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  • SKIN  (8)
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  • 1
    Keywords: CELLS ; EXPRESSION ; GROWTH ; tumor ; IN-VIVO ; KINASE ; PATHWAYS ; GENE ; GENES ; PROTEIN ; MICE ; CARCINOGENESIS ; KERATINOCYTES ; SKIN ; PROTEIN-KINASE ; MAP KINASE ; LESIONS ; resistance ; INDUCED APOPTOSIS ; NUMBER ; epidermis ; GROWTH ARREST ; signaling ; RE ; TUMOR-SUPPRESSOR ; TUMORIGENESIS ; SIZE ; ERK ; function ; INVASIVENESS
    Abstract: Extracellular signal-regulated kinases (ERK) regulate cellular functions in response to a variety of external signals. However, the specific functions of individual ERK isoforms are largely unknown. Hence, we have investigated the specific function of ERK1 in skin homeostasis and tumorigenesis in ERK1 knockout mice. They spontaneously develop cutaneous lesions and hyperkeratosis with epidermis thickness. Skin hyperproliferation and inflammation induced by application of 12-O-tetradecanoylphorbol-13-acetate (TPA) is strongly reduced in mutant mice. ERKI-/- mice are resistant to development of skin papillomas induced by 7,12-dimethylbenz(a)anthracene (DMBA) and promoted by TPA. Tumor appearance was delayed, their formation was less frequent, and their number and size were reduced. Keratinocytes obtained from knockout mice showed reduced growth and resistance to apoptotic signals, accompanied by an impaired expression of genes implicated in growth control and invasiveness. These results highlight the importance of ERK1 in skin homeostasis and in the process of skin tumor development
    Type of Publication: Journal article published
    PubMed ID: 16510590
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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 ; GROWTH-FACTOR ; proliferation ; GENE-EXPRESSION ; SKIN ; C-JUN ; MAP KINASES ; MORPHOGENESIS ; SIGNAL-TRANSDUCTION PATHWAY ; EPIDERMAL-KERATINOCYTES
    Abstract: Previous studies demonstrated that fibroblast-derived and JUN-dependent soluble factors have a crucial role on keratinocyte proliferation and differentiation during cutaneous wound healing. Furthermore, mice with a deficiency in Jun N-terminal kinases (JNKs), JNK1 or JNK2, showed impaired skin development and delayed wound closure. To decipher the role of dermal JNK in keratinocyte behavior during these processes, we used a heterologous coculture model combining primary human keratinocytes and murine fibroblasts. Although cocultured JNK1/JNK2-deficient fibroblasts did not affect keratinocyte proliferation, temporal monitoring of the transcriptome of differentiating keratinocytes revealed that efficient keratinocyte differentiation not only requires the support by fibroblast-derived soluble factors, but is also critically dependent on JNK1 and JNK2 signaling in these cells. Moreover, we showed that the repertoire of fibroblast transcripts encoding secreted proteins is severely disarranged upon loss of JNK under the coculture conditions applied. Finally, our data demonstrate that efficient keratinocyte terminal differentiation requires constant presence of JNK-dependent and fibroblast-derived soluble factors. Taken together, our results imply that mesenchymal JNK has a pivotal role in the paracrine cross talk between dermal fibroblasts and epidermal keratinocytes during wound healing.
    Type of Publication: Journal article published
    PubMed ID: 24335928
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  • 4
    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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  • 5
    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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  • 6
    Keywords: APOPTOSIS ; CANCER ; EXPRESSION ; CELL ; Germany ; human ; IN-VIVO ; KINASE ; MODEL ; VIVO ; GENE ; GENE-EXPRESSION ; GENES ; HYBRIDIZATION ; PROTEIN ; RNA ; METABOLISM ; cell line ; LINES ; MICE ; DNA ; CARCINOGENESIS ; animals ; KERATINOCYTES ; SKIN ; BIOLOGY ; cell cycle ; CELL-CYCLE ; CELL-LINES ; CYCLE ; DOWN-REGULATION ; MOUSE ; IDENTIFICATION ; IN-SITU ; PROGRESSION ; MALIGNANCIES ; gene expression ; EXPRESSION ANALYSIS ; HUMANS ; DESIGN ; UP-REGULATION ; MOUSE SKIN ; skin carcinogenesis ; genetics ; statistics ; CELL-LINE ; LINE ; ADHESION ; CELL-ADHESION ; ONCOGENE ; INVOLVEMENT ; RT-PCR ; KINETICS ; cell lines ; heredity ; SKIN-CANCER ; HUMAN SKIN ; in situ hybridization ; MALIGNANCY ; ONCOLOGY ; ANNOTATION ; ENHANCED EXPRESSION ; cell adhesion ; LEVEL ; analysis ; CANCER DEVELOPMENT ; cluster analysis ; S100A8 ; MAP ; in vivo ; RELEVANCE ; Oligonucleotide Array Sequence Analysis ; SPECIMENS ; animal ; Carcinoma,Squamous Cell ; SQUAMOUS-CELL ; SET ; animal model ; molecular genetics ; Reverse Transcriptase Polymerase Chain Reaction ; Skin Neoplasms ; Cell Line,Tumor ; cytology ; DNA,Complementary ; epithelial skin cancer ; Gene Expression Regulation,Neoplastic ; HUMAN-SKIN ; Microscopy,Fluorescence ; Protein-Serine-Threonine Kinases ; RNA,Messenger ; tumour specimen
    Abstract: Chemically induced mouse skin carcinogenesis represents the most extensively utilized animal model to unravel the multistage nature of tumour development and to design novel therapeutic concepts of human epithelial neoplasia. We combined this tumour model with comprehensive gene expression analysis and could identify a large set of novel tumour-associated genes that have not been associated with epithelial skin cancer development yet. Expression data of selected genes were confirmed by semiquantitative and quantitative RT-PCR as well as in situ hybridization and immunofluorescence analysis on mouse tumour sections. Enhanced expression of genes identified in our screen was also demonstrated in mouse keratinocyte cell lines that form tumours in vivo. Self-organizing map clustering was performed to identify different kinetics of gene expression and coregulation during skin cancer progression. Detailed analysis of differential expressed genes according to their functional annotation confirmed the involvement of several biological processes, such as regulation of cell cycle, apoptosis, extracellular proteolysis and cell adhesion, during skin malignancy. Finally, we detected high transcript levels of ANXA1, LCN2 and S100A8 as well as reduced levels for NDR2 protein in human skin tumour specimens demonstrating that tumour-associated genes identified in the chemically induced tumour model might be of great relevance for the understanding of human epithelial malignancies as well
    Type of Publication: Journal article published
    PubMed ID: 16247483
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  • 7
    Keywords: brain ; CANCER ; CANCER CELLS ; CELLS ; EXPRESSION ; GROWTH ; IN-VITRO ; INHIBITOR ; INVASION ; proliferation ; tumor ; CELL ; CELL-PROLIFERATION ; Germany ; human ; IN-VIVO ; MODEL ; VITRO ; VIVO ; GENE-EXPRESSION ; PROTEIN ; transcription ; cell line ; TISSUE ; TUMORS ; LINES ; MICE ; PATIENT ; TISSUES ; KERATINOCYTES ; SKIN ; T cell ; T-CELL ; CELL-LINES ; SIGNAL ; MOUSE ; STAGE ; UP-REGULATION ; MEMBRANE ; skin carcinogenesis ; CELL-LINE ; LINE ; ADHESION ; MIGRATION ; MORPHOLOGY ; INVOLVEMENT ; MOUSE MODEL ; TRANSLOCATION ; beta-catenin ; ECTODOMAIN ; cell lines ; SUBSTRATE-SPECIFICITY ; MATRIX ; E-cadherin ; ONCOLOGY ; RE ; CAPACITY ; keratinocyte ; cell proliferation ; LEVEL ; NUCLEAR ; USA ; TISSUE INHIBITOR ; cancer research ; in vivo ; PLASMID ; DEFECT ; PROMOTES ; matrix metalloproteinase ; METALLOPROTEINASE ; ectodomain shedding ; MATRIX-METALLOPROTEINASE ; OVARIAN-CARCINOMA ; GROWTH-CONTROL ; EXTRACELLULAR CLEAVAGE ; HUMAN TISSUE KALLIKREINS ; PROTEINASE-ACTIVATED RECEPTORS ; SERINE PROTEINASE ; SERUM BIOMARKER
    Abstract: Recently, we described phorbol ester-induced expression of the brain and skin serine proteinase Bssp/kallikrein 6 (Klk6), the mouse orthologue of human KLK6, in mouse back skin and in advanced tumor stages of a well-established multistage tumor model. Here, we show KLK6 up-regulation in squamous skin tumors of human patients and in tumors of other epithelial tissues. Ectopic Klk6 expression in mouse keratinocyte cell lines induces a spindle-like morphology associated with accelerated proliferation, migration, and invasion capacity. We found reduced E-cadherin protein levels in the cell membrane and nuclear translocation of beta-catenin in Klk6-expressing mouse keratinocytes and human HEK293 cells transfected with a KLK6 expression plasmid. Additionally, HEK293 cells exhibited induced T-cell factor-dependent transcription and impaired cell-cell adhesion in the presence of KLK6, which was accompanied by induced E-cadherin ectodomain shedding. Interestingly, tissue inhibitor of metalloproteinase (TIMP)-l and TIMP-3 interfere with KLK6-induced F-cadherin ectodomain shedding and rescue the cell-cell adhesion defect in vitro, suggesting the involvement of matrix metalloproteinase and/or a disintegrin and metalloproteinase (ADAM) proteolytic activity. In line with this assumption, we found increased levels of the mature 62-kDa ADAM10 proteinase in cells expressing ectopic KLK6 compared with mock controls. Finally, enhanced epidermal keratinocyte proliferation and migration in concert with decreased E-cadherin protein levels are confirmed in an in vivo Klk6 transgenic mouse model
    Type of Publication: Journal article published
    PubMed ID: 17804733
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  • 8
    Keywords: RECEPTOR ; CANCER ; CELLS ; ENDOTHELIAL-CELLS ; EXPRESSION ; GROWTH ; tumor ; CELL ; Germany ; IN-VIVO ; SUPPORT ; NEW-YORK ; TISSUE ; MICE ; LIGAND ; MECHANISM ; CARCINOGENESIS ; KERATINOCYTES ; mechanisms ; SKIN ; BONE-MARROW ; PROGRESSION ; MOUSE SKIN ; skin carcinogenesis ; LIGANDS ; FACTOR-KAPPA-B ; GLYCATION END-PRODUCTS ; inflammation ; signaling ; molecular ; RE ; CANCER DEVELOPMENT ; PHASE ; USA ; BONE ; immunology ; PROMOTES ; MEDICINE ; DOUBLE-EDGED-SWORD
    Abstract: A broad range of experimental and clinical evidence has highlighted the central role of chronic inflammation in promoting tumor development. However, the molecular mechanisms converting a transient inflammatory tissue reaction into a tumor-promoting micro-environment remain largely elusive. We show that mice deficient for the receptor for advanced glycation end-products (RAGE) are resistant to DMBA/TPA-induced skin carcinogenesis and exhibit a severe defect in sustaining inflammation during the promotion phase. Accordingly, RAGE is required for TPA-induced up-regulation of proinflammatory mediators, maintenance of immune cell infiltration, and epidermal hyperplasia. RAGE-dependent up-regulation of its potential ligands S100a8 and S100a9 supports the existence of an S100/RAGE-driven feed-forward loop in chronic inflammation and tumor promotion. Finally, bone marrow chimera experiments revealed that RAGE expression on immune cells, but not keratinocytes or endothelial cells, is essential for TPA-induced dermal infiltration and epidermal hyperplasia. We show that RAGE signaling drives the strength and maintenance of an inflammatory reaction during tumor promotion and provide direct genetic evidence for a novel role for RAGE in linking chronic inflammation and cancer
    Type of Publication: Journal article published
    PubMed ID: 18208974
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