Wang Huaibin, Min Guangwei, Glockshuber Rudi, Sun Tung-Tien, Kong Xiang-Peng
Department of Biochemistry, New York University School of Medicine, New York, NY 10016, USA.
J Mol Biol. 2009 Sep 18;392(2):352-61. doi: 10.1016/j.jmb.2009.06.077. Epub 2009 Jul 3.
Urinary tract infection is the second most common infectious disease and is caused predominantly by type 1-fimbriated uropathogenic Escherichia coli (UPEC). UPEC initiates infection by attaching to uroplakin (UP) Ia, its urothelial surface receptor, via the FimH adhesins capping the distal end of its fimbriae. UP Ia, together with UP Ib, UP II, and UP IIIa, forms a 16-nm receptor complex that is assembled into hexagonally packed, two-dimensional crystals (urothelial plaques) covering >90% of the urothelial apical surface. Recent studies indicate that FimH is the invasin of UPEC as its attachment to the urothelial surface can induce cellular signaling events including calcium elevation and the phosphorylation of the UP IIIa cytoplasmic tail, leading to cytoskeletal rearrangements and bacterial invasion. However, it remains unknown how the binding of FimH to the UP receptor triggers a signal that can be transmitted through the highly impermeable urothelial apical membrane. We show here by cryo-electron microscopy that FimH binding to the extracellular domain of UP Ia induces global conformational changes in the entire UP receptor complex, including a coordinated movement of the tightly bundled transmembrane helices. This movement of the transmembrane helix bundles can cause a corresponding lateral translocation of the UP cytoplasmic tails, which can be sufficient to trigger downstream signaling events. Our results suggest a novel pathogen-induced transmembrane signal transduction mechanism that plays a key role in the initial stages of UPEC invasion and receptor-mediated bacterial invasion in general.
尿路感染是第二常见的传染病,主要由1型菌毛化尿路致病性大肠杆菌(UPEC)引起。UPEC通过其菌毛末端的FimH粘附素与尿路上皮表面受体尿血小板溶素(UP)Ia结合来引发感染。UP Ia与UP Ib、UP II和UP IIIa一起形成一个16纳米的受体复合物,该复合物组装成覆盖超过90%尿路上皮顶端表面的六边形排列的二维晶体(尿路上皮斑块)。最近的研究表明,FimH是UPEC的侵袭素,因为它与尿路上皮表面的结合可诱导细胞信号事件,包括钙升高和UP IIIa细胞质尾部的磷酸化,导致细胞骨架重排和细菌侵袭。然而,FimH与UP受体的结合如何触发能够通过高度不可渗透的尿路上皮顶端膜传递的信号仍不清楚。我们在此通过冷冻电子显微镜显示,FimH与UP Ia的细胞外结构域结合会诱导整个UP受体复合物发生全局构象变化,包括紧密束状跨膜螺旋的协同运动。跨膜螺旋束的这种运动可导致UP细胞质尾部相应的横向移位,这足以触发下游信号事件。我们的结果提示了一种新的病原体诱导的跨膜信号转导机制,该机制在UPEC侵袭的初始阶段以及一般的受体介导的细菌侵袭中起关键作用。