流感血凝素跨膜结构域及其融合肽复合物的膜相互作用与结构

Membrane interaction and structure of the transmembrane domain of influenza hemagglutinin and its fusion peptide complex.

作者信息

Chang Ding-Kwo, Cheng Shu-Fang, Kantchev Eric Aseen B, Lin Chi-Hui, Liu Yu-Tsan

机构信息

Institute of Chemistry, Academia Sinica, Taipei, Taiwan 11529, Republic of China.

出版信息

BMC Biol. 2008 Jan 15;6:2. doi: 10.1186/1741-7007-6-2.

DOI:10.1186/1741-7007-6-2

PMID:18197965

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2267159/

Abstract

BACKGROUND

To study the organization and interaction with the fusion domain (or fusion peptide, FP) of the transmembrane domain (TMD) of influenza virus envelope glycoprotein for its role in membrane fusion which is also essential in the cellular trafficking of biomolecules and sperm-egg fusion.

RESULTS

The fluorescence and gel electrophoresis experiments revealed a tight self-assembly of TMD in the model membrane. A weak but non-random interaction between TMD and FP in the membrane was found. In the complex, the central TMD oligomer was packed by FP in an antiparallel fashion. FP insertion into the membrane was altered by binding to TMD. An infrared study exhibited an enhanced membrane perturbation by the complex formation. A model was built to illustrate the role of TMD in the late stages of influenza virus-mediated membrane fusion reaction.

CONCLUSION

The TMD oligomer anchors the fusion protein in the membrane with minimal destabilization to the membrane. Upon associating with FP, the complex exerts a synergistic effect on the membrane perturbation. This effect is likely to contribute to the complete membrane fusion during the late phase of fusion protein-induced fusion cascade. The results presented in the work characterize the nature of the interaction of TMD with the membrane and TMD in a complex with FP in the steps leading to pore initiation and dilation during virus-induced fusion. Our data and proposed fusion model highlight the key role of TMD-FP interaction and have implications on the fusion reaction mediated by other type I viral fusion proteins. Understanding the molecular mechanism of membrane fusion may assist in the design of anti-viral drugs.

摘要

背景

研究流感病毒包膜糖蛋白跨膜结构域（TMD）与融合结构域（或融合肽，FP）的组织形式及其相互作用，因其在膜融合中起作用，而膜融合在生物分子的细胞运输和精卵融合中也至关重要。

结果

荧光和凝胶电泳实验揭示了TMD在模型膜中紧密的自组装。发现膜中TMD与FP之间存在微弱但非随机的相互作用。在复合物中，中央TMD寡聚体由FP以反平行方式堆积。FP与TMD结合后，其插入膜的过程发生改变。红外研究表明复合物形成增强了膜扰动。构建了一个模型以说明TMD在流感病毒介导的膜融合反应后期的作用。

结论

TMD寡聚体将融合蛋白锚定在膜中，对膜的破坏最小。与FP结合后，复合物对膜扰动产生协同作用。这种作用可能有助于融合蛋白诱导的融合级联反应后期的完全膜融合。该研究结果描述了在病毒诱导的融合过程中导致孔起始和扩张的步骤中，TMD与膜以及TMD与FP复合物之间相互作用的性质。我们的数据和提出的融合模型突出了TMD-FP相互作用的关键作用，并对其他I型病毒融合蛋白介导的融合反应有启示意义。理解膜融合的分子机制可能有助于抗病毒药物的设计。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f165/2267159/788723e67a90/1741-7007-6-2-1.jpg

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流感血凝素跨膜结构域及其融合肽复合物的膜相互作用与结构

Membrane interaction and structure of the transmembrane domain of influenza hemagglutinin and its fusion peptide complex.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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