G protein‐mediated Ca2+ sensitization of airway smooth muscle contraction was investigated with respect to the relative importance of Rho‐associated coiled coil forming protein kinase (ROCK) and protein kinase C (PKC). We examined the effects of Y‐27632, a ROCK inhibitor, and GF 109203X, a PKC inhibitor, on guanosine 5′‐O‐(3‐thiotriphosphate) (GTPγS)‐induced contraction in α‐toxin‐ or β‐escin‐permeabilized rabbit trachea.
Although pre‐treatment with Y‐27632 dose‐dependently inhibited GTPγS (10 μM)‐induced Ca2+ sensitization of α‐toxin‐permeabilized trachea, a Y‐27632‐insensitive component (approximately 16% of the maximum contraction) was retained during the early phase of the GTPγS response in the presence of Y‐27632 (100 μM).
GF 109203X (5 μM) abolished 1 μM 4β‐phorbol 12, 13‐dibutyrate (PDBu)‐induced, but only partially inhibited the GTPγS‐induced Ca2+ sensitization. A combination of Y‐27632 (100 μM) and GF 109203X (5 μM) totally abolished the GTPγS response.
GTPγS caused only a small contraction in the absence of Ca2+. Wortmannin (30 μM), a myosin light chain kinase (MLCK) inhibitor, completely inhibited Ca2+‐induced contraction. ATP‐triggered contraction of the strip which had been treated with calyculin A (1 μM), a phosphatase inhibitor, in rigor solutions was markedly slowed by worthmannin (30 μM), but not by Y‐27632 (100 μM), in the presence of GTPγS and Ca2+.
GTPγS, but not PDBu, contracted the β‐escin‐permeabilized trachea in the absence of Ca2+, but the presence of Ca2+‐independent MLCK.
We conclude that ROCK plays a primary role in G‐protein‐mediated Ca2+ sensitization, which requires MLCK activity, with minor contribution of PKC to the early phase of contraction, and PDBu utilizes conventional PKC(s) in airway smooth muscle.
British Journal of Pharmacology (1999) 128, 925–933; doi:
CD34(+) progenitors of human bone marrow are a rich source of mast cell progenitors capable of expressing granule and surface markers of mature mast cells in the presence of rhSCF and rhIL-6.
Although mast cells accumulate within the mucosal epithelial layer of patients with allergic rhinitis and bronchial asthma, the responsible chemotactic factors are undefined. We investigated whether mast cells sensitized with Ag-specific IgE migrate toward the Ag. MC/9 mast cells sensitized with anti-DNP IgE migrated toward DNP-conjugated human serum albumin. This migration was directional, and the degree was stronger than that induced by stem cell factor. IL-3 and stem cell factor-dependent cultured mast cells derived from mouse bone marrow also migrated toward the Ag. Subsequent migration mediated by the FcεRI was significantly inhibited by incubating the cells with Y-27632, a Rho-associated coiled-coil-forming protein kinase inhibitor, or with SB203580, a p38 mitogen-activated protein kinase (MAPK) inhibitor. Both p38 MAPK and MAPK-activated protein kinase (MAPKAPK)2 were activated following FcεRI aggregation, and activation of MAPKAPK2 was almost completely inhibited by 10μM SB203580. Wortmannin or a low concentration of SB203580 partially inhibited MAPKAPK2, but did not block mast cell migration. In contrast, Y-27632 did not affect the activation of MAPKAPK2. These results indicate that Ag works not only as a stimulant for allergic mediators from IgE-sensitized mast cells, but also as a chemotactic factor for mast cells. Both p38 MAPK activation and Rho-dependent activation of Rho-associated coiled-coil-forming protein kinase may be required for FcεRI-mediated cell migration.
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