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一种细胞外基质相关的锌金属蛋白酶是黄色黏球菌中二月桂酰磷脂酰乙醇胺趋化性刺激所必需的。

An extracellular matrix-associated zinc metalloprotease is required for dilauroyl phosphatidylethanolamine chemotactic excitation in Myxococcus xanthus.

作者信息

Kearns Daniel B, Bonner Pamela J, Smith Daniel R, Shimkets Lawrence J

机构信息

Department of Microbiology, University of Georgia, Athens, Georgia 30602, USA.

出版信息

J Bacteriol. 2002 Mar;184(6):1678-84. doi: 10.1128/JB.184.6.1678-1684.2002.

Abstract

An extracellular matrix connects bacteria that live in organized assemblages called biofilms. While the role of the matrix in the regulation of cell behavior has not been extensively examined in bacteria, we suggest that, like mammalian cells, the matrix facilitates cell-cell interactions involved with regulation of cohesion, motility, and sensory transduction. The extracellular matrix of the soil bacterium Myxococcus xanthus is essential for biofilm formation and fruiting body development. The matrix material is extruded as long, thin fibrils that mediate adhesion to surfaces, cohesion to other cells, and excitation by the chemoattractant dilauroyl phosphatidylethanolamine. We report the identification of a putative matrix-associated zinc metalloprotease called FibA (fibril protein A). Western blotting with FibA-specific monoclonal antibody 2105 suggests extensive proteolytic processing of FibA during assembly into fibrils, consistent with the autoprocessing observed with other members of the M4 metalloprotease family. Disruption of fibA had no obvious effect on the structure of the fibrils and did not inhibit cell cohesion, excitation by dioleoyl phosphatidylethanolamine, or activity of the A- or S-motility motors. However, the cells lost the ability to respond to dilauroyl phosphatidylethanolamine and to form well-spaced fruiting bodies, though substantial aggregation was observed. Chemotactic excitation of the fibA mutant was restored by incubation with purified wild-type fibrils. The results suggest that this metalloprotease is involved in sensory transduction.

摘要

细胞外基质将生活在称为生物膜的有组织聚集体中的细菌连接起来。虽然基质在细菌细胞行为调控中的作用尚未得到广泛研究,但我们认为,与哺乳动物细胞一样,基质促进了与凝聚、运动和感觉转导调控相关的细胞间相互作用。土壤细菌黄色粘球菌的细胞外基质对于生物膜形成和子实体发育至关重要。基质材料以长而细的纤维形式挤出,这些纤维介导对表面的粘附、与其他细胞的凝聚以及被化学引诱剂二月桂酰磷脂酰乙醇胺激发。我们报告了一种假定的与基质相关的锌金属蛋白酶FibA(纤维蛋白A)的鉴定。用FibA特异性单克隆抗体2105进行的蛋白质印迹表明,FibA在组装成纤维的过程中经历了广泛的蛋白水解加工,这与在M4金属蛋白酶家族其他成员中观察到的自加工一致。fibA的破坏对纤维结构没有明显影响,也不抑制细胞凝聚、被二油酰磷脂酰乙醇胺激发或A或S运动马达的活性。然而,细胞失去了对二月桂酰磷脂酰乙醇胺作出反应并形成间隔良好的子实体的能力,尽管观察到大量聚集。通过与纯化的野生型纤维一起孵育,fibA突变体的趋化性激发得以恢复。结果表明,这种金属蛋白酶参与感觉转导。

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