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  • Fc{epsilon}RI-mediated mast cell degranulation requires calcium-independent microtubule-dependent translocation of granules to the plasma membrane.

Fc{epsilon}RI-mediated mast cell degranulation requires calcium-independent microtubule-dependent translocation of granules to the plasma membrane.

The Journal of cell biology (2005-07-07)
Keigo Nishida, Satoru Yamasaki, Yukitaka Ito, Koki Kabu, Kotaro Hattori, Tohru Tezuka, Hirofumi Nishizumi, Daisuke Kitamura, Ryo Goitsuka, Raif S Geha, Tadashi Yamamoto, Takeshi Yagi, Toshio Hirano
RÉSUMÉ

The aggregation of high affinity IgE receptors (Fcepsilon receptor I [FcepsilonRI]) on mast cells is potent stimulus for the release of inflammatory and allergic mediators from cytoplasmic granules. However, the molecular mechanism of degranulation has not yet been established. It is still unclear how FcepsilonRI-mediated signal transduction ultimately regulates the reorganization of the cytoskeleton and how these events lead to degranulation. Here, we show that FcepsilonRI stimulation triggers the formation of microtubules in a manner independent of calcium. Drugs affecting microtubule dynamics effectively suppressed the FcepsilonRI-mediated translocation of granules to the plasma membrane and degranulation. Furthermore, the translocation of granules to the plasma membrane occurred in a calcium-independent manner, but the release of mediators and granule-plasma membrane fusion were completely dependent on calcium. Thus, the degranulation process can be dissected into two events: the calcium-independent microtubule-dependent translocation of granules to the plasma membrane and calcium-dependent membrane fusion and exocytosis. Finally, we show that the Fyn/Gab2/RhoA (but not Lyn/SLP-76) signaling pathway plays a critical role in the calcium-independent microtubule-dependent pathway.

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Rac1 Activation Assay Kit, Non-radioactive Rac1 Activation Assay Kit can be used to precipitate Rac1-GTP from cell lysates & detection by a Rac1 specific monoclonal antibody.