Project description:Global Gene Expression Profiles in Cultured Skin Fibroblasts Derived from Patients with Gaucher Disease

Project description:Analysis of gene expression profiling of cultured skin fibroblasts obtained from patients affected with vascular Ehlers Danlos syndrome (vEDS) Transcriptome-wide expression profiling using the Affymetrix Gene 1.0 ST platform comparing the gene expression pattern of cultured skin fibroblasts derived from three patients with vEDS with those of nine healthy individuals

Project description:Gene expression profiling of cultured skin fibroblasts obtained from patients affected with classical Ehlers Danlos syndrome (cEDS) Transcriptome-wide expression profiling using the Affymetrix Gene 1.0 ST platform comparing the gene expression pattern of cultured skin fibroblasts from 4 cEDS patients with those of 9 healthy individuals

Project description:Orangutans are an endangered species whose natural habitats are restricted to the Southeast Asian islands of Borneo and Sumatra. For potential species conservation and functional genomics studies, we derived induced pluripotent stem cells (iPSCs) from cryopreserved skin fibroblasts obtained from captive orangutans. We report the gene expression profiles of iPSCs and skin fibroblasts derived from orangtuans. The overall goal was to evaluate gene expression biomarkers of pluripotency in iPSCs and skin fibroblasts derived from PBD-ZSD patients and healthy controls. Dermal fibroblast cultures from 2 orangutans were reprogrammed into iPSCs by transfection with retroviruses designed to express the human OCT4, SOX2, KLF4 and c-MYC cDNA. Fibroblasts and iPSCs were cultured in 1:1 ratio of DMEM:F12 medium supplemented with 20% KOSR (knock-out serum replacement) at 37°C with 5% CO2 until confluence for RNA extraction. The overall goal was to evaluate gene expression biomarkers of pluripotency in iPSCs and original fibroblast cultures.

Project description:Skin fibroblasts from individuals with PBD-ZSD, a rare autosomal recessive disorder caused by peroxisome assembly defects, show defects in lipid metabolism that provide the basis for clinical diagnostic tests, but are not among the cell types most affected by disease. To explore phenotypes of more clinically relevant cell types, skin fibroblasts from PBD-ZSD patients and healthy controls were reprogrammed into iPS cells with all the hallmark properties of pluripotency. Subsequently, iPSCs were differentiated into ASGPR-positive hepatocyte-like cells that were subject to flow cytometry and subject to gene expression profiling. We report the gene expression profiles of hepatocyte-like cells derived from iPSCs that were themselves derived from skin fibroblasts from PBD-ZSD patient donors and healthy controls.

Project description:Cultured skin substitutes, prepared using keratinocytes, fibroblasts and biopolymers, can facilitate closure of massive burn wounds by increasing the availability of autologous tissue for grafting. However, because they contain only two cell types, skin substitutes cannot replace all of the functions of native human skin. To better understand the physiological and molecular differences between cultured skin substitutes and native skin, we undertook a comprehensive analysis of gene expression in native skin, cultured keratinocytes, cultured fibroblasts, and skin substitutes using Affymetrix gene chip microarrays. Goals: Our analysis focused on identifying gene signatures that were highly characteristic of each cell and tissue type, and those that are regulated by the formation of cultured skin substitute from the individual components. Normalization: We used a normalization and referencing strategy that consisted of BioConductor/RMA Express RMA processing of the entire series of cel files followed by a per gene normalization in which the median value of expression for each gene was derived from the cultured samples only, and this was used as a reference for all samples including the cultured skin substitute. This approach allowed for the identification of genes that were higher and lower-expressed in the cultured skin relative to the individual cell types that were also expressed strongly or weakly in normal skin relative to the median value established by the three cell types. Results Summary:We identified six major clusters of coordinately regulated genes that were the most differentially expressed between groups. These clusters correspond to biomarker pools representing expression signatures for native skin, fibroblasts, keratinocytes, and cultured skin. The expression analysis revealed that entire clusters of genes were either up-regulated or down-regulated upon combination of fibroblasts and keratinocytes in cultured skin grafts. Further, several categories of genes were overexpressed in cultured skin substitutes compared with native skin, including genes associated with hyperproliferative skin or activated keratinocytes. The observed pattern of expression indicates that cultured skin substitutes in vitro, which display a well-differentiated epidermal layer, exhibit skin-like differentiation relative to gene expression patterns in the individual cells. This consists of both the activation of normal skin signature genes and the suppression of keratinocyte and fibroblast signatures. There is also a signature consistent with a hyperproliferative phenotype similar to wounded native skin. Keywords: Cell interaction and co-culture response expression profile

Project description:Skin fibroblasts from individuals with PBD-ZSD, a rare autosomal recessive disorder caused by peroxisome assembly defects, show defects in lipid metabolism that provide the basis for clinical diagnostic tests, but are not among the cell types most affected by disease. To explore phenotypes of more clinically relevant cell types, skin fibroblasts from PBD-ZSD patients and healthy controls were reprogrammed into iPS cells with all the hallmark properties of pluripotency. Subsequently, iPSCs were differentiated into ASGPR-positive hepatocyte-like cells that were subject to flow cytometry and subject to gene expression profiling. We report the gene expression profiles of hepatocyte-like cells derived from iPSCs that were themselves derived from skin fibroblasts from PBD-ZSD patient donors and healthy controls. The overall goal was to evaluate gene expression biomarkers of hepatocyte-like cells derived from PBD-ZSD patients and healthy controls. Dermal fibroblast cultures from 2 PBD-ZSD patients and 1 healthy control were reprogrammed into iPSCs by transfection with retroviruses designed to express the human OCT4, SOX2, KLF4 and c-MYC cDNA (see GEO entry GSE43996). Hepatic cell lineages were derived following the protocol of Duan (Duan Y, Catana A, Meng Y, Yamamoto N, He S, Gupta S et al. Stem Cells. 2007;25:3058-68; Duan Y, Ma X, Zou W, Wang C, Bahbahan IS, Ahuja TP et al. Stem Cells. 2010;28:674-86) with modifications. Total RNA samples from flow-sorted ASGPR-positive candidate hepatocyte-like cells obtained from healthy (control1) and PBD-ZSD patient (PBD_PEX1ms1 and PBD_PEX1fs1) donors were processed and analyzed on Affymetrix Human Genome 133A 2.0 microarrays.

Project description:Wound healing within the oral mucosa results in minimal scar formation compared to wounds within the skin. We have recently demonstrated distinct differences in the ageing profiles of cells (oral mucosal and patient-matched skin fibroblasts) isolated from these tissues. We hypothesize that the increased replicative potential of oral mucosal fibroblasts may confer upon them preferential wound healing capacities. Passage-matched early cultures of oral mucosal fibroblasts and skin fibroblasts demonstrated distinct gene expression profiles with a number of genes linked to wound healing/tissue repair. We analyzed the gene expression profiles of oral mucosal and patient-matched skin fibroblasts for multiple patients both prior to (0h) and (6h) following a wounding stimulus.

Project description:In this study, we evaluate the hypothesis that transcriptome pattern of a cell model of Parkinson’s disease (PD) could be altered compared to healthy individuals. We cultured fibroblasts from Parkin-associated PD (PRKN-PD; n=4) and healthy controls (HC; n=4) and analysed the transcriptome profile by using whole RNA sequencing. We found 343 differentially expressed transcripts (DET) between patients and controls being 206 up-regulated and 137 down-regulated. These genes are related with the gene ontology terms cell adhesion, cell growth, aminoacid biosynthesis and folate metabolism amongst others. Our findings indicate that PRKN mutations are associated with global gene expression changes as observed in fibroblasts, and support an emerging view of PD as a systemic disease affecting also peripheral non-neural tissues such as the skin.

Project description:In this study, we investigated its suitability for disease modeling by carrying out gene expression profiling, using RNA-seq, on neurons derived from iPSCs made from dental pulp extracted from deciduous teeth (T-iPSCs) and fibroblasts (F-iPSCs). Comparison of expression profiles of iPSC derived from dental pulp and skin-fibroblast