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通过靶向缺失和绿色荧光蛋白报告基因插入分析趋化因子受体CX(3)CR1的功能

Analysis of fractalkine receptor CX(3)CR1 function by targeted deletion and green fluorescent protein reporter gene insertion.

作者信息

Jung S, Aliberti J, Graemmel P, Sunshine M J, Kreutzberg G W, Sher A, Littman D R

机构信息

Skirball Institute of Biomolecular Medicine and Howard Hughes Medical Institute New York University Medical Center, New York, New York 10016, USA.

出版信息

Mol Cell Biol. 2000 Jun;20(11):4106-14. doi: 10.1128/MCB.20.11.4106-4114.2000.

DOI:10.1128/MCB.20.11.4106-4114.2000
PMID:10805752
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC85780/
Abstract

The seven-transmembrane receptor CX(3)CR1 is a specific receptor for the novel CX(3)C chemokine fractalkine (FKN) (neurotactin). In vitro data suggest that membrane anchoring of FKN, and the existence of a shed, soluble FKN isoform allow for both adhesive and chemoattractive properties. Expression on activated endothelium and neurons defines FKN as a potential target for therapeutic intervention in inflammatory conditions, particularly central nervous system diseases. To investigate the physiological function of CX(3)CR1-FKN interactions, we generated a mouse strain in which the CX(3)CR1 gene was replaced by a green fluorescent protein (GFP) reporter gene. In addition to the creation of a mutant CX(3)CR1 locus, this approach enabled us to assign murine CX(3)CR1 expression to monocytes, subsets of NK and dendritic cells, and the brain microglia. Analysis of CX(3)CR1-deficient mice indicates that CX(3)CR1 is the only murine FKN receptor. Yet, defying anticipated FKN functions, absence of CX(3)CR1 interferes neither with monocyte extravasation in a peritonitis model nor with DC migration and differentiation in response to microbial antigens or contact sensitizers. Furthermore, a prominent response of CX(3)CR1-deficient microglia to peripheral nerve injury indicates unimpaired neuronal-glial cross talk in the absence of CX(3)CR1.

摘要

七跨膜受体CX(3)CR1是新型CX(3)C趋化因子fractalkine(FKN,即神经趋化素)的特异性受体。体外实验数据表明,FKN的膜锚定以及可溶性FKN异构体的存在使其具有黏附性和化学趋化性。FKN在活化的内皮细胞和神经元上表达,这表明它是炎症性疾病特别是中枢神经系统疾病治疗干预的潜在靶点。为了研究CX(3)CR1-FKN相互作用的生理功能,我们构建了一种小鼠品系,其中CX(3)CR1基因被绿色荧光蛋白(GFP)报告基因取代。除了创建突变的CX(3)CR1基因座外,这种方法还使我们能够将小鼠CX(3)CR1的表达定位到单核细胞、自然杀伤细胞和树突状细胞亚群以及脑小胶质细胞。对CX(3)CR1基因敲除小鼠的分析表明,CX(3)CR1是小鼠唯一的FKN受体。然而,与预期的FKN功能相悖,CX(3)CR1的缺失既不影响腹膜炎模型中单核细胞的渗出,也不影响树突状细胞对微生物抗原或接触性致敏剂的迁移和分化。此外,CX(3)CR1基因敲除的小胶质细胞对周围神经损伤有明显反应,这表明在没有CX(3)CR1的情况下神经元与神经胶质细胞之间的相互作用未受损害。

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