Project description:Global gene expressions of human bone-derived 11Lin-CD45-CD271+SSEA-4+ mesenchymal stem/stromal cells from young and elderly patients were analyzed. Results provide an insight into the molecular mechanisms of aging and cellular senescence.

Project description:Bone marrow (BM) mesenchymal stem/stromal cells are non-hematopoietic (CD45-), non-endothelial (CD31-) multipotential cells capable to differentiate into osteoblastes, chondrocytes and adipocytes. In addition, different subpopulations of MSCs and some of their derivatives (early osteoblastic lineage cells) were shown to form HSC-niche. This makes a complex picture of the relationship between MSCs and HSCs. Despite growing data in mice model, few describe the human counterpart. The BM CD200+ and CD271+ fractions were previously shown to be enriched in native MSCs in human. Herein, we found heterogeneity in expression of CD200 within CD45-/CD31-/CD271+ human BM fraction. We thus selected CD200+ and CD200- cells from CD45-/CD31-/CD271+ BM samples and we analyzed their transcriptome. The differential display of gene expression between these two types of BM fractions will give new insights in the identification of native human MSCs.

Project description:Evidence suggests that the bone marrow microenvironment (niches) support hematopoietic stem cells (HSCs). The cell-cell interaction between bone marrow mesenchymal stromal cells (BMSCs) and HSCs plays a crucial role in hematopoiesis. The aging of BMSCs lead to decreased ability to maintain hematopoiesis. We used microarray to determine the age-related change of BMSCs. Human BMSCs of young (yBMSC s, age of donors: 19 and 20 years) and elderly (eBMSC s, age of donors: 68 and 72 years) donors were purchased from Lonza. BM samples were obtained from MM patients (age of donors: 62 and 77 years) in accordance with the Declaration of Helsinki and using protocols approved by the research Ethics Committee of Tokyo Medical University (IRB No. 2648). BMSCs derived from MM patients (mmBMSCs) were isolated using the classical plastic adhesion method. Total RNA from each sample (yBMSCs, eBMSCs and mmBMSCs) was processed for hybridization onto GeneChip® human Gene 1.0 ST Array (Affymetrix) according to the manufacturer's protocol and scanned.

Project description:Analyze and compare the gene expression profile of human bone marrow primary CD45-CD271+ and CD45-CD271- cells. The hypothesis was some genes were differentially expressed in these two populations. Results provided important information regarding the gene expression difference of these two cell populations.

Project description:In this series we have analyzed the effect of donor age on the gene expression profile of mesenchymal stromal cells (alternatively named mesenchymal stem cells; MSC) from human bone marrow. Cells were taken from bone marrow aspirates from iliac crest (BM) of healthy donors or from the caput femoris (HIP) of elderly patients that received femoral head prosthesis.

Project description:In the present study we analyzed the effect of advanced donor age on the transcriptome of human mesenchymal stem cells (hMSC; alternatively named mesenchymal stromal cells) from bone marrow. Human MSC of elderly and middle-aged patients without symptoms of osteoporosis were isolated from femoral heads after total hip arthroplasty.

Project description:In the present study we analyzed the effect of primary osteoporosis on the transcriptome of human mesenchymal stem cells (hMSC; alternatively named mesenchymal stromal cells) from human bone marrow. Human MSC of elderly patients suffering from osteoporosis were isolated from femoral heads after low-energy fracture of the femoral neck. Bone marrow of age-matched, non-osteoporotic donors was obtained of femoral heads after total hip arthroplasty.

Project description:The aging of bone marrow stromal cells (BMSCs) lead to decreased ability to maintain hematopoiesis, however, effects of aging on BMSC-derived exosomes in bone marrow microenvironment remain unclear. The aim of this study is therefore to determine the age-related change of BMSC-derived exosomal miRNAs. Human BMSCs of young (yBMSC s, age of donors: 19 and 20 years) and elderly (eBMSC s, age of donors: 68 and 72 years) donors were purchased from Lonza. BM samples were obtained from MM patients (age of donors: 62 and 77 years) in accordance with the Declaration of Helsinki and using protocols approved by the research Ethics Committee of Tokyo Medical University (IRB No. 2648), and BMSCs derived from MM patients (mmBMSCs) were isolated using the classical plastic adhesion method. The exosomes from culture medium of BM-MSCs were isolated by Total Exosome Isolation Reagent (Invitrogen). Exosomal miRNA profiling was done using a TaqMan low-density array (ABI), and Studentâ??s t-test was used to determine statistical significance for comparisons between young and old groups using R software.

Project description:In the present study we analyzed the effect of primary osteoporosis and advanced donor age on the transcriptome of human mesenchymal stem cells (hMSC; alternatively named mesenchymal stromal cells) from bone marrow. Human MSC of elderly patients suffering from osteoporosis were isolated from femoral heads after low-energy fracture of the femoral neck. Control cells were obtained from bone marrow of femoral heads of middle-aged, non-osteoporotic donors after total hip arthroplasty. Cells were isolated from human bone marrow according to the previously described protocol (Noth et al., 2002, J Orthop Res, 20/5, 1060-1069) under agreement of the local Ethics Committee of the University of Würzburg. Human MSC of elderly patients suffering from osteoporosis were isolated from femoral heads after low-energy fracture of the femoral neck. Additional criteria for confirming primary osteoporosis in these donors were vertebrae fractures and advanced age. Bone marrow of middle-aged, non-osteoporotic donors was obtained of femoral heads after total hip arthroplasty due to osteoarthritis and/or hip dysplasia. RNA samples were taken from passage 1 or passage 2.

Project description:In the present study we analyzed the effect of primary osteoporosis on the transcriptome of human mesenchymal stem cells (hMSC; alternatively named mesenchymal stromal cells) from human bone marrow. Human MSC of elderly patients suffering from osteoporosis were isolated from femoral heads after low-energy fracture of the femoral neck. Bone marrow of age-matched, non-osteoporotic donors was obtained of femoral heads after total hip arthroplasty. Cells were isolated from human bone marrow according to the previously described protocol (Noth et al., 2002, J Orthop Res, 20/5, 1060-1069) under agreement of the local Ethics Committee of the University of Würzburg. Human MSC of elderly patients suffering from osteoporosis were isolated from femoral heads after low-energy fracture of the femoral neck. Additional criteria for confirming primary osteoporosis in these donors were vertebrae fractures and advanced age. Bone marrow of age-matched, non-osteoporotic donors was obtained of femoral heads after total hip arthroplasty due to osteoarthritis and/or hip dysplasia. RNA samples were taken from passage 1 or passage 2.