兔肠异种移植模型用于小鼠人脑囊虫感染。

Laboratory animal science Pub Date : 1999-04-01
K Wasson, K Snowden, E Didier, J Shadduck, H Gelberg
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引用次数: 0

摘要

背景和目的:在免疫功能低下的人类中,作为机会致病菌出现的几种微孢子生物之一,胃肠道是膀胱脑囊虫的常见入口。虽然大多数人类微孢子病原体可以在体外和各种实验动物中繁殖,但尚不存在专门研究这些生物体的肠道摄取和全身传播的实验动物系统。方法:将近期胎兔小肠配对段皮下植入25只胸腺裸鼠或10只重度联合免疫缺陷小鼠。手术5周后,65例异种移植物分别接种了试管内肠球菌(n = 14)、肠球菌(n = 27)、肠球菌(n = 20)或RK-13细胞(n = 2),或不接种(n = 2)。结果:光镜下检测了肠道异种移植物感染了肠球菌(n = 11)、肠球菌(n = 17)和肠球菌(n = 18);对照异种移植物未被感染。3只小鼠中有3只在宿主小鼠的大脑、呼吸道、脾脏、唾液腺和胃肠道发生肠外感染,15只小鼠中有8只在肝脏发生肠外感染。结论:肠道异种移植物为研究宿主肠细胞/寄生虫相互作用、微孢子虫致病性机制、抗孢子化疗药物和免疫效应机制提供了一个独特的、无菌的、具有生物学相关性的动物模型系统。该模型为三种脑囊虫的持续移植物感染提供了证据,并为免疫功能不全小鼠感染的肠细胞中的弓形绦虫和肠内绦虫的肠道传播提供了证据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Rabbit intestinal xenograft model for human Encephalitozoon infections in mice.

Background and purpose: The gastrointestinal tract is a common portal of entry for Encephalitozoon cuniculi, one of several microsporidial organisms emerging as opportunistic pathogens in immunocompromised humans. Although most human microsporidial pathogens can be propagated in vitro and in a variety of laboratory animals, an experimental animal system to specifically study intestinal uptake and systemic spread of these organisms does not exist.

Methods: Paired segments of near-term fetal rabbit small intestine were implanted subcutaneously into 25 athymic nude or 10 severe combined immune deficient mice. Five weeks after surgery, 65 xenografts were inoculated intraluminally with E. cuniculi (n = 14), E. intestinalis (n = 27), E. hellem (n = 20), or RK-13 cells (n = 2), or were left uninoculated (n = 2).

Results: Intestinal xenograft infection with E. cuniculi (n = 11), E. intestinalis (n = 17), and E. hellem (n = 18) was determined by light microscopy; control xenografts remained uninfected. Extraintestinal infection with E. cuniculi developed in host mouse brain, respiratory tract, spleen, salivary glands, and gastrointestinal tract (3 of 3 mice), and infection with E. intestinalis developed in the liver (8 of 15 mice).

Conclusion: Intestinal xenografts provide a unique, sterile, and biologically relevant animal model system for studying host enterocyte/parasite interactions, mechanisms of microsporidial pathogenicity, antimicrosporidial chemotherapeutic agents, and immune effector mechanisms. This model provides evidence for persistent graft infection with three Encephalitozoon spp., and for intestinal spread of E. cuniculi and E. intestinalis from infected enterocytes in immunoincompetent mice.

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