Project description:The goal of this study is to characterize the expression profile of Epidermolysis bullosa simplex-mottled pigmentation (EBS-MP) patient compared with normal subjects using genomic expression analyses. Microarray analyses were performed with RNA isolated from skin biopsies. Robust multiarray analysis (RMA) normalization and Smyth’s moderated t test were used to select differentially expressed genes. Expression profiling comparisons show that 52 genes are differentially expressed in EBS-MP patients compared to control subjects. Difference of expression for three genes (TYR, CCL22 , and ACVR1C ) was validated using real-time reverse transcription–polymerase chain reaction. Twelve genes were related to lipid biosynthesis process, two to keratinisation and skin pigmentation, Nineteen to cell growth and apoptosis, five to immune response and fourteen to predicted or less known function cluster. To our knowledge, the distinctive pattern of gene expression that characterizes EBS-MP versus healthy skin tissue has never been reported. RNA used for the microarrays analysis was isolated from superficial 2mm punch biopsies composed of mainly epidermis with minimal dermis amounts of normal-appearing skin of one EBS-MP patient and seven healthy volunteers.

Project description:The goal of this study is to characterize the expression profile of Epidermolysis bullosa simplex-mottled pigmentation (EBS-MP) patient compared with normal subjects using genomic expression analyses. Microarray analyses were performed with RNA isolated from skin biopsies. Robust multiarray analysis (RMA) normalization and Smyth’s moderated t test were used to select differentially expressed genes. Expression profiling comparisons show that 52 genes are differentially expressed in EBS-MP patients compared to control subjects. Difference of expression for three genes (TYR, CCL22 , and ACVR1C ) was validated using real-time reverse transcription–polymerase chain reaction. Twelve genes were related to lipid biosynthesis process, two to keratinisation and skin pigmentation, Nineteen to cell growth and apoptosis, five to immune response and fourteen to predicted or less known function cluster. To our knowledge, the distinctive pattern of gene expression that characterizes EBS-MP versus healthy skin tissue has never been reported.

Project description:Tha altered biological pathways in Epidermolysis bulloda simplex, a rare monogenetic skin disease, have not been well characterized. Thus, the goal of this study is to characterize the expression profile of EBS patients compared with normal subjects using genomic expression analyses. Microarray analyses were performed with RNA isolated from skin biopsies. Robust multiarray analysis (RMA) normalization and Smyth’s moderated t test were used to select differentially expressed genes. Expression profiling comparisons show that 28 genes are differentially expressed in EBS patients compared to control subjects and 41 genes in EBS-DM compared to their matched controls. Nine genes involved in fatty acid metabolism and 2 genes in epidermal keratinisation are common altered expressed genes between the two subgroups. These two biological pathways contribute both to the formation of the cell envelope barrier and seem to be defective in the severe EBS phenotype. This study demonstrates, for the first time, the relevance of metabolic cluster, specifically fatty acid metabolism in EBS biology. Difference of expression for three (AWAT2, ELOVL , and SPRR4 ) of the five selected genes were validated using real-time reverse transcription–polymerase chain reaction. To our knowledge, the distinctive pattern of gene expression that characterizes EBS versus healthy skin tissue has never been reported. RNA used for the microarrays analysis was isolated from superficial 2mm punch biopsies composed of mainly epidermis with minimal dermis amounts of normal-appearing skin of six EBS patients ( two females and four males) and six healthy volunteers.

Project description:Keratins 5 and 14 are critical for cytoskeletal integrity, as shown by missense mutations in these genes, which cause the severe skin fragility disorder epidermolysis bullosa simplex (EBS). The complexity of the pathomechanisms in EBS is not fully understood and no effective management exists. In addition to fragility, EBS keratinocytes are characterized by aggregates of misfolded keratin. Here, we tested the chemical chaperone 4-phenylbutyrate (4-PBA) as a putative novel therapy, using keratinocytes from patients with severe generalized EBS due to distinct KRT5 and KRT14 mutations.

Project description:Recessive dystrophic epidermolysis bullosa (RDEB) is a monogenetic skin disorder caused by mutations in the COL7A1 gene. Missing type VII collagen leads to severe blister formation and frequent chronic wounds. Patients suffering from RDEB are prone to develop particulary aggressive squamous cell carcinoma (SCC), representing the major cause of mortality. This dataset provides Affymetrix microarray (ClariomD) based whole transcriptome data on RNA isolated from cultured primary RDEB keratinocytes (RDEB-KC) as well as RDEB squamous cell carcinoma (RDEB-SCC). Cells were derived from punch biopsies or tumor resections from patients with confirmed diagnosis recessive dystrophic epidermolysis bullosa (RDEB). Primary KC and SCC were cultivated in fully defined medium till subconfluency. Total RNA was isolated and microarray assay performed.

Project description:Recessive dystrophic epidermolysis bullosa (RDEB) is a monogenetic skin disorder caused by mutations in the COL7A1 gene. Missing type VII collagen leads to severe blister formation and frequent chronic wounds. Patients suffering from RDEB are prone to develop particulary aggressive squamous cell carcinoma (SCC), representing the major cause of mortality. This dataset provides Affymetrix microarray (miRNA4.1) based whole transcriptome data on RNA isolated from cultured primary keratinocytes (KC) as well as squamous cell carcinoma (SCC). Cells were derived from punch biopsies or tumor resections from either healthy donors or SCC patients with or without the diagnosis recessive dystrophic epidermolysis bullosa (RDEB). Primary KC and SCC were cultivated in fully defined medium till subconfluency. Total RNA was isolated and microarray assay performed.

Project description:Tha altered biological pathways in Epidermolysis bulloda simplex, a rare monogenetic skin disease, have not been well characterized. Thus, the goal of this study is to characterize the expression profile of EBS patients compared with normal subjects using genomic expression analyses. Microarray analyses were performed with RNA isolated from skin biopsies. Robust multiarray analysis (RMA) normalization and Smyth’s moderated t test were used to select differentially expressed genes. Expression profiling comparisons show that 28 genes are differentially expressed in EBS patients compared to control subjects and 41 genes in EBS-DM compared to their matched controls. Nine genes involved in fatty acid metabolism and 2 genes in epidermal keratinisation are common altered expressed genes between the two subgroups. These two biological pathways contribute both to the formation of the cell envelope barrier and seem to be defective in the severe EBS phenotype. This study demonstrates, for the first time, the relevance of metabolic cluster, specifically fatty acid metabolism in EBS biology. Difference of expression for three (AWAT2, ELOVL , and SPRR4 ) of the five selected genes were validated using real-time reverse transcription–polymerase chain reaction. To our knowledge, the distinctive pattern of gene expression that characterizes EBS versus healthy skin tissue has never been reported.

Project description:Epidermolysis bullosa simplex (EBS) is a skin disorder caused by mutations in keratin (K) 5 or K14 genes. Little effect therapy is available.Following clinical reports, we applied the small molecule doxycycline to K5-/- mice. We demonstrate that doxycycline extended the survival of neonatal K5-/- mice from less than 1 to up to 8 hours. Microarray and TaqMan real-time PCR showed a downregulation of MMP-13 and IL-1, indicating an effect of doxycycline on transcription. Our data offer a novel small molecule based therapy approach for EBS. Experiment Overall Design: doxycycline (50 µg/mlwith 5 % sucrose) was administered by oral route to pregnant K5+/- females (mated to K5+/- males) starting from E13.5. 5 % sucrose solution was administered to the control group.

Project description:Gene editing in induced pluripotent stem (iPS) cells has been hailed for enabling new cell therapies for various monogenetic diseases including dystrophic epidermolysis bullosa(DEB). However, manufacturing, efficacy, and safety roadblocks have limited the development of genetically corrected, autologous iPS cell-based therapies. We developed Dystrophic Epidermolysis Bullosa Cell Therapy (DEBCT), a new generation GMP-compatible (cGMP), reproducible, and scalable platform to produce autologous clinical-grade iPS cell-derived organotypic induced skin composite (iSC) grafts to treat incurable wounds of patients lacking type VII collagen (C7).

Project description:Epidermolysis bullosa simplex (EBS) is a skin disorder caused by mutations in keratin (K) 5 or K14 genes. Little effect therapy is available.Following clinical reports, we applied the small molecule doxycycline to K5-/- mice. We demonstrate that doxycycline extended the survival of neonatal K5-/- mice from less than 1 to up to 8 hours. Microarray and TaqMan real-time PCR showed a downregulation of MMP-13 and IL-1beta, indicating an effect of doxycycline on transcription. Our data offer a novel small molecule based therapy approach for EBS. Keywords: drug treatment, global gene expression comparative profile