被膜蛋白糖基化在HIV感染中的作用

在HIV感染过程中,病毒被膜蛋白糖基化起着重要作用。它使病毒粒子具有高度糖基化的表面,帮助HIV逃避人体免疫细胞识别和攻击。在病毒入侵时,被膜糖蛋白与宿主细胞表面的受体结合,并进行一系列构象变化,使病毒粒子顺利地与宿主细胞膜融合。介绍近年来对被膜蛋白糖基化过程与HIV成熟、感染和逃避免疫应答等方面分子水平作用机理的深入了解,这些作用机理将会有助于艾滋病疫苗的研制和以“糖链为靶”药物的开发。     

Formation of Antibodies to Native DNA in Rats after Administration of Native DNA Treated with the Xanthine-Xanthine Oxidase System

The injection of native (double-stranded) deoxyribonucleic acid treated with the xanthine-xanthine oxidase system and emulsified with complete Freund's adjuvant into rats over a prolonged period of time induces the formation of antibodies to double-Stranded DNA. The titer of antibodies was determined by an enzyme-linked immunosorbent assay (ELISA) in sera from treated animals. Control experiments using untreated native DNA or phosphate buffered saline likewise emulsified with Freund's Adjuvant showed only insignificant increases in titers of the antibody.     

Envelope Vaccination Shapes Viral Envelope Evolution following Simian Immunodeficiency Virus Infection in Rhesus Monkeys

The evolution of envelope mutations by replicating primate immunodeficiency viruses allows these viruses to escape from the immune pressure mediated by neutralizing antibodies. Vaccine-induced anti-envelope antibody responses may accelerate and/or alter the specificity of the antibodies, thus shaping the evolution of envelope mutations in the replicating virus. To explore this possibility, we studied the neutralizing antibody response and the envelope sequences in rhesus monkeys vaccinated with either gag-pol-nef immunogens or gag-pol-nef immunogens in combination with env and then infected with simian immunodeficiency virus (SIV). Using a pseudovirion neutralization assay, we demonstrate that envelope vaccination primed for an accelerated neutralizing antibody response following virus challenge. To monitor viral envelope evolution in these two cohorts of monkeys, full-length envelopes from plasma virus isolated at weeks 37 and 62 postchallenge were sequenced by single genome amplification to identify sites of envelope mutations. We show that env vaccination was associated with a change in the pattern of envelope mutations. Prevalent mutations in sequences from gag-pol-nef vaccinees included deletions in both variable regions 1 and 4 (V1 and V4), whereas deletions in the env vaccinees occurred only in V1. These data show that env vaccination altered the focus of the antibody-mediated selection pressure on the evolution of envelope following SIV challenge.Immune containment of human immunodeficiency virus (HIV-1) is complicated by the continuous genetic evolution of the virus. The evolution of the HIV-1 envelope is shaped, in part, by selective pressure of neutralizing antibodies (6, 12, 27, 34-36, 40). Changes in envelope sequence and glycosylation patterns following infection can allow the virus to escape neutralization. If the rate and extent of envelope sequence evolution following infection can be decreased, immune containment of HIV-1 may be improved.One possible strategy for modifying envelope evolution is vaccination prior to infection. A vaccine-elicited memory immune response could focus and potentiate the humoral immune response that develops following infection. The possible consequence of vaccination has not been assessed, however, because of the limited number of human volunteers who have received highly immunogenic envelope immunogens and subsequently became infected with HIV-1.Simian immunodeficiency virus (SIV) infection of rhesus monkeys provides a powerful model to study the effect of vaccination on envelope evolution. Like HIV-1, SIV employs both the CD4 molecule and the chemokine receptor CCR5 to enter a target cell and cause an AIDS-like disease in macaques (16, 22). Both SIV and HIV-1 envelopes are heavily glycosylated, with approximately 50% of their mass derived from carbohydrates (14, 21). SIV and HIV-1 envelopes share approximately 40% amino acid homology (10, 11) and have overlapping variable and constant regions, although the variable region 3 (V3) of HIV-1 envelope does not align with the homologous region of SIV envelope (7). Following SIV infection in rhesus monkeys, SIV envelope evolves most rapidly in variable regions 1 and 4 (V1 and V4, respectively), leading to nucleotide additions, deletions, and/or mutations that can potentially translate to changes in glycosylation (7, 9, 13, 15, 19, 29, 30).Studies done to characterize SIV neutralization suggest that it occurs through mechanisms similar to those seen in HIV-1 neutralization. Amino acid mutations in the envelope of both viruses contribute to the evasion of antibody binding directly by changing recognition sequences and/or envelope conformation. In addition, the glycosylation of envelope serves as a further obstacle to antibody recognition (20, 33, 40). Considerable effort has been devoted to defining neutralizing epitopes of the HIV and SIV envelopes. The known neutralizing human monoclonal antibodies elicited during natural infection are directed against HIV-1 envelope target sites on both gp120 and gp41, including the V3 region, the CD4 binding site, oligomannose residues of gp120, and gp41 (17, 31). The neutralizing epitope profile of SIV envelope includes the CD4 binding site and gp41 but not the V3 region. There is conflicting evidence as to whether V1, V2, and/or V4 of SIV are targets for antibody neutralization (15, 18, 19). The present study addresses whether vaccine-induced immune responses accelerate the generation of autologous neutralizing antibodies following SIV challenge in rhesus monkeys and how this humoral immune response can potentially shape viral sequence evolution.     

Characteristics of IgA Anti-HIV Antibodies in Plasma from Patients with HIV Infection

The concentration of total IgA and the specificity and molecular size of IgA anti-human immunodeficiency virus (HIV) type-1 antibodies in plasma obtained from individuals at different stages of HIV infection were analyzed. The concentration of total IgA in the plasma was not decreased even in the late stage of HIV infection, in contrast with those of total IgG and IgM. The IgA anti-HIV antibodies differed to the IgG anti-HIV antibodies in their specificity as determined by Western blotting. The IgA antibodies mainly bind to Env glycoproteins. The IgA anti-HIV antibodies in plasma were detected between IgG and IgM by gel filtration, suggesting the presence of polymeric IgA anti-HIV antibodies. These results indicate that the production of non-specific IgA in plasma is enhanced by unknown mechanisms in every stages of HIV infection, and suggest that IgA anti-HIV antibodies in plasma which are possibly polymeric and have unique specificity may play an important role in HIV infection.     

HIV病毒包膜蛋白gp120与卡介苗感染人巨噬细胞的实验研究

目的:比较研究HIV病毒包膜蛋白gp120与卡介苗分别及共同感染人巨噬细胞,对人巨噬细胞的破坏能力及诱导巨噬细胞产生一氧化氮(NO)能力的差异性.方法:gp120与卡介苗(BCG)分别及共同感染人巨噬细胞后,于不同时间点采用MTT法检测巨噬细胞存活率,利用硝酸还原酶法检测细胞培养上清液中NO的含量.结果:gp120与BCG分别及共同感染人巨噬细胞,均可降低巨噬细胞的存活率,但gp120与卡介苗共同感染巨噬细胞,其存活率降低更为显著(P＜0.05);gp120与BCG均可激活人巨噬细胞合成和释放NO,而gp120与BCG共同感染组激活人巨噬细胞合成和释放NO的量明显低于BCG感染组(P＜0.05).结论:gp120感染巨噬细胞可影响巨噬细胞抗微生物的活性,可增强卡介苗对巨噬细胞的破坏作用.     

HIV Restriction Factors and Their Ambiguous Role during Infection

Molecular Biology - Currently, more than 37 million individuals worldwide are infected with the human immunodeficiency virus (HIV). Antiretroviral therapy may control the viral infection but is...     

Non-neutralizing Antibodies from a Marburg Infection Survivor Mediate Protection by Fc-Effector Functions and by Enhancing Efficacy of Other Antibodies

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Plasma HIV Viral Rebound following Protocol-Indicated Cessation of ART Commenced in Primary and Chronic HIV Infection

Objectives

The magnitude of HIV viral rebound following ART cessation has consequences for clinical outcome and onward transmission. We compared plasma viral load (pVL) rebound after stopping ART initiated in primary (PHI) and chronic HIV infection (CHI).

Design

Two populations with protocol-indicated ART cessation from SPARTAC (PHI, n = 182) and SMART (CHI, n = 1450) trials.

Methods

Time for pVL to reach pre-ART levels after stopping ART was assessed in PHI using survival analysis. Differences in pVL between PHI and CHI populations 4 weeks after stopping ART were examined using linear and logistic regression. Differences in pVL slopes up to 48 weeks were examined using linear mixed models and viral burden was estimated through a time-averaged area-under-pVL curve. CHI participants were categorised by nadir CD4 at ART stop.

Results

Of 171 PHI participants, 71 (41.5%) rebounded to pre-ART pVL levels, at a median of 50 (95% CI 48–51) weeks after stopping ART. Four weeks after stopping treatment, although the proportion with pVL≥400 copies/ml was similar (78% PHI versus 79% CHI), levels were 0.45 (95% CI 0.26–0.64) log₁₀ copies/ml lower for PHI versus CHI, and remained lower up to 48 weeks. Lower CD4 nadir in CHI was associated with higher pVL after ART stop. Rebound for CHI participants with CD4 nadir >500 cells/mm³ was comparable to that experienced by PHI participants.

Conclusions

Stopping ART initiated in PHI and CHI was associated with viral rebound to levels conferring increased transmission risk, although the level of rebound was significantly lower and sustained in PHI compared to CHI.     

Production of Native Bispecific Antibodies in Rabbits

Background

A natural bispecific antibody, which can be produced by exchanging Fab arms of two IgG4 molecules, was first described in allergic patients receiving therapeutic injections with two distinct allergens. However, no information has been published on the production of natural bispecific antibody in animals. Even more important, establishment of an animal model is a useful approach to investigate and characterize the naturally occurring antibody.

Methodology/Principal Findings

We demonstrated that a natural bispecific antibody can also be generated in New Zealand white rabbits by immunization with synthesized conjugates. These antibodies showed bispecificity to the components that were simultaneously used to immunize the animals. We observed a trend in our test animals that female rabbits exhibited stronger bispecific antibody responses than males. The bispecific antibody was monomeric and primarily belonged to immunoglobulin (Ig) G. Moreover, bispecific antibodies were demonstrated by mixing 2 purified monospecific antibodies in vivo and in vitro.

Conclusions/Significance

Our results extend the context of natural bispecific antibodies on the basis of bispecific IgG4, and may provide insights into the exploration of native bispecific antibodies in immunological diseases.     

Determining the Binding Affinity of Therapeutic Monoclonal Antibodies towards Their Native Unpurified Antigens in Human Serum

Monoclonal antibodies (mAbs) are a growing segment of therapeutics, yet their in vitro characterization remains challenging. While it is essential that a therapeutic mAb recognizes the native, physiologically occurring epitope, the generation and selection of mAbs often rely on the use of purified recombinant versions of the antigen that may display non-native epitopes. Here, we present a method to measure both, the binding affinity of a therapeutic mAb towards its native unpurified antigen in human serum, and the antigen’s endogenous concentration, by combining the kinetic exclusion assay and Biacore’s calibration free concentration analysis. To illustrate the broad utility of our method, we studied a panel of mAbs raised against three disparate soluble antigens that are abundant in the serum of healthy donors: proprotein convertase subtilisin/kexin type 9 (PCSK9), progranulin (PGRN), and fatty acid binding protein (FABP4). We also determined the affinity of each mAb towards its purified recombinant antigen and assessed whether the interactions were pH-dependent. Of the six mAbs studied, three did not appear to discriminate between the serum and recombinant forms of the antigen; one mAb bound serum antigen with a higher affinity than recombinant antigen; and two mAbs displayed a different affinity for serum antigen that could be explained by a pH-dependent interaction. Our results highlight the importance of taking pH into account when measuring the affinities of mAbs towards their serum antigens, since the pH of serum samples becomes increasingly alkaline upon aerobic handling.     

Cowdria Ruminantium Antibodies in Acaricide-Treated and Untreated Cattle Exposed to Amblyomma Variegatum Ticks in The Gambia

An indirect enzyme-linked immunosorbent assay (ELISA), based on the major antigenic protein 1 fragment B (MAP1-B) of Cowdria ruminantium, was used to assess seroprevalence in cattle in The Gambia. Two groups of 20 N'Dama and 20 Gobra zebu cattle were monitored for 12 months with flumethrin treatment and for another 10 months without acaricidal treatment. Two groups of 20 N'Dama and 20 Gobra cattle served as untreated controls. During the period of acaricidal treatment, the cumulative proportions of positive serum samples were 25.6±5.6% (±confidence interval) and 34.7±6.8% in treated N'Dama and Gobra cattle respectively; the proportion of positive sera in untreated cattle was 52.2±6.9% in N'Damas and 61.4±7.3% in Gobras. Within breed, difference in antibody prevalence between treated and untreated cattle was significant (P<0.001) but between breed differences were not significant. In the 10 months following suspension of acaricide application, there was an increase of proportion of positive serum samples in previously treated N'Dama and Gobra cattle. In both previously treated and untreated animals the peak of positive seroreactions occurred during and subsequent to the period of activity of Amblyomma variegatum adults. Cumulative seroprevalences in previously treated N'Dama and Gobra cattle were 32.6±6.9% and 44.7±8.5%, respectively; in untreated animals seroprevalence was 38.6±7.2% in N'Dama and 65.3±8.4% in Gobra cattle. Throughout the study period, within the N'Dama breed, the seropositive rate in previously treated cattle did not differ from that in untreated animals. Conversely, within the Gobra breed, the number of positive seroreactions was higher (P<0.002) in untreated animals than in previously treated cattle. These results provide a support for designing A. variegatum and heartwater control strategies, if necessary, in The Gambia in relation to cattle breeds.     

HIV-1 Neutralizing Antibodies Display Dual Recognition of the Primary and Coreceptor Binding Sites and Preferential Binding to Fully Cleaved Envelope Glycoproteins

The gp120 CD4 binding site (CD4bs) and coreceptor binding site (CoRbs) are two functionally conserved elements of the HIV-1 envelope glycoproteins (Env). We previously defined the presence of CD4bs-neutralizing antibodies in the serum of an HIV-1-infected individual and subsequently isolated the CD4bs-specific monoclonal antibodies (MAbs) VRC01 and VRC03 from the memory B cell population. Since this donor''s serum also appeared to contain neutralizing antibodies to the CoRbs, we employed a differential fluorescence-activated cell sorter (FACS)-based sorting strategy using an Env trimer possessing a CoRbs knockout mutation (I420R) to isolate specific B cells. The MAb VRC06 was recovered from these cells, and its genetic sequence allowed us to identify a clonal relative termed VRC06b, which was isolated from a prior cell sort using a resurfaced core gp120 probe and its cognate CD4bs knockout mutant. VRC06 and VRC06b neutralized 22% and 44% of viruses tested, respectively. Epitope mapping studies revealed that the two MAbs were sensitive to mutations in both the gp120 CoRbs and the CD4bs and could cross-block binding of both CD4bs and CoRbs MAbs to gp120. Fine mapping indicated contacts within the gp120 bridging sheet and the base of the third major variable region (V3), which are elements of the CoRbs. Cell surface binding assays demonstrated preferential recognition of fully cleaved Env trimers over uncleaved trimers. Thus, VRC06 and VRC06b are Env trimer precursor cleavage-sensitive neutralizing MAbs that bind to a region of gp120 that overlaps both the primary and the secondary HIV-1 receptor binding sites.     

Immunogens Modeling a Fusion-Intermediate Conformation of gp41 Elicit Antibodies to the Membrane Proximal External Region of the HIV Envelope Glycoprotein

The membrane proximal external region (MPER) of the gp41 subunit of the HIV-1 envelope glycoprotein (Env) contains determinants for broadly neutralizing antibodies and has remained an important focus of vaccine design. However, creating an immunogen that elicits broadly neutralizing antibodies to this region has proven difficult in part due to the relative inaccessibility of the MPER in the native conformation of Env. Here, we describe the antigenicity and immunogenicity of a panel of oligomeric gp41 immunogens designed to model a fusion-intermediate conformation of Env in order to enhance MPER exposure in a relevant conformation. The immunogens contain segments of the gp41 N- and C-heptad repeats to mimic a trapped intermediate, followed by the MPER, with variations that include different N-heptad lengths, insertion of extra epitopes, and varying C-termini. These well-characterized immunogens were evaluated in two different immunization protocols involving gp41 and gp140 proteins, gp41 and gp160 DNA primes, and different immunization schedules and adjuvants. We found that the immunogens designed to reduce extension of helical structure into the MPER elicited the highest MPER antibody binding titers, but these antibodies lacked neutralizing activity. The gp41 protein immunogens also elicited higher MPER titers than the gp140 protein immunogen. In prime-boost studies, the best MPER responses were seen in the groups that received DNA priming with gp41 vectors followed by gp41 protein boosts. Finally, although titers to the entire protein immunogen were similar in the two immunization protocols, MPER-specific titers differed, suggesting that the immunization route, schedule, dose, or adjuvant may differentially influence MPER immunogenicity. These findings inform the design of future MPER immunogens and immunization protocols.     

Proinflammatory Markers,Insulin Sensitivity,and Cardiometabolic Risk Factors in Treated HIV Infection

Treated HIV infection and HIV‐lipoatrophy increases risk of cardiovascular disease (CVD) and type 2 diabetes mellitus (T2DM). Circulating inflammatory molecules may, in part, explain this increased risk. This study examined circulating inflammatory molecules in treated HIV infection in relation to insulin sensitivity, lipids total body, and intramyocellular fat, compared to insulin‐resistant obesity (an index group at high risk of diabetes). Detailed metabolic phenotypes were measured in 20 treated HIV‐infected men (with and without subcutaneous lipoatrophy) vs. 26 insulin‐resistant obese men (IR‐O, n = 26), including inflammatory molecules, insulin sensitivity, total body fat (TBF), visceral fat (visceral adipose tissue (VAT)), and intramyocellular lipid (IMCL). C‐reactive protein (CRP) levels in treated HIV were similar to those in IR‐O, despite lower TBF and greater insulin sensitivity in treated HIV. In HIV‐lipoatrophy, CRP was higher than that found in IR‐O. Adiponectin was similar between treated HIV and IR‐O, but significantly lower in those with HIV‐lipoatrophy. In treated HIV, subjects with higher CRP had significantly higher total cholesterol, VAT, and IMCL. In treated HIV, subjects with lower adiponectin had significantly lower HDL and higher triglycerides, glucose, VAT, and IMCL. In conclusion, a proinflammatory milieu equivalent to that of insulin‐resistant obesity characterizes lean men with treated HIV infection, worse in those with subcutaneous lipoatrophy. These factors may contribute to the accelerated diabetogenesis and cardiac risk observed in treated HIV infection.     

Inhibition of Marburg Virus Budding by Nonneutralizing Antibodies to the Envelope Glycoprotein

The envelope glycoprotein (GP) of Marburg virus (MARV) and Ebola virus (EBOV) is responsible for virus entry into host cells and is known as the only target of neutralizing antibodies. While knowledge about EBOV-neutralizing antibodies and the mechanism for the neutralization of infectivity is being accumulated gradually, little is known about antibodies that can efficiently regulate MARV infectivity. Here we show that MARV GP-specific monoclonal antibodies AGP127-8 (IgG1) and MGP72-17 (IgM), which do not inhibit the GP-mediated entry of MARV into host cells, drastically reduced the budding and release of progeny viruses from infected cells. These antibodies similarly inhibited the formation of virus-like particles (VLPs) consisting of GP, the viral matrix protein, and nucleoprotein, whereas the Fab fragment of AGP127-8 showed no inhibitory effect. Morphological analyses revealed that filamentous VLPs were bunched on the surface of VLP-producing cells cultured in the presence of the antibodies. These results demonstrate a novel mechanism of the antibody-mediated inhibition of MARV budding, in which antibodies arrest unformed virus particles on the cell surface. Our data lead to the idea that such antibodies, like classical neutralizing antibodies, contribute to protective immunity against MARV and that the “classical” neutralizing activity is not the only indicator of a protective antibody that may be available for prophylactic and therapeutic use.