Abnormal growth of airway smooth muscle may play an important role in the pathogenesis of human airway diseases. Little is known about the proliferative responses of cultured airway smooth muscle cells, nor of the precise pathways responsible for mitogenesis in these cells. We assessed DNA synthesis, cell proliferation, and mitogen-activated protein (MAP) kinase activation in bovine tracheal myocytes after exposure to four potential mitogens: platelet-derived growth factor (PDGF), epidermal growth factor (EGF), insulin-like growth factor-1 (IGF-1), and 5-hydroxytryptamine (5-HT). Stimulation with either PDGF or IGF-1 induced substantial increases in DNA synthesis and cell number, as reflected by [3H]thymidine incorporation, flow cytometry, and methylene blue staining. Treatment with EGF or 5-HT, on the other hand, induced only modest DNA synthesis and no increase in cell number. Immunoblots and kinase renaturation assays of cell extracts demonstrated activation of both the 42- and 44-kDa MAP kinases within minutes of either PDGF, IGF-1, EGF, or 5-HT exposure. However, relative to EGF and 5-HT stimulation, late-phase MAP kinase activation was significantly greater after treatment with the mitogens PDGF and IGF-1. We conclude that in cultured bovine tracheal myocytes 1) PDGF and IGF-1 are potent mitogens; 2) MAP kinase may be activated subsequent to stimulation of either receptor tyrosine kinases (PDGF, EGF, IGF-1) or G protein-linked receptors lacking in known tyrosine kinase activity (5-HT); and 3) unsustained MAP kinase activation is insufficient for mitogenesis. Finally, the finding that mitogenicity correlates with the late phase of MAP kinase activation is consistent with the notion that sustained MAP kinase activation is important for bovine tracheal myocyte proliferation.
We examined the effects of the bronchoconstrictor agonists serotonin (5-hydroxytryptamine; 5-HT) and histamine on mitogen-activated protein (MAP) kinase activation in cultured bovine tracheal myocytes. Kinase renaturation assays demonstrated activation of the 42- and 44-kDa MAP kinases within 2 min of 5-HT exposure. MAP kinase activation was mimicked by alpha-methyl-5-HT and reduced by pretreatment with either phorbol 12,13-dibutyrate or forskolin, suggesting activation of the 5-HT2 receptor, protein kinase C, and Raf-1, respectively. Raf-1 activation was confirmed by measurement of Raf-1 activity, and the requirement of Raf-1 for 5-HT-induced MAP kinase activation was demonstrated by transient transfection of cells with a dominant-negative allele of Raf-1. Histamine pretreatment significantly inhibited 5-HT and insulin-derived growth factor-1-induced MAP kinase activation. Attenuation of MAP kinase activation was reversed by cimetidine, mimicked by forskolin, and accompanied by cAMP accumulation and inhibition of Raf-1, suggesting activation of the H2 receptor and cAMP-dependent protein kinase A. However, histamine treatment inhibited Raf-1 but not MAP kinase activation following treatment with either platelet-derived growth factor or epidermal growth factor, implying a Raf-1-independent MAP kinase activation pathway. In summary, our data suggest a model whereby 5-HT activates MAP kinase via a protein kinase C/Raf-1 pathway, and histamine attenuates MAP kinase activation by serotonin via activation of cAMP-dependent protein kinase A and inhibition of Raf-1.
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