Coats Stephen R, Su Thet Hnin, Luderman Miller Zoe, King Alisa J, Ortiz Joshua, Reddy Angel, Alaei Sarah R, Jain Sumita
Department of Periodontics, University of Washington School of Dentistry, Seattle, WA, United States.
Sciences and Mathematics Division, School of Interdisciplinary Arts and Sciences, University of Washington Tacoma, Tacoma, WA, United States.
J Immunol. 2025 May 1;214(5):1008-1021. doi: 10.1093/jimmun/vkae050.
Porphyromonas gingivalis (Pg) is a prevalent pathogen that promotes human periodontal disease (PD) and exacerbates systemic comorbidities such as atherosclerosis, rheumatoid arthritis, and Alzheimer's disease. Pg produces nonphosphorylated tetra-acylated lipid A (NPLA) in its outer membrane (OM) that evades host Toll-like receptor 4 (TLR4), inflammasome pathways, and cationic peptides, enhancing bacterial survival. Here, we show that Pg also releases outer membrane vesicles (OMVs) that engage and divert host cell TLR4, inflammasome, and LL-37 responses away from the microbe. We determined that Pg OMVs are enriched for C4' monophosphoryl lipid A (C4'-MPLA), an established agonist for TLR4-TRIF-IFNβ and inflammasome-IL-1β responses. Comparisons of Pg 381 and Pg 33277 stationary phase cultures revealed higher OMV production by Pg 381, which correlates with its higher proinflammatory pathogenicity. The cationic peptide, polymyxin B (PMB), which selectively binds lipid A C4'-phosphate, reduces OMV-stimulated HEK cell TLR4 activation and THP-1 cell IL-1β production, confirming the proinflammatory role for OMV-C4'-MPLA. Similar to PMB, the host defense peptide, LL-37, inhibits OMV-C4'-MPLA-dependent HEK cell TLR4 activation. PMB and LL-37 also blocked OMV-C4'-MPLA-driven TLR4 activation in human umbilical vein endothelial cells. Finally, wild-type Pg-containing OM-NPLA is highly resistant to LL-37 antimicrobial activity, whereas the ΔlpxF mutant bacterium, retaining OM-C4'-MPLA, is killed by the peptide. In summary, Pg escapes host TLR4 signaling, inflammasome activation, and LL-37 interaction by retaining immunoevasive OM-NPLA. Moreover, Pg dispenses proinflammatory OMV-C4'-MPLA, which engages and redirects those host defenses. We suggest that OMV-C4'-MPLA triggers elevated IFNβ and IL-1β cytokines, which typify PD comorbidities, and drive PD-related alveolar bone loss.
牙龈卟啉单胞菌(Pg)是一种常见病原体,可引发人类牙周疾病(PD),并加剧动脉粥样硬化、类风湿性关节炎和阿尔茨海默病等全身性合并症。Pg在其外膜(OM)中产生非磷酸化四酰化脂多糖(NPLA),可逃避宿主Toll样受体4(TLR4)、炎性小体途径和阳离子肽,从而提高细菌存活率。在此,我们发现Pg还释放外膜囊泡(OMV),这些囊泡可吸引并转移宿主细胞的TLR4、炎性小体和LL-37反应,使其远离微生物。我们确定Pg OMV富含C4'单磷酸化脂多糖(C4'-MPLA),这是一种已知的TLR4-TRIF-IFNβ和炎性小体-IL-1β反应激动剂。对Pg 381和Pg 33277稳定期培养物的比较显示,Pg 381产生的OMV更多,这与其更高的促炎致病性相关。阳离子肽多粘菌素B(PMB)可选择性结合脂多糖C4'-磷酸,可降低OMV刺激的HEK细胞TLR4激活和THP-1细胞IL-1β产生,证实了OMV-C4'-MPLA的促炎作用。与PMB类似,宿主防御肽LL-37可抑制OMV-C4'-MPLA依赖的HEK细胞TLR4激活。PMB和LL-37还可阻断人脐静脉内皮细胞中OMV-C4'-MPLA驱动的TLR4激活。最后,含有野生型Pg的OM-NPLA对LL-37抗菌活性具有高度抗性,而保留OM-C4'-MPLA的ΔlpxF突变细菌则会被该肽杀死。总之,Pg通过保留免疫逃避性OM-NPLA逃避宿主TLR4信号传导、炎性小体激活和LL-37相互作用。此外,Pg释放促炎性OMV-C4'-MPLA,吸引并重新引导这些宿主防御反应。我们认为OMV-C4'-MPLA会触发IFNβ和IL-1β细胞因子升高,这是PD合并症的典型特征,并导致与PD相关的牙槽骨丢失。
