吞噬

Results: 1 The capacity of engulfment of A549 cells started enhancing at the 1h of preincubation with dexamethasone, reached the highest at the 4h of preincubation,At the 8h、24h of preincubation the capacity of engulfment evidently reduced. 2 Glucocorticoid cytosolic receptors antagonist RU38486 inhibited the improved engulfment ability by dexamethasone. 3Phagocytosing apoptotic eosinophils did not change the release of IL-6 and IL-8,but can inhibited the release of IL-6 and IL-8 from A549 cells stimulated by lipopolysaccharide. 4Increasely uptaking by dexamethasone also did not agitate the release of IL-6 and IL-8 from A549 cells. Conclusion: 1Dexamethasome improve the phagocyte capacity for apoptotic eosinophils of A549 cells by glucocorticoid cytosolic receptors, and the effect presents time-dependently. 2Phagocytosis of apoptotic eosinphils can degrade inflammatory reflection, so it is likely to be critical in the control of asthma inflammation.

结果： 1 A549细胞在地塞米松诱导后1小时吞噬能力开始升高，4小时吞噬能力达最高峰，8小时、24小时吞噬能力明显下降 2加入RU38486后抑制了地塞米松所增强的吞噬能力 3凋亡嗜酸粒细胞的吞噬并不能改变A549细胞释放IL-6和IL-8，但能抑制脂多糖刺激A549细胞后IL-6、IL-8的分泌 4地塞米松增加的吞噬也不激发A549细胞释放IL-6和IL-8 结论： 1地塞米松促进A549细胞吞噬凋亡的嗜酸粒细胞是通过A549细胞糖皮质激素胞浆受体发挥作用的，并且具有时间依赖性 2 A549细胞吞噬凋亡的嗜酸粒细胞能降低炎症反应，对哮喘炎症的控制具有重要意义

Methods Peritoneal macrophages of guinea pigs were infected in vitro by three different Leptospira strains, the virulent Leptospira interrogans serovar Lai type strain Lai, the avirulent L. interrogans serovar Lai type strain IPAV, and the nonpathogenic L. biflexa serovar Patoc type strain PatocⅠ, respectively, and heat inactivated Staphylococcus epidermidis was added 0.5, 1.5, 3 and 6 h after infection and incubated for 30 min. The effect of Leptospira on the phagocytosis of macrophage was evaluated by the inactivated Staphylococcus epidermidis phagocytosis rate and phagocytosis index. Phagocytosis and ultrastructure of peritoneal macrophages were observed by transmission electron microscopy 3 h after infection, and changes of cytoskeleton of the macrophages were observed by laser scanning confocal microscopy.

用三种不同毒力的钩体（致病性问号钩端螺旋体赖型有毒株Lai株、赖型无毒株IPAV株以及非致病性双曲钩端螺旋体Patoc型PatocⅠ株）分别感染体外培养的豚鼠腹腔巨噬细胞，并分别于感染后0.5、1.5、3和6 h加入热灭活表皮葡萄球菌孵育30 min，通过计算巨噬细胞对灭活表皮葡萄球菌的吞噬率和吞噬指数，检测钩体对巨噬细胞吞噬功能的影响；感染后3 h透射电镜观察巨噬细胞对钩体的吞噬、降解和细胞超微结构的变化；用激光共聚焦显微镜观察细胞对钩体的吞噬和巨噬细胞细胞骨架的变化。

Results Experimental group,the phagocyte swallows saccharomycetes 10 minutes after to swallow the percentage to be possible to reach as high as 57%.

结果 实验组吞噬10min的结果吞噬百分率57％，吞噬20min的结果吞噬百分率86％，吞噬30min的结果吞噬百分率63％。

Results: In acute experiment, there was no significant difference of body weight or organ indexes between the normal control and arsenic poisoning groups ; while the CH50 level, lymphocyte accruing rate, phagocytosis rate and macrophagocyte index in arsenic poisoning group were significantly lower (P.05 or P.01) than those in normal group. There was no significant difference of body weight or organ index between arsenic poisoning group and EXD (10 g) treated arsenic poisoning group, while CH50, lymphocyte accruing rate, phagocytosis rate, and mavrophocyte index were significantly higher in EXD (10 g) treated arsenic poisoning group than those in arsenic poisoning group (P.05 or P.01). In EXD (5 g) treated arsenic poisoning group, results of all the tested indexes were the same as those of arsenic poisoning group.

结果：与正常对照组相比，砷中毒组小鼠体重、脏器指数无明显改变；CH50、淋巴细胞增殖、巨噬细胞吞噬率及吞噬指数明显降低，差异有显著性（P.05或P.01；与砷中毒组相比，竹荪治疗低剂量组小鼠体重、脏器指数、CH50、淋巴细胞增殖、巨噬细胞吞噬率及吞噬指数无明显改变化；竹荪治疗高剂量组除小鼠体重、脏器指数无明显改变外，CH50、淋巴细胞增殖、巨噬细胞吞噬率及吞噬指数明显升高，差异有显著性（P.05或P.01）。

Methods Swallows the chicken red blood cell by the macrophage and the macrophage swallows the saccharomycetes in the foundation newly to establish one kind to swallow experimental method.

目的 探讨简便易行的小鼠巨噬细胞吞噬酵母菌实验的改良法方法在巨噬细胞吞噬鸡红细胞和巨噬细胞吞噬酵母菌实验基础上建立一种新的吞噬实验方法。

the result showed the mice macrophage swallows saccharomycetes 20 minutes after to swallow the percentage to be possible to reach as high as 86%,simply explains this kind of improvement method but to be effective.

结果 实验组吞噬10min的结果吞噬百分率57％，吞噬20min的结果吞噬百分率86％，吞噬30min的结果吞噬百分率63％。结论结果显示小鼠巨噬细胞吞噬酵母菌20min的吞噬百分率可高达86％，说明这种改良法简单而有效。

Results experimental group,the phagocyte swallows saccharomycetes 10 minutes after to swallow the percentage to be possible to reach as high as 57%.

结果 实验组吞噬10min的结果吞噬百分率57％，吞噬20min的结果吞噬百分率86％，吞噬30min的。。。作者：孙明洁，高燕，赵冬，王珂，靖学芳

Specific IgY enhanced the phagocytosis of polymorphonuclear neutrophil leukocytes isolated from cow blood and milk with an optimal concentration of 1 mg/mL.The phagocytic percents of PMN in blood to S.aureus increased from 60.2%to 90.5%with IgY opsonizing,that of PMN in milk increased from 52.95%to 82.45%.The phagocytosis of PMN and macrophages in milk to S.aureus and E.coli were both enhanced by specific IgY.

该浓度IgY使外周血PMN吞噬金黄色葡萄球菌的吞噬率由60.2%升高到90.5%，乳中PMN吞噬金黄色葡萄球菌的吞噬率由52.95%升高到82.45%；乳中PMN和Mφ吞噬金黄色葡萄球菌的吞噬率分别提高29.5%和27.66%，吞噬大肠杆菌的吞噬率分别提高26.5%和26.36%，IgY对两种细胞的吞噬促进作用差异不明显(p＞0.05)。

Result: B-2 can increase abdominal cavity macrophage phagocytic activity significantly (p.001) B-1 can increase abdominal cavity macrophage phagocytic activity (high dose of B-1: P.01, low dose of B-1: P.05). Only high doses of S. sphenanthera coarse polysaccharides can increase phagocytic activity (phagocytic index p.05) and show dose-dependent augmentor effects.

结果：北五味子脱蛋白粗多糖能极显著增强腹腔巨噬细胞吞噬功能(p.001)，未脱蛋白粗多糖能显著增强腹腔巨噬细胞吞噬功能（大剂量组p.01、小剂量组p.05），而南五味子粗多糖只有大剂量组能增强腹腔巨噬细胞吞噬功能（吞噬指数p.05），并呈一定的量效关系。

However, different ratios of zymosan to haemocytes (2 zy/he, 5 zy/he and 10 zy/he) affected the phagocytic ability significantly, phagocytic rate and index increasing with the rise in the ratio.

测定不同温度(10、20、30℃)下血细胞对酵母聚糖的吞噬作用，20℃时血细胞的吞噬率、吞噬指数最高；10℃与30℃时的吞噬率、吞噬指数均较低，但与20℃的相比没有显著差异。

cytophagy：细胞吞噬

cytophagic 细胞吞噬的 | cytophagy 细胞吞噬 | cytopharynx 细胞咽

Devour,Consume：吞噬

Devastation,Demolish,破壞 | Devour,Consume,吞噬 | Devour Magic,Consume Magic,吞噬魔法

Devour Magic：吞噬魔法

从附近的友军身上吸取全部魔法给毁灭者使用(快捷键"B") 持续时间 施法间隔 魔法消耗 射程 作用范围 效果无无无 90 我方单体 将我军某单位魔法传给毁灭者 吞噬魔法 (Devour Magic)吞噬掉一定范围内的所有魔法效果,

Phagocytosis：吞噬作用

(一) 吞噬作用( phagocytosis)当少量单细胞病原物如细菌,真菌,原虫以及病毒等侵入血腔时常发生吞 噬作用.吞噬作用主要由浆血细胞,粒血细胞参与,包括识别,摄入和消化过程.首先由血细胞膜上的受 体与病原物表面的特殊基团或附着的异源凝集素相互作用进行识别,

Phagocytosis：吞噬

(3)吞噬(phagocytosis) 原虫对固体食物的摄入称吞噬. 有些原虫具有胞口,可通过胞口将食物摄入. 不具有胞口的原虫,则通过表膜内陷将食物摄入胞内. 前者如疟原虫的滋养体经胞口摄食红细胞内的血红蛋白;后者如阿米巴原虫吞噬细菌,

Phagocytosis：吞噬酌

phagocytolysis 噬细胞溶解 | phagocytosis 吞噬酌 | phagokaryosis 核吞噬酌

phagolysis：吞噬(分)解

吞噬作用 phagocytosis | 吞噬(分)解 phagolysis | 厌食 phagophobia

phagolysis：噬细胞溶解 吞噬溶解 吞噬细胞溶解

phagology噬菌体学 | phagolysis噬细胞溶解 吞噬溶解 吞噬细胞溶解 | phagolysosome吞解体 吞噬溶酶体 异生溶酶体

phagocytable：可被吞噬的

phagocaryosis 核吞噬作用 | phagocytable 可被吞噬的 | phagocyte 噬菌细胞

phagocytic vacuole：吞噬泡

06.0640 吞噬[作用] phagocytosis | 06.0641 吞噬泡 phagocytic vacuole | 06.0642 胞饮[作用] pinocytosis