Wooten R M, Morrison T B, Weis J H, Wright S D, Thieringer R, Weis J J
Department of Pathology, University of Utah School of Medicine, Salt Lake City 84132, USA.
J Immunol. 1998 Jun 1;160(11):5485-92.
Borrelia burgdorferi possesses membrane lipoproteins that exhibit stimulatory properties and, consequently, have been implicated in the pathology related to Lyme disease. As CD14 has been shown to mediate signaling by a number of lipid-modified bacterial products, the involvement of CD14 in signaling mediated by two B. burgdorferi lipoproteins, outer surface protein A (OspA) and OspC, was determined. Lipoprotein-mediated induction of nuclear factor-kappaB nuclear translocation and production of IL-8 and IL-6 in HUVEC was enhanced in the presence of serum or soluble rCD14. CD14-specific Abs that block LPS-mediated signaling also inhibited lipoprotein-dependent signaling in HUVEC and neutrophils. The formation of stable complexes between OspA and CD14 was demonstrated by native gel electrophoresis. LPS was found to compete with OspA for binding with CD14, suggesting that LPS and OspA bind similar regions on CD14. The similarity in binding was further supported by the finding that a mutant soluble CD14, lacking the LPS binding site, did not facilitate lipoprotein signaling, nor did it form a complex with OspA. Binding of OspA to CD14 was dependent on the lipid modification, as unlipidated OspA did not form a complex with CD14 or stimulate cells. In contrast, the lipopeptide remaining after proteinase K digestion both formed a complex with CD14 and retained stimulatory properties. These findings indicate that CD14 facilitates bacterial lipoprotein signaling in mammalian cells.
伯氏疏螺旋体拥有具有刺激特性的膜脂蛋白,因此与莱姆病相关的病理学有关。由于已证明CD14可介导多种脂质修饰的细菌产物的信号传导,因此确定了CD14在由两种伯氏疏螺旋体脂蛋白,即外表面蛋白A(OspA)和OspC介导的信号传导中的作用。在血清或可溶性rCD14存在下,脂蛋白介导的人脐静脉内皮细胞(HUVEC)中核因子-κB核转位以及IL-8和IL-6的产生增强。阻断LPS介导信号传导的CD14特异性抗体也抑制了HUVEC和中性粒细胞中脂蛋白依赖性信号传导。天然凝胶电泳证明了OspA和CD14之间形成稳定复合物。发现LPS与OspA竞争与CD14的结合,表明LPS和OspA结合CD14上的相似区域。缺乏LPS结合位点的突变型可溶性CD14既不促进脂蛋白信号传导,也不与OspA形成复合物,这一发现进一步支持了结合的相似性。OspA与CD14的结合取决于脂质修饰,因为未脂质化的OspA不与CD14形成复合物或刺激细胞。相反,蛋白酶K消化后残留的脂肽既与CD14形成复合物,又保留了刺激特性。这些发现表明CD14促进哺乳动物细胞中的细菌脂蛋白信号传导。
