OBJECTIVE: We have previously shown that nitric oxide (NO) is involved in the hydroxyurea-induced increase of gamma-globin gene expression in cultured human erythroid progenitor cells and that hydroxyurea increases NO production in endothelial cells via endothelial NO synthase (NOS). We have now expanded those studies to demonstrate that stimulation of gamma-globin gene expression is also mediated by NOS induction in stromal cells within the bone marrow microenvironment. MATERIALS AND METHODS: Using NO analyzer, we measured NO production in endothelial and macrophage cell cultures. In coculture studies of erythroid and stromal cells, we measured globin gene expression during stimulation by NO inducers. RESULTS: Hydroxyurea (30-100 microM) induced NOS-dependent production of NO in human macrophages (up to 1.2 microM). Coculture studies of human macrophages with erythroid progenitor cells also resulted in induction of gamma-globin mRNA expression (up to threefold) in the presence of hydroxyurea. NOS-dependent stimulation of NO by lipopolysaccharide (up to 0.6 microM) has been observed in human macrophages. We found that lipopolysaccharide and interferon-gamma together increased gamma-globin gene expression (up to twofold) in human macrophage/erythroid cell cocultures. Coculture of human bone marrow endothelial cells with erythroid progenitor cells also induced gamma-globin mRNA expression (2.4-fold) in the presence of hydroxyurea (40 microM). CONCLUSION: These results demonstrate an arrangement by which NO and fetal hemoglobin inducers may stimulate globin genes in erythroid cells via the common paracrine effect of bone marrow stromal cells.
OBJECTIVE: We have previously shown that nitric oxide (NO) is involved in the hydroxyurea-induced increase of gamma-globin gene expression in cultured human erythroid progenitor cells and that hydroxyurea increases NO production in endothelial cells via endothelial NO synthase (NOS). We have now expanded those studies to demonstrate that stimulation of gamma-globin gene expression is also mediated by NOS induction in stromal cells within the bone marrow microenvironment. MATERIALS AND METHODS: Using NO analyzer, we measured NO production in endothelial and macrophage cell cultures. In coculture studies of erythroid and stromal cells, we measured globin gene expression during stimulation by NO inducers. RESULTS:Hydroxyurea (30-100 microM) induced NOS-dependent production of NO in human macrophages (up to 1.2 microM). Coculture studies of human macrophages with erythroid progenitor cells also resulted in induction of gamma-globin mRNA expression (up to threefold) in the presence of hydroxyurea. NOS-dependent stimulation of NO by lipopolysaccharide (up to 0.6 microM) has been observed in human macrophages. We found that lipopolysaccharide and interferon-gamma together increased gamma-globin gene expression (up to twofold) in human macrophage/erythroid cell cocultures. Coculture of human bone marrow endothelial cells with erythroid progenitor cells also induced gamma-globin mRNA expression (2.4-fold) in the presence of hydroxyurea (40 microM). CONCLUSION: These results demonstrate an arrangement by which NO and fetal hemoglobin inducers may stimulate globin genes in erythroid cells via the common paracrine effect of bone marrow stromal cells.
Authors: M Majka; A Janowska-Wieczorek; J Ratajczak; K Ehrenman; Z Pietrzkowski; M A Kowalska; A M Gewirtz; S G Emerson; M Z Ratajczak Journal: Blood Date: 2001-05-15 Impact factor: 22.113
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