Dynamics of Plasma and Granule Membrane in Murine Bone Marrow- Derived Mast Cells after Re-stimulation

M. Kaneko, Arisa Yamada
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Abstract

Mast cells are derived from hematopoietic stem cells and play important roles in allergic responses. Mast cells are long-lived compared with other granular cell types. Since the response of the individual mast cell after Fc RI-induced degranulation is unclear, the aim of this study was to analyze morphological changes in individual mast cells after re- stimulation. To observe plasma and granule membrane dynamics, AcGFP-actb ( -actin) and DsRed-monomer (DRM)- CD63 fusion constructs were introduced into bone marrow-derived mast cells (BMMCs). Furthermore, AcGFP-CD63 and DRM-Cma1 (mMCP-5) were introduced into BMMCs. Re-stimulation resulted in increased  -hexosaminidase release and cytokine mRNA expression similar to those observed during initial stimulation. Moreover, expression of Fc RI on BMMCs 24 h after initial stimulation was similar to that measured before initial stimulation. Changes in morphology of the plasma membrane and colocalization of granules and plasma membrane were observed after initial stimulation. BMMCs returned to normal 120 min after the initial stimulation. These phenomena were also observed in BMMCs after re-stimulation. BMMC chymase content decreased 20 min after stimulation but returned to near normal 24 h after stimula- tion. These findings suggest that mast cell functions can be maintained and that these cells can be repeatedly degranulated after Fc RI-mediated stimulation.
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小鼠骨髓源肥大细胞再刺激后血浆和颗粒膜的动态变化
肥大细胞来源于造血干细胞,在过敏反应中起重要作用。与其他颗粒细胞类型相比,肥大细胞寿命较长。由于Fcri诱导的肥大细胞脱颗粒后个体肥大细胞的反应尚不清楚,因此本研究的目的是分析再刺激后个体肥大细胞的形态学变化。为了观察血浆和颗粒膜动力学,将AcGFP-actb(-actin)和dsred -单体(DRM)- CD63融合构建物引入骨髓源性肥大细胞(BMMCs)。在BMMCs中引入AcGFP-CD63和DRM-Cma1 (mMCP-5)。再次刺激导致-己糖氨酸酶释放和细胞因子mRNA表达增加,与初始刺激时观察到的相似。此外,初始刺激后24 h BMMCs上FcRI的表达与初始刺激前相似。在初始刺激后,观察到质膜形态的变化以及颗粒和质膜的共定位。初始刺激后120分钟bmcs恢复正常。这些现象在再刺激后的bmcs中也观察到了。刺激后20 min BMMC酶含量下降,24 h后恢复到接近正常水平。这些发现表明,肥大细胞功能可以维持,这些细胞可以在Fcri介导的刺激后反复脱颗粒。
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