Borrelia burgdorferi Secretes c-di-AMP as an Extracellular Pathogen-Associated Molecular Pattern to Elicit Type I Interferon Responses in Mammalian Hosts

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2024-08-20
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American English
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bioRxiv
Abstract

Borrelia burgdorferi (B. burgdorferi), an extracellular spirochetal pathogen, elicits a type-I interferon (IFN-I) response that contributes to the pathology of Lyme disease, including the development and severity of Lyme arthritis. However, the specific Pathogen-Associated Molecular Patterns (PAMPs) of B. burgdorferi responsible for triggering the IFN-I response are not well understood. Previous studies have identified an unknown, nuclease-resistant component in B. burgdorferi culture supernatants that significantly stimulates the IFN-I response, but its identity remains unknown. In this study, we reveal that B. burgdorferi secretes cyclic-di-adenosine monophosphate (c-di-AMP) as a key extracellular PAMP, inducing the host IFN-I response in macrophages. Using genetically manipulated B. burgdorferi strains, we demonstrate a requirement of c-di-AMP for stimulating IFN-I response by macrophages ex vivo. Additionally, infecting mice with B. burgdorferi alongside exogenous c-di-AMP resulted in a markedly increased IFN-I response in mouse tissues. Furthermore, inactivation or inhibition of the host STING signaling pathway significantly reduced the IFN-I response, indicating that c-di-AMP-induced IFN-I production is STING-dependent. Our findings identify c-di-AMP as a crucial PAMP secreted by B. burgdorferi to elicit the host IFN-I response via activation of STING signaling pathway, suggesting that targeting c-di-AMP production could represent a novel therapeutic strategy against Lyme arthritis.

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Priya R, Ye M, Raghunanadanan S, et al. Borrelia burgdorferi Secretes c-di-AMP as an Extracellular Pathogen-Associated Molecular Pattern to Elicit Type I Interferon Responses in Mammalian Hosts. Preprint. bioRxiv. 2024;2024.08.13.607721. Published 2024 Aug 20. doi:10.1101/2024.08.13.607721
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