Single-stranded DNA oligonucleotides containing CpG motifs are non-stimulatory in vitro but offer protection in vivo against Burkholderia pseudomallei.

IF 4.6 2区 医学 Q2 IMMUNOLOGY
Frontiers in Cellular and Infection Microbiology Pub Date : 2024-10-18 eCollection Date: 2024-01-01 DOI:10.3389/fcimb.2024.1458435
Andrew Scott, Benjamin Farrar, Tom Young, Joann Prior, Chad Stratilo, Leonie Unterholzner, Riccardo D'Elia
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引用次数: 0

Abstract

Therapies that modulate and appropriately direct the immune response are promising candidates for the treatment of infectious diseases. One such candidate therapeutic is DZ13, a short, synthetic, single-stranded DNA molecule. This molecule has enzymatic activity and can modulate the immune response by binding to and degrading the mRNA encoding a key immuno-regulatory molecule. Originally developed and entering clinical trials as an anti-cancer agent, DZ13 has also been evaluated as a treatment for viral infections, and has been shown to provide protection against infection with influenza virus in a mouse model of infection. In this work, we evaluated whether the immuno-modulatory properties of DZ13 could provide protection against the potential biothreat pathogen Burkholderia pseudomallei which causes the neglected tropical disease melioidosis. Treatment of mice infected with B. pseudomallei demonstrated that DZ13 did indeed provide excellent protection after only two post-exposure treatments. However, our data indicated that the enzymatic activity contained in DZ13 was not required for protection, with control oligonucleotide treatments lacking activity against the target mRNA equally as protective against B. pseudomallei. We have designed new sequences to study the mechanism of protection further. These novel sequences offer enhanced protection against infection, but are not directly anti-microbial and do not appear to be stimulating the immune system via TLR9 or other key innate immune sensors, despite containing CpG motifs. The molecular mechanism of these novel sequences remains to be elucidated, but the data highlights that these oligonucleotide-sensing pathways are attractive and relevant targets to modulate during bacterial and viral infections.

含有 CpG 基序的单链 DNA 寡核苷酸在体外不具刺激性,但在体内却能对假丝酵母伯克霍尔德菌提供保护。
调节和适当引导免疫反应的疗法是治疗传染病的有前途的候选疗法。DZ13 就是这样一种候选疗法,它是一种合成的短单链 DNA 分子。这种分子具有酶活性,可以通过结合和降解编码关键免疫调节分子的 mRNA 来调节免疫反应。DZ13 最初是作为一种抗癌剂开发并进入临床试验阶段的,目前也已被评估为一种治疗病毒感染的药物,并已在小鼠感染模型中证明它能提供保护,防止感染流感病毒。在这项研究中,我们评估了 DZ13 的免疫调节特性是否能保护小鼠免受潜在的生物威胁病原体假马勒伯克霍尔德氏菌(Burkholderia pseudomallei)的感染。对感染假丝酵母菌的小鼠进行的处理表明,仅在暴露后进行两次处理后,DZ13 就能提供出色的保护作用。然而,我们的数据表明,DZ13 所含的酶活性并不是保护所必需的,对目标 mRNA 缺乏活性的对照寡核苷酸处理对假马雷菌同样具有保护作用。我们设计了新的序列来进一步研究保护机制。这些新型序列具有更强的抗感染保护能力,但并不直接具有抗微生物作用,而且尽管含有 CpG 基序,但似乎并没有通过 TLR9 或其他关键的先天性免疫传感器刺激免疫系统。这些新型序列的分子机制仍有待阐明,但这些数据突出表明,这些寡核苷酸传感途径是在细菌和病毒感染期间具有吸引力的相关调节靶标。
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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来源期刊
CiteScore
7.90
自引率
7.00%
发文量
1817
审稿时长
14 weeks
期刊介绍: Frontiers in Cellular and Infection Microbiology is a leading specialty journal, publishing rigorously peer-reviewed research across all pathogenic microorganisms and their interaction with their hosts. Chief Editor Yousef Abu Kwaik, University of Louisville is supported by an outstanding Editorial Board of international experts. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics, clinicians and the public worldwide. Frontiers in Cellular and Infection Microbiology includes research on bacteria, fungi, parasites, viruses, endosymbionts, prions and all microbial pathogens as well as the microbiota and its effect on health and disease in various hosts. The research approaches include molecular microbiology, cellular microbiology, gene regulation, proteomics, signal transduction, pathogenic evolution, genomics, structural biology, and virulence factors as well as model hosts. Areas of research to counteract infectious agents by the host include the host innate and adaptive immune responses as well as metabolic restrictions to various pathogenic microorganisms, vaccine design and development against various pathogenic microorganisms, and the mechanisms of antibiotic resistance and its countermeasures.
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