人类TLR9对双CpG基序的选择性及其对基因组DNA识别的意义

Selectivity of Human TLR9 for Double CpG Motifs and Implications for the Recognition of Genomic DNA.

作者信息

Pohar Jelka, Yamamoto Chikako, Fukui Ryutaro, Cajnko Miša-Mojca, Miyake Kensuke, Jerala Roman, Benčina Mojca

机构信息

Department of Synthetic Biology and Immunology, National Institute of Chemistry, SI-1000 Ljubljana, Slovenia.

Division of Innate Immunity, Department of Microbiology and Immunology, University of Tokyo, Minatoku, Tokyo 108-8639, Japan.

出版信息

J Immunol. 2017 Mar 1;198(5):2093-2104. doi: 10.4049/jimmunol.1600757. Epub 2017 Jan 23.

DOI:10.4049/jimmunol.1600757

PMID:28115525

Abstract

TLR9 acts as a first-line host defense against pathogens recognizing DNA comprising unmethylated CpG motifs present in bacteria and viruses. Species- and sequence-specific recognition differences were demonstrated for TLR9 receptors. Activation of human (h)TLR9 requires a pair of closely positioned CpG motifs within oligodeoxyribonucleotides (ODNs), whereas mouse TLR9 is effectively activated by an ODN with a single CpG motif. Molecular model-directed mutagenesis identified two regions, site A and site B, as important for receptor activation. Amino acid residues Gln and Arg within site A contribute to the sequence-specific recognition by hTLR9 in determining the bias for two appropriately spaced CpG motifs within immunostimulatory ODNs. Mutation of Gln at site B, in combination with Gln and Arg mutations of mouse counterparts, increased activation of hTLR9 by mouse-specific ODN, mammalian genomic DNA, and bacterial DNA. We propose that the double CpG motif sequence-specificity of hTLR9 results in decreased activation by ODNs with a lower frequency of CpG motifs, such as from mammalian genomic DNA, which increases hTLR9 selectivity for pathogen versus host DNA.

摘要

Toll样受体9（TLR9）作为宿主抵御病原体的一线防御机制，可识别细菌和病毒中存在的包含未甲基化CpG基序的DNA。已证明TLR9受体存在物种和序列特异性识别差异。人（h）TLR9的激活需要寡脱氧核糖核苷酸（ODN）内一对紧密相邻的CpG基序，而小鼠TLR9可被具有单个CpG基序的ODN有效激活。分子模型指导的诱变确定了两个区域，即A位点和B位点，对受体激活很重要。A位点内的氨基酸残基Gln和Arg通过确定免疫刺激ODN内两个适当间隔的CpG基序的偏好，有助于hTLR9进行序列特异性识别。B位点的Gln突变与小鼠对应物的Gln和Arg突变相结合，可增强小鼠特异性ODN、哺乳动物基因组DNA和细菌DNA对hTLR9的激活作用。我们认为，hTLR9的双CpG基序序列特异性导致其对具有较低CpG基序频率的ODN（如来自哺乳动物基因组DNA的ODN）的激活作用降低，这增加了hTLR9对病原体DNA与宿主DNA的选择性。

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人类TLR9对双CpG基序的选择性及其对基因组DNA识别的意义

Selectivity of Human TLR9 for Double CpG Motifs and Implications for the Recognition of Genomic DNA.

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