开发和验证盘尾丝虫病和罗阿丝虫病微丝蚴杀剂发现的小动物模型。

Development and validation of small animal models for onchocerciasis and loiasis microfilaricide discovery.

机构信息

ANDI Centre of Excellence for Onchocerciasis Drug Research, Biotechnology Unit, Faculty of Science, University of Buea, Buea, Cameroon.

Department of Pharmaceutical Chemistry, University of California, San Francisco, California, United States of America.

出版信息

PLoS Negl Trop Dis. 2023 Feb 24;17(2):e0011135. doi: 10.1371/journal.pntd.0011135. eCollection 2023 Feb.

BACKGROUND

Onchocerciasis (river blindness) caused by the filarial worm Onchocerca volvulus is a neglected tropical disease that affects the skin and eyes of humans. Mass drug administration with ivermectin (IVM) to control the disease often suffers from severe adverse events in individuals co-injected with high loads of Loa loa microfilariae (mf). Thus loiasis animal models for counter-screening of compounds effective against onchocerciasis are needed, as are the corresponding onchocerciasis screening models. The repertoire of such models is highly limiting. Therefore, this study was aimed at developing and validating mf immunocompetent small animal models to increase tools for onchocerciasis drug discovery.

METHODOLOGY/PRINCIPAL FINDINGS: O. ochengi mf from cattle skin and L. loa mf from human blood were used to infect BALB/c mice and Mongolian gerbils, and IVM was used for model validation. O. ochengi mf were given subcutaneously to both rodents while L. loa mf were administered intravenously to mice and intraperitoneally to gerbils. IVM was given orally. In an 8-day model of O. ochengi mf in BALB/c mice, treatment with IVM depleted all mf in the mice, unlike the controls. Also, in a 2.5-day model of L. loa mf in BALB/c, IVM significantly reduced mf in treated mice compared to the untreated. Furthermore, the gerbils were very susceptible to O. ochengi mf and IVM eradicated all mf in the treated animals. In the peritoneal L. loa mf gerbil model, IVM reduced mf motility in treated animals compared to the controls. In a 30-day gerbil co-injection model, IVM treatment cleared all O. ochengi mf and reduced motility of L. loa mf. Both mf survived for up to 50 days in a gerbil co-injection model.

CONCLUSIONS/SIGNIFICANCE: We have developed two immunocompetent small animal models for onchocerciasis and loiasis that can be used for microfilaricide discovery and to counter-screen onchocerciasis macrofilarides.

背景

由旋盘丝虫引起的盘尾丝虫病（河盲症）是一种被忽视的热带病，会影响人类的皮肤和眼睛。用伊维菌素（IVM）进行大规模药物治疗来控制这种疾病，常常会在同时注入大量罗阿罗阿微丝蚴（mf）的个体中遭受严重的不良反应。因此，需要针对盘尾丝虫病筛选具有抗盘尾丝虫病作用的化合物的 Loa loa 动物模型，以及相应的盘尾丝虫病筛选模型。这类模型的种类非常有限。因此，本研究旨在开发和验证 mf 免疫活性的小动物模型，以增加针对盘尾丝虫病药物发现的工具。

方法/主要发现：本研究使用来自牛皮肤的奥氏奥氏丝虫 mf 和来自人血的罗阿罗阿微丝蚴 mf 感染 BALB/c 小鼠和蒙古沙鼠，并使用伊维菌素进行模型验证。将奥氏奥氏丝虫 mf 皮下注射到两种啮齿动物中，而将罗阿罗阿微丝蚴 mf 静脉内注射到小鼠中，腹腔内注射到沙鼠中。伊维菌素经口给予。在 BALB/c 小鼠中，奥氏奥氏丝虫 mf 的 8 天模型中，与对照组相比，伊维菌素治疗耗尽了所有 mf。同样，在 BALB/c 小鼠中，罗阿罗阿微丝蚴 mf 的 2.5 天模型中，与未治疗组相比，伊维菌素显著减少了 mf。此外，沙鼠对奥氏奥氏丝虫 mf 非常敏感，伊维菌素根除了所有治疗动物中的 mf。在腹腔内罗阿罗阿微丝蚴沙鼠模型中，与对照组相比，伊维菌素降低了治疗动物中 mf 的运动能力。在沙鼠共注射 30 天模型中，伊维菌素治疗清除了所有奥氏奥氏丝虫 mf，并降低了罗阿罗阿微丝蚴 mf 的运动能力。两种 mf 在沙鼠共注射模型中均可存活长达 50 天。

结论/意义：我们已经开发了两种针对盘尾丝虫病和罗阿罗阿丝虫病的免疫活性小动物模型，可用于微丝蚴杀剂的发现，并可用于筛选针对盘尾丝虫病大丝虫的药物。