School of Biological, Environmental, and Earth Sciences, University of Southern Mississippi, Hattiesburg, MS, United States.
Delaware Division of Fish & Wildlife, Delaware Mosquito Control Sect., Newark, DE, United States.
Front Cell Infect Microbiol. 2022 Apr 12;12:787209. doi: 10.3389/fcimb.2022.787209. eCollection 2022.
Ticks are hematophagous arthropods that transmit various bacterial, viral, and protozoan pathogens of public health significance. The lone star tick () is an aggressive human-biting tick that transmits bacterial and viral pathogens, and its bites are suspected of eliciting the alpha-gal syndrome, a newly emerged delayed hypersensitivity following consumption of red meat in the United States. While ongoing studies have attempted to investigate the contribution of different tick-inherent factors to the induction of alpha-gal syndrome, an otherwise understudied aspect is the contribution of the tick microbiome and specifically obligate endosymbionts to the establishment of the alpha-gal syndrome in humans.
Here we utilized a high-throughput metagenomic sequencing approach to cataloging the entire microbial communities residing within different developmental stages and tissues of unfed and blood-fed ticks from laboratory-maintained ticks and three new geographical locations in the United States. The Quantitative Insights Into Microbial Ecology (QIIME2) pipeline was used to perform data analysis and taxonomic classification. Moreover, using a SparCC (Sparse Correlations for Compositional data) network construction model, we investigated potential interactions between members of the microbial communities from laboratory-maintained and field-collected ticks.
Overall, Francisellaceae was the most dominant bacteria identified in the microbiome of both laboratory-raised and field-collected across all tissues and developmental stages. Likewise, microbial diversity was seen to be significantly higher in field-collected ticks compared with laboratory-maintained ticks as seen with a higher number of both Operational Taxonomic Units and measures of species richness. Several potential positive and negative correlations were identified from our network analysis. We observed a strong positive correlation between Francisellaceae, Rickettsiaceae, and Midichloriaceae in both developmental stages and tissues from laboratory-maintained ticks, whereas ovarian tissues had a strong positive correlation of bacteria in the family Xanthobacteraceae and Rhizobiaceae. A negative interaction was observed between Coxiellaceae and Francisellaceae in Illinois, and all the bacteria detected from ticks from Delaware were negatively correlated.
This study is the first to catalog the microbiome of throughout its developmental stages and different tissue niches and report the potential replacement of Coxiellaceae by Francisellaceae across developmental stages and tissues tested except in ovarian tissues. These unique and significant findings advance our knowledge and open a new avenue of research to further understand the role of tick microbiome in tick-borne diseases and develop a holistic strategy to control alpha-gal syndrome.
蜱是吸血节肢动物,可传播各种具有公共卫生意义的细菌、病毒和原生动物病原体。孤星蜱()是一种具有攻击性的人咬蜱,可传播细菌和病毒病原体,其叮咬被怀疑会引发α-半乳糖综合征,这是一种在美国食用红肉后新出现的迟发性超敏反应。虽然正在进行的研究试图调查不同蜱固有因素对α-半乳糖综合征诱导的贡献,但一个研究不足的方面是蜱微生物组,特别是专性内共生体对人类α-半乳糖综合征的建立的贡献。
在这里,我们利用高通量宏基因组测序方法,对来自实验室饲养的蜱和美国三个新地理区域的未喂食和喂食血液的不同发育阶段和组织中的微生物群落进行了编目。使用定量微生物生态系统分析(QIIME2)管道进行数据分析和分类。此外,我们使用稀疏相关分析(SparCC)网络构建模型,研究了实验室饲养和野外采集的蜱的微生物群落成员之间的潜在相互作用。
总体而言,弗朗西斯菌科是在实验室培养和野外采集的 所有组织和发育阶段的微生物组中最占优势的细菌。同样,与实验室饲养的蜱相比,野外采集的蜱的微生物多样性明显更高,这表现在操作分类单元和物种丰富度的数量都更高。从我们的网络分析中确定了几个潜在的正相关和负相关。我们观察到,在实验室饲养的蜱的各个发育阶段和组织中,弗朗西斯菌科、立克次体科和 Midichloriaceae 之间存在强烈的正相关,而卵巢组织中的细菌 Xanthobacteraceae 和 Rhizobiaceae 之间存在强烈的正相关。在伊利诺伊州观察到科克斯氏体科和弗朗西斯菌科之间的负相互作用,而从特拉华州采集的所有蜱中的细菌都呈负相关。
这项研究首次对 整个发育阶段和不同组织小生境中的微生物组进行编目,并报告 Coxiellaceae 被 Francisellaceae 取代的潜力,除了卵巢组织外,Francisellaceae 在测试的所有发育阶段和组织中都有替代。这些独特而重要的发现增进了我们的知识,并开辟了新的研究途径,以进一步了解蜱微生物组在蜱传疾病中的作用,并制定控制α-半乳糖综合征的整体策略。
