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  • carcinoma  (7)
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  • 1
    Keywords: RECEPTOR ; CANCER ; EXPRESSION ; tumor ; carcinoma ; Germany ; human ; HYBRIDIZATION ; PROTEIN ; PROTEINS ; TISSUE ; TUMORS ; PATIENT ; FAMILY ; MARKER ; hormone ; IN-SITU ; PROGRESSION ; immunohistochemistry ; PATTERNS ; prostate cancer ; PROSTATE-CANCER ; MARKERS ; BENIGN ; GLYCATION END-PRODUCTS ; RAGE ; CARCINOMAS ; adenocarcinoma ; intraepithelial neoplasia ; NEURITE OUTGROWTH ; KAPPA-B ; CANCER PATIENTS ; HEALTHY ; prostate carcinoma ; OXIDANT STRESS ; SERUM ; in situ hybridization ; ELISA ; RE ; END ; TUMORIGENESIS ; HUMAN PROSTATE ; HYPERPLASIA ; TUMOR TISSUE ; MOLECULAR-GENETICS ; HUMAN-PROSTATE ; S100 PROTEINS ; EXPRESSION PATTERNS ; SERUM-LEVELS ; TUMOR DIFFERENTIATION
    Abstract: Purpose: S100 proteins comprise a family of calcium-modulated proteins that have recently been associated with epithelial tumors. We examined the expression of two members of this family, S10OA8 and S100A9, together with the S100 receptor RAGE (receptor for advanced glycation end products) in human prostate adenocarcinomas and in prostatic intraepithelial neoplasia. Experimental Design:Tissue specimens of 75 patients with organ-confined prostate cancer of different grades were analyzed by immunohistochemistry for expression of S10OA8, S100A9, and RAGE. In addition, in situ hybridization of S10OA8 and S10OA9 was done for 20 cases. An ELISA was applied to determine serum concentrations of S10OA9 in cancer patients compared with healthy controls or to patients with benign prostatic hyperplasia (BPH). Results: S100A8, S100A9, and RAGE were up-regulated in prostatic intraepithelial neoplasia and preferentially in high-grade adenocarcinomas, whereas benign tissue was negative or showed weak expression of the proteins. There was a high degree of overlap of S10OA8 and S10OA9 expression patterns and of S100A8 or S100A9 and RAGE, respectively. Frequently, a gradient within the tumor tissue with an increased expression toward the invaded stroma of the prostate was observed. S100A9 serum levels were significantly elevated in cancer patients compared with BPH patients or healthy individuals. Conclusion: Our data suggest that enhanced expression of S100A8, S100A9, and RAGE is an early event in prostate tumorigenesis and may contribute to development and progression or extension of prostate carcinomas. Furthermore, S100A9 in serum may serve as useful marker to discriminate between prostate cancer and BPH
    Type of Publication: Journal article published
    PubMed ID: 16033829
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  • 2
    Keywords: APOPTOSIS ; CANCER ; EXPRESSION ; GROWTH ; proliferation ; carcinoma ; CELL ; CELL-PROLIFERATION ; Germany ; LUNG ; DIAGNOSIS ; lung cancer ; LUNG-CANCER ; DEATH ; GENE ; GENES ; microarray ; PROTEIN ; cell line ; meningioma ; TISSUE ; LINES ; primary ; DOMAIN ; tumour ; SKIN ; BIOLOGY ; CELL-LINES ; MEMBER ; MOLECULAR-BIOLOGY ; SIGNAL ; PROGRESSION ; ASSAY ; INDUCED APOPTOSIS ; genetics ; COUNTRIES ; skin cancer ; CELL-LINE ; LINE ; ONCOGENE ; SUPERFAMILY ; EPITHELIAL-CELLS ; Jun ; PHENOTYPE ; STRATEGIES ; OVEREXPRESSION ; cell lines ; heredity ; LUNG-CARCINOMA ; SKIN-CANCER ; tumour suppressor gene ; ORIGIN ; molecular biology ; molecular ; ONCOLOGY ; non-small cell lung carcinoma ; SUPPRESSOR GENE ; cell proliferation ; SUPPRESSOR ; tumour suppressor ; NSCLC ; SET ; BREAST-CANCER CELLS ; DAL-1 ; ferm containing 3 ; GROWTH SUPPRESSION ; protein 4.1 ; PROTEIN 4.1B
    Abstract: Lung cancer including non-small cell lung carcinoma (NSCLC) represents a leading cause of cancer death in Western countries. Yet, understanding its pathobiology to improve early diagnosis and therapeutic strategies is still a major challenge of today's biomedical research. We analyzed a set of differentially regulated genes that were identifi. ed in skin cancer by a comprehensive microarray study, for their expression in NSCLC. We found that ferm domain containing protein 3 (FRMD3), a member of the protein 4.1 superfamily, is expressed in normal lung tissue but silenced in 54 out of 58 independent primary NSCLC tumours compared to patient-matched normal lung tissue. FRMD3 overexpression in different epithelial cell lines resulted in a decreased clonogenicity as measured by colony formation assay. Although cell attachment capabilities and cell proliferation rate remained unchanged, this phenotype was most likely owing to induced apoptosis. Our data identify FRMD3 as a novel putative tumour suppressor gene suggesting an important role in the origin and progression of lung cancer
    Type of Publication: Journal article published
    PubMed ID: 17260017
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  • 3
    Keywords: CELLS ; carcinoma ; PATHWAY ; ACTIVATION ; BREAST-CANCER ; p53 ; DNA-DAMAGE ; AKT ; TUMOR SUPPRESSION ; SECRETORY PHENOTYPE
    Abstract: Myb-binding protein 1A (MYBBP1A) is a nucleolar protein implicated in stress response and carcinogenesis; however, its functional contribution to senescence remains elusive. In this study we show decreased MYBBP1A protein levels in tumor cells after treatment with etoposide, a potent inducer of DNA damage. Although silencing of MYBBP1A expression was not sufficient to induce senescence, it significantly increased the relative abundance of senescent cells after DNA damage. We found an inverse regulation of MYBBP1A and AKT phosphorylation (pAKT(Ser473)), which was characteristic for the pre-senescent state after etoposide administration in vitro. Tissue microarrays with tumor specimens from primary oropharyngeal squamous cell carcinoma (OPSCC) patients (n = 61) by immunohistochemistry revealed a significant correlation between MYBBP1A(low)pAKT(Ser473)(high) staining pattern and shorter progression-free (p = 0.007) or overall survival (p 〈 0.001). Multivariate analysis showed that MYBBP1A(low)pAKT(Ser473)(high) staining pattern is an independent prognosticator for OPSCC. Taken together, our study points to a critical role of MYBBP1A in the regulation of senescence under genotoxic stress and that a MYBBP1A(low)AKT(Ser473)(high) staining pattern serves not only as a marker for the pre-senescent stage but also as an indicator of OPSCC patients at high risk for treatment failure.
    Type of Publication: Journal article published
    PubMed ID: 25543088
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  • 4
    Keywords: CANCER ; EXPRESSION ; carcinoma ; PROTEINS ; MICE ; ACTIVATION ; murine ; RAGE ; ROLES ; PROMOTES
    Abstract: The S100A8/A9 heterodimer (calprotectin) acts as a danger signal when secreted into the extracellular space during inflammation and tissue damage. It promotes proinflammatory responses and drives tumor development in different models of inflammation-driven carcinogenesis. S100A8/A9 is strongly expressed in several human tumors, including hepatocellular carcinoma (HCC). Apart from this evidence, the role of calprotectin in hepatocyte transformation and tumor microenvironment is still unknown. The aim of this study was to define the function of S100A8/A9 in inflammation-driven HCC. Mice lacking S100a9 were crossed with the Mdr2(-/-) model, a prototype of inflammation-induced HCC formation. S100a9(-/-) Mdr2(-/-) (dKO) mice displayed no significant differences in tumor incidence or multiplicity compared to Mdr2(-/-) animals. Chronic liver inflammation, fibrosis and oval cell activation were not affected upon S100a9 deletion. Our data demonstrate that, although highly upregulated, calprotectin is dispensable in the onset and development of HCC, and in the maintenance of liver inflammation. What's new? Liver cancers often overexpress a protein, S100A9, which functions as a danger signal during inflammation. It promotes inflammation and can drive the development of some tumors. In this paper, the authors sought to define the role of S100A9 in liver cancer. When they eliminated the protein from mice prone to inflammation-driven hepatocellular cancer, the liver tumors continued to develop unabated. Although it's highly upregulated in liver cancers, S100A9 isn't required for liver tumors to form, and wouldn't be useful as a therapeutic target.
    Type of Publication: Journal article published
    PubMed ID: 25331529
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  • 5
    Keywords: CANCER ; CELLS ; EXPRESSION ; GROWTH ; carcinoma ; GENE ; GENE-EXPRESSION ; GENES ; microarray ; PROTEIN ; SAMPLE ; SAMPLES ; murine ; AP-1 ; CARCINOGENESIS ; tumour ; SKIN ; MOUSE ; TRANSCRIPTION FACTORS ; IDENTIFICATION ; PROGRESSION ; gene expression ; PROMOTERS ; skin carcinogenesis ; METASTASIS ; SSH ; PCR ; TRANSFORMATION ; EPITHELIAL-CELLS ; squamous cell carcinoma ; FRAGMENTS ; MULTISTAGE CARCINOGENESIS ; real-time PCR ; expression profiling ; PHORBOL ESTER ; CDNA MICROARRAY ; NMRI MOUSE SKIN ; tumour promoter
    Abstract: Malignant transformation of mouse skin by chemical carcinogens and tumour promoters, such as the phorbol ester 12-O- tetradecanoylphorbol-13-acetate (TPA), is a multi-stage process that leads to squamous cell carcinoma (SCC) formation. In an effort to identify turnour-associated genes, we studied the influence of short-term TPA-treatment on the gene expression profile of murine skin. A comprehensive microarray with some 5,000 murine gene specific cDNA fragments was established and hybridised with pooled RNA derived from control and TPA-treated dorsal skin samples. Of these genes, 54 were up- and 35 were down-regulated upon TPA application. Additionally, we performed suppression subtractive hybridisation (SSH) with respective RNA pools to generate and analyse a cDNA library enriched for TPA- inducible genes. Expression data of selected genes were confirmed by quantitative real-time PCR and Northern blot analysis. Comparison of microarray and SSH data revealed that 26% of up-regulated genes identified by expression profiling matched with those present in the SSH library. Besides numerous known genes, we identified a large set of unknown cDNAs that represent previously unrecognised TPA-regulated genes in murine skin with potential function in tumour promotion. Additionally, some TPA-induced genes, such as SprrIA, Saa3, junB, II4ralpha, Gp38, RalGDS and Slpi exhibit high basal level in advanced stages of skin carcinogenesis, suggesting that at least a subgroup of the identified TPA-regulated genes may contribute to tumour progression and metastasis. (C) 2003 Wiley-Liss, Inc
    Type of Publication: Journal article published
    PubMed ID: 12640676
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  • 6
    Keywords: CANCER ; CELLS ; EXPRESSION ; GROWTH ; SURVIVAL ; carcinoma ; CELL ; Germany ; human ; MODEL ; PATHWAY ; PATHWAYS ; NETWORK ; SUPPORT ; DEATH ; HEPATOCELLULAR-CARCINOMA ; liver ; GENE ; GENES ; PROTEIN ; PROTEINS ; TISSUE ; NF-KAPPA-B ; ACTIVATION ; murine ; CARCINOGENESIS ; INDUCTION ; SIGNAL ; TARGET ; MOUSE ; hepatocarcinogenesis ; hepatocellular carcinoma ; PROGRESSION ; CELL-DEATH ; CELL-LINE ; SIGNALING PATHWAY ; SIGNALING PATHWAYS ; RAGE ; MOUSE MODEL ; KAPPA-B ; OXIDATIVE STRESS ; expression profiling ; inflammation ; signaling ; MOLECULAR-MECHANISMS ; cell death ; CANCER PROGRESSION ; USA ; GROWTH-CONTROL ; SUPPRESSOR-CELLS ; nuclear factor kappa B ; COEXPRESSION ; COMPENSATORY PROLIFERATION
    Abstract: The nuclear factor-kappaB (NF-kappa B) signaling pathway has been recently shown to participate in inflammation-induced cancer progression. Here, we describe a detailed analysis of the NF-kappa B-dependent gene regulatory network in the well-established Mdr2 knockout mouse model of inflammation-associated liver carcinogenesis. Expression profiling of NF-kappa B-deficient and NF-kappa B-proficient hepatocellular carcinoma (HCC) revealed a comprehensive list of known and novel putative NF-kappa B target genes, including S100a8 and S100a9. We detected increased co-expression of S100A8 and S100A9 proteins in mouse HCC cells, in human HCC tissue, and in the HCC cell line Hep3B on ectopic RelA expression. Finally, we found a synergistic function for S100A8 and S100A9 in Hep3B cells resulting in a significant induction of reactive oxygen species (ROS), accompanied by enhanced cell survival. Conclusion: We identified S100A8 and S100A9 as novel NF-kappa B target genes in HCC cells during inflammation-associated liver carcinogenesis and provide experimental evidence that increased co-expression of both proteins supports malignant progression by activation of ROS-dependent signaling pathways and protection from cell death. (HEPATOLOGY 2009;50: 1251-1262.)
    Type of Publication: Journal article published
    PubMed ID: 19670424
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  • 7
    Keywords: CANCER ; CELLS ; EXPRESSION ; GROWTH ; IN-VITRO ; INHIBITOR ; tumor ; carcinoma ; Germany ; IN-VIVO ; VITRO ; GENE ; PROTEIN ; TUMORS ; MICE ; PATIENT ; FAMILY ; AP-1 ; CARCINOGENESIS ; INDUCTION ; KERATINOCYTES ; SKIN ; BINDING ; fibroblasts ; MOUSE ; c-Fos ; PROMOTER ; MOUSE SKIN ; TRANSFORMATION ; BENIGN ; CARCINOMAS ; squamous cell carcinoma ; GLUCOCORTICOID-RECEPTOR ; SKIN-CANCER ; BINDING PROTEIN ; keratinocyte ; TRANSITION ; MALIGNANT PROGRESSION ; INTERSTITIAL COLLAGENASE ; CELL-CARCINOMA ; dexamethasone ; MOUSE KERATINOCYTES ; RECYCLING ENDOSOMES
    Abstract: Malignant transformation of mouse skin by tumor promoters and chemical carcinogens, such as the phorhol ester 12-O-tetradecanoylphorbol-13-acetate (TPA), is a multistage process leading to the formation of squamous cell carcinomas. it has been shown that mice lacking the AP-1 family member c-Fos exhibit an impaired transition from benign to malignant skin tumors. Here, we demonstrate enhanced expression of the small Ras-related GTPase Rab11a after short-term TPA treatment of mouse back skin. Expression of Rab11a in vivo and in vitro critically depended on c-Fos, because TPA application to the back skin of c-Fos-deficient mice and to mouse embryonic fibroblasts did not induce Rab11a mRNA or protein expression. Moreover, dexamethasone, which is a potent inhibitor of AP-1-mediated transactivation that exhibits anti-inflammatory and antitumor promoting activities, inhibited TPA-induced expression of Rab11a. Within the Rab11a gene promoter, we identified a functional AP-1 binding element that exhibited elevated c-Fos binding activity after TPA treatment of keratinocytes. Enhanced expression was not restricted to chemically induced mouse skin tumors but was also found in tumor specimens derived from patients with epithelial skin tumors. These data identify Rab11a as a novel, tumor-associated c-Fos/AP-1 target and may point to an as yet unrecognized function of Rab11a in the development of skin cancer
    Type of Publication: Journal article published
    PubMed ID: 15972968
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