Biomaterial Database

Role of beta(1)-integrins and their associated tetraspanin molecules in fibronectin-enhanced megakaryopoiesis. 2004

P Han, and Xh Guo, and C Story

Department of Haematology, Women's and Children's Hospital, North Adelaide, South Australia, Australia.

BACKGROUND We have shown previously that fibronectin (FN) together with megakaryocyte (Mk) growth and development factor (MGDF) enhanced generation of Mk progenitors determined by colony-forming unit (CFU)-Mk assay. MGDF can activate beta(1)-integrins on progenitor cells and increase binding to FN. We studied the role of beta(1)-integrin-tetraspanin complexes by which FN may enhance megakaryopoiesis. METHODS Cord blood CD34(+) cells were cultured for up to 8 days in serum-free medium containing IL-3, IL-6 and SCF with or without MGDF in the presence or absence of FN. Immunofluorescence flow cytometry was used to monitor changes in beta(1)-integrin-tetraspanin complexes. CFU-Mk assay was used to assess Mk commitment. RESULTS The cocktail of cytokines irrespective of the presence of MGDF altered the percentage expression of beta(1)-integrins CD49d and CD49e on CD34(+) cells. CD49d expression fell initially (98% to 15%) and then rose to 75%, whereas CD49e progressively increased over the 8 days of culture, from 5.4% to 22%. However, with the addition of FN, similar changes in the expression of beta(1)-integrins were observed but the expression was maintained at a higher level. MGDF and FN increased expression of tetraspanin molecules, CD63 and CD151, as well as their co-expression with the beta(1)-integrins on both the CD34(+) and CD34(-) cells (e.g. and increase from 0% to 80% co-expression of CD49d and CD151 on CD34(+)). Blocking of beta(1)-integrins or the tetraspanin CD151 with the respective MAb reduced Mk progenitor generation in a stromal cell model. CONCLUSIONS FN enhanced Mk progenitor generation through modulation of beta(1)-integrin-tetraspanin complexes, such as CD151/CD49d.

UI	MeSH Term	Description	Entries
D008533	Megakaryocytes	Very large BONE MARROW CELLS which release mature BLOOD PLATELETS.	Megakaryocyte
D008562	Membrane Glycoproteins	Glycoproteins found on the membrane or surface of cells.	Cell Surface Glycoproteins,Surface Glycoproteins,Cell Surface Glycoprotein,Membrane Glycoprotein,Surface Glycoprotein,Glycoprotein, Cell Surface,Glycoprotein, Membrane,Glycoprotein, Surface,Glycoproteins, Cell Surface,Glycoproteins, Membrane,Glycoproteins, Surface,Surface Glycoprotein, Cell,Surface Glycoproteins, Cell
D002454	Cell Differentiation	Progressive restriction of the developmental potential and increasing specialization of function that leads to the formation of specialized cells, tissues, and organs.	Differentiation, Cell,Cell Differentiations,Differentiations, Cell
D005353	Fibronectins	Glycoproteins found on the surfaces of cells, particularly in fibrillar structures. The proteins are lost or reduced when these cells undergo viral or chemical transformation. They are highly susceptible to proteolysis and are substrates for activated blood coagulation factor VIII. The forms present in plasma are called cold-insoluble globulins.	Cold-Insoluble Globulins,LETS Proteins,Fibronectin,Opsonic Glycoprotein,Opsonic alpha(2)SB Glycoprotein,alpha 2-Surface Binding Glycoprotein,Cold Insoluble Globulins,Globulins, Cold-Insoluble,Glycoprotein, Opsonic,Proteins, LETS,alpha 2 Surface Binding Glycoprotein
D006410	Hematopoiesis	The development and formation of various types of BLOOD CELLS. Hematopoiesis can take place in the BONE MARROW (medullary) or outside the bone marrow (HEMATOPOIESIS, EXTRAMEDULLARY).	Hematopoiesis, Medullary,Haematopoiesis,Medullary Hematopoiesis
D006801	Humans	Members of the species Homo sapiens.	Homo sapiens,Man (Taxonomy),Human,Man, Modern,Modern Man
D013234	Stem Cells	Relatively undifferentiated cells that retain the ability to divide and proliferate throughout postnatal life to provide progenitor cells that can differentiate into specialized cells.	Colony-Forming Units,Mother Cells,Progenitor Cells,Colony-Forming Unit,Cell, Mother,Cell, Progenitor,Cell, Stem,Cells, Mother,Cells, Progenitor,Cells, Stem,Colony Forming Unit,Colony Forming Units,Mother Cell,Progenitor Cell,Stem Cell
D013926	Thrombopoietin	A humoral factor that stimulates the production of thrombocytes (BLOOD PLATELETS). Thrombopoietin stimulates the proliferation of bone marrow MEGAKARYOCYTES and their release of blood platelets. The process is called THROMBOPOIESIS.	Megakaryocyte Growth and Development Factor,c-mpl Ligand,MGDF Factor,Megakaryocyte Colony Stimulating Factor,Myeloproliferative Leukemia Virus Oncogene Ligand,Thrombocytopoiesis-Stimulating Factor,Thrombocytopoietin,mpl Ligand,Ligand, c-mpl,Ligand, mpl,Thrombocytopoiesis Stimulating Factor
D015703	Antigens, CD	Differentiation antigens residing on mammalian leukocytes. CD stands for cluster of differentiation, which refers to groups of monoclonal antibodies that show similar reactivity with certain subpopulations of antigens of a particular lineage or differentiation stage. The subpopulations of antigens are also known by the same CD designation.	CD Antigen,Cluster of Differentiation Antigen,Cluster of Differentiation Marker,Differentiation Antigens, Leukocyte, Human,Leukocyte Differentiation Antigens, Human,Cluster of Differentiation Antigens,Cluster of Differentiation Markers,Antigen Cluster, Differentiation,Antigen, CD,CD Antigens,Differentiation Antigen Cluster,Differentiation Marker Cluster,Marker Cluster, Differentiation
D049109	Cell Proliferation	All of the processes involved in increasing CELL NUMBER including CELL DIVISION.	Cell Growth in Number,Cellular Proliferation,Cell Multiplication,Cell Number Growth,Growth, Cell Number,Multiplication, Cell,Number Growth, Cell,Proliferation, Cell,Proliferation, Cellular