前沿：选择性阻断LIGHT-淋巴毒素β受体信号通路可保护小鼠免受伯氏疟原虫ANKA株引起的实验性脑型疟疾。

Cutting edge: selective blockade of LIGHT-lymphotoxin beta receptor signaling protects mice from experimental cerebral malaria caused by Plasmodium berghei ANKA.

作者信息

Randall Louise M, Amante Fiona H, Zhou Yonghong, Stanley Amanda C, Haque Ashraful, Rivera Fabian, Pfeffer Klaus, Scheu Stefanie, Hill Geoff R, Tamada Koji, Engwerda Christian R

机构信息

Queensland Institute of Medical Research, Herston, Queensland, Australia.

出版信息

J Immunol. 2008 Dec 1;181(11):7458-62. doi: 10.4049/jimmunol.181.11.7458.

DOI:10.4049/jimmunol.181.11.7458

PMID:19017933

Abstract

Studies in experimental cerebral malaria (ECM) in mice have identified T cells and TNF family members as critical mediators of pathology. In this study we report a role for LIGHT-lymphotoxin beta Receptor (LTbetaR) signaling in the development of ECM and control of parasite growth. Specific blockade of LIGHT-LTbetaR, but not LIGHT-herpesvirus entry mediator interactions, abrogated the accumulation of parasites and the recruitment of pathogenic CD8(+) T cells and monocytes to the brain during infection without affecting early activation of CD4(+) T cells, CD8(+) T cells, or NK cells. Importantly, blockade of LIGHT-LTbetaR signaling caused the expansion of splenic monocytes and an overall enhanced capacity to remove and process Ag during infection, as well as reduced systemic cytokine levels when control mice displayed severe ECM symptoms. In summary, we have discovered a novel pathogenic role for LIGHT and LTbetaR in ECM, identifying this TNF family receptor-ligand interaction as an important immune regulator during experimental malaria.

摘要

对小鼠实验性脑型疟疾（ECM）的研究已确定T细胞和TNF家族成员是病理过程的关键介质。在本研究中，我们报告了LIGHT-淋巴毒素β受体（LTβR）信号在ECM发展和寄生虫生长控制中的作用。特异性阻断LIGHT-LTβR相互作用，而非LIGHT-疱疹病毒进入介质相互作用，可消除感染期间寄生虫的积累以及致病性CD8(+) T细胞和单核细胞向脑内的募集，且不影响CD4(+) T细胞、CD8(+) T细胞或NK细胞的早期活化。重要的是，阻断LIGHT-LTβR信号会导致脾脏单核细胞扩增，在感染期间整体增强清除和处理抗原的能力，并且当对照小鼠出现严重ECM症状时，可降低全身细胞因子水平。总之，我们发现了LIGHT和LTβR在ECM中的一种新的致病作用，确定这种TNF家族受体-配体相互作用是实验性疟疾期间重要的免疫调节因子。

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前沿：选择性阻断LIGHT-淋巴毒素β受体信号通路可保护小鼠免受伯氏疟原虫ANKA株引起的实验性脑型疟疾。

Cutting edge: selective blockade of LIGHT-lymphotoxin beta receptor signaling protects mice from experimental cerebral malaria caused by Plasmodium berghei ANKA.

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