Project description:Adipose-derived stem cells are angiogenic and attractive for therapeutic angiogenesis. However, ADSCs contain several subsets according to expression pattern of surface markers. We identified CD271 (LNGFR) can isolate ADSCs with superior capacity for angiogenesis. Therefore, we aimed to compare gene expression profile between CD271+ and CD271- ADSCs.
Project description:This project is a report of protemoic data of secretome from human adipose tissue-derived stem cells. The ADSCs were cultured in serum-free condition, and LC-MS/MS identification was conducted to analyze the ingredients in the secretome.
Project description:Adipose tissue harbours a significant number of multipotent adult stem cells of mesenchymal origin known as adipose-derived stem cells (ADSCs). Broad differentiation potential and convenient accessibility of ADSCs make them an attractive source of adult mesenchymal stem cell for regenerative medicine and cell developmental plasticity research. Genome-wide microarray expression profiling was performed to identify genes deregulated during osteogenic differentiation of ADSCs to evaluate developmental plasticity of these cells. Dynamics of epigenetic modifications were analyzed in parallel and associated with the gene expression profile. Gene expression profile was analyzed in adipose-derived stem cells (ADSCs) differentiated into osteogenic lineage from 3 donors and compared to undifferentiated cells from the same donors.
Project description:Adipose tissue harbours a significant number of multipotent adult stem cells of mesenchymal origin known as adipose-derived stem cells (ADSCs). Broad differentiation potential and convenient accessibility of ADSCs make them an attractive source of adult mesenchymal stem cell for regenerative medicine and cell developmental plasticity research. Genome-wide microarray expression profiling was performed to identify genes deregulated during osteogenic differentiation of ADSCs to evaluate developmental plasticity of these cells. Dynamics of epigenetic modifications were analyzed in parallel and associated with the gene expression profile.
Project description:Dedifferentiated Fat Cells (DAs) and Adipose-derived stem cells (ADSCs) are two main stem cells derived from adipose tissue. In order to explore whether there is difference in transcriptome between the two cells after multiple subcultures, and which kind of cell should be selected for different regenerative aim, high-throughput RNAseq were conducted to find differentially expressed genes. The subcutaneous adipose tissue of three young women (23-30 years old)patients with normal BMI (19-24) were obtained during liposuction operation on abdomen or thigh. Stromal Vascular Fraction (SVF) and adipocytes were obtained by collagenase digestion, ADSCs was cultured regularly, and DAs were cultured by a modified ceiling culture method. Only 186 genes with different expression between the two groups were obtained.The downregulated gene number of DAs vs. ADSCs was 112 and the upregulated number was 74. Many of the differentially expressed genes are involved in the biological functions such as transcription regulator, protein translation regulation, cytokine interaction and energy metabolism regulation. These data may provide a foundation for further clinical administration of stem cells derived from adipose tissues.
Project description:The acidic microenvironment plays a key role to result in the poor survival and limited function of transplanted stem cells in ischemic diseases.In this study, different pH levels of medium were performed to treat adipose-derived stem cells (ADSCs) with 24/48h time- exposure, to explore the effect of extracellular acidosis on ADSCs.
Project description:This study explored the use of three-dimensional (3D) cultures to preserve the regenerative potential of adipose-derived stem cells (ADSCs) and investigated their cellular properties
Project description:Recent researches identified the existence of adipose derived stem cells (ADSCs) in adipose tissue. Perivascular ADSCs (PV-ADSCs) locate around vasculatures and can differentiate into vascular lineages. However, the detailed cellular heterogeneity within PV-ADSCs has not been investigated. Therefore, we performed single-cell profiling of subcutaneous (S-) and perivascular (PV-) ADSCs from wild-type and obese mice. After referring to the clustering strategies from other ADSCs’ single-cell data, we provided a more comprehensive picture and trajectory, especially for PV-ADSCs. Both single-cell analysis and in vitro experiments revealed that S-ADSCs from obese mice had impaired abilities of cell migration and proliferation compared to wild-type S-ADSCs. PV-ADSCs have distinctively intrinsic properties. We uncovered 4 subpopulations of PV-ADSCs including Dpp4+, Col4a2+, Clec11a+ and Sult1e1+ cells. Notably, the differentiative function of PV-ADSCs towards vascular lineages was mainly attributed to the existence of Clec11a+ subpopulation, which highly expressed Mgp. The present study provided an integrative view of the ADSCs’ variance from the perspective of origins and obesity.
Project description:[1] Microarray analysis in the rat myocardial tissue: 124I-HIB transplanted MI model Vs. phosphate buffered saline (PBS) injected myocardial infarction (MI) model Vs. Sham operated model [2] Microarray analysis in the rat adipose derived stem cells: 124I-HIB-labeled ADSCs Vs. Unlabeled ADSCs [1] We investigated the change of gene expression profile in sham operated-, PBS injected- and 124I-HIB-labeled ADSCs transplanted myocardium in rat myocaridial infarction (MI) model. [2] We compared gene expression profile with 124I-HIB labeled ADSCs and unlabeled ADSCs in vitro.
Project description:[1] Microarray analysis in the rat myocardial tissue: 124I-HIB transplanted MI model Vs. phosphate buffered saline (PBS) injected myocardial infarction (MI) model Vs. Sham operated model [2] Microarray analysis in the rat adipose derived stem cells: 124I-HIB-labeled ADSCs Vs. Unlabeled ADSCs