Impact of Tritrichomonas spp. on the immune system of Muc2–/– mice after antibiotic therapy

E. Goncharova, Victoria D. Bets, Yulia Makusheva, E. A. Litvinova
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Abstract

While pathogenic protists inhabiting the reproductive tract are well studied, the gastrointestinal (GI) tract contains a constitutive protist microbiota that is an integral part of the vertebrate microbiome. Currently, the effect of protozoan infections on the host immune system and their potential contribution to disruption of mucosal immune homeostasis are not well understood. Protists, along with bacteria and viruses, are permanent representatives of the human microbiota. The main attention of researchers is focused on studying their pathogenic role in gastrointestinal diseases. However, their role in symbiotic relationships with hosts is relatively little studied. It was previously shown that the closest human ortholog of mouse Trichomonas (Tritrichomonas spp.) is Trichomonas Dientamoeba fragilis, which can cause symptoms of inflammatory bowel disease. It is currently unclear whether Dientamoeba fragilis and other protist species such as Enteromonas spp., Entamoeba dispar are commensals, pathobionts, or pathogens of the human intestinal tract. Thus, information about the mutualistic relationships between protists, the gastrointestinal microbiota, and the immune system of mice can be used to understand host-protozoan relationships in humans. The data obtained allow us to evaluate the potential contribution of commensal protozoa in the formation of protective mechanisms of the mucous membrane of animals and humans. We have previously shown that antibiotic therapy leads to an increase in the number of Tritrichomonas spp. along with a reduction in bacteria in the gut of mice with a mutation in the Muc2 gene. A mutation in this gene leads to impaired formation of the intestinal mucosa in mice. Mice with a mutation in the Muc2 gene can be used as model to study human inflammatory bowel diseases (IBDs). In this work, we conducted a comparative study of the immunological status of Muc2–/– mice harboring Tritrichomonas spp. after antibiotic therapy for 2 weeks followed by gavage of Lactobacillus johnsonii into mice and mice without introduction of probiotic microorganisms (self-recovery). Analysis of the main populations of lymphocytes in the blood, spleen and lymph nodes showed that the introduction of Lactobacillus johnsonii after antibiotic therapy leads to a significant increase in the population of T-lymphocytes in the blood and spleen, and an increase in the number of helper T cells in the lymph nodes of Muc2–/– mice compared to mice without the addition of probiotic microorganisms.
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抗生素治疗后三联单胞菌对 Muc2-/- 小鼠免疫系统的影响
对栖息在生殖道中的致病原生动物进行了深入研究,而胃肠道(GI)中的原生动物微生物群则是脊椎动物微生物群不可或缺的一部分。目前,人们对原生动物感染对宿主免疫系统的影响及其对破坏粘膜免疫平衡的潜在作用还不甚了解。原生动物与细菌和病毒一样,是人类微生物群的永久代表。研究人员的主要注意力集中在研究它们在胃肠道疾病中的致病作用。然而,对它们在与宿主的共生关系中的作用研究相对较少。以前的研究表明,与小鼠毛滴虫(Tritrichomonas spp.)最接近的人类直向同源物是脆弱片阿米巴毛滴虫(Trichomonas Dientamoeba fragilis),它能引起炎症性肠病的症状。目前还不清楚脆弱片阿米巴和其他原生动物物种(如肠单胞菌属、变形恩塔米巴)是人类肠道的共生菌、致病菌还是病原体。因此,有关小鼠的原生动物、胃肠道微生物群和免疫系统之间的相互关系的信息可用于了解人类宿主与原生动物之间的关系。通过获得的数据,我们可以评估共生原生动物在动物和人类粘膜保护机制形成过程中的潜在贡献。我们之前已经证明,抗生素治疗会导致三联单胞菌数量增加,同时会减少 Muc2 基因突变小鼠肠道中的细菌数量。该基因的突变会导致小鼠肠道粘膜的形成受损。Muc2基因突变的小鼠可用作研究人类炎症性肠病(IBD)的模型。在这项工作中,我们对携带三联单胞菌的 Muc2-/-小鼠在抗生素治疗 2 周后灌胃约翰逊乳杆菌与未引入益生菌的小鼠(自我恢复)的免疫状态进行了比较研究。对小鼠血液、脾脏和淋巴结中主要淋巴细胞群的分析表明,与未添加益生菌的小鼠相比,在抗生素治疗后添加约翰逊乳杆菌会导致 Muc2-/-小鼠血液和脾脏中 T 淋巴细胞群显著增加,淋巴结中辅助性 T 细胞数量增加。
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