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竞争性抑制寡核苷酸可防止 CpG 与 TLR9 羧基末端结合。

Competition by inhibitory oligonucleotides prevents binding of CpG to C-terminal TLR9.

机构信息

Whitehead Institute for Biomedical Research, Massachusetts Institute of Technology, Nine Cambridge Center, Cambridge, MA, USA.

出版信息

Eur J Immunol. 2011 Oct;41(10):2820-7. doi: 10.1002/eji.201141563. Epub 2011 Sep 6.

DOI:10.1002/eji.201141563
PMID:21766476
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3746339/
Abstract

TLR9 recognizes unmethylated CpG-containing DNA commonly found in bacteria. Synthetic oligonucleotides containing CpG-motifs (CpG ODNs) recapitulate the activation of TLR9 by microbial DNA, whereas inversion of the CG dinucleotide within the CpG motif to GC (GpC ODNs) renders such ODNs inactive. This difference cannot be attributed to binding of ODNs to the full-length TLR9 ectodomain, as both CpG and GpC ODNs bind comparably. Activation of murine TLR9 requires cleavage into an active C-terminal fragment, which binds CpG robustly. We therefore compared the ability of CpG and GpC ODNs to bind to full-length and C-terminal TLR9, and their impact on the cleavage of TLR9. We found that CpG binds better to C-terminal TLR9 when compared with GpC, despite comparably low binding of both ODNs to full-length TLR9. Neither CpG nor GpC ODNs affected TLR9 cleavage in murine RAW 264.7 cells stably expressing TLR9-Myc. Inhibitory ODNs (IN-ODNs) block TLR9 signaling, but how they do so remains unclear. We show here that inhibitory ODNs do not impede TLR9 cleavage but bind to C-terminal TLR9 preferentially, and thereby compete for CpG ODN binding both in RAW cells and in TLR9-deficient cells transduced with TLR9-Myc. Ligand binding to C-terminal fragment thus determines the outcome of activation through TLR9.

摘要

TLR9 识别通常在细菌中发现的未甲基化 CpG 含量的 DNA。含有 CpG 基序的合成寡核苷酸(CpG ODN)再现了微生物 DNA 对 TLR9 的激活,而 CpG 基序中的 CG 二核苷酸倒转为 GC(GpC ODN)会使此类 ODN 失活。这种差异不能归因于 ODN 与全长 TLR9 胞外结构域的结合,因为 CpG 和 GpC ODN 的结合相当。激活小鼠 TLR9 需要切割成活性 C 末端片段,该片段与 CpG 结合牢固。因此,我们比较了 CpG 和 GpC ODN 与全长和 C 末端 TLR9 的结合能力,以及它们对 TLR9 切割的影响。我们发现,与 GpC 相比,CpG 与 C 末端 TLR9 的结合更好,尽管两种 ODN 与全长 TLR9 的结合都相当低。CpG 和 GpC ODN 都不影响稳定表达 TLR9-Myc 的小鼠 RAW 264.7 细胞中的 TLR9 切割。抑制性 ODN(IN-ODN)阻断 TLR9 信号,但具体机制尚不清楚。我们在这里表明,抑制性 ODN 不会阻碍 TLR9 切割,而是优先与 C 末端 TLR9 结合,从而在 RAW 细胞和转导 TLR9-Myc 的 TLR9 缺陷细胞中竞争 CpG ODN 结合。配体与 C 末端片段的结合因此决定了通过 TLR9 激活的结果。

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