Peptide mimic of the HIV envelope gp120-gp41 interface

The human immunodeficiency virus envelope glycoprotein (Env) is composed of surface (gp120) and transmembrane (gp41) subunits, which are noncovalently associated on the viral surface. Human immunodeficiency virus Env mediates viral entry after undergoing a complex series of conformational changes induced by interaction with cellular CD4 and a chemokine coreceptor. These changes propagate from gp120 to gp41 via the gp120-gp41 interface, ultimately exposing gp41 and allowing it to form the trimer-of-hairpins structure that provides the driving force for membrane fusion. Key unresolved questions about the gp120-gp41 interface include the specific regions of gp41 and gp120 involved, the mechanism by which receptor and coreceptor-binding-induced conformational changes in gp120 are communicated to gp41, how trimer-of-hairpins formation is prevented in the prefusogenic gp120-gp41 complex, and, ultimately, the structure of the prefusion gp120-gp41 complex. Here, we develop a biochemical model system that mimics a key portion of the gp120-gp41 interface in the prefusogenic state. We find that a gp41 fragment containing the disulfide bond loop and C-peptide region binds primarily to the gp120 C5 region and that this interaction is incompatible with trimer-of-hairpins formation. Based on these data, we propose that in prefusogenic Env, gp120 sequesters the gp41 C-peptide region away from the N-trimer region, preventing trimer-of-hairpins formation until coreceptor binding disrupts this interface. This model system is a valuable tool for studying the gp120-gp41 complex, conformational changes induced by CD4 and coreceptor binding, and the mechanism of membrane fusion.     

牛免疫缺陷病毒反式激活因子功能域的研究

牛免疫缺陷病毒 (Ｂｏｖｉｎｅｉｍｍｕｎｏｄｅｆｉｃｉｅｎｃｙｖｉｒｕｓ,ＢＩＶ )与人免疫缺陷病毒 (Ｈｕｍａｎｉｍ ｍｕｎｏｄｅｆｉｃｉｅｎｃｙｖｉｒｕｓ,ＨＩＶ)同属反转录病毒科慢病毒属[1] 。ＢＩＶ基因组 5′端的长末端重复序列 (ＬＴＲ)起始病毒结构基因和非结构基因的转录[2 ] ,因而许多细胞因子和病毒编码的调节蛋白作用于ＬＴＲ ,以调节ＢＩＶ的基因表达。其中Ｔａｔ蛋白是ＢＩＶ的反式激活因子 ,可大大提高ＬＴＲ的转录水平 ,在ＢＩＶ的基因表达及基因组复制的调节中起重要作用[3 ] 。ＨＩＶ、马传染性贫血病毒 (Ｅｑｕｉ…     

人类免疫缺陷病毒1型gp41结构与功能的研究进展

人类免疫缺陷病毒1型(HIV-1)通过其包膜糖蛋白(Env)介导侵入靶细胞.Env由受体特异性结合单位gp120和膜融合单位gp41组成.HIV-1的gp41分为3个功能区:膜外区、跨膜区和膜内区.膜外区是病毒感染时膜融合的主要结构基础;跨膜区通过疏水残基使Env锚定在脂质膜上;膜内区则表现多重功能,参与病毒的感染、复...     

嵌合人/牛免疫缺陷病毒cDNA(pHBIV-2)传染性克隆的构建及其生物学活性

为探讨牛免疫缺陷病毒(BIV)Tat能否在功能上取代HIV Tat,构建用BIV tat取代HIV tat的嵌合人/牛免疫缺陷病毒(pHBIV-2)cDNA,将其转染人源MT4细胞.PCR、RT-PCR法检测到嵌合基因组在MT4细胞中可稳定地存在并转录;套式Alu-PCR法检测到嵌合基因组可整合到细胞基因组中;RTase活性测定及IFA检测显示,嵌合基因在MT4细胞中得到了翻译.结果表明,HIV的tat基因用BIVtat取代后产生的传染性cDNA克隆,仍能在人源MT4细胞中产生有复制性的重组病毒.     

Design and characterization of viral polypeptide inhibitors targeting Newcastle disease virus fusion

Paramyxovirus infections can be detected worldwide with some emerging zoonotic viruses and currently there are no specific therapeutic treatments or vaccines available for many of these diseases. Recent studies have demonstrated that peptides derived from the two heptad repeat regions (HR1 and HR2) of paramyxovirus fusion proteins could be used as inhibitors of virus fusion. The mechanism underlying this activity is in accordance with that of class I virus fusion proteins, of which human immunodeficiency virus (HIV) and influenza virus fusion proteins are members. For class I virus fusion proteins, the HR1 fragment binds to HR2 to form a six-helix bundle with three HR1 fragments forming the central coiled bundle surrounded by three coiled HR2 fragments in the post fusion conformational state (fusion core). It is hypothesized that the introduced exogenous HR1 or HR2 can compete against their endogenous counterparts, which results in fusion inhibition. Using Newcastle disease virus (NDV) as a model, we designed several protein inhibitors, denoted HR212 as well asHR121 and 5-Helix, which could bind the HR1 or HR2 region of fusion protein, respectively. All the proteins were expressed and purified using a GST-fusion expression system in Escherichia coli. The HR212 or GST-HR212 protein, which binds the HR1 peptide in vitro, displayed inhibitory activity against NDV-mediated cell fusion, while the HR121 and 5-Helix proteins, which bind the HR2 peptide in vitro, inhibited virus fusion from the avirulent NDV strain when added before the cleavage of the fusion protein. These results showed that the designed HR212, HR121 or 5-Helix protein could serve as specific antiviral agents. These data provide additional insight into the difference between the virulent and avirulent strains of NDV.     

Six-helix bundle assembly and analysis of the central core of mumps virus fusion protein

The fusion protein of enveloped viruses mediates the fusion between the viral and cellular membranes, allowing the penetration of the viral genomes into the host cell. Many of these proteins share a common fold comprising a central core trimer of anti-parallel coiled-coil heterodimers, which are formed by two discontinuous heptad repeat (HR) motifs located at the ectodomain of the fusion proteins. In this study, we constructed and purified the corresponding regions (HR1 and HR2) of mumps virus fusion protein that are predicted to form coiled coil. The HR1 and HR2 were expressed and purified separately or as a single chain connected by an amino acid linker (HR1-linker-HR2, named 2-Helix). Series of biochemical and biophysical analyses of the expressed proteins have shown that HR1 and HR2 of mumps virus fusion protein share the common features of other enveloped virus fusion proteins. CD spectral results show that HR1 forms an alpha-helical coil structure while HR2 exists as an unstructured monomer in PBS in nature. Mixtures of HR1 and HR2 could form a stable six-helix bundle, indicating the interaction of HR1 and HR2. The 2-Helix protein also shows characteristic properties of the 6-helix bundle. Therefore, mumps virus fusion protein has a common core architecture and its HR regions could be used as a drug target for virus fusion inhibitors.     

The simian immunodeficiency virus envelope glycoprotein contains multiple signals that regulate its cell surface expression and endocytosis

The cell surface expression of the envelope glycoproteins (Envs) of primate immunodeficiency viruses is, at least in part, regulated by endocytosis signal(s) located in the Env cytoplasmic domain. Here, we show that a membrane proximal signal that directs the simian immunodeficiency virus (SIV) Env to clathrin‐coated pits, and is conserved in all SIV and human immunodeficiency virus Envs, conforms to a Yxxø motif (where x can be any amino acid and Ø represents a large hydrophobic residue). This motif is similar to that described for a number of cellular membrane proteins. By surface plasmon resonance we detected a high affinity interaction between peptides containing this membrane proximal signal and both AP1 and AP2 clathrin adaptor complexes. Mutation of the tyrosine in this membrane proximal motif in a SIV Env with a prematurely truncated cytoplasmic domain leads to a ≥25‐fold increase in Env expression on infected cells. By contrast, the same mutation in an Env with a full‐length cytoplasmic domain increases cell surface expression only 4‐fold. We show that this effect results from the presence of additional endocytosis signals in the full‐length cytoplasmic domain. Chimeras containing CD4 ecto‐ and membrane spanning domains and a full‐length SIV Env cytoplasmic domain showed rapid endocytosis even when the membrane proximal tyrosine‐based signal was disrupted. Mapping experiments indicated that at least some of the additional endocytosis information is located between residues 743 and 812 of Env from the SIV_mac239 molecular clone. Together, our findings indicate that the cytoplasmic domain of SIV Env contains multiple endocytosis and/or trafficking signals that modulate its surface expression on infected cells, and suggest an important role for this function in pathogenesis.     

腮腺炎病毒F蛋白七肽重复序列的表达、纯化及特性分析

副粘病毒F蛋白的两段七肽重复序列（HR1和HR2）在病毒侵染细胞的过程中相互作用形成热稳定的富含α螺旋的异源二聚体,此结构的形成引起病毒囊膜与细胞膜的并置而最终导致膜融合的发生。腮腺炎病毒（Mumps virus, MuV）属于副粘病毒科,腮腺炎病毒属,可能利用与其他副粘病毒相似的侵染机制。本研究对MuV 融合蛋白的HR区进行了计算机程序预测,并利用大肠杆菌GST融合表达系统对MuV F蛋白HR1和HR2两段多肽进行了表达和纯化,通过GST pull_down 实验证实HR1和HR2多肽在体外能够相互作用,凝胶过滤层析证明HR1、HR2多肽能够形成多聚体,说明MuV F蛋白的HR区的相互作用可能是其发挥融合功能的关键因素。     

Enfuvirtide resistance mutations: impact on human immunodeficiency virus envelope function, entry inhibitor sensitivity, and virus neutralization

Enfuvirtide (ENF/T-20/Fuzeon), the first human immunodeficiency virus (HIV) entry inhibitor to be licensed, targets a structural intermediate of the entry process. ENF binds the HR1 domain in gp41 after Env has bound CD4, preventing conformational changes needed for membrane fusion. Mutations in HR1 that confer ENF resistance can arise following ENF therapy. ENF resistance mutations were introduced into an R5- and X4-tropic Env to examine their impact on fusion, infection, and sensitivity to different classes of entry inhibitors and neutralizing antibodies. HR1 mutations could reduce infection and fusion efficiency and also delay fusion kinetics, likely accounting for their negative impact on viral fitness. HR1 mutations had minimal effect on virus sensitivity to other classes of entry inhibitors, including those targeting CD4 binding (BMS-806 and a CD4-specific monoclonal antibody [MAb]), coreceptor binding (CXCR4 inhibitor AMD3100 and CCR5 inhibitor TAK-779), or fusion (T-1249), indicating that ENF-resistant viruses can remain sensitive to other entry inhibitors in vivo. Some HR1 mutations conferred increased sensitivity to a subset of neutralizing MAbs that likely target fusion intermediates or with epitopes preferentially exposed following receptor interactions (17b, 48D, 2F5, 4E10, and IgGb12), as well as sera from some HIV-positive individuals. Mechanistically, enhanced neutralization correlated with reduced fusion kinetics, indicating that, in addition to steric constraints, kinetics may also limit virus neutralization by some antibodies. Therefore, escape from ENF comes at a cost to viral fitness and may confer enhanced sensitivity to humoral immunity due to prolonged exposure of epitopes that are not readily accessible in the native Env trimer. Resistance to other entry inhibitors was not observed.     

The V4 and V5 Variable Loops of HIV-1 Envelope Glycoprotein Are Tolerant to Insertion of Green Fluorescent Protein and Are Useful Targets for Labeling

The mature human immunodeficiency virus type 1 (HIV-1) envelope glycoprotein (Env) comprises the non-covalently associated gp120 and gp41 subunits generated from the gp160 precursor. Recent structural analyses have provided quaternary structural models for gp120/gp41 trimers, including the variable loops (V1–V5) of gp120. In these models, the V3 loop is located under V1/V2 at the apical center of the Env trimer, and the V4 and V5 loops project outward from the trimeric protomers. In addition, the V4 and V5 loops are predicted to have less movement upon receptor binding during membrane fusion events. We performed insertional mutagenesis using a GFP variant, GFP_OPT, placed into the variable loops of HXB2 gp120. This allowed us to evaluate the current structural models and to simultaneously generate a GFP-tagged HIV-1 Env, which was useful for image analyses. All GFP-inserted mutants showed similar levels of whole-cell expression, although certain mutants, particularly V3 mutants, showed lower levels of cell surface expression. Functional evaluation of their fusogenicities in cell-cell and virus-like particle-cell fusion assays revealed that V3 was the most sensitive to the insertion and that the V1/V2 loops were less sensitive than V3. The V4 and V5 loops were the most tolerant to insertion, and certain tag proteins other than GFP_OPT could also be inserted without functional consequences. Our results support the current structural models and provide a GFP_OPT-tagged Env construct for imaging studies.     

Crystal structures of catalytic core domain of BIV integrase: implications for the interaction between integrase and target DNA

Integrase plays a critical role in the recombination of viral DNA into the host genome. Therefore, over the past decade, it has been a hot target of drug design in the fight against type 1 human immunodeficiency virus (HIV-1). Bovine immunodeficiency virus (BIV) integrase has the same function as HIV-1 integrase. We have determined crystal structures of the BIV integrase catalytic core domain (CCD) in two different crystal forms at a resolution of 2.45? and 2.2?, respectively. In crystal form I, BIV integrase CCD forms a back-to-back dimer, in which the two active sites are on opposite sides. This has also been seen in many of the CCD structures of HIV-1 integrase that were determined previously. However, in crystal form II, BIV integrase CCD forms a novel face-to-face dimer in which the two active sites are close to each other. Strikingly, the distance separating the two active sites is approximately 20 ?, a distance that perfectly matches a 5-base pair interval. Based on these data, we propose a model for the interaction of integrase with its target DNA, which is also supported by many published biochemical data. Our results provide important clues for designing new inhibitors against HIV-1.     

A Quantitative Assay for Measuring of Bovine Immunodeficiency Virus Using a Luciferase-based Indicator Cell Line

In order to quantitate the bovine immunodeficiency virus (BIV) infection in vitro, a BIV indicator cell line (BIVL) was established by transfecting baby hamster kidney cells with reporter plasmids containing the firefly luciferase gene driven by a BIV long terminal repeat promoter. The BIV activates promoter activity of the LTR to express luciferase upon infection. BIV infection could therefore by quantified by detection of luciferase activity. Compared to standard assays used to detect BIV infection, the B...     

Overexpression and Purification of an Immunologically Reactive His–BIV Capsid Fusion Protein

The gene of the capsid protein of bovine immunodeficiency virus (BIV) was linked to a sequence encoding for six histidines and expressed as the (His)₆p26 capsid fusion protein. The fusion protein was strongly expressed as both soluble and insoluble forms after induction by isopropylthio-β- -galactoside. Purification was based on interaction of the hexa-histidine polypeptide with metal ions. Expression could represent 11% of the total protein inEscherichia coli,allowing more than 20 mg of highly purified protein to be obtained per liter of bacterial culture. The (His)₆p26 capsid fusion protein purified by immobilized metal affinity chromatography reacted specifically in Western blot with sera from cattle experimentally infected by BIV, as well as with two monoclonal antibodies directed against different epitopes of the Gag protein. The ease of expression, purification, and specificity of this fusion protein should permit a thorough study of prevalence of BIV infection in large-scale serological studies of field samples.     

Clinical resistance to enfuvirtide does not affect susceptibility of human immunodeficiency virus type 1 to other classes of entry inhibitors

The clinical use of the human immunodeficiency virus (HIV) fusion inhibitor enfuvirtide (ENF) can select for drug-resistant HIV-1 strains bearing mutations in the HR1 region of the viral envelope (Env) protein. We analyzed the properties of multiple Env proteins isolated from five patients who experienced an initial decline in viral load after ENF therapy followed by subsequent rebound due to emergence of ENF-resistant HIV-1. Prior to ENF therapy, each patient harbored genetically and phenotypically diverse Env proteins that used CCR5 and/or CXCR4 to elicit membrane fusion. Coreceptor usage patterns of the Envs isolated from two patients underwent homogenization following ENF therapy, whereas in the other three patients, recombination appeared to allow the introduction of a single HR1 sequence with ENF resistance mutations into phenotypically distinct Env proteins. Analysis of individual Env clones also revealed that prior to ENF therapy, there was sometimes marked heterogeneity in the susceptibility of individual Env proteins to coreceptor inhibitors. After virologic failure, all Envs acquired resistance to ENF but exhibited no consistent change in their sensitivity to the fusion inhibitor T-1249 or to coreceptor inhibitors. In summary, using patient-derived Env proteins, we found that ENF failure was associated with emergence of high-level resistance to ENF due largely to mutations in HR1 but that susceptibility to other entry inhibitors was unaffected, that in these late-stage patients there was greater clonal variability to coreceptor than to fusion inhibitors, and that recombination events in vivo could sometimes restore Env genotypic and phenotypic heterogeneity by introducing drug-resistant gp41 sequences into heterologous gp120 backgrounds.     

Characterization of the heptad repeat regions, HR1 and HR2, and design of a fusion core structure model of the spike protein from severe acute respiratory syndrome (SARS) coronavirus

Severe acute respiratory syndrome coronavirus (SARS-CoV) is a newly emergent virus responsible for a worldwide epidemic in 2003. The coronavirus spike proteins belong to class I fusion proteins, and are characterized by the existence of two heptad repeat (HR) regions, HR1 and HR2. The HR1 region in coronaviruses is predicted to be considerably longer than that in other type I virus fusion proteins. Therefore the exact binding sequence to HR2 from the HR1 is not clear. In this study, we defined the region of HR1 that binds to HR2 by a series of biochemical and biophysical measures. Subsequently the defined HR1 (902-952) and HR2 (1145-1184) chains, which are different from previously defined binding regions, were linked together by a flexible linker to form a single-chain construct, 2-Helix. This protein was expressed in Escherichia coli and forms a typical six-helix coiled coil bundle. Highly conserved HR regions between mouse hepatitis virus (MHV) and SARS-CoV spike proteins suggest a similar three-dimensional structure for the two fusion cores. Here, we constructed a homology model for SARS coronavirus fusion core based on our biochemical analysis and determined the MHV fusion core structure. We also propose an important target site for fusion inhibitor design and several strategies, which have been successfully used in fusion inhibitor design for human immunodeficiency virus (HIV), for the treatment of SARS infection.     

The antibodies directed against N-terminal heptad-repeat peptide of hRSV fusion protein and its analog-5-Helix inhibit virus infection in vitro

Human respiratory syncytial virus (hRSV) membrane fusion is promoted by the formation of a trimer-of-hairpins structure that brings the amino- and carboxyl-terminal regions of fusion (F) protein into close proximity. Two heptad-repeat (HR1 and HR2) regions in F protein play an important role in this process. Our previous study demonstrated that peptides derived from HR1 and HR2 regions of F protein were potent inhibitors of hRSV entry. Here we showed that HR1 peptide and its analog denoted 5-Helix which contained a central coiled-coil formed by three HR1s could induce highly potent antibody response in the immunized rabbits. Both antibodies could recognize F1 domain of the F protein and inhibited hRSV entry with the neutralizing antibody titers of 1:61 and 1:115, respectively. These suggested that 5-Helix could induce potent neutralizing antibody response and the central coiled-coil might be a highly conserved neutralization site for hRSV F protein.     

A quantitative assay for measuring of bovine immunodeficiency virus using a luciferase-based indicator cell line

In order to quantitate the bovine immunodeficiency virus (BIV) infection in vitro, a BIV indicator cell line (BIVL) was established by transfecting baby hamster kidney cells with reporter plasmids containing the firefly luciferase gene driven by a BIV long terminal repeat promoter. The BIV activates promoter activity of the LTR to express luciferase upon infection. BIV infection could therefore by quantified by detection of luciferase activity. Compared to standard assays used to detect BIV infection, the BIVL-based assay is 10 times more sensitive than the the CPE-based assay, and has similar sensitivity with the viral capsid protein Western blot assay. BIV indicator cell line could detect BIV infection specifically. Luciferase activity of BIV infected BIVL cells showed a time dependent manner, and 60 h post infection is the optimal time to detect BIV infection. Luciferase activity of BIVL cells correlates with the BIV capsid protein expression. Moreover, a linear relationship was found between MOI and the activated intensity of luciferase expression. In brief, the BIV indicator cell line is an easy, robust and quantitive method for monitoring BIV infection.     

Functional domains within the human immunodeficiency virus type 2 envelope protein required to enhance virus production

Primate lentiviruses code for a protein that stimulates virus production. In human immunodeficiency virus type 1 (HIV-1), the activity is provided by the accessory protein, Vpu, while in HIV-2 and simian immunodeficiency virus it is a property of the envelope (Env) glycoprotein. Using a group of diverse retroviruses and cell types, we have confirmed the functional equivalence of the two proteins. However, despite these similarities, the two proteins have markedly different functional domains. While the Vpu activity is associated primarily with its membrane-spanning region, we have determined that the HIV-2 Env activity requires both the cytoplasmic tail and ectodomain of the protein, with the membrane-spanning domain being less important. Within the Env cytoplasmic tail, we further defined the necessary sequence as a membrane-proximal tyrosine-based motif. Providing the two Env regions separately as distinct CD8 chimeric proteins did not increase virus release. This suggests that the two domains must be either contained within a single protein or closely associated within a multiprotein oligomer, such as the Env trimer, in order to function. Finally, we observed that wild-type levels of incorporation of the HIV-2 Env into budding viruses were not required for this activity.     

JDV与三种牛反转录病毒相互关系的初步研究

为研究JDV与其它三种牛反转录病毒BIV、BLV、BFV的相互作用关系,将以JDV、BIV、BLV、BFV的LTR为启动子,以Luc为报告基因的质粒和以上病毒反式激活因子的表达质粒共转染BLl2细胞系,通过瞬时表达分析试验证明了JDV和BIV的LTR和Tat之间亲缘关系很近,能够相互激活;JDV Tat可以反式激活BLVLTR,BLVTax不能激活JDVLTR;JDVLTR上存在BFVTas的应答元件;BLV、BFV和BIV的LTR和反式激活因子问不存在相互激活。