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  • Title: Control of stroma-dependent hematopoiesis by basic fibroblast growth factor: stromal phenotypic plasticity and modified myelopoietic functions.
    Author: Sternberg D, Peled A, Shezen E, Abramsky O, Jiang W, Bertolero F, Zipori D.
    Journal: Cytokines Mol Ther; 1996 Mar; 2(1):29-38. PubMed ID: 9384687.
    Abstract:
    It has been suggested that basic fibroblast growth factor (bFGF) affects hematopoietic cells directly and that it may also act indirectly by modulating stromal cell functions. We tested the response of phenotypically and functionally distinct stromal cell clones to this cytokine. We studied cell phenotype, the composition and organization of cytoskeleton and extracellular matrix, the ability to repopulate 'wounded areas', the expression of cytokine genes, and the capacity of the stroma to support long-term hematopoiesis in vitro. Although the impact of bFGF on cell growth was small, it induced a prominent morphological change in three stromal cell types that we tested. We analyzed the molecular basis for this change: bFGF modified the protein expression of alpha-smooth muscle actin (alpha-SMA), tropomyosin, alpha-tubulin, fibronectin and paxillin in a distinct manner characteristic of each of the stromal cell types. Immunofluorescence analysis of these proteins revealed profound changes in the cytoskeleton and extracellular matrix (ECM) networks accompanied by increased ability of the 14F1.1 stromal cells to scatter in in vitro 'wounded' areas. Furthermore, although only limited changes were monitored in the expression of cytokine genes, the ability of the stromal cells to support hematopoiesis was markedly modified. Thus bFGF profoundly changes the cellular organization of stromal cells, their adhesion and their motility properties. These changes are associated with modified capacity to support hematopoiesis in culture.
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