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二鸟苷酸环化酶 Rrp1 调控莱姆病螺旋体动物病媒传播循环中的关键步骤。

The diguanylate cyclase, Rrp1, regulates critical steps in the enzootic cycle of the Lyme disease spirochetes.

机构信息

Department of Microbiology and Immunology, Center for the Study of Biological Complexity, Medical College of Virginia at Virginia Commonwealth University, Richmond, VA 23298-0678, USA.

出版信息

Mol Microbiol. 2011 Jul;81(1):219-31. doi: 10.1111/j.1365-2958.2011.07687.x. Epub 2011 Jun 5.

DOI:10.1111/j.1365-2958.2011.07687.x
PMID:21542866
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3124615/
Abstract

Rrp1 is the sole c-di-GMP-producing protein (diguanylate cyclase) of Borrelia burgdorferi. To test the hypothesis that Rrp1 regulates critical processes involved in the transmission of spirochetes between ticks and mammals, an rrp1 deletion mutant (B31-Δrrp1) and a strain that constitutively produces elevated levels of Rrp1 (B31-OV) were constructed. The strains were assessed for progression through the enzootic cycle using an Ixodes tick/C3H-HeJ mouse model and tick immersion feeding methods. B31-Δrrp1 infected mice as efficiently as wild type but had altered motility, decreased chemotactic responses to N-acetylglucosamine (NAG) and attenuated ability to disseminate or colonize distal organs. While this strain infected mice, it was not able to survive in ticks. In contrast, B31-OV displayed normal motility patterns and chemotactic responses but was non-infectious in mice. Using immersion feeding techniques, we demonstrate that B31-OV can establish a population in ticks and survive exposure to a natural bloodmeal. The results presented here indicate Rrp1, and by extension, c-di-GMP, are not strictly required for murine infection, but are required for the successful establishment of a productive population of B. burgdorferi in ticks. These analyses provide significant new insight into the genetic regulatory mechanisms of the Lyme disease spirochetes.

摘要

Rrp1 是伯氏疏螺旋体中唯一的 c-di-GMP 产生蛋白(环二鸟苷酸二酯酶)。为了验证 Rrp1 调节螺旋体在蜱和哺乳动物之间传播过程中涉及的关键过程的假说,构建了 rrp1 缺失突变体(B31-Δrrp1)和一种持续产生高水平 Rrp1 的菌株(B31-OV)。使用伊蚊/ C3H-HeJ 小鼠模型和蜱浸液喂养方法评估了这些菌株在动物间循环中的进展情况。B31-Δrrp1 感染小鼠的效率与野生型相同,但运动能力改变,对 N-乙酰葡萄糖胺(NAG)的趋化反应降低,并且传播或定殖远端器官的能力减弱。虽然该菌株感染了小鼠,但它不能在蜱中存活。相比之下,B31-OV 表现出正常的运动模式和趋化反应,但在小鼠中不具有感染性。通过浸液喂养技术,我们证明 B31-OV 可以在蜱中建立种群并在暴露于天然血餐时存活。本研究结果表明,Rrp1(以及由此产生的 c-di-GMP)对于小鼠感染并非严格必需,但对于在蜱中成功建立具有生产力的伯氏疏螺旋体种群是必需的。这些分析为莱姆病螺旋体的遗传调控机制提供了重要的新见解。

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