinogenesis by analyzing conditional knockout mice lacking Perp, a p53/p63 regulated gene that encodes an important component of desmosomes. Analysis of Perp-deficient mice in a UVB-induced squamous cell skin carcinoma model reveals that Perp ablation promotes both tumor initiation and progression. Tumor development is associated with inactivation of both of Perp's known functions, in apoptosis and cell-cell adhesion. Interestingly, Perp-deficient tumors exhibit widespread downregulation of desmosomal constituents while adherens junctions remain intact, suggesting that desmosome loss is a specific event important for tumorigenesis rather than a reflection of a general change in differentiation status. Similarly, human squamous cell carcinomas display loss of PERP expression with retention of adherens junctions components, indicating that this is a relevant stage of human cancer development. Using gene expression profiling, we show further that Perp loss induces a set of inflammation-related genes that could stimulate tumorigenesis. Together, these studies suggest that Perp-deficiency promotes cancer by enhancing cell survival, desmosome loss, and inflammation, and they highlight a fundamental role for Perp and desmosomes in tumor suppression. An understanding of the factors affecting cancer progression is important for ultimately improving the diagnosis, prognostication, and treatment of cancer.
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PMID:Loss of the p53/p63 regulated desmosomal protein Perp promotes tumorigenesis. 2097 48

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