Membrane Fusion

The fusion of biological membranes results in two bilayer-based membranes merging into a single membrane. In this process the lipids have to undergo considerable rearrangement. The nature of the intermediates that are formed during this rearrangement has been investigated. Certain fusion proteins facilitate this process. In many cases short segments of these fusion proteins have a particularly important role in accelerating the fusion process. Studies of the interaction of model peptides with membranes have allowed for increased understanding at the molecular level of the mechanism of the promotion of membrane fusion by fusion proteins. There is an increased appreciation of the roles of several independent segments of fusion proteins in promoting the fusion process.Many of the studies of the fusion of biological membranes have been done with the fusion of enveloped viruses with other membranes. One reason for this is that the number of proteins involved in viral fusion is relatively simple, often requiring only a single protein. For many enveloped viruses, the structure of their fusion proteins has certain common elements, suggesting that they all promote fusion by an analogous mechanism. Some aspects of this mechanism also appears to be common to intracellular fusion, although several proteins are involved in that process which is more complex and regulated than is fusion.     

A cell-free analysis of the endocytic pathway

The molecular control of the endocytic pathway is poorly understood. To obtain this information requires the use of cell-free systems which faithfully recreate the various endocytic events as they occur in the intact cell. Here I describe our approach to elucidating the mechanism which controls the fusion between different vesicles on the pathway.     

Dual‐specificity tyrosine phosphorylation‐regulated kinase 2 regulates osteoclast fusion in a cell heterotypic manner

Monocyte fusion into osteoclasts, bone resorbing cells, plays a key role in bone remodeling and homeostasis; therefore, aberrant cell fusion may be involved in a variety of debilitating bone diseases. Research in the last decade has led to the discovery of genes that regulate osteoclast fusion, but the basic molecular and cellular regulatory mechanisms underlying the fusion process are not completely understood. Here, we reveal a role for Dyrk2 in osteoclast fusion. We demonstrate that Dyrk2 down regulation promotes osteoclast fusion, whereas its overexpression inhibits fusion. Moreover, Dyrk2 also promotes the fusion of foreign‐body giant cells, indicating that Dyrk2 plays a more general role in cell fusion. In an earlier study, we showed that fusion is a cell heterotypic process initiated by fusion‐founder cells that fuse to fusion‐follower cells, the latter of which are unable to initiate fusion. Here, we show that Dyrk2 limits the expansion of multinucleated founder cells through the suppression of the fusion competency of follower cells.     

Molecular mechanisms of membrane fusion: Steps during phospholipid and exocytotic membrane fusion

Exocytosis is considered as four separate steps: adhesion, fusion/pore formation, pore widening, and content discharge. Experiments on both synthetic and natural membranes are presented to show each of these steps. Major differences are seen in the two fusing systems. These differences are discussed in terms of molecular mechanisms of fusion.     

Structures and Mechanisms of Viral Membrane Fusion Proteins: Multiple Variations on a Common Theme

Recent work has identified three distinct classes of viral membrane fusion proteins based on structural criteria. In addition, there are at least four distinct mechanisms by which viral fusion proteins can be triggered to undergo fusion-inducing conformational changes. Viral fusion proteins also contain different types of fusion peptides and vary in their reliance on accessory proteins. These differing features combine to yield a rich diversity of fusion proteins. Yet despite this staggering diversity, all characterized viral fusion proteins convert from a fusion-competent state (dimers or trimers, depending on the class) to a membrane-embedded homotrimeric prehairpin, and then to a trimer-of-hairpins that brings the fusion peptide, attached to the target membrane, and the transmembrane domain, attached to the viral membrane, into close proximity thereby facilitating the union of viral and target membranes. During these conformational conversions, the fusion proteins induce membranes to progress through stages of close apposition, hemifusion, and then the formation of small, and finally large, fusion pores. Clearly, highly divergent proteins have converged on the same overall strategy to mediate fusion, an essential step in the life cycle of every enveloped virus.     

偏肺病毒对副粘病毒细胞融合的新注释

对于副粘病毒科中的大多数病毒而言,细胞融合过程需要病毒的融合蛋白和吸附蛋白共同参与,其中吸附蛋白负责与受体结合,吸附蛋白与融合蛋白的相互作用激活融合蛋白进而激活细胞融合。而偏肺病毒介导的细胞融合则与上述副粘病毒的融合显著不同,所有已报道偏肺病毒介导的细胞融合不需要吸附蛋白的参与,其融合蛋白可单独完成与受体结合和融合。并且近年研究发现有些人偏肺病毒毒株介导的融合需要低pH条件,禽偏肺病毒A型具备极强的融合能力,而禽偏肺病毒B型则较弱。原有的副粘病毒细胞融合理论模型均不能解释上述现象,偏肺病毒介导的这种融合机制目前还不清楚,其研究在近几年日趋成为细胞融合机制研究的热点。近年发现的偏肺病毒介导的融合现象打破了人们对副粘病毒融合的固有理解,拓展了人们对副粘病毒介导的细胞融合的认识。本文旨在对偏肺病毒介导的细胞融合的最新成果和进展加以综述和讨论。     

病毒融合蛋白的结构和功能

病毒融合蛋白可以分为三种类型,不同类型的病毒融合蛋白的结构差异很大,但是会采用相似的"发卡"构象实现融合.在一定条件下,病毒融合蛋白的疏水结构域,融合环或融合肽插入靶膜中,通过其自身折叠形成发卡使病毒和宿主的膜靠近.与此同时,融合蛋白构象变化会释放出足够的能量将双方膜打破并完成融合.本文中,我们总结了三种类型病毒融合蛋白的特征,并对其中央发卡三聚体结构域、跨膜结构域以及近膜结构域在融合过程中的作用进行了论述.     

Real-time Exchange of the Lipid-bound Intermediate and Post-fusion States of the HIV-1 gp41 Ectodomain

The envelope glycoprotein gp41 of the HIV-1 virus mediates its entry into the host cell. During this process, gp41 undergoes large conformational changes and the energy released in the remodeling events is utilized to overcome the barrier associated with fusing the viral and host membranes. Although the structural intermediates of this fusion process are attractive targets for drug development, no detailed high-resolution structural information or quantitative thermodynamic characterization are available. By measuring the dynamic equilibrium between the lipid-bound intermediate and the post-fusion six-helical bundle (6HB) states of the gp41 ectodomain in the presence of bilayer membrane mimetics, we derived both the reaction kinetics and energies associated with these two states by solution NMR spectroscopy. At equilibrium, an exchange time constant of about 12 seconds at 38 °C is observed, and the post-fusion conformation is energetically more stable than the lipid-bound state by 3.4 kcal mol^?1. The temperature dependence of the kinetics indicates that the folding occurs through a high-energy transition state which may resemble a 5HB structure. The energetics and kinetics of gp41 folding in the context of membrane bilayers provide a molecular basis for an improved understanding of viral membrane fusion.     

膜融合机制研究进展

膜的融合是一个基本的生命过程,在生物的生长发育中有着重要作用。通过融合,两套独立的双层脂分子合二为一,完成一定的生物功能。膜融合分子机制的关键在于其主要成分：融合蛋白。Ⅰ、Ⅱ类病毒融合蛋白形成“发夹”,胞内囊泡与目标膜各提供的融合蛋白形成“类亮氨酸拉链”,这些结构将独立的膜拉近,继而促使膜合为一体。细胞与细胞间融合蛋白的作用机制目前还未明确,在各种膜融合中,脂双层的变化可能是类似的,但介导融合的分子机制应该是不同的。目前,对于膜融合很多方面的理解还停留在假说阶段。理解了膜融合的过程和分子机制不仅将极大地促进生物学的发展,更重要是将为相关的疾病治疗打下坚实的基础。     

A hingeless Fc fusion system for site-specific cleavage by IdeS

Fusion of proteins to the Fc region of IgG is widely used to express cellular receptors and other extracellular proteins, but cleavage of the fusion partner is sometimes required for downstream applications. Immunoglobulin G-degrading enzyme of Streptococcus pyogenes (IdeS) is a protease with exquisite specificity for human IgG, and it can also cleave Fc-fusion proteins at a single site in the N-terminal region of the CH2 domain. However, the site of IdeS cleavage results in the disulfide-linked hinge region partitioning with the released protein, complicating downstream usage of the cleaved product. To tailor the Fc fragment for release of partner proteins by IdeS treatment, we investigated the effect of deleting regions of IgG-derived sequence that are upstream of the cleavage site. Elimination of the IgG-derived hinge sequence along with several residues of the CH2 domain had negligible effects on expression and purity of the fusion protein, while retaining efficient processing by IdeS. An optimal Fc fragment comprising residues 235–447 of the human IgG1 heavy chain sufficed for efficient production of fusion proteins and minimized the amount of residual Ig-derived sequence on the cleavage product following IdeS treatment. Pairing of this truncated Fc fragment with IdeS cleavage enables highly specific cleavage of Fc-fusion proteins, thus eliminating the need to engineer extraneous cleavage sequences. This system should be helpful for producing Fc-fusion proteins requiring downstream cleavage, particularly those that are sensitive to internal miscleavage if treated with alternative proteases.     

Entry mechanisms of enveloped viruses. Implications for fusion of intracellular membranes

Enveloped viruses infect cells by a mechanism involving membrane fusion. This process is mediated and triggered by specific viral membrane glycoproteins. Evidence is accumulating that fusion of intracellular membranes, as occurs during endocytosis and transport between intracellular organelles, also requires the presence of specific proteins. The relevance of elucidating the mechanisms of virus fusion for a better understanding of fusion of intracellular membranes is discussed.     

囊膜病毒膜融合分子机制研究进展

囊膜病毒通过病毒与宿主细胞膜融合的方式感染宿主,病毒囊膜蛋白介导了膜融合过程。根据这些囊膜蛋白在病毒囊膜表面的排列、蛋白结构及其在融合肽中的位置不同,可将囊膜病毒分为三类,其利用这些囊膜特殊的蛋白分子与受体相互作用完成膜融合。在分子水平上研究这一过程有助于认识病毒侵染的本质和发现关键环节,达到预防与治疗病毒病的目的。     

Behavior of a photoactivatable analog of cholesterol, 6-photocholesterol, in model membranes

6-Photocholesterol, a new photoactivatable analog of cholesterol in which a diazirine functionality replaces the 5,6-double bond in the steroid nucleus, was used recently to identify cholesterol-binding proteins in neuroendocrine cells [Thiele, C., Hannah, M.J., Farenholz, F. and Huttner, W.B. (2000) Nat. Cell Biol. 2, 42–49], to track the distribution and transport of cholesterol in Caenorhabditis elegans [Matyash, V., Geier, C., Henske, A., Mukherjee, S., Hirsh, D., Thiele, C., Grant, B., Maxfield, F.R. and Kurzchalia, T.V. (2001) Mol. Biol. Cell 12, 1725–1736], and to probe lipid–protein interactions in oligodendrocytes [Simons, M., Kramer, E.M., Thiele, C., Stoffel, W. and Trotter, J. (2000) J. Cell Biol. 151, 143–154]. To determine whether 6-photocholesterol is a faithful mimetic of cholesterol we analyzed the ability of this probe, under conditions in which it is not photoactivated to a carbene, to substitute for cholesterol in two unrelated assays: (1) to condense 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine monomolecular films and (2) to mediate the fusion of two alphaviruses (Semliki Forest and Sindbis) with liposomes. The results suggest that this analog is a suitable photoprobe of cholesterol.     

水蛭素在噬菌体表面的展示

水蛭素是凝血酶强有力的天然抑制剂。通过改造噬菌质粒并构建水蛭素表达载体pCANTAB 5G8Hir,使水蛭素基因通过接头与噬菌体M13的gp3(197～406)基因片段融合。表达产物在gp8信号肽的引导下到达大肠杆菌周质,在辅助噬菌体M13KO7的帮助下组装到丝状噬菌体外壳上。展示在噬菌体表面的水蛭素仍然具有与凝血酶结合并抑制酶活性的作用,说明展示的水蛭素保持了正确的空间构象和生物学活性。水蛭素在噬菌体表面的功成展示为进一步开展其实验定向进化以及结构与功能关系的研究打下基础。     

Membrane Fusion Mediated by Baculovirus gp64 Involves Assembly of Stable gp64 Trimers into Multiprotein Aggregates

The baculovirus fusogenic activity depends on the low pH conformation of virally-encoded trimeric glycoprotein, gp64. We used two experimental approaches to investigate whether monomers, trimers, and/or higher order oligomers are functionally involved in gp64 fusion machine. First, dithiothreitol (DTT)- based reduction of intersubunit disulfides was found to reversibly inhibit fusion, as assayed by fluorescent probe redistribution between gp64-expressing and target cells (i.e., erythrocytes or Sf9 cells). This inhibition correlates with disappearance of gp64 trimers and appearance of dimers and monomers in SDS-PAGE. Thus, stable (i.e., with intact intersubunit disulfides) gp64 trimers, rather than independent monomers, drive fusion. Second, we established that merger of membranes is preceded by formation of large (greater than 2 MDa), short-lived gp64 complexes. These complexes were stabilized by cell–surface cross-linking and characterized by glycerol density gradient ultracentrifugation. The basic structural unit of the complexes is stable gp64 trimer. Although DTT-destabilized trimers were still capable of assuming the low pH conformation, they failed to form multimeric complexes. The fact that formation of these complexes correlated with fusion in timing, and was dependent on (a) low pH application, (b) stable gp64 trimers, and (c) cell–cell contacts, suggests that such multimeric complexes represent a fusion machine.     

Data Fusion Methods for Human Health Risk Assessment: Review and Application

The improved accessibility to data that can be used in human health risk assessment (HHRA) necessitates advanced methods to optimally incorporate them in HHRA analyses. This article investigates the application of data fusion methods to handling multiple sources of data in HHRA and its components. This application can be performed at two levels, first, as an integrative framework that incorporates various pieces of information with knowledge bases to build an improved knowledge about an entity and its behavior, and second, in a more specific manner, to combine multiple values for a state of a certain feature or variable (e.g., toxicity) into a single estimation. This work first reviews data fusion formalisms in terms of architectures and techniques that correspond to each of the two mentioned levels. Then, by handling several data fusion problems related to HHRA components, it illustrates the benefits and challenges in their application.     

副粘病毒融合蛋白活性位点中亮氨酸基因突变分析

为了确定副粘病毒融合蛋白（Ｆ）分子上活性位点中亮氨酸在Ｆ的细胞融合作用中的作用,弄清Ｆ融合细胞的分子机理,采用基因定点突变法创造一个酶切位点,用酶切反应初步筛选突变株,然后用ＤＮＡ序列分析进一步确定,并在真核细胞内进行表达,Ｇｉｅｍｓａ染色和指示基因法检测细胞融合功能,荧光强度分析（ＦＡＣＳ）检测表达效率。结果表明,ｈＰＩＶ３等４６０位亮氨酸（Ｌ）和第４７４位异亮氨酸（Ｉ）分别突变成丙氨酸（Ａ）（     

Mating-Type Dependent Cell Pairing in Oxytricha hymenostoma: Macronuclear Fusion and Lack of Meiosis

SYNOPSIS In a hologamy-like process observed in Oxytricha hymenostoma , 2 cells belonging to complementary mating types fused and appeared to contribute equally to the macronuclei of the organism resulting from the fusion. The process was characterized by the absence of micronuclear division and by fusion of the macronuclei of the 2 partners. True conjugation involving micronuclear meiosis was not observed in O. hymenostoma. The biologic significance and the possible adaptive role of the hologamy-like process are discussed.