El-Sadr W M, Aikawa M, Greene B M
J Immunol. 1983 Jan;130(1):428-34.
An in vitro system has been developed to elucidate potential immune mechanisms associated with clearance of microfilariae (Mf) from the bloodstream in canine Dirofilaria immitis infection. Granulocytes as well as mononuclear cells adhere to Mf of Dirofilaria immitis in the presence of immune serum. Only granulocytes, however, were capable of killing Mf, whereas PBMC attach to but do not effectively kill Mf. In the presence of granulocytes 1% +/- 1, 10% +/- 2, and 12% +/- 3 of Mf were killed by heated normal (NDS), patent (PS), and occult serum (OS), respectively, after an 18-hr incubation. With the addition of fresh NDS there was an increase in killing to 5% +/- 1 (p less than 0.025) with heat-inactivated NDS, to 12% +/- 3 in the presence of PS and to 77% +/- 12 (p less than 0.005) in the presence of OS. On further purification of granulocyte cell populations with metrizamide gradients, neutrophils were found to be the predominant effector cells with 73% +/- 18 killing with neutrophils and 18% +/- 6 with eosinophils (p less than 0.0005). Only with neutrophils was a significant increase in killing of Mf observed when fresh NDS was added to delta OS. Fractionation of OS by gel filtration suggested that IgM was the opsonizing antibody in the occult serum. In addition, immunofluorescent studies showed only IgM bound to the surface on Mf on incubation in OS. The involvement of complement in the fresh serum enhancement of killing was supported by the finding, by immunofluorescence, of surface C3 on Mf after incubation in fresh OS.
已开发出一种体外系统,以阐明犬恶丝虫感染时与从血流中清除微丝蚴(Mf)相关的潜在免疫机制。在免疫血清存在的情况下,粒细胞以及单核细胞会黏附于犬恶丝虫的Mf。然而,只有粒细胞能够杀死Mf,而外周血单核细胞(PBMC)虽能黏附但不能有效杀死Mf。在粒细胞存在的情况下,经过18小时孵育后,加热的正常血清(NDS)、显性感染血清(PS)和隐性感染血清(OS)分别杀死了1%±1、10%±2和12%±3的Mf。加入新鲜NDS后,热灭活NDS的杀伤率增至5%±1(p<0.025),PS存在时增至12%±3,OS存在时增至77%±12(p<0.005)。用甲泛葡胺梯度进一步纯化粒细胞群体后发现,中性粒细胞是主要的效应细胞,中性粒细胞的杀伤率为73%±18,嗜酸性粒细胞为18%±6(p<0.0005)。仅当中性粒细胞存在时,向δOS中加入新鲜NDS后,观察到Mf的杀伤率有显著增加。通过凝胶过滤对OS进行分级分离表明,IgM是隐性感染血清中的调理抗体。此外,免疫荧光研究显示,在OS中孵育后,只有IgM结合在Mf表面。新鲜血清增强杀伤作用中补体的参与得到了如下发现的支持:通过免疫荧光法发现在新鲜OS中孵育后Mf表面有C3。
