非伤寒沙门氏菌肠道血清型感染期间,中性粒细胞在肠道器官组织中的独特转录反应。

IF 3.7 2区 生物学 Q2 MICROBIOLOGY
mSphere Pub Date : 2024-11-20 DOI:10.1128/msphere.00693-24
Anna-Lisa E Lawrence, Ryan P Berger, David R Hill, Sha Huang, Veda K Yadagiri, Brooke Bons, Courtney Fields, Jason S Knight, Christiane E Wobus, Jason R Spence, Vincent B Young, Basel H Abuaita, Mary X O'Riordan
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引用次数: 0

摘要

肠道沙门氏菌的非伤寒菌株是食源性疾病的主要病因,感染这些细菌会导致炎症性肠胃炎。多形核白细胞(PMNs)又称中性粒细胞,是沙门氏菌感染者感染部位的主要免疫细胞类型,但它们如何调节感染结果尚不十分清楚。在这里,我们使用原代人类 PMNs 和人类肠道器官组织的共培养模型来探究 PMNs 在感染两种最流行的沙门氏菌血清型时的作用:肠炎沙门氏菌和鼠伤寒沙门氏菌。利用转录组学方法,我们确定了 PMN 在启动不同免疫反应中的主导作用,包括产生促炎细胞因子、趋化因子和抗菌肽。我们还确定了 PMN 诱导肠炎嗜血杆菌或秋伤寒杆菌感染的特定基因集。通过比较宿主对这些血清的反应,我们发现了宿主代谢途径的不同调控,尤其是在感染 Typhimurium 时诱导胆固醇生物合成途径,而在感染 Enteritidis 时抑制 RNA 代谢。重要提示:众所周知,肠道沙门氏菌的非类风性血清型在感染早期会诱导肠道内多形核白细胞(PMN)的大量招募,但人们对 PMN 在调节不同血清型感染结果中的具体作用却知之甚少。由于人类感染过程与小动物模型不同,确定 PMNs 在感染过程中的作用具有挑战性。在这里,我们利用人体肠道器官组织与人类原发性 PMNs 的共培养模型来研究 PMNs 在人类肠道上皮细胞感染过程中的作用。通过转录组学方法,我们确定了沙门氏菌对宿主反应的重编程依赖于 PMN,从而明确了 PMN 在放大促炎基因表达中的作用。此外,由 PMN 驱动的宿主反应在两种类似的非伤寒沙门氏菌血清之间存在差异。这些发现强调了建立更多生理感染模型的重要性,以复制人类感染条件,研究宿主对个别病原体的特异性反应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Neutrophil prime unique transcriptional responses in intestinal organoids during infection with nontyphoidal Salmonella enterica serovars.

Nontyphoidal strains of Salmonella enterica are a major cause of foodborne illnesses, and infection with these bacteria results in inflammatory gastroenteritis. Polymorphonuclear leukocytes (PMNs), also known as neutrophils, are a dominant immune cell type found at the site of infection in Salmonella-infected individuals, but how they regulate infection outcome is not well understood. Here, we used a co-culture model of primary human PMNs and human intestinal organoids to probe the role of PMNs during infection with two of the most prevalent Salmonella serovars: Salmonella enterica serovar Enteritidis and Typhimurium. Using a transcriptomics approach, we identified a dominant role for PMNs in mounting differential immune responses including production of pro-inflammatory cytokines, chemokines, and antimicrobial peptides. We also identified specific gene sets that were induced by PMNs in response to Enteritidis or Typhimurium infection. By comparing host responses to these serovars, we uncovered differential regulation of host metabolic pathways particularly induction of cholesterol biosynthetic pathways during Typhimurium infection and suppression of RNA metabolism during Enteritidis infection. Together, these findings provide insight into the role of human PMNs in modulating different host responses to pathogens that cause similar disease in humans.IMPORTANCENontyphoidal serovars of Salmonella enterica are known to induce robust recruitment of polymorphonuclear leukocytes (PMNs) in the gut during early stages of infection, but the specific role of PMNs in regulating infection outcome of different serovars is poorly understood. Due to differences in human infection progression compared to small animal models, characterizing the role of PMNs during infection has been challenging. Here, we used a co-culture model of human intestinal organoids with human primary PMNs to study the role of PMNs during infection of human intestinal epithelium. Using a transcriptomics approach, we define PMN-dependent reprogramming of the host response to Salmonella, establishing a clear role in amplifying pro-inflammatory gene expression. Additionally, the host response driven by PMNs differed between two similar nontyphoidal Salmonella serovars. These findings highlight the importance of building more physiological infection models to replicate human infection conditions to study host responses specific to individual pathogens.

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来源期刊
mSphere
mSphere Immunology and Microbiology-Microbiology
CiteScore
8.50
自引率
2.10%
发文量
192
审稿时长
11 weeks
期刊介绍: mSphere™ is a multi-disciplinary open-access journal that will focus on rapid publication of fundamental contributions to our understanding of microbiology. Its scope will reflect the immense range of fields within the microbial sciences, creating new opportunities for researchers to share findings that are transforming our understanding of human health and disease, ecosystems, neuroscience, agriculture, energy production, climate change, evolution, biogeochemical cycling, and food and drug production. Submissions will be encouraged of all high-quality work that makes fundamental contributions to our understanding of microbiology. mSphere™ will provide streamlined decisions, while carrying on ASM''s tradition for rigorous peer review.
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