Chlamydia trachomatis is the most common bacterial cause of sexually transmitted infections (STI). C. trachomatis STI are commonly asymptomatic, implying a pathogenic strategy for the evasion of innate inflammatory immune responses, a paradox as the C. trachomatis outer membrane contains lipopolysaccharide (LPS), a known potent agonist of inflammatory innate immunity. Here, we found that C. trachomatis LPS is not capable of engaging the canonical TLR4/MD-2 or noncanonical caspase-11 inflammatory pathways. The inability of C. trachomatis LPS to trigger innate immunity inflammatory pathways is related to its unique fatty acid structure. Evolutionary modification of the LPS structure likely evolved as a pathogenic strategy to silence innate host defense mechanisms. The findings might explain the high incidence of asymptomatic chlamydial genital infection. ABSTRACT Chlamydia trachomatis is the most common bacterial cause of sexually transmitted infections. C. trachomatis sexually transmitted infections are commonly asymptomatic, implying a pathogenic strategy for the evasion of innate inflammatory immune responses, a paradox as the C. trachomatis outer membrane contains lipopolysaccharide (LPS), a known potent agonist of inflammatory innate immunity. Here, we studied the ability of chlamydial LPS to activate the proinflammatory canonical and noncanonical inflammasome pathways in mouse bone marrow-derived macrophages (BMDM). We show, in comparison to Escherichia coli LPS, that C. trachomatis LPS-treated BMDM produce significantly less IL-6, TNF, and type I interferon mRNA, indicating that downstream signaling through the canonical TLR4 myddosome and triffosome pathways was blocked. We confirmed this in C. trachomatis LPS-treated BMDM by showing the lack of NF-κB and IRF3 phosphorylation, respectively. Interestingly, C. trachomatis LPS bound CD14 and promoted its endocytosis; however; it did not promote efficient TLR4/MD-2 dimerization or endocytosis, known requirements for myddosome and triffosome signaling pathways. We further found that transfection of BMDM with C. trachomatis LPS did not cause pyroptotic cell ballooning, cytotoxicity, or IL-1β secretion, all characteristic features of noncanonical inflammasome activation. Western blotting confirmed that cytosolic C. trachomatis LPS failed to signal through caspase-11, as shown by the lack of gasdermin D, caspase-1, or IL-1β proteolytic cleavage. We propose that chlamydiae evolved a unique LPS structure as a pathogenic strategy to avoid canonical and noncanonical innate immune signaling and conclude that this strategy might explain the high incidence of asymptomatic infections.
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机译:沙眼衣原体是性传播感染(STI)的最常见细菌。沙眼衣原体STI通常无症状,这意味着逃避先天性炎性免疫反应的致病策略,这是自相矛盾的,因为沙眼衣原体的外膜含有脂多糖(LPS),后者是已知的有效的先天性炎性免疫激动剂。在这里,我们发现沙眼衣原体LPS不能参与经典的TLR4 / MD-2或非经典的caspase-11炎症途径。沙眼衣原体LPS不能触发先天免疫炎症途径与其独特的脂肪酸结构有关。 LPS结构的进化修饰可能是一种使先天宿主防御机制沉默的致病策略。这些发现可能解释了无症状的衣原体生殖器感染的高发生率。摘要沙眼衣原体是性传播感染的最常见细菌病因。沙眼衣原体性传播感染通常是无症状的,这暗示着逃避先天性炎性免疫反应的致病策略,自相矛盾的是,沙眼衣原体的外膜含有脂多糖(LPS),这是一种已知的炎性先天性免疫激动剂。在这里,我们研究了衣原体LPS激活小鼠骨髓源性巨噬细胞(BMDM)中促炎性规范和非规范性炎性体途径的能力。与大肠杆菌LPS相比,我们显示沙眼衣原体LPS处理的BMDM产生的IL-6,TNF和I型干扰素mRNA明显更少,这表明通过规范的TLR4髓核和毛囊体途径的下游信号传导被阻断。通过分别显示缺乏NF-κB和IRF3磷酸化,我们在沙眼衣原体LPS处理的BMDM中证实了这一点。有趣的是,沙眼衣原体LPS结合CD14并促进其内吞作用。然而;它并没有促进有效的TLR4 / MD-2二聚化或内吞作用,这是Myddosome和Triffosome信号通路已知的要求。我们进一步发现,用沙眼衣原体LPS转染BMDM不会引起焦磷酸细胞膨胀,细胞毒性或IL-1β分泌,这是非规范性炎症小体活化的所有特征。 Western blotting证实胞质沙眼衣原体LPS无法通过caspase-11发出信号,如缺乏加德敏D,caspase-1或IL-1β的蛋白水解裂解所示。我们建议衣原体进化一种独特的LPS结构作为一种致病策略,以避免规范和非规范的先天免疫信号传导,并得出结论,该策略可能解释了无症状感染的高发生率。
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