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秀丽隐杆线虫乳清酸性蛋白诱导针对鞭虫的 2 型保护性免疫。

Trichuris muris whey acidic protein induces type 2 protective immunity against whipworm.

机构信息

Texas Children's Hospital Center for Vaccine Development, Department of Pediatric Tropical Medicine, National School of Tropical Medicine, Baylor College of Medicine, Houston, TX, United States of America.

MD Anderson Cancer Center UTHealth Graduate School of Biomedical Sciences, Houston, Texas, United States of America.

出版信息

PLoS Pathog. 2018 Aug 28;14(8):e1007273. doi: 10.1371/journal.ppat.1007273. eCollection 2018 Aug.

DOI:10.1371/journal.ppat.1007273
PMID:30153307
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6130879/
Abstract

Human whipworm (Trichuris trichiura) infects approximately 1 in 15 people worldwide, representing the leading infectious cause of colitis and subsequent, inflammatory bowel disease (IBD). Current control measures focused on mass deworming have had limited success due to low drug efficacies. Vaccination would be an ideal, cost-effective strategy to induce protective immunity, leading to control of infection and transmission. Here we report the identification of whey acidic protein, a whipworm secretory protein, as a strong immunogen for inducing protective efficacy in a surrogate mouse T. muris infection model. The recombinant WAP protein (rTm-WAP49), as well as a single, highly conserved repeat within WAP (fragment 8) expressed as an Na-GST-1 fusion protein (rTm-WAP-F8+Na-GST-1), generate a strong T helper type 2 (Th2) immune response when delivered as subcutaneous vaccines formulated with Montanide ISA 720. Oral challenge with T. muris infective eggs following vaccination led to a significant reduction in worm burden of 48% by rTm-WAP49 and 33% by rTm-WAP-F8+Na-GST-1. The cellular immune correlates of protection included significant antigen-specific production of Th2 cytokines IL-4, IL-9, and IL-13 by cells isolated from the vaccine-draining inguinal lymph nodes, parasite-draining mesenteric lymph nodes, and spleen in mice vaccinated with either rTm-WAP49 or rTm-WAP-F8+Na-GST-1. The humoral immune correlates included a high antigen-specific ratio of IgG1 to IgG2a, without eliciting an IgE-mediated allergic response. Immunofluorescent staining of adult T. muris with WAP antisera identified the worm's pathogenic stichosome organ as the site of secretion of native Tm-WAP protein into the colonic mucosa. Given the high sequence conservation for the WAP proteins from T. muris and T. trichiura, the results presented here support the WAP protein to be further evaluated as a potential human whipworm vaccine candidate.

摘要

人鞭虫(Trichuris trichiura)感染全世界约 15 分之一的人口,是导致结肠炎和随后炎症性肠病(IBD)的主要传染性原因。由于药物疗效低,目前集中在大规模驱虫的控制措施收效有限。疫苗接种将是一种理想的、具有成本效益的策略,可以诱导保护性免疫,从而控制感染和传播。在这里,我们报告了乳清酸性蛋白(一种鞭虫分泌蛋白)作为诱导替代小鼠 T. muris 感染模型保护性疗效的强免疫原的鉴定。重组 WAP 蛋白(rTm-WAP49)以及 WAP 中的一个高度保守重复片段(表达为 Na-GST-1 融合蛋白的片段 8)(rTm-WAP-F8+Na-GST-1),当作为含有 Montanide ISA 720 的皮下疫苗给药时,会引发强烈的辅助性 T 细胞 2 型(Th2)免疫反应。接种后用 T. muris 感染性卵进行口服攻毒,rTm-WAP49 可使蠕虫负荷减少 48%,rTm-WAP-F8+Na-GST-1 可减少 33%。保护的细胞免疫相关性包括从用 rTm-WAP49 或 rTm-WAP-F8+Na-GST-1 接种的疫苗引流腹股沟淋巴结、寄生虫引流肠系膜淋巴结和脾脏中分离的细胞中,抗原特异性产生 Th2 细胞因子 IL-4、IL-9 和 IL-13 的显著增加。体液免疫相关性包括 IgG1 与 IgG2a 的高抗原特异性比值,而不会引起 IgE 介导的过敏反应。用 WAP 抗血清对成年 T. muris 进行免疫荧光染色,鉴定出蠕虫的致病性 stichosome 器官是天然 Tm-WAP 蛋白分泌到结肠黏膜的部位。鉴于 T. muris 和 T. trichiura 的 WAP 蛋白具有很高的序列保守性,因此这里的结果支持将 WAP 蛋白进一步评估为潜在的人类鞭虫疫苗候选物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/29cc/6130879/56b9564d8425/ppat.1007273.g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/29cc/6130879/8e3b9c7b2471/ppat.1007273.g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/29cc/6130879/80462a0a3213/ppat.1007273.g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/29cc/6130879/659c817fcc86/ppat.1007273.g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/29cc/6130879/635875f0d424/ppat.1007273.g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/29cc/6130879/1db369f74881/ppat.1007273.g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/29cc/6130879/ac54e8554129/ppat.1007273.g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/29cc/6130879/56b9564d8425/ppat.1007273.g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/29cc/6130879/8e3b9c7b2471/ppat.1007273.g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/29cc/6130879/80462a0a3213/ppat.1007273.g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/29cc/6130879/659c817fcc86/ppat.1007273.g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/29cc/6130879/635875f0d424/ppat.1007273.g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/29cc/6130879/1db369f74881/ppat.1007273.g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/29cc/6130879/ac54e8554129/ppat.1007273.g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/29cc/6130879/56b9564d8425/ppat.1007273.g007.jpg

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