http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
Genome-Wide Differential Gene Expression Profiling of Human Bone Marrow Stromal Cells
Jeong, Ju Ah,Ko, Kyung-Min,Bae, Sohyun,Jeon, Choon-Ju,Koh, Gou Young,Kim, Hoeon Wiley (John WileySons) 2007 Stem Cells Vol.25 No.4
<P>Bone marrow stromal cells (BMSCs) reside in bone marrow and provide a lifelong source of new cells for various connective tissues. Although human BMSCs are regarded as highly suitable for the development of cell therapeutics and regenerative medicine, the molecular factors and the networks of signaling pathways responsible for their biological properties are as yet unclear. To gain a comprehensive understanding of human BMSCs at the transcriptional level, we have performed DNA microarray-based, genome-wide differential gene expression analysis with the use of peripheral blood-derived mononuclear cells (MNCs) as a baseline. The resulting molecular profile of BMSCs was revealed to share no meaningful overlap with those of other human stem cell types, suggesting that the cells might express a unique set of genes for their stemness. By contrast, the distinct molecular signature, consisting of 92 different genes whose expression strengths are at least 50-fold higher in BMSCs compared with MNCs, was shown to encompass largely a gene subset of umbilical cord blood-derived adherent cells, suggesting that adherent cells derived from bone marrow and umbilical cord blood may be defined by a common set of genes, regardless of their origin. Intriguingly, a large number of these genes, particularly ones for extracellular matrix products, coincide with normal or tumor endothelium-specific markers. Taken together, our results here provide a BMSC-specific genetic catalog that may facilitate future studies on molecular mechanisms governing core properties of these cells.</P>
Membrane proteomic analysis of human mesenchymal stromal cells during adipogenesis
Jeong, Ju Ah,Ko, Kyung-Min,Park, Hyung Soon,Lee, Jinsook,Jang, Cholsoon,Jeon, Choon-Ju,Koh, Gou Young,Kim, Hoeon WILEY-VCH 2007 Proteomics Vol. No.
<P>Mesenchymal stromal cells (MSCs) have proven useful for cell and immune therapy, but the molecular constituents responsible for their functionalities, in particular, those on the plasma membrane, remain largely unknown. Here we employed both gel and nongel based MS to analyze human MSCs' membrane proteome before and after adipogenesis. 2-DE of cells that were pretreated with membrane impermeable fluorescent dyes revealed that both the whole cell proteome and the cell surface subproteome were independent of donors. LC coupled with tandem MS analysis of the plasma membrane-containing fraction allowed us to identify 707 proteins, approximately half of which could be annotated as membrane-related proteins. Of particular interest was a subset of ectodomain-containing membrane-bound proteins that encompass most known surface markers for MSCs, but also contain a multitude of solute carriers and ATPases. Upon adipogenic differentiation, this proteomic profile was amended to include several proteins involved in lipid metabolism and trafficking, at the expense of, most noticeably, ectoenzymes. Our results here provide not only a basis for future studies of MSC-specific molecular mechanisms, but also a molecular inventory for the development of antibody-based cell isolation and identification procedures.</P>
Bae, Sohyun,Shim, So Hee,Park, Chae Woon,Son, Hye Kyung,Lee, Hyun Ju,Son, Ji Young,Jeon, Choonju,Kim, Hoeon Mary Ann Liebert, Inc 2011 STEM CELLS AND DEVELOPMENT Vol.20 No.2
<P>Mesenchymal stem cells (MSCs) are promising for cell therapy and regenerative medicine; but their lack of specific markers renders the cell culture at potential contamination risk with other cell types, in particular, fibroblasts. In this study, we mapped 2 differential transcriptome data of MSCs compared, one to mononuclear cells and the other to fibroblasts, onto the membrane proteome data, the analysis of which led to an identification of transmembrane 4 L6 family member 1 (TM4SF1) as a surface protein marker candidate that could discriminate MSCs simultaneously from blood cells and fibroblasts. Our analyses confirmed that TM4SF1 was abundantly expressed on MSCs but neither on other blood/tissue cells nor on fibroblasts. TM4SF1 immunoselection from bone marrow and adipose tissues yielded homogeneous cell populations that were highly similar to MSCs, in terms of morphology, immunophenotype, and differentiation potential. These findings indicate that TM4SF1 can serve as a surface protein marker which singly identifies MSCs from diverse cell sources, in particular, fibroblast-rich connective tissues.</P>