Roles of the interactions between Env and Gag proteins in the HIV-1 replication cycle

The Env and Gag proteins of HIV-1 are the two major structural proteins of this retrovirus. The interactions between Env and Gag proteins and their regulation in HIV-1 are required for several steps of the replication cycle, involving not only virus assembly, specifically Env incorporation, but also entry steps after virus maturation. A large number of host factors and certain membrane microdomains appear to engage both in transport/trafficking of Env and/or Gag proteins, and in the interactions of these two proteins. The present review briefly summarizes our current knowledge regarding the roles of the interactions between Env and Gag proteins in the virus replication cycle.     

含HIV-1 gag、gagV3基因的重组腺病毒伴随病毒的构建及其免疫原性的研究

将HIV－1中国株42（B亚型）gag基因及gag与gp120 V3区的嵌合基因gag V3插入腺病毒伴随病毒（AAV）表达载体（pSNAV）质粒中,构建重组质粒pSNAV-gag及pSNAV-gagV3;采用脂质体转染的方法分别将重组质粒转入BHK细胞,G418筛选得到转入重组质粒并能表达外源基因的细胞系,命名为BHK－gag及BHK－gagV3。用具有重组腺病毒伴随病毒（rAAV）包装功能的一种重组单纯疱疹病毒（rHSV）分析感染这两株细胞系,纯化后得到rAAV,电镜观察可见到大量实心病毒颗粒,核酸杂交检测重组病毒滴度达到10^12病毒颗粒／ml,重组病毒感染293细胞,ELISA检测有gag及gagV3基因的表达。用重组病毒免疫Balb/C小鼠,检测抗体及细胞免疫水平,证明重组病毒可以在小鼠体内诱导产生细胞及体液免疫。     

HIV-1 Gag release from yeast reveals ESCRT interaction with the Gag N-terminal protein region

The HIV-1 protein Gag assembles at the plasma membrane and drives virion budding, assisted by the cellular endosomal complex required for transport (ESCRT) proteins. Two ESCRT proteins, TSG101 and ALIX, bind to the Gag C-terminal p6 peptide. TSG101 binding is important for efficient HIV-1 release, but how ESCRTs contribute to the budding process and how their activity is coordinated with Gag assembly is poorly understood. Yeast, allowing genetic manipulation that is not easily available in human cells, has been used to characterize the cellular ESCRT function. Previous work reported Gag budding from yeast spheroplasts, but Gag release was ESCRT-independent. We developed a yeast model for ESCRT-dependent Gag release. We combined yeast genetics and Gag mutational analysis with Gag-ESCRT binding studies and the characterization of Gag-plasma membrane binding and Gag release. With our system, we identified a previously unknown interaction between ESCRT proteins and the Gag N-terminal protein region. Mutations in the Gag-plasma membrane–binding matrix domain that reduced Gag-ESCRT binding increased Gag-plasma membrane binding and Gag release. ESCRT knockout mutants showed that the release enhancement was an ESCRT-dependent effect. Similarly, matrix mutation enhanced Gag release from human HEK293 cells. Release enhancement partly depended on ALIX binding to p6, although binding site mutation did not impair WT Gag release. Accordingly, the relative affinity for matrix compared with p6 in GST-pulldown experiments was higher for ALIX than for TSG101. We suggest that a transient matrix-ESCRT interaction is replaced when Gag binds to the plasma membrane. This step may activate ESCRT proteins and thereby coordinate ESCRT function with virion assembly.     

Dual Infection of HIV-1 and HTLV-I in South India: A Study on a Patient with AIDS-Related Complex

A dually HIV-and HTLV-infected ARC patient was found by serological studies in South India. These viruses were isolated and molecular study showed that the patient had both HIV-1 and HTLV-I but not HIV-2 and HTLV-II. In addition to this, 9 other dually infected persons which include another full-blown AIDS case have been identified as on July 1993 in South India. Our findings provide an opportunity to clarify geographical distribution of these human retroviruses.     

柳州和南宁HIV-1亚型分布及耐药情况调查

为了解柳州和南宁两市HIV-1亚型分布和耐药情况,在柳州和南宁招募HIV感染者和AIDS患者共304名,采集外周静脉血,从血浆中提取HIVRNA,扩增HIVpol基因并测序。将获得的序列进行系统进化树分析,结果表明柳州的HIV-1毒株中存在CRF01_AE和CRF07_BC两种亚型,其中CRF01_AE毒株占75.2%,CRF07_BC毒株占24.8%;南宁的HIV-1毒株中存在CRF01_AE、CRF08_BC、B亚型和C亚型共4种亚型,其中CRF01_AE和CRF08_BC仍是南宁最主要的亚型,CRF01_AE占85.8%,CRF08_BC占11.5%。根据所得的序列资料进行HIV-1耐药性分析,计算耐药率。计算结果表明,柳州未治疗和治疗研究对象的耐药率分别为3.3%和8.7%,南宁未治疗和治疗研究对象的耐药率分别为1.4%和27.5%。     

Allosteric loss-of-function mutations in HIV-1 Nef from a long-term non-progressor

Activation of Src family kinases by human immunodeficiency virus type 1 (HIV-1) Nef may play an important role in the pathogenesis of HIV/AIDS. Here we investigated whether diverse Nef sequences universally activate Hck, a Src family member expressed in macrophages and other HIV-1 target cells. In general, we observed that Hck activation is a highly conserved Nef function. However, we identified an unusual Nef variant from an HIV-positive individual that did not develop AIDS which failed to activate Hck despite the presence of conserved residues linked to Hck SH3 domain binding and kinase activation. Amino acid sequence alignment with active Nef proteins revealed differences in regions not previously implicated in Hck activation, including a large internal flexible loop absent from available Nef structures. Substitution of these residues in active Nef compromised Hck activation without affecting SH3 domain binding. These findings show that residues at a distance from the SH3 domain binding site influence Nef interactions allosterically with a key effector protein linked to AIDS progression.     

我国首次发现的HIV-1和HIV-2双重感染样品中病毒部分基因的序列特征分析

上海市卫生检疫局送检了一例HIV - 1和HIV - 2抗体检测均呈阳性的双重感染样品 ,对其感染的HIV前病毒的 gag和env基因区进行了序列分析 ,首次阐明我国发现的HIV双重感染样品的HIV部分基因特征。从HIV感染者淋巴细胞 (peripheralbloodmononuclearcells,PBMC)中提取前病毒DNA ,分别使用HIV 1和HIV 2特异性引物用套式PCR扩增HIV 1和HIV 2的部分基因区。PCR产物不经克隆直接测序 ,经GenBank检索并使用GCG软件包进行序列分析。结果表明 ,其中感染的HIV 2毒株中gag基因区与德国株HI2PEI2KR相似 ,基因离散率仅为8 1% ,env基因C2 -V3区与来自几内亚比绍的HIV 2U0 5 35 8株最近 ,离散率为 13 0 4% ,在其 gp36区发现与HIV 2U0 5 35 8基因离散率为 10 6 3% ,两个毒株均属HIV 2中的A亚型。而其HIV 1型毒株在 gag和env区都与从尼日利亚分离的H92NG0 83株相似 ,属HIV 1的G亚型。本文首次对我国发现的HIV 2型毒株进行了主要基因区的序列分析 ,表明在非洲较常见的HIV 2A亚型和HIV 1G亚型毒株 ,已随援外劳工传入我国。     

Structure of antibody F425-B4e8 in complex with a V3 peptide reveals a new binding mode for HIV-1 neutralization

F425-B4e8 (B4e8) is a monoclonal antibody isolated from a human immunodeficiency virus type 1 (HIV-1)-infected individual that recognizes the V3 variable loop on the gp120 subunit of the viral envelope spike. B4e8 neutralizes a subset of HIV-1 primary isolates from subtypes B, C and D, which places this antibody among the very few human anti-V3 antibodies with notable cross-neutralizing activity. Here, the crystal structure of the B4e8 Fab′ fragment in complex with a 24-mer V3 peptide (RP142) at 2.8 Å resolution is described. The complex structure reveals that the antibody recognizes a novel V3 loop conformation, featuring a five-residue α-turn around the conserved GPGRA apex of the β-hairpin loop. In agreement with previous mutagenesis analyses, the Fab′ interacts primarily with V3 through side-chain contacts with just two residues, Ile^P309 and Arg^P315, while the remaining contacts are to the main chain. The structure helps explain how B4e8 can tolerate a certain degree of sequence variation within V3 and, hence, is able to neutralize an appreciable number of different HIV-1 isolates.     

The NC domain of HIV-1 Gag contributes to the interaction of Gag with TSG101

Background

HIV-1 Gag polyprotein orchestrates the assembly of viral particles. Its C-terminus consists of the nucleocapsid (NC) domain that interacts with RNA, and the p6 domain containing the PTAP motif that binds the cellular ESCRT factor TSG101 and ALIX. Deletion of the NC domain of Gag (GagNC) results in defective Gag assembly, a decrease in virus production and, thus probably affects recruitment of the ESCRT machinery. To investigate the role of GagNC in this recruitment, we analysed its impact on TSG101 and ALIX localisations and interactions in cells expressing Gag.

Comparison of the NMR and X-ray structures of the HIV-1 matrix protein: evidence for conformational changes during viral assembly.

The three-dimensional solution- and solid-state structures of the human immunodeficiency virus type-1 (HIV-1) matrix protein have been determined recently in our laboratories by NMR and X-ray crystallographic methods (Massiah et al. 1994. J Mol Biol 244:198-223; Hill et al. 1996. Proc Natl Acad Sci USA 93:3099-3104). The matrix protein exists as a monomer in solution at low millimolar protein concentrations, but forms trimers in three different crystal lattices. Although the NMR and X-ray structures are similar, detailed comparisons have revealed an approximately 6 A displacement of a short 3(10) helix (Pro 66-Gly 71) located at the trimer interface. High quality electron density and nuclear Overhauser effect (NOE) data support the integrity of the X-ray and NMR models, respectively. Because matrix apparently associates with the viral membrane as a trimer, displacement of the 3(10) helix may reflect a physiologically relevant conformational change that occurs during virion assembly and disassembly. These findings further suggest that Pro 66 and Gly 71, which bracket the 3(10) helix, serve as "hinges" that allow the 3(10) helix to undergo this structural reorientation.     

人类免疫缺陷病毒初始传播病毒的鉴别及其表型特征

人类免疫缺陷病毒(Human immunodeficiency virus type 1, HIV-1)简称艾滋病病毒,在粘膜传播过程中,病毒的遗传多样性是显著减少的。绝大多数的HIV-1粘膜感染由一个或者少数几个病毒建立并最终发展为系统感染,上述病毒称为初始传播病毒(Transmitted/founder virus, T/F virus)。通过对初始传播病毒表型特征的研究,可进一步了解病毒在新宿主体内成功复制的关键特性,为艾滋病疫苗的发展、暴露前预防及其他治疗性干预措施提供更好的策略。文章综述了初始传播病毒的发现、进化特征以及感染后初期宿主的免疫反应等,以期为深入研究初始传播病毒的特征提供理论基础。     

人体黏膜活组织模型在HIV-1 性传播途径感染中的应用

性传播途径已经成为全球人免疫缺陷病毒1型 (Human immunodeficiency virus type 1,HIV-1) 传播的主要方式。对HIV-1黏膜感染机制的深入理解,将有助于研发新型有效的生物技术阻断其感染和传播。目前,HIV-1黏膜感染机制的研究主要依赖于体外细胞培养和灵长类动物模型。近年来,一种新型黏膜活组织模型 (包括人体生殖道或肠道黏膜等组织) 的建立,可再现HIV-1突破黏膜屏障进入基底侧的生物学过程,适用于HIV-1黏膜感染机制与黏膜局部感染阻断生物技术的临床前有效性评价研究。     

Mutations in capsid major homology region affect assembly and membrane affinity of HIV-1 Gag

We introduced mutations into the HIV-1 major homology region (MHR; capsids 153-172) and adjacent C-terminal region to analyze their effects on virus-like particle (VLP) assembly, membrane affinity, and the multimerization of the Gag structural protein. Results indicate that alanine substitutions at K158, F168 or E175 significantly diminished VLP production. All assembly-defective Gag mutants had markedly reduced membrane-binding capacities, but results from a velocity sedimentation analysis suggest that most of the membrane-bound Gag proteins were present, primarily in a higher-order multimerized form. The membrane-binding capacity of the K158A, F168A, and E175A Gag proteins increased sharply upon removal of the MA globular domain. While demonstrating improved multimerization capability, the two MA-deleted versions of F168A and E175A did not show marked improvement in VLP production, presumably due to a defect in association with the raft-like membrane domain. However, K158A bound to detergent-resistant raft-like membrane; this was accompanied by noticeably improved VLP production following MA removal. Our results suggest that the HIV-1 MHR and adjacent downstream region facilitate multimerization and tight Gag packing. Enhanced Gag multimerization may help expose the membrane-binding domain and thus improve Gag membrane binding, thereby promoting Gag multimerization into higher-order assembly products.     

Requirement for microtubule integrity in the SOCS1-mediated intracellular dynamics of HIV-1 Gag

Suppressor of cytokine signaling 1 (SOCS1) is a recently identified host factor that positively regulates the intracellular trafficking and stability of HIV-1 Gag. We here examine the molecular mechanism by which SOCS1 regulates intercellular Gag trafficking and virus particle production. We find that SOCS1 colocalizes with Gag along the microtubule network and promotes microtubule stability. SOCS1 also increases the amount of Gag associated with microtubules. Both nocodazole treatment and the expression of the microtubule-destabilizing protein, stathmin, inhibit the enhancement of HIV-1 particle production by SOCS1. SOCS1 facilitates Gag ubiquitination and the co-expression of a dominant-negative ubiquitin significantly inhibits the association of Gag with microtubules. We thus propose that the microtubule network plays a role in SOCS1-mediated HIV-1 Gag transport and virus particle formation.

Structured summary

MINT-7014185: Gag (uniprotkb:P05888) and SOCS1 (uniprotkb:O15524) colocalize (MI:0403) by cosedimentation (MI:0027)MINT-7014239: Cullin 2 (uniprotkb:Q13617) physically interacts (MI:0218) with RelA (uniprotkb:Q04206), RBX1 (uniprotkb:P62877), SOCS1 (uniprotkb:O15524), elongin B (uniprotkb:Q15369) and elongin C (uniprotkb:Q15370) by pull-down (MI:0096)MINT-7014046: gag (uniprotkb:P05888), SOCS1 (uniprotkb:O15524) and tubulin alpha (uniprotkb:Q13748) colocalize (MI:0403) by fluorescence microscopy (MI:0416)MINT-7014269: tubulin alpha (uniprotkb:Q13748) physically interacts (MI:0218) with Gag (uniprotkb:P05888) by anti tag coimmunoprecipitation (MI:0007)MINT-7014036: tubulin alpha (uniprotkb:Q13748) and SOCS1 (uniprotkb:O15524) colocalize (MI:0403) by fluorescence microscopy (MI:0416)MINT-7014201: Cullin 2 (uniprotkb:Q13617) physically interacts (MI:0218) with RBX1 (uniprotkb:P62877), SOCS1 (uniprotkb:O15524), elongin B (uniprotkb:Q15369) and elongin C (uniprotkb:Q15370) by pull-down (MI:0096)MINT-7014257: Gag (uniprotkb:P05888) physically interacts (MI:0218) with Ubiquitin (uniprotkb:P62988) by anti tag coimmunoprecipitation (MI:0007)MINT-7014221: Cullin 2 (uniprotkb:Q13617) physically interacts (MI:0218) with Gag (uniprotkb:P05888), elongin C (uniprotkb:Q15370), elongin B (uniprotkb:Q15369), SOCS1 (uniprotkb:O15524) and RBX1 (uniprotkb:P62877) by pull-down (MI:0096)     

The ABCA1 domain responsible for interaction with HIV-1 Nef is conformational and not linear

HIV-1 Nef is an accessory protein responsible for inactivation of a number of host cell proteins essential for anti-viral immune responses. In most cases, Nef binds to the target protein and directs it to a degradation pathway. Our previous studies demonstrated that Nef impairs activity of the cellular cholesterol transporter, ABCA1, and that Nef interacts with ABCA1. Mutation of the ²²²⁶DDDHLK motif in the C-terminal cytoplasmic tail of ABCA1 disrupted interaction with Nef. Here, we tested Nef interaction with the ABCA1 C-terminal cytoplasmic fragment using yeast 2-hybrid system assay and co-immunoprecipitation analysis in human cells. Surprisingly, analysis in a yeast 2-hybrid system did not reveal any interaction between Nef and the C-terminal cytoplasmic fragment of ABCA1. Using co-immunoprecipitation from HEK 293T cells expressing these polypeptides, only a very weak interaction could be detected. The ²²²⁶DDDHLK motif in the C-terminal cytoplasmic tail of ABCA1 found previously to be essential for interaction between ABCA1 and Nef is insufficient to bestow strong binding to Nef. Molecular modeling suggested that interaction with Nef may be mediated by a conformational epitope composed of the sequences within the cytoplasmic loop of ABCA1 and the C-terminal cytoplasmic domain. Studies are now underway to characterize this epitope.     

HIV-1 viral RNA is selected in the form of monomers that dimerize in a three-step protease-dependent process; the DIS of stem-loop 1 initiates viral RNA dimerization

We have characterized the viral RNA conformation in wild-type, protease-inactive (PR-) and SL1-defective (DeltaDIS) human immunodeficiency virus type 1 (HIV-1), as a function of the age of the viruses, from newly released to grown-up (>or=24 h old). We report evidence for packaging HIV-1 genomic RNA (gRNA) in the form of monomers in PR- virions, viral RNA rearrangement (not maturation) within PR- HIV-1, protease-dependent formation of thermolabile dimeric viral RNAs, a new form of immature gRNA dimer at about 5 h post virion release, and slow-acting dimerization signals in SL1-defective viruses. The rates of gRNA dimer formation were >or=3-fold and >or=10-fold slower in DeltaDIS and PR- viruses than in wild-type, respectively. Thus, the DIS, i.e. the palindrome in the apical loop of SL1, is a dimerization initiation signal, but its role can be masked by one or several slow-acting dimerization site(s) when grown-up SL1-inactive virions are investigated. Grown-up PR- virions are not flawless models for immature virions because gRNA dimerization increases with the age of PR- virions, indicating that the PR- mutation does not "freeze" gRNA conformation in a nascent primordial state. Our study is the first on gRNA conformation in newly released mutant or primate retroviruses. It shows for the first time that the packaged retroviral gRNA matures in more than one step, and that formation of immature dimeric viral RNA requires viral protein maturation. The monomeric viral RNAs isolated from budding HIV-1, as modeled by newly released PR- virions, may be seen as dimers that are much more fragile than thermolabile dimers.