血管胺氧化酶是体内白细胞渗入炎症关节所必需的。

Vascular amine oxidases are needed for leukocyte extravasation into inflamed joints in vivo.

作者信息

Marttila-Ichihara Fumiko, Smith David J, Stolen Craig, Yegutkin Gennady G, Elima Kati, Mercier Nathalie, Kiviranta Riku, Pihlavisto Marjo, Alaranta Sakari, Pentikäinen Ulla, Pentikäinen Olli, Fülöp Ferenc, Jalkanen Sirpa, Salmi Marko

机构信息

University of Turku, and National Public Health Institute, Turku, Finland.

出版信息

Arthritis Rheum. 2006 Sep;54(9):2852-62. doi: 10.1002/art.22061.

DOI:10.1002/art.22061

PMID:16947396

Abstract

OBJECTIVE

Leukocyte traffic from the blood to the joints is crucial in the pathogenesis of arthritis. A bifunctional endothelial cell-surface glycoprotein, AOC3 (amine oxidase, copper-containing 3; also known as vascular adhesion protein 1), has both adhesive and enzymatic properties. We undertook this study to determine the contribution of AOC3 and its oxidase activity to leukocyte trafficking into inflamed joints in vivo.

METHODS

We used gene-modified animals, molecular modeling, an AOC3 enzyme inhibitor, oxidase assays, and arthritis models (adjuvant-induced arthritis [AIA] in rats and anti-type II collagen antibody-induced arthritis in mice) to dissect the importance of AOC3 in vivo.

RESULTS

The AOC3 inhibitor fitted well with a covalent binding mode into the active site of the AOC3 crystal structure. It selectively blocked the oxidase activity of AOC3 in enzyme assays. Intraperitoneal and oral administration of the AOC3 inhibitor significantly ameliorated rat AIA. In anti-type II collagen antibody-induced arthritis in mice, the AOC3 inhibitor also improved the outcome of the joint inflammation. The acute semicarbazide-sensitive amine oxidase blockade by the inhibitor had even more pronounced effects than genetic deletion of AOC3. Enzymatic analyses showed that the inhibitor also blocked 2 other structurally very closely related AOCs, but not any of more than 100 other enzymes tested.

CONCLUSION

These are the first data to demonstrate that the enzymatic activity of the atypical endothelial adhesion molecule AOC3, and possibly that of other closely related ecto-oxidases, is crucial for leukocyte exit from the vessels in inflamed joints in vivo.

摘要

目的

白细胞从血液向关节的迁移在关节炎发病机制中至关重要。一种双功能内皮细胞表面糖蛋白，即AOC3（含铜胺氧化酶3；也称为血管黏附蛋白1），兼具黏附性和酶活性。我们开展本研究以确定AOC3及其氧化酶活性在体内白细胞向炎症关节迁移中的作用。

方法

我们使用基因修饰动物、分子建模、一种AOC3酶抑制剂、氧化酶测定法以及关节炎模型（大鼠佐剂性关节炎[AIA]和小鼠抗II型胶原抗体诱导的关节炎）来剖析AOC3在体内的重要性。

结果

AOC3抑制剂以共价结合模式很好地契合到AOC3晶体结构的活性位点。在酶测定中，它选择性地阻断了AOC3的氧化酶活性。腹腔内和口服给予AOC3抑制剂可显著改善大鼠AIA。在小鼠抗II型胶原抗体诱导的关节炎中，AOC3抑制剂也改善了关节炎症的结果。该抑制剂对氨基脲敏感胺氧化酶的急性阻断作用比AOC3基因缺失更显著。酶分析表明，该抑制剂还阻断了另外2种结构上密切相关的AOC，但未阻断所测试的100多种其他酶中的任何一种。

结论

这些是首批数据，表明非典型内皮黏附分子AOC3的酶活性，以及可能其他密切相关的胞外氧化酶的酶活性，对体内炎症关节中白细胞从血管中渗出至关重要。

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血管胺氧化酶是体内白细胞渗入炎症关节所必需的。

Vascular amine oxidases are needed for leukocyte extravasation into inflamed joints in vivo.

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