Mouse Models for the Study of Borrelia burgdorferi Infection

Current protocols Pub Date : 2024-08-28 DOI:10.1002/cpz1.1127

Kimberly J. Olsen, Shilpa Sachan, Nicole Baumgarth

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Abstract

Lyme disease, a tickborne illness caused by Borrelia burgdorferi, is an emerging, significant public health concern. B. burgdorferi infections are challenging to study because of their complex life cycle that requires adaptation to both ticks and mammalian hosts for long-term survival and transmission. Bacterial adaptation is accomplished through extensive gene expression alterations in response to environmental cues that remain to be more fully explored. Mouse models of infection serve as valuable tools for studying B. burgdorferi adaptation to the mammalian host and the spirochete's ability to cause persistent infections and thus to interact with and evade the immune system. This article details three mouse models that differ in their primary methods of infection: infestation with B. burgdorferi infected ticks, intradermal inoculation of culture-grown spirochetes, and infection via subcutaneous transplantation of infected tissue. Each method offers unique advantages and limitations. Tick infestation is the route of natural transmission but presents logistical challenges. Syringe inoculation is easy and provides precise control over the infectious dose, but infection is with culture-adapted bacteria. Transplantation of infected tissue introduces mammalian-host-adapted B. burgdorferi in precise anatomical locations, but misses the transfer of tick factors affecting immunity. Detailed protocols are provided for each of the three infection routes, and pros and cons of each method are outlined to help researchers identify the best approach for a research question to be addressed. A protocol is also provided for the treatment of mice with antibiotics that reliably eliminates detectable spirochetes from the animals. © 2024 Wiley Periodicals LLC.

Basic Protocol 1: Syringe inoculation of mice with cultured B. burgdorferi and collection of necropsy tissues

Basic Protocol 2: Infection of mice with B. burgdorferi via tick infestation

Basic Protocol 3: Infection of mice with host-adapted B. burgdorferi via tissue transplant

Support Protocol: Clearance of B. burgdorferi by antibiotic treatment

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研究包柔氏菌感染的小鼠模型。

莱姆病是由鲍氏包虫病引起的蜱媒疾病，是一种新出现的重大公共卫生问题。博氏杆菌感染的研究具有挑战性，因为其复杂的生命周期需要适应蜱虫和哺乳动物宿主才能长期生存和传播。细菌的适应是通过广泛的基因表达改变来实现的，以应对环境线索，这一点还有待更充分的探索。小鼠感染模型是研究布氏杆菌对哺乳动物宿主的适应性以及螺旋体引起持续感染从而与免疫系统相互作用并逃避免疫系统的能力的宝贵工具。本文详细介绍了三种小鼠模型，它们的主要感染方法各不相同：感染 B. burgdorferi 的蜱虫侵袭、培养生长的螺旋体皮内接种以及通过感染组织的皮下移植感染。每种方法都有其独特的优势和局限性。蜱虫侵袭是自然传播的途径，但也带来了后勤方面的挑战。注射器接种简单易行，可精确控制感染剂量，但感染的是培养适配的细菌。移植受感染的组织可在精确的解剖位置引入哺乳动物-宿主适配的 B. burgdorferi，但无法转移影响免疫力的蜱因子。本文提供了三种感染途径的详细方案，并概述了每种方法的利弊，以帮助研究人员确定解决研究问题的最佳方法。此外还提供了用抗生素治疗小鼠的方案，该方案能可靠地消除动物体内可检测到的螺旋体。© 2024 Wiley Periodicals LLC.基本方案 1：用注射器给小鼠接种培养的布氏杆菌并收集尸检组织基本方案 2：通过蜱虫侵袭使小鼠感染布氏杆菌基本方案 3：通过组织移植使小鼠感染宿主适应的布氏杆菌支持方案：通过抗生素治疗清除布氏菌。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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