Project description:Progenitors in human vasculature expanded in-vitro were differentiated with adipogenic cocktail for 12 days, following which they were stimulated with forskolin for 7 days Microarrays were used to detail the program of differentiation of thermogenic human adipose cells Adipose tissue from three individuals was cultured in hydrogel under pro-angiogenic conditions. Capillary networks emerging from the explants were subcultured on plastic, grown to confluence, subjected to adipogenic differentiation and after 12 days treated with vehicle or forskolin for 7 days

Project description:Multilayer murine follicles were grown in 3% alginate and follicles were isolated for transcriptomics analysis at day 0, 2, 4,5,6,and 8 after encapsulation. This data complements to the GSE42795, where follicles were grown in vitro in 0.5% alginate gels A total of 8 samples were analyzed, each of them repeted in triplicate

Project description:A microarray study to compare gene expression during ovarian follicle development to better understand transcriptional changes during follicular growth. Multi-layered secondary follicles (150-180 M-BM-5m in diameter) were mechanically isolated from ovaries of 16-day old CD-1 mice and individually encapsulated in 0.5% alginate. Follicles were culture for up to 8 days. Day 0 samples correspond to follicles that were isolated and immediately frozen. Samples were collected after 0, 2, 4, 5, 6 and 8 days in culture in triplicate and day 0 was collected 5 times.

Project description:Investigation of whole genome gene expression level in motile strain of Sphingomonas. sp A1 All flagellar genes in motile strain of Sphingomonas. sp A1 are highly transcribed. A two chip study using total RNA recovered from wild-type and motile strains of Sphingomonas. sp A1 grown in 0.5% alginate medium.

Project description:In the tumor microenvironment the extracellular matrix molecule tenascin-C is highly expressed which correlates with worsened survival prognosis. Tenascin-C promotes multiple steps in cancer progression. In particular, tenascin-C promotes the tumor angiogenic switch and the formation of more but poorly functional blood vessels by ill defined mechanisms. Here, we studied tenascin-C angio-modulatory functions by tumor and stromal cells. Unexpectedly, we observed that direct contact of endothelial cells with tenascin-C impairs angiogenesis through disruption of actin polymerization. This resulted in cytoplasmic retention of the F-actin sensor and co-transcription factor YAP and led to downregulation of YAP pro-angiogenic target genes. Conversely, tumor cells and carcinoma associated fibroblasts exposed to tenascin-C secreted pro-angiogenic factors that promoted endothelial cell survival and tubulogenesis. We identified and functionally validated CXCL12 and Ephrin- B2 as important pro-angiogenic effectors of tenascin-C. Proteomic analysis of the secretome of tumor cells exposed to tenascin-C revealed a signature that predicts shorter survival of patients with low grade glioma and glioblastoma with a particular significance for a combined expression of tenascin-C and Ephrin-B2. Altogether, we demonstrated a dual mechanism of action of tenascin-C in tumor angiogenesis where direct contact of endothelial cells with tenascin-C impairs angiogenesis, and paracrine signals derived from contact of tumor cells and carcinoma associated fibroblasts with tenascin-C promotes angiogenesis. These opposing effects provide for the first time an explanation of divergent mechanisms controlled by tenascin-C which can result in a denser but less functional tumor blood vasculature and might unveil new targeting and prediction opportunities.

Project description:D1 multipotent mesenchymal stromal cells (D1‐MSCs,ATCC® CRL 12424TM) and genetically modified with the lentiviral vector pSIN‐EF2‐Epo‐Pur to express erythropoietin (EPO). D1‐MSCs genetically modified to release EPO were immobilized into 3D alginatepoly‐ L‐lysine‐alginate (APA) microcapsules. Since different formulations of alginate 1.5%, poly‐L‐lysine 0.05%, alginate 0.1% and washings were designed, two types of APA microcapsules were obtained: Biological microcapsules (made of Biological formulations) and Technological microcapsules (made of Technological formulations). The expression of the cells under different conditions of these two types of microcapsules have been analyzed. The present analysis proved that the mechanical properties of the matrix in which cells are enclosed influences drastically gene expression

Project description:Skeletal muscle research is transitioning towards 3D tissue engineered in vitro models reproducing muscle’s native architecture and supporting measurement of functionality. Human induced pluripotent stem cells (hiPSCs) offer high yields of cells for differentiation. It has been difficult to differentiate high quality, pure 3D muscle tissues from hiPSCs that show contractile properties comparable to primary myoblast-derived tissues. Here, we present a transgene-free method for the generation of purified, expandable myogenic progenitors (MPs) from hiPSCs grown under feeder-free conditions. We defined a protocol with optimal hydrogel and medium conditions that allowed production of highly contractile 3D tissue engineered skeletal muscles with forces similar to primary myoblast-derived tissues. Gene expression and proteomic analysis between hiPSC-derived and primary myoblast-derived 3D tissues revealed a similar expression profile of proteins involved in myogenic differentiation and sarcomere function. The protocol should be generally applicable for the study of personalized human skeletal muscle tissue in health and disease.

Project description:Investigation of whole genome gene expression level changes in Sphingomonas. sp A1 AlgO-deficient mutant grown on alginate compared with that on yeast extract AlgO is a possble transcriptional factor described in J. Bacteriol. (2000) 182(14):3998-4004 by Momma K, Okamoto M, Mishima Y, Mori S, Hashimoto W, and Murata K. A two chip study using total RNA recovered from two cultures of Sphingomonas. sp A1 AlgO-deficient mutant grown in 0.5% alginate medium and 0.5% yeast extract medium. Each chip measures the expression level of genes from Sphingomonas. sp A1.

Project description:Increased extracellular matrix (ECM) stiffness has been implicated in esophageal adenocarcinoma (EAC) progression, metastasis, and resistance to therapy. However, the underlying pro-tumorigenic pathways are yet to be defined. Additional work is needed to develop physiologically relevant in vitro 3D culture models that better recapitulate the human tumor microenvironment and can be used to dissect the contributions of matrix stiffness to EAC pathogenesis. Here, we describe a modular, tumor ECM-mimetic hydrogel platform with tunable mechanical properties, defined presentation of cell-adhesive ligands, and protease-dependent degradation that supports robust in vitro growth and expansion of patient-derived EAC 3D organoids (EAC PDOs). Hydrogel mechanical properties control EAC PDO formation, growth, proliferation, and activation of tumor-associated pathways that elicit stem-like properties in the cancer cells, as highlighted through in vitro and in vivo environments. We also demonstrate that the engineered hydrogel serves as a platform to identify potential therapeutic targets to disrupt the contribution of pro-tumorigenic matrix mechanics in EAC. Together, these studies show that an engineered PDO culture platform can be used to elucidate underlying matrix-mediated mechanisms of EAC, and inform the development of therapeutics that target ECM stiffness in EAC.

Project description:In this project hiPSC-derived β-like cells were studied in two different 3D enviromnets; size-adjusted cell aggregates (using Aggrewell™ plates) and inside alginate capsules. The hiPSC derived from a patient with maturity-onset diabetes of the young 1 (MODY1), which is a monogenic diabetes form, caused by a mutation in the HNF4A gene. We also generated and included a CRISPR/cas9 corrected isogenic control line. Human islets were also included as positive control. In the data analysis we compared to proteome of the cells in 3D environments compared to the frat 2D enviromnet. We found HNF4A mutation specific effects with both distinct 3D environments, where the cells are challenged differentially in term of oxygen, nutrient supply and cell-to-cell contact. We identified HNF4A mutation-specific phenotypes, including a unique proteome signature suggesting metabolic changes in the alginate bead environment, and mutation-specific cellular phenotypes and a unique proteome signature in the aggregation environment.