生物
白细胞外渗
转录组
机制(生物学)
免疫系统
基因组
日本血吸虫
遗传学
吞噬作用
免疫学
炎症
细胞生物学
基因
血吸虫病
基因表达
蠕虫
认识论
哲学
作者
Hong Li,Zhen Wang,Shumei Chai,Xiong Bai,Guohui Ding,Yuanyuan Li,Yuanyuan Li,Junyi Li,Qingyu Xiao,Benpeng Miao,Weili Lin,Jie Feng,Mingyue Huang,Cheng Gao,Bin Li,Wei Hu,Jiaojiao Lin,Zhiqiang Fu,Xie Jianyun,Yixue Li
标识
DOI:10.1016/j.jgg.2020.11.009
摘要
Abstract Microtus fortis is the only mammalian host that exhibits intrinsic resistance against Schistosoma japonicum infection. However, the underlying molecular mechanisms of this resistance are not yet known. Here, we perform the first de novo genome assembly of M. fortis, comprehensive gene annotation analysis, and evolution analysis. Furthermore, we compare the recovery rate of schistosomes, pathological changes, and liver transcriptomes between M. fortis and mice at different time points after infection. We observe that the time and type of immune response in M. fortis are different from those in mice. M. fortis activates immune and inflammatory responses on the 10th day post infection, such as leukocyte extravasation, antibody activation, Fc-gamma receptor-mediated phagocytosis, and the interferon signaling cascade, which play important roles in preventing the development of schistosomes. In contrast, an intense immune response occurrs in mice at the late stages of infection and could not eliminate schistosomes. Infected mice suffer severe pathological injury and continuous decreases in cell cycle, lipid metabolism, and other functions. Our findings offer new insights into the intrinsic resistance mechanism of M. fortis against schistosome infection. The genome sequence also provides the basis for future studies of other important traits in M. fortis.
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