Itoh Tomohiro, Ohguchi Kenji, Iinuma Munekazu, Nozawa Yoshinori, Akao Yukihiro
Gifu International Institute of Biotechnology, 1-1 Naka-Fudogaoka, Kakamigahara, Gifu 504-0838, Japan.
Bioorg Med Chem. 2008 Aug 15;16(16):7592-8. doi: 10.1016/j.bmc.2008.07.018. Epub 2008 Jul 12.
Polymethoxy flavones (PMFs) are present in fruit tissues of Citrus species. It has been reported that flavonoids isolated from several Citrus have been shown to suppress the degranulation as inferred by histamine release in rat basophilic leukemia RBL-2H3 cells. In this study, we examined the effect of PMFs (PMF-1: 6,7,4',5'-tetramethoxy-5-monohydroxyflavone, PMF-2: 5,6,8,3',6'-pentamethoxy flavone, PMF-3: 5,6,7,3',4',5'-hexamethoxy flavone) on the degranulation in RBL-2H3 cells. All the PMFs suppressed the degranulation from Ag-stimulated RBL-2H3 cells. Interestingly, PMF-combination (PMF-1+PMF-2; PMF-1+PMF-3) treatment enhanced the inhibition of degranulation compared with PMF-single treatment. In order to clarify the inhibitory mechanism of degranulation by PMFs, we examined the activation of intracellular signaling molecules such as Lyn, Syk, and PLCgammas. All the PMFs significantly suppressed the activation of Syk and PLCgammas. In Ag-mediated activation of Fc epsilonRI on mast cells, three major subfamilies of mitogen-activated protein kinases, especially ERK44/42, were activated. These PMFs reduced the level of phospho-ERKs. The intracellular free Ca(2+) concentration ([Ca(2+)]i) was elevated by Fc epsilonRI activation, and PMF treatment reduced the elevation of [Ca(2+)]i by suppressing Ca(2+) influx. Thus, it was suggested that the suppression of Ag-stimulated degranulation by these PMFs mainly is due to the Syk/PLCgammas/PKC pathway and Ca(2+) influx. Furthermore, to be noted in the PMF-combination treatment, inactivation of Syk was enhanced compared with PMF-single treatment. But the inhibitory effect of degranulation by PMF-combination treatment was not associated with the suppression of Ca(2+) influx.
多甲氧基黄酮(PMFs)存在于柑橘属植物的果实组织中。据报道,从几种柑橘中分离出的黄酮类化合物已被证明可抑制大鼠嗜碱性白血病RBL - 2H3细胞中组胺释放所推断的脱颗粒作用。在本研究中,我们检测了多甲氧基黄酮(PMF - 1:6,7,4',5'-四甲氧基 - 5 - 单羟基黄酮,PMF - 2:5,6,8,3',6'-五甲氧基黄酮,PMF - 3:5,6,7,3',4',5'-六甲氧基黄酮)对RBL - 2H3细胞脱颗粒的影响。所有的多甲氧基黄酮均抑制了抗原刺激的RBL - 2H3细胞的脱颗粒。有趣的是,与单一多甲氧基黄酮处理相比,多甲氧基黄酮组合(PMF - 1 + PMF - 2;PMF - 1 + PMF - 3)处理增强了对脱颗粒的抑制作用。为了阐明多甲氧基黄酮对脱颗粒的抑制机制,我们检测了细胞内信号分子如Lyn、Syk和磷脂酶Cγ(PLCγ)的激活情况。所有的多甲氧基黄酮均显著抑制了Syk和PLCγ的激活。在肥大细胞上抗原介导的FcεRI激活过程中,有丝分裂原激活蛋白激酶的三个主要亚家族,尤其是ERK44/42被激活。这些多甲氧基黄酮降低了磷酸化ERK的水平。FcεRI激活会使细胞内游离钙离子浓度([Ca(2 +)]i)升高,而多甲氧基黄酮处理通过抑制钙离子内流降低了[Ca(2 +)]i的升高。因此,提示这些多甲氧基黄酮对抗原刺激的脱颗粒的抑制主要是由于Syk/PLCγ/PKC途径和钙离子内流。此外,值得注意的是,在多甲氧基黄酮组合处理中,与单一多甲氧基黄酮处理相比,Syk的失活增强。但多甲氧基黄酮组合处理对脱颗粒的抑制作用与钙离子内流的抑制无关。
