Your search keyword '"Berman PW"' showing total 118 results

1. Antigen processing sites in gp120 are conserved across HIV virus clades

Author

Yu B, O’Rourke SM, Morales JF, Tatsuno GP, Mesa KA, and Berman PW

Subjects

Immunologic diseases. Allergy, RC581-607

Published

2012

2. Extensive glycoform heterogeneity in the gp120 envelope proteins used in the RV144 trial

Author

Yu B, Morales JF, O’Rourke SM, Tatsuno GP, and Berman PW

Subjects

Immunologic diseases. Allergy, RC581-607

Published

2012

3. Correlation between immunologic responses to a recombinant glycoprotein 120 vaccine and incidence of HIV-1 infection in a phase 3 HIV-1 preventive vaccine trial

Author

Gilbert, PB, Peterson, ML, Follmann, D, Hudgens, MG, Francis, DP, Gurwith, M, Heyward, WL, Jobes, DV, Popovic, V, Self, SG, Sinangil, F, Burke, D, Berman, PW, Gilbert, PB, Peterson, ML, Follmann, D, Hudgens, MG, Francis, DP, Gurwith, M, Heyward, WL, Jobes, DV, Popovic, V, Self, SG, Sinangil, F, Burke, D, and Berman, PW

Abstract

Background. An objective of the first efficacy trial of a candidate vaccine containing recombinant human immunodeficiency virus (HIV) type 1 envelope glycoprotein 120 (rgp120) antigens was to assess correlations between antibody responses to rgp120 and the incidence of HIV-1 infection. Methods. Within the randomized trial (for vaccinees, n = 3598; for placebo recipients, n = 1805), binding and neutralizing antibody responses to rgp120 were quantitated. A case-cohort design was used to study correlations between antibody levels and HIV-1 incidence. Results. Peak antibody levels were significantly inversely correlated with HIV-1 incidence. The relative risk (RR) of infection was 0.63 (95% confidence interval, 0.45-0.89) per log10 higher neutralization titer against HIV-1MN, and the RRs of infection for second-, third-, and fourth-quartile responses of antibody blocking of gp120 binding to soluble CD4 versus first-quartile responses (the lowest responses) were 0.35, 0.28, and 0.22, respectively. Conclusions. Despite inducing a complex, robust immune response, the vaccine was unable to reduce the incidence of HIV-1. Two interpretations of the correlative results are that the levels of antibodies (i) caused both an increased (low responders) and decreased (high responders) risk of HIV-1 acquisition or (ii) represented a correlate of susceptibility to HIV-1 but had no causal effect on susceptibility. Although the data cannot definitively discriminate between these 2 explanations, (ii) appears to be more likely.

Published

2005

4. Mapping epitopes on CRF01_AE viruses recognized by broadly neutralizing antibodies in sera from elite neutralizers from North America and Thailand

Author

O'Rourke, SM, primary, Sutthent, R, additional, Limoli, KL, additional, Phung, P, additional, Tatsuno, GP, additional, To, B, additional, Mesa, KA, additional, Frigon, N, additional, Higgins, KW, additional, Wrin, T, additional, and Berman, PW, additional

Published

2012

5. Magnitude and breadth of a nonprotective neutralizing antibody response in an efficacy trial of a candidate HIV-1 gp120 vaccine.

Author

Gilbert P, Wang M, Wrin T, Petropoulos C, Gurwith M, Sinangil F, D'Souza P, Rodriguez-Chavez IR, DeCamp A, Giganti M, Berman PW, Self SG, Montefiori DC, Gilbert, Peter, Wang, Maggie, Wrin, Terri, Petropoulos, Chris, Gurwith, Marc, Sinangil, Faruk, and D'Souza, Patricia

Abstract

Background: A candidate vaccine consisting of human immunodeficiency virus type 1 (HIV-1) subunit gp120 protein was found previously to be nonprotective in an efficacy trial (Vax004) despite strong antibody responses against the vaccine antigens. Here we assessed the magnitude and breadth of neutralizing antibody responses in Vax004.Methods: Neutralizing antibodies were measured against highly sensitive (tier 1) and moderately sensitive (tier 2) strains of HIV-1 subtype B in 2 independent assays. Vaccine recipients were stratified by sex, race, and high versus low behavioral risk of HIV-1 acquisition.Results: Most vaccine recipients mounted potent neutralizing antibody responses against HIV-1(MN) and other tier 1 viruses. Occasional weak neutralizing activity was detected against tier 2 viruses. The response against tier 1 and tier 2 viruses was significantly stronger in women than in men. Race and behavioral risk of HIV-1 acquisition had no significant effect on the response. Prior vaccination had little effect on the neutralizing antibody response that arose after infection.Conclusions: Weak overall neutralizing antibody responses against tier 2 viruses is consistent with a lack of protection in this trial. The magnitude and breadth of neutralization reported here should be useful for identifying improved vaccines. [ABSTRACT FROM AUTHOR]

Published

2010

6. HIV-1 virologic and immunologic progression and initiation of antiretroviral therapy among HIV-1-infected subjects in a trial of the efficacy of recombinant glycoprotein 120 vaccine.

Author

Gilbert PB, Ackers ML, Berman PW, Francis DP, Popovic V, Hu DJ, Heyward WL, Sinangil F, Shepherd BE, and Gurwith M

Abstract

The first trial of the efficacy of a human immunodeficiency virus (HIV)-1 vaccine was conducted in North America and The Netherlands between 1998 and 2003. This multicenter, randomized, placebo-controlled trial of a recombinant glycoprotein 120 vaccine included 5403 initially HIV-negative volunteers who were monitored for 3 years. The 368 subjects who acquired HIV-1 infection were monitored for 2 years by use of the following postinfection end points: plasma HIV-1 RNA level (viral load), CD4+ lymphocyte count, initiation of antiretroviral therapy (ART), and HIV-1-related clinical outcomes. This article reports the study results that pertain to the effect of vaccination on the postinfection end points. The time until initiation of ART and the time until virologic failure or initiation of ART were similar in the vaccine arm and the placebo arm. The pre-ART viral load and CD4+ lymphocyte count trajectories were also comparable between the groups. Evidently, the vaccine did not affect HIV-1 disease progression. Copyright © 2005 Infectious Diseases Society of America [ABSTRACT FROM AUTHOR]

Published

2005

7. Gene editing in CHO cells to prevent proteolysis and enhance glycosylation: Production of HIV envelope proteins as vaccine immunogens.

Author

Li SW, Wright M, Healey JF, Hutchinson JM, O'Rourke S, Mesa KA, Lollar P, and Berman PW

Subjects

Alleles, Amino Acid Sequence, Animals, Antibodies, Monoclonal immunology, Antibodies, Neutralizing immunology, Binding Sites, CHO Cells, Consensus Sequence, Cricetinae, Cricetulus, Factor VIII metabolism, Glycosylation, Humans, Polysaccharides metabolism, Protein Domains, Recombinant Proteins metabolism, Serine Proteases chemistry, Serine Proteases metabolism, Structural Homology, Protein, Substrate Specificity, Thrombin metabolism, env Gene Products, Human Immunodeficiency Virus chemistry, AIDS Vaccines immunology, Gene Editing, Proteolysis, env Gene Products, Human Immunodeficiency Virus immunology

Abstract

Several candidate HIV subunit vaccines based on recombinant envelope (Env) glycoproteins have been advanced into human clinical trials. To facilitate biopharmaceutical production, it is necessary to produce these in CHO (Chinese Hamster Ovary) cells, the cellular substrate used for the manufacturing of most recombinant protein therapeutics. However, previous studies have shown that when recombinant Env proteins from clade B viruses, the major subtype represented in North America, Europe, and other parts of the world, are expressed in CHO cells, they are proteolyzed and lack important glycan-dependent epitopes present on virions. Previously, we identified C1s, a serine protease in the complement pathway, as the endogenous CHO protease responsible for the cleavage of clade B laboratory isolates of -recombinant gp120s (rgp120s) expressed in stable CHO-S cell lines. In this paper, we describe the development of two novel CHOK1 cell lines with the C1s gene inactivated by gene editing, that are suitable for the production of any protein susceptible to C1s proteolysis. One cell line, C1s-/- CHOK1 2.E7, contains a deletion in the C1s gene. The other cell line, C1s-/- MGAT1- CHOK1 1.A1, contains a deletion in both the C1s gene and the MGAT1 gene, which limits glycosylation to mannose-5 or earlier intermediates in the N-linked glycosylation pathway. In addition, we compare the substrate specificity of C1s with thrombin on the cleavage of both rgp120 and human Factor VIII, two recombinant proteins known to undergo unintended proteolysis (clipping) when expressed in CHO cells. Finally, we demonstrate the utility and practicality of the C1s-/- MGAT1- CHOK1 1.A1 cell line for the expression of clinical isolates of clade B Envs from rare individuals that possess broadly neutralizing antibodies and are able to control virus replication without anti-retroviral drugs (elite neutralizer/controller phenotypes). The Envs represent unique HIV vaccine immunogens suitable for further immunogenicity and efficacy studies., Competing Interests: Sophia W. Li and Phillip W. Berman have filed a patent on C1s‐deficient cells for the production of vaccines and biopharmaceutical proteins. The patent is entitled “Complement Component 1s (C1s) Deficient Cells for Production of Vaccines and Biopharmaceutical Proteins” with publication Number WO/2020/081328. This does not alter our adherence to PLOS ONE policies on sharing data and materials.

Published

2020

8. Identification and CRISPR/Cas9 Inactivation of the C1s Protease Responsible for Proteolysis of Recombinant Proteins Produced in CHO Cells.

Author

Li SW, Yu B, Byrne G, Wright M, O'Rourke S, Mesa K, and Berman PW

Subjects

Animals, CHO Cells, Cricetulus, HIV Envelope Protein gp120 genetics, Recombinant Proteins biosynthesis, Recombinant Proteins genetics, CRISPR-Cas Systems, Complement C1s genetics, Complement C1s metabolism, Gene Knockout Techniques, HIV Envelope Protein gp120 biosynthesis, HIV-1, Proteolysis

Abstract

Proteolysis associated with recombinant protein expression in Chinese Hamster Ovary (CHO) cells has hindered the development of biologics including HIV vaccines. When expressed in CHO cells, the recombinant HIV envelope protein, gp120, undergoes proteolytic clipping by a serine protease at a key epitope recognized by neutralizing antibodies. The problem is particularly acute for envelope proteins from clade B viruses that represent the major genetic subtype circulating in much of the developed world, including the US and Europe. In this paper, we have identified complement Component 1's (C1s), a serine protease from the complement cascade, as the protease responsible for the proteolysis of gp120 in CHO cells. CRISPR/Cas9 knockout of the C1s protease in a CHO cell line was shown to eliminate the proteolytic activity against the recombinantly expressed gp120. In addition, the C1s -/- MGAT1 - CHO cell line, with the C1s protease and the MGAT1 glycosyltransferase knocked out, enabled the production of unclipped gp120 from a clade B isolate (BaL-rgp120) and enriched for mannose-5 glycans on gp120 that are required for the binding of multiple broadly neutralizing monoclonal antibodies (bN-mAbs). The availability of this technology will allow for the scale-up and testing of multiple vaccine concepts in regions of the world where clade B viruses are in circulation. Furthermore, the proteolysis issues caused by the C1s protease suggests a broader need for a C1s-deficient CHO cell line to express other recombinant proteins that are susceptible to serine protease activity in CHO cells. Similarly, the workflow described here to identify and knockout C1s in a CHO cell line can be applied to remedy the proteolysis of biologics by other CHO proteases., (© 2019 Wiley Periodicals, Inc.)

Published

2019

9. Unusual Cysteine Content in V1 Region of gp120 From an Elite Suppressor That Produces Broadly Neutralizing Antibodies.

Author

Hutchinson JM, Mesa KA, Alexander DL, Yu B, O'Rourke SM, Limoli KL, Wrin T, Deeks SG, and Berman PW

Subjects

Adolescent, Adult, Aged, Amino Acid Sequence, Cohort Studies, Epitopes immunology, Female, HIV Infections virology, Humans, Male, Middle Aged, Phenotype, Phylogeny, Young Adult, Broadly Neutralizing Antibodies immunology, Cysteine, HIV Antibodies immunology, HIV Envelope Protein gp120 chemistry, HIV Infections immunology, HIV-1 chemistry, HIV-1 immunology, Peptide Fragments chemistry

Abstract

Although it is now possible to produce recombinant HIV envelope glycoproteins (Envs) with epitopes recognized by the 5-6 major classes of broadly neutralizing antibodies (bNAbs), these have failed to consistently stimulate the formation of bNAbs in immunized animals or humans. In an effort to identify new immunogens better able to elicit bNAbs, we are studying Envs derived from rare individuals who possess bNAbs and are able to control their infection without the need for anti-retroviral drugs (elite supressors or ES), hypothesizing that in at least some people the antibodies may mediate durable virus control. Because virus evolution in people with the ES only phenotype was reported to be limited, we reasoned the Env proteins recovered from these individuals may more closely resemble the Envs that gave rise to bNAbs compared to the highly diverse viruses isolated from normal progressors. Using a phenotypic assay, we screened 25 controllers and identified two for more detailed investigation. In this study, we examined 20 clade B proviral sequences isolated from an African American woman, who had the rare bNAb/ES phenotype. Phylogenetic analysis of proviral envelope sequences demonstrated low genetic diversity. Envelope proteins were unusual in that most possessed two extra cysteines within an elongated V1 region. In this report, we examine the impact of the extra cysteines on the binding to bNAbs, virus infectivity, and sensitivity to neutralization. These data suggest structural motifs in V1 can affect infectivity, and that rare viruses may be prevented from developing escape.

Published

2019

10. Ancestral sequences from an elite neutralizer proximal to the development of neutralization resistance as a potential source of HIV vaccine immunogens.

Author

Mesa KA, Yu B, Wrin T, Petropoulos CJ, Pogson GH, Alexander DL, Perez G, O'Rourke SM, Sinangil F, Robinson J, Conant MA, and Berman PW

Subjects

AIDS Vaccines blood, AIDS Vaccines immunology, Broadly Neutralizing Antibodies immunology, Epitopes genetics, Epitopes immunology, HIV genetics, HIV pathogenicity, HIV Antibodies blood, HIV Antibodies genetics, HIV Antibodies immunology, HIV Antigens blood, HIV Antigens genetics, HIV Antigens immunology, HIV Infections blood, HIV Infections genetics, HIV Infections virology, Humans, Immunogenicity, Vaccine genetics, Neutralization Tests, Phylogeny, Proviruses genetics, Proviruses immunology, env Gene Products, Human Immunodeficiency Virus, AIDS Vaccines genetics, Broadly Neutralizing Antibodies genetics, HIV immunology, HIV Infections immunology

Abstract

A major challenge in HIV vaccine development is the identification of immunogens able to elicit broadly neutralizing antibodies (bNAbs). While remarkable progress has been made in the isolation and characterization of bNAbs, the epitopes they recognize appear to be poorly immunogenic. Thus, none of the candidate vaccines developed to date has induced satisfactory levels of neutralizing antibodies to the HIV envelope protein (Env). One approach to the problem of poor immunogenicity is to build vaccines based on envelope (env) genes retrieved from rare individuals termed elite neutralizers (ENs) who at one time possessed specific sequences that stimulated the formation of bNAbs. Env proteins selected from these individuals could possess uncommon, yet to be defined, structural features that enhance the immunogenicity of epitopes recognized by bNAbs. Here we describe the recovery of envs from an EN that developed unusually broad and potent bNAbs. As longitudinal specimens were not available, we combined plasma and provirus sequences acquired from a single time-point to infer a phylogenetic tree. Combining ancestral reconstruction data with virus neutralization data allowed us to sift through the myriad of virus quasi-species that evolved in this individual to identify envelope sequences from the nodes that appeared to define the transition from neutralization sensitive envs to the neutralization resistant envs that occur in EN plasma. Synthetic genes from these nodes were functional in infectivity assays and sensitive to neutralization by bNAbs, and may provide a novel source of immunogens for HIV vaccine development., Competing Interests: None of the authors have competing financial or non-financial interests that influenced the collection or interpretation of the data. Although CJP and TW have a commercial affiliation to Monogram Biosciences Inc, this did not alter our adherence to PLoS One policies on sharing data and materials.

Published

2019

11. Production of a recombinant monoclonal antibody to Herpes Simplex Virus glycoprotein D for immunoaffinity purification of tagged proteins.

Author

O'Rourke SM, Yu B, Morales JF, Didinger CM, Alexander DL, Vollmers C, and Berman PW

Subjects

Animals, Antibodies, Monoclonal, Murine-Derived genetics, Antibodies, Monoclonal, Murine-Derived immunology, Antibodies, Viral genetics, Antibodies, Viral immunology, CHO Cells, Cricetulus, Herpesvirus 1, Human immunology, Humans, Mice, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins immunology, Viral Envelope Proteins immunology, Antibodies, Monoclonal, Murine-Derived chemistry, Antibodies, Viral chemistry, Herpesvirus 1, Human chemistry, Viral Envelope Proteins chemistry

Abstract

We have developed a stable Chinese Hamster Ovary (CHO) cell line for the production of a recombinant monoclonal antibody (mAb) to a short protein sequence derived from the N-terminus of human herpes simplex virus type 1 glycoprotein D (HSV-1 gD). The antibody (designated r34.1) provides a useful tool for the immunoaffinity purification of HSV-1 gD tagged proteins, and provides a generic purification system by which various proteins and peptides can be purified. Recombinant 34.1 was assembled using cDNA derived from a HSV-1 gD specific murine hybridoma engineered to encode a full-length IgG molecule. Antibody expression cassettes were transfected into CHO-S cells, and a stable cell-line expressing up to 500 mg/L of antibody, isolated. Affinity purified r34.1 exhibited nanomolar affinity for its cognate ligand, and is stable throughout multiple cycles of immunoaffinity purification involving ligand binding at neutral pH, followed by acid elution. The HSV-1 gD tag expression and purification strategy has been used to enhance the secretion and purification of several vaccine immunogens including HIV envelope protein rgp120s, but the protocol has potential for generic application., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2019

12. Development of a Stable MGAT1 - CHO Cell Line to Produce Clade C gp120 With Improved Binding to Broadly Neutralizing Antibodies.

Author

Doran RC, Yu B, Wright M, O'Rourke SM, Yin L, Richardson JM, Byrne G, Mesa KA, and Berman PW

Subjects

Amino Acid Sequence, Animals, Antibodies, Neutralizing immunology, CHO Cells, Cricetulus, Genotype, Glycosylation, HIV Envelope Protein gp120 chemistry, HIV Infections virology, HIV-1 classification, HIV-1 genetics, Humans, N-Acetylglucosaminyltransferases metabolism, Protein Binding, HIV Antibodies immunology, HIV Envelope Protein gp120 biosynthesis, HIV Envelope Protein gp120 immunology, HIV Infections immunology, HIV Infections metabolism, HIV-1 immunology, N-Acetylglucosaminyltransferases genetics

Abstract

The high rate of new HIV infections, particularly in Sub-Saharan Africa, emphasizes the need for a safe and effective vaccine to prevent acquired immunodeficiency syndrome (AIDS). To date, the only HIV vaccine trial that has exhibited protective efficacy in humans was the RV144 study completed in Thailand. The finding that protection correlated with antibodies to gp120 suggested that increasing the quality or magnitude of the antibody response that recognize gp120 might improve the modest yet significant protection (31.2%) achieved with this immunization regimen. However, the large-scale production of rgp120 suitable for clinical trials has been challenging due, in part, to low productivity and difficulties in purification. Moreover, the antigens that are currently available were produced largely by the same technology used in the early 1990s and fail to incorporate unique carbohydrates presented on HIV virions required for the binding of several major families of broadly neutralizing antibodies (bNAbs). Here we describe the development of a high-yielding CHO cell line expressing rgp120 from a clade C isolate (TZ97008), representative of the predominant circulating HIV subtype in Southern Africa and Southeast Asia. This cell line, produced using robotic selection, expresses high levels (1.2 g/L) of the TZ97008 rgp120 antigen that incorporates oligomannose glycans required for binding to multiple glycan dependent bNAbs. The resulting rgp120 displays a lower degree of net charge and glycoform heterogeneity as compared to rgp120s produced in normal CHO cells. This homogeneity in net charge facilitates purification by filtration and ion exchange chromatography methods, eliminating the need for expensive custom-made lectin, or immunoaffinity columns. The results described herein document the availability of a novel cell line for the large-scale production of clade C gp120 for clinical trials. Finally, the strategy used to produce a TZ97008 gp120 in the MGAT - CHO cell line can be applied to the production of other candidate HIV vaccines.

Published

2018

13. CRISPR/Cas9 gene editing for the creation of an MGAT1-deficient CHO cell line to control HIV-1 vaccine glycosylation.

Author

Byrne G, O'Rourke SM, Alexander DL, Yu B, Doran RC, Wright M, Chen Q, Azadi P, and Berman PW

Subjects

Amino Acid Sequence, Animals, Antibodies, Neutralizing metabolism, CRISPR-Cas Systems genetics, Clustered Regularly Interspaced Short Palindromic Repeats, Cricetinae, Cricetulus, Epitopes, Glycosylation, HIV Envelope Protein gp120 metabolism, HIV Envelope Protein gp120 physiology, HIV Seropositivity, HIV-1 genetics, Humans, N-Acetylglucosaminyltransferases genetics, N-Acetylglucosaminyltransferases physiology, Polysaccharides metabolism, Protein Engineering methods, AIDS Vaccines metabolism, CHO Cells physiology, Gene Editing methods

Abstract

Over the last decade, multiple broadly neutralizing monoclonal antibodies (bN-mAbs) to the HIV-1 envelope protein (Env) gp120 have been described. Many of these recognize epitopes consisting of both amino acid and glycan residues. Moreover, the glycans required for binding of these bN-mAbs are early intermediates in the N-linked glycosylation pathway. This type of glycosylation substantially alters the mass and net charge of Envs compared to molecules with the same amino acid sequence but possessing mature, complex (sialic acid-containing) carbohydrates. Since cell lines suitable for biopharmaceutical production that limit N-linked glycosylation to mannose-5 (Man5) or earlier intermediates are not readily available, the production of vaccine immunogens displaying these glycan-dependent epitopes has been challenging. Here, we report the development of a stable suspension-adapted Chinese hamster ovary (CHO) cell line that limits glycosylation to Man5 and earlier intermediates. This cell line was created using the clustered regularly interspaced short palindromic repeat (CRISPR)/CRISPR-associated protein 9 (Cas9) gene editing system and contains a mutation that inactivates the gene encoding Mannosyl (Alpha-1,3-)-Glycoprotein Beta-1,2-N-Acetylglucosaminyltransferase (MGAT1). Monomeric gp120s produced in the MGAT1- CHO cell line exhibit improved binding to prototypic glycan-dependent bN-mAbs directed to the V1/V2 domain (e.g., PG9) and the V3 stem (e.g., PGT128 and 10-1074) while preserving the structure of the important glycan-independent epitopes (e.g., VRC01). The ability of the MGAT1- CHO cell line to limit glycosylation to early intermediates in the N-linked glycosylation pathway without impairing the doubling time or ability to grow at high cell densities suggests that it will be a useful substrate for the biopharmaceutical production of HIV-1 vaccine immunogens., Competing Interests: The authors have declared that no competing interests exist.

Published

2018

14. Robotic selection for the rapid development of stable CHO cell lines for HIV vaccine production.

Author

O'Rourke SM, Byrne G, Tatsuno G, Wright M, Yu B, Mesa KA, Doran RC, Alexander D, and Berman PW

Subjects

Animals, Antibodies, Neutralizing isolation & purification, Automation, Laboratory methods, CHO Cells, Cricetinae, Cricetulus, HEK293 Cells, HIV Antibodies immunology, HIV Antibodies isolation & purification, Humans, AIDS Vaccines metabolism, Antibody Formation, HIV-1 immunology, High-Throughput Screening Assays instrumentation, High-Throughput Screening Assays methods, Robotics instrumentation, Robotics methods

Abstract

The production of envelope glycoproteins (Envs) for use as HIV vaccines is challenging. The yield of Envs expressed in stable Chinese Hamster Ovary (CHO) cell lines is typically 10-100 fold lower than other glycoproteins of pharmaceutical interest. Moreover, Envs produced in CHO cells are typically enriched for sialic acid containing glycans compared to virus associated Envs that possess mainly high-mannose carbohydrates. This difference alters the net charge and biophysical properties of Envs and impacts their antigenic structure. Here we employ a novel robotic cell line selection strategy to address the problems of low expression. Additionally, we employed a novel gene-edited CHO cell line (MGAT1- CHO) to address the problems of high sialic acid content, and poor antigenic structure. We demonstrate that stable cell lines expressing high levels of gp120, potentially suitable for biopharmaceutical production can be created using the MGAT1- CHO cell line. Finally, we describe a MGAT1- CHO cell line expressing A244-rgp120 that exhibits improved binding of three major families of bN-mAbs compared to Envs produced in normal CHO cells. The new strategy described has the potential to eliminate the bottleneck in HIV vaccine development that has limited the field for more than 25 years., Competing Interests: The authors have declared that no competing interests exist.

Published

2018

15. Glycan modifications to the gp120 immunogens used in the RV144 vaccine trial improve binding to broadly neutralizing antibodies.

Author

Doran RC, Tatsuno GP, O'Rourke SM, Yu B, Alexander DL, Mesa KA, and Berman PW

Subjects

Antibodies, Neutralizing genetics, Antibodies, Neutralizing immunology, Catalytic Domain genetics, Clinical Trials as Topic, Glycosylation, HIV Infections immunology, HIV Infections prevention & control, HIV-1 immunology, Humans, Immunization methods, Mutagenesis, Site-Directed, Polysaccharides genetics, Polysaccharides immunology, Protein Binding genetics, AIDS Vaccines chemistry, AIDS Vaccines genetics, AIDS Vaccines immunology, AIDS Vaccines metabolism, Antibodies, Neutralizing metabolism, Binding Sites, Antibody genetics, HIV Envelope Protein gp120 chemistry, HIV Envelope Protein gp120 genetics, HIV Envelope Protein gp120 immunology, HIV Envelope Protein gp120 metabolism, Polysaccharides metabolism, Protein Engineering methods

Abstract

To date, the RV144 HIV vaccine trial has been the only study to show that immunization can confer protection from HIV infection. While encouraging, the modest 31.2% (P = 0.04) efficacy achieved in this study left significant room for improvement, and created an incentive to optimize the AIDSVAX B/E vaccine immunogens to increase the level of vaccine efficacy. Since the completion of the RV144 trial, our understanding of the antigenic structure of the HIV envelope protein, gp120, and of the specificity of broadly neutralizing monoclonal antibodies (bN-mAbs) that bind to it, has significantly improved. In particular, we have learned that multiple families of bN-mAbs require specific oligomannose glycans for binding. Both of the monomeric gp120 immunogens (MN- and A244-rgp120) in the AIDSVAX B/E vaccine used in the RV144 trial were enriched for glycans containing high levels of sialic acid, and lacked critical N-linked glycosylation sites required for binding by several families of bN-mAbs. The absence of these epitopes may have contributed to the low level of efficacy achieved in this study. In this report, we describe our efforts to improve the antigenic structure of the rgp120 immunogens used in the vaccine by optimizing glycan-dependent epitopes recognized by multiple bN-mAbs. Our results demonstrated that by shifting the location of one PNGS in A244-rgp120, and by adding two PNGS to MN-rgp120, in conjunction with the production of both proteins in a cell line that favors the incorporation of oligomannose glycans, we could significantly improve the binding by three major families of bN-mAbs. The immunogens described here represent a second generation of gp120-based vaccine immunogens that exhibit potential for use in RV144 follow-up studies.

Published

2018

16. HIV-1 Envelope Glycoproteins from Diverse Clades Differentiate Antibody Responses and Durability among Vaccinees.

Author

Yates NL, deCamp AC, Korber BT, Liao HX, Irene C, Pinter A, Peacock J, Harris LJ, Sawant S, Hraber P, Shen X, Rerks-Ngarm S, Pitisuttithum P, Nitayapan S, Berman PW, Robb ML, Pantaleo G, Zolla-Pazner S, Haynes BF, Alam SM, Montefiori DC, and Tomaras GD

Subjects

AIDS Vaccines genetics, Animals, HIV Envelope Protein gp120 genetics, HIV Infections genetics, HIV-1 genetics, Humans, Macaca mulatta, AIDS Vaccines immunology, Genetic Variation immunology, HIV Antibodies immunology, HIV Envelope Protein gp120 immunology, HIV Infections immunology, HIV-1 immunology

Abstract

Induction of broadly cross-reactive antiviral humoral responses with the capacity to target globally diverse circulating strains is a key goal for HIV-1 immunogen design. A major gap in the field is the identification of diverse HIV-1 envelope antigens to evaluate vaccine regimens for binding antibody breadth. In this study, we define unique antigen panels to map HIV-1 vaccine-elicited antibody breadth and durability. Diverse HIV-1 envelope glycoproteins were selected based on genetic and geographic diversity to cover the global epidemic, with a focus on sexually acquired transmitted/founder viruses with a tier 2 neutralization phenotype. Unique antigenicity was determined by nonredundancy (Spearman correlation), and antigens were clustered using partitioning around medoids (PAM) to identify antigen diversity. Cross-validation demonstrated that the PAM method was better than selection by reactivity and random selection. Analysis of vaccine-elicited V1V2 binding antibody in longitudinal samples from the RV144 clinical trial revealed the striking heterogeneity among individual vaccinees in maintaining durable responses. These data support the idea that a major goal for vaccine development is to improve antibody levels, breadth, and durability at the population level. Elucidating the level and durability of vaccine-elicited binding antibody breadth needed for protection is critical for the development of a globally efficacious HIV vaccine. IMPORTANCE The path toward an efficacious HIV-1 vaccine will require characterization of vaccine-induced immunity that can recognize and target the highly genetically diverse virus envelope glycoproteins. Antibodies that target the envelope glycoproteins, including diverse sequences within the first and second hypervariable regions (V1V2) of gp120, were identified as correlates of risk for the one partially efficacious HIV-1 vaccine. To build upon this discovery, we experimentally and computationally evaluated humoral responses to define envelope glycoproteins representative of the antigenic diversity of HIV globally. These diverse envelope antigens distinguished binding antibody breadth and durability among vaccine candidates, thus providing insights for advancing the most promising HIV-1 vaccine candidates., (Copyright © 2018 Yates et al.)

Published

2018

17. Effects of Cross-Presentation, Antigen Processing, and Peptide Binding in HIV Evasion of T Cell Immunity.

Author

Frey BF, Jiang J, Sui Y, Boyd LF, Yu B, Tatsuno G, Billeskov R, Solaymani-Mohammadi S, Berman PW, Margulies DH, and Berzofsky JA

Subjects

Animals, Cathepsins immunology, Dendritic Cells immunology, Epitopes, T-Lymphocyte immunology, HEK293 Cells, HIV Envelope Protein gp120 immunology, Histocompatibility Antigens Class I immunology, Humans, Immunodominant Epitopes immunology, Mice, Mice, Inbred BALB C, Vaccinia virus immunology, Antigen Presentation immunology, CD4-Positive T-Lymphocytes immunology, Cross-Priming immunology, HIV immunology, HIV Infections immunology, Immune Evasion immunology, Peptides immunology

Abstract

Unlike cytosolic processing and presentation of viral Ags by virus-infected cells, Ags first expressed in infected nonprofessional APCs, such as CD4 + T cells in the case of HIV, are taken up by dendritic cells and cross-presented. This generally requires entry through the endocytic pathway, where endosomal proteases have first access for processing. Thus, understanding virus escape during cross-presentation requires an understanding of resistance to endosomal proteases, such as cathepsin S (CatS). We have modified HIV-1 MN gp120 by mutating a key CatS cleavage site (Thr 322 Thr 323 ) in the V3 loop of the immunodominant epitope IGPGRAFY TT to IGPGRAFY VV to prevent digestion. We found this mutation to facilitate cross-presentation and provide evidence from MHC binding and X-ray crystallographic structural studies that this results from preservation of the epitope rather than an increased epitope affinity for the MHC class I molecule. In contrast, when the protein is expressed by a vaccinia virus in the cytosol, the wild-type protein is immunogenic without this mutation. These proof-of-concept results show that a virus like HIV, infecting predominantly nonprofessional presenting cells, can escape T cell recognition by incorporating a CatS cleavage site that leads to destruction of an immunodominant epitope when the Ag undergoes endosomal cross-presentation., (Copyright © 2018 by The American Association of Immunologists, Inc.)

Published

2018

18. Monoclonal Antibodies, Derived from Humans Vaccinated with the RV144 HIV Vaccine Containing the HVEM Binding Domain of Herpes Simplex Virus (HSV) Glycoprotein D, Neutralize HSV Infection, Mediate Antibody-Dependent Cellular Cytotoxicity, and Protect Mice from Ocular Challenge with HSV-1.

Author

Wang K, Tomaras GD, Jegaskanda S, Moody MA, Liao HX, Goodman KN, Berman PW, Rerks-Ngarm S, Pitisuttithum P, Nitayapan S, Kaewkungwal J, Haynes BF, and Cohen JI

Subjects

Animals, Antibodies, Monoclonal administration & dosage, Antibody-Dependent Cell Cytotoxicity immunology, Cell Line, Eye Diseases virology, Female, HIV Envelope Protein gp120 genetics, Herpes Simplex immunology, Herpes Simplex virology, Humans, Killer Cells, Natural immunology, Leukocytes, Mononuclear immunology, Lymphocyte Activation immunology, Mice, Mice, Inbred BALB C, Simplexvirus genetics, Viral Envelope Proteins genetics, AIDS Vaccines immunology, Antibodies, Monoclonal immunology, Eye Diseases prevention & control, HIV Envelope Protein gp120 immunology, Herpes Simplex prevention & control, Receptors, Tumor Necrosis Factor, Member 14 immunology, Simplexvirus immunology, Viral Envelope Proteins immunology

Abstract

The RV144 HIV vaccine trial included a recombinant HIV glycoprotein 120 (gp120) construct fused to a small portion of herpes simplex virus 1 (HSV-1) glycoprotein D (gD) so that the first 40 amino acids of gp120 were replaced by the signal sequence and the first 27 amino acids of the mature form of gD. This region of gD contains most of the binding site for HVEM, an HSV receptor important for virus infection of epithelial cells and lymphocytes. RV144 induced antibodies to HIV that were partially protective against infection, as well as antibodies to HSV. We derived monoclonal antibodies (MAbs) from peripheral blood B cells of recipients of the RV144 HIV vaccine and showed that these antibodies neutralized HSV-1 infection in cells expressing HVEM, but not the other major virus receptor, nectin-1. The MAbs mediated antibody-dependent cellular cytotoxicity (ADCC), and mice that received the MAbs and were then challenged by corneal inoculation with HSV-1 had reduced eye disease, shedding, and latent infection. To our knowledge, this is the first description of MAbs derived from human recipients of a vaccine that specifically target the HVEM binding site of gD. In summary, we found that monoclonal antibodies derived from humans vaccinated with the HVEM binding domain of HSV-1 gD (i) neutralized HSV-1 infection in a cell receptor-specific manner, (ii) mediated ADCC, and (iii) reduced ocular disease in virus-infected mice. IMPORTANCE Herpes simplex virus 1 (HSV-1) causes cold sores and neonatal herpes and is a leading cause of blindness. Despite many trials, no HSV vaccine has been approved. Nectin-1 and HVEM are the two major cellular receptors for HSV. These receptors are expressed at different levels in various tissues, and the role of each receptor in HSV pathogenesis is not well understood. We derived human monoclonal antibodies from persons who received the HIV RV144 vaccine that contained the HVEM binding domain of HSV-1 gD fused to HIV gp120. These antibodies were able to specifically neutralize HSV-1 infection in vitro via HVEM. Furthermore, we showed for the first time that HVEM-specific HSV-1 neutralizing antibodies protect mice from HSV-1 eye disease, indicating the critical role of HVEM in HSV-1 ocular infection., (Copyright © 2017 American Society for Microbiology.)

Published

2017

19. V1V2-specific complement activating serum IgG as a correlate of reduced HIV-1 infection risk in RV144.

Author

Perez LG, Martinez DR, deCamp AC, Pinter A, Berman PW, Francis D, Sinangil F, Lee C, Greene K, Gao H, Nitayaphan S, Rerks-Ngarm S, Kaewkungwal J, Pitisuttithum P, Tartaglia J, O'Connell RJ, Robb ML, Michael NL, Kim JH, Gilbert P, and Montefiori DC

Subjects

AIDS Vaccines immunology, Amino Acid Sequence, Antibodies, Monoclonal immunology, Antibodies, Neutralizing immunology, HIV Envelope Protein gp120 immunology, HIV-1, Humans, AIDS Vaccines administration & dosage, Complement Activation, HIV Infections immunology, Immunoglobulin G blood

Abstract

Non-neutralizing IgG to the V1V2 loop of HIV-1 gp120 correlates with a decreased risk of HIV-1 infection but the mechanism of protection remains unknown. This V1V2 IgG correlate was identified in RV144 Thai trial vaccine recipients, who were primed with a canarypox vector expressing membrane-bound gp120 (vCP1521) and boosted with vCP1521 plus a mixture gp120 proteins from clade B and clade CRF01_AE (B/E gp120). We sought to determine whether the mechanism of vaccine protection might involve antibody-dependent complement activation. Complement activation was measured as a function of complement component C3d deposition on V1V2-coated beads in the presence of RV144 sera. Variable levels of complement activation were detected two weeks post final boosting in RV144, which is when the V1V2 IgG correlate was identified. The magnitude of complement activation correlated with V1V2-specific serum IgG and was stronger and more common in RV144 than in HIV-1 infected individuals and two related HIV-1 vaccine trials, VAX003 and VAX004, where no protection was seen. After adjusting for gp120 IgA, V1V2 IgG, gender, and risk score, complement activation by case-control plasmas from RV144 correlated inversely with a reduced risk of HIV-1 infection, with odds ratio for positive versus negative response to TH023-V1V2 0.42 (95% CI 0.18 to 0.99, p = 0.048) and to A244-V1V2 0.49 (95% CI 0.21 to 1.10, p = 0.085). These results suggest that complement activity may have contributed in part to modest protection against the acquisition of HIV-1 infection seen in the RV144 trial.

Published

2017

20. Antibody to HSV gD peptide induced by vaccination does not protect against HSV-2 infection in HSV-2 seronegative women.

Author

Gilbert PB, Excler JL, Tomaras GD, Carpp LN, Haynes BF, Liao HX, Montefiori DC, Rerks-Ngarm S, Pitisuttithum P, Nitayaphan S, Kaewkungwal J, Kijak GH, Tovanabutra S, Francis DP, Lee C, Sinangil F, Berman PW, Premsri N, Kunasol P, O'Connell RJ, Michael NL, Robb ML, Morrow R, Corey L, and Kim JH

Subjects

AIDS Vaccines administration & dosage, Adult, Female, HIV Antibodies administration & dosage, HIV Envelope Protein gp120 genetics, HIV Envelope Protein gp120 immunology, HIV Infections immunology, HIV Infections virology, HIV-1 immunology, HIV-1 pathogenicity, Herpes Simplex genetics, Herpes Simplex immunology, Herpes Simplex virology, Herpesvirus 1, Human immunology, Herpesvirus 1, Human pathogenicity, Herpesvirus 2, Human immunology, Herpesvirus 2, Human pathogenicity, Humans, Immunoglobulin A immunology, Immunoglobulin G immunology, Male, Vaccines, Synthetic administration & dosage, Vaccines, Synthetic immunology, Viral Envelope Proteins genetics, Viral Envelope Proteins immunology, AIDS Vaccines immunology, HIV Antibodies immunology, HIV Infections prevention & control, Herpes Simplex prevention & control

Abstract

Background: In the HIV-1 vaccine trial RV144, ALVAC-HIV prime with an AIDSVAX® B/E boost reduced HIV-1 acquisition by 31% at 42 months post first vaccination. The bivalent AIDSVAX® B/E vaccine contains two gp120 envelope glycoproteins, one from the subtype B HIV-1 MN isolate and one from the subtype CRF01_AE A244 isolate. Each envelope glycoprotein harbors a highly conserved 27-amino acid HSV-1 glycoprotein D (gD) tag sequence that shares 93% sequence identity with the HSV-2 gD sequence. We assessed whether vaccine-induced anti-gD antibodies protected females against HSV-2 acquisition in RV144., Methods: Of the women enrolled in RV144, 777 vaccine and 807 placebo recipients were eligible and randomly selected according to their pre-vaccination HSV-1 and HSV-2 serostatus for analysis. Immunoglobulin G (IgG) and IgA responses to gD were determined by a binding antibody multiplex assay and HSV-2 serostatus was determined by Western blot analysis. Ninety-three percent and 75% of the vaccine recipients had anti-gD IgG and IgA responses two weeks post last vaccination, respectively. There was no evidence of reduction in HSV-2 infection by vaccination compared to placebo recipients over 78 weeks of follow-up. The annual incidence of HSV-2 infection in individuals who were HSV-2 negative at baseline or HSV-1 positive and HSV-2 indeterminate at baseline were 4.38/100 person-years (py) and 3.28/100 py in the vaccine and placebo groups, respectively. Baseline HSV-1 status did not affect subsequent HSV-2 acquisition. Specifically, the estimated odds ratio of HSV-2 infection by Week 78 for female placebo recipients who were baseline HSV-1 positive (n = 422) vs. negative (n = 1120) was 1.14 [95% confidence interval 0.66 to 1.94, p = 0.64)]. No evidence of reduction in the incidence of HSV-2 infection by vaccination was detected., Conclusions: AIDSVAX® B/E containing gD did not confer protection from HSV-2 acquisition in HSV-2 seronegative women, despite eliciting anti-gD serum antibodies.

Published

2017

21. Peptide Targeted by Human Antibodies Associated with HIV Vaccine-Associated Protection Assumes a Dynamic α-Helical Structure.

Author

Aiyegbo MS, Shmelkov E, Dominguez L, Goger M, Battacharya S, deCamp AC, Gilbert PB, Berman PW, and Cardozo T

Subjects

Amino Acid Sequence, Antibodies, Neutralizing immunology, Conserved Sequence genetics, HIV Antibodies immunology, HIV-1 genetics, Humans, Magnetic Resonance Spectroscopy, Models, Molecular, Peptide Fragments chemistry, Peptide Fragments immunology, Protein Folding, AIDS Vaccines immunology, HIV Envelope Protein gp120 chemistry, HIV Envelope Protein gp120 immunology, HIV-1 immunology, Protein Conformation, alpha-Helical

Abstract

The only evidence of vaccine-induced protection from HIV acquisition in humans was obtained in the RV144 HIV vaccine clinical trial. One immune correlate of risk in RV144 was observed to be higher titers of vaccine-induced antibodies (Abs) reacting with a 23-mer non-glycosylated peptide with the same amino acid sequence as a segment in the second variable (V2) loop of the MN strain of HIV. We used NMR to analyze the dynamic 3D structure of this peptide. Distance restraints between spatially proximate inter-residue protons were calculated from NOE cross peak intensities and used to constrain a thorough search of all possible conformations of the peptide. α-helical folding was strongly preferred by part of the peptide. A high-throughput structure prediction of this segment in all circulating HIV strains demonstrated that α-helical conformations are preferred by this segment almost universally across all subtypes. Notably, α-helical conformations of this segment of the V2 loop cluster cross-subtype-conserved amino acids on one face of the helix and the variable amino acid positions on the other in a semblance of an amphipathic α-helix. Accordingly, some Abs that protected against HIV in RV144 may have targeted a specific, conserved α-helical peptide epitope in the V2 loop of HIV's surface envelope glycoprotein., Competing Interests: The authors have declared that no competing interests exist.

Published

2017

22. Fragments of the V1/V2 domain of HIV-1 glycoprotein 120 engineered for improved binding to the broadly neutralizing PG9 antibody.

Author

Morales JF, Yu B, Perez G, Mesa KA, Alexander DL, and Berman PW

Subjects

Antibodies, Neutralizing immunology, Chromatography, Gel, Enzyme-Linked Immunosorbent Assay, Epitopes, B-Lymphocyte immunology, Glycopeptides immunology, HEK293 Cells, Humans, Protein Conformation, Protein Domains immunology, Surface Plasmon Resonance, AIDS Vaccines immunology, HIV Antibodies immunology, HIV Envelope Protein gp120 immunology, HIV-1 immunology, Peptide Fragments immunology, Protein Engineering methods

Abstract

The V1/V2 domain of the HIV-1 envelope protein gp120 possesses two important epitopes: a glycan-dependent epitope recognized by the prototypic broadly neutralizing monoclonal antibody (bN-mAb), PG9, as well as an epitope recognized by non-neutralizing antibodies that has been associated with protection from HIV infection in the RV144 HIV vaccine trial. Because both of these epitopes are poorly immunogenic in the context of full length envelope proteins, immunization with properly folded and glycosylated fragments (scaffolds) represents a potential way to enhance the immune response to these specific epitopes. Previous studies showed that V1/V2 domain scaffolds could be produced from a few selected isolates, but not from many of the isolates that would be advantageous in a multivalent vaccine. In this paper, we used a protein engineering approach to improve the conformational stability and antibody binding activity of V1/V2 domain scaffolds from multiple diverse isolates, including several that were initially unable to bind the prototypic PG9 bN-mAb. Significantly, this effort required replicating both the correct glycan structure as well as the β-sheet structure required for PG9 binding. Although scaffolds incorporating the glycans required for PG9 binding (e.g., mannose-5) can be produced using glycosylation inhibitors (e.g., swainsonine), or mutant cell lines (e.g. GnTI(-) 293 HEK), these are not practical for biopharmaceutical production of proteins intended for clinical trials. In this report, we describe engineered glycopeptide scaffolds from three different clades of HIV-1 that bind PG9 with high affinity when expressed in a wildtype cell line suitable for biopharmaceutical production. The mutations that improved PG9 binding to scaffolds produced in normal cells included amino acid positions outside of the antibody contact region designed to stabilize the β-sheet and turn structures. The scaffolds produced address three major problems in HIV vaccine development: (1) improving antibody responses to poorly immunogenic epitopes in the V1/V2 domain; (2) eliminating antibody responses to highly immunogenic (decoy) epitopes outside the V1/V2 domain; and (3) enabling the production of V1/V2 scaffolds in a cell line suitable for biopharmaceutical production., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

23. Glycans flanking the hypervariable connecting peptide between the A and B strands of the V1/V2 domain of HIV-1 gp120 confer resistance to antibodies that neutralize CRF01_AE viruses.

Author

O'Rourke SM, Sutthent R, Phung P, Mesa KA, Frigon NL, To B, Horthongkham N, Limoli K, Wrin T, and Berman PW

Subjects

Amino Acid Sequence, Drug Users, Genotype, HIV Fusion Inhibitors pharmacology, HIV Infections immunology, HIV Infections virology, HIV-1 drug effects, HIV-1 genetics, HIV-1 immunology, Humans, Models, Molecular, Molecular Sequence Data, Mutation, Neutralization Tests, Peptides chemistry, Protein Binding, Protein Conformation, Sequence Alignment, Antibodies, Neutralizing immunology, HIV Antibodies immunology, HIV Envelope Protein gp120 chemistry, HIV Envelope Protein gp120 immunology, Peptides immunology, Polysaccharides immunology, Protein Interaction Domains and Motifs immunology

Abstract

Understanding the molecular determinants of sensitivity and resistance to neutralizing antibodies is critical for the development of vaccines designed to prevent HIV infection. In this study, we used a genetic approach to characterize naturally occurring polymorphisms in the HIV envelope protein that conferred neutralization sensitivity or resistance. Libraries of closely related envelope genes, derived from virus quasi-species, were constructed from individuals infected with CRF01_AE viruses. The libraries were screened with plasma containing broadly neutralizing antibodies, and neutralization sensitive and resistant variants were selected for sequence analysis. In vitro mutagenesis allowed us to identify single amino acid changes in three individuals that conferred resistance to neutralization by these antibodies. All three mutations created N-linked glycosylation sites (two at N136 and one at N149) proximal to the hypervariable connecting peptide between the C-terminus of the A strand and the N-terminus of the B strand in the four-stranded V1/V2 domain β-sheet structure. Although N136 has previously been implicated in the binding of broadly neutralizing monoclonal antibodies, this glycosylation site appears to inhibit the binding of neutralizing antibodies in plasma from HIV-1 infected subjects. Previous studies have reported that the length of the V1/V2 domain in transmitted founder viruses is shorter and possesses fewer glycosylation sites compared to viruses isolated from chronic infections. Our results suggest that vaccine immunogens based on recombinant envelope proteins from clade CRF01_AE viruses might be improved by inclusion of envelope proteins that lack these glycosylation sites. This strategy might improve the efficacy of the vaccines used in the partially successful RV144 HIV vaccine trial, where the two CRF01_AE immunogens (derived from the A244 and TH023 isolates) both possessed glycosylation sites at N136 and N149.

Published

2015

24. Characterization of a monoclonal antibody to a novel glycan-dependent epitope in the V1/V2 domain of the HIV-1 envelope protein, gp120.

Author

Doran RC, Morales JF, To B, Morin TJ, Theolis R Jr, O'Rourke SM, Yu B, Mesa KA, and Berman PW

Subjects

AIDS Vaccines immunology, AIDS Vaccines isolation & purification, Amino Acid Sequence, Animals, Antibodies, Monoclonal chemistry, Antibodies, Neutralizing immunology, Antibodies, Neutralizing isolation & purification, Cells, Cultured, Epitope Mapping, Epitopes chemistry, HEK293 Cells, HIV Envelope Protein gp120 chemistry, HIV Envelope Protein gp120 genetics, Humans, Mice, Mice, Inbred BALB C, Molecular Sequence Data, Mutagenesis, Site-Directed, Protein Structure, Tertiary, Antibodies, Monoclonal immunology, Epitopes immunology, HIV Envelope Protein gp120 immunology, Polysaccharides immunology

Abstract

Recent studies have described several broadly neutralizing monoclonal antibodies (bN-mAbs) that recognize glycan-dependent epitopes (GDEs) in the HIV-1 envelope protein, gp120. These were recovered from HIV-1 infected subjects, and several (e.g., PG9, PG16, CH01, CH03) target glycans in the first and second variable (V1/V2) domain of gp120. The V1/V2 domain is thought to play an important role in conformational masking, and antibodies to the V1/V2 domain were recently identified as the only immune response that correlated with protection in the RV144 HIV-1 vaccine trial. While the importance of antibodies to polymeric glycans is well established for vaccines targeting bacterial diseases, the importance of antibodies to glycans in vaccines targeting HIV has only recently been recognized. Antibodies to GDEs may be particularly significant in HIV vaccines based on gp120, where 50% of the molecular mass of the envelope protein is contributed by N-linked carbohydrate. However, few studies have reported antibodies to GDEs in humans or animals immunized with candidate HIV-1 vaccines. In this report, we describe the isolation of a mouse mAb, 4B6, after immunization with the extracellular domain of the HIV-1 envelope protein, gp140. Epitope mapping using glycopeptide fragments and in vitro mutagenesis showed that binding of this antibody depends on N-linked glycosylation at asparagine N130 (HXB2 numbering) in the gp120 V1/V2 domain. Our results demonstrate that, in addition to natural HIV-1 infection, immunization with recombinant proteins can elicit antibodies to the GDEs in the V1/V2 domain of gp120. Although little is known regarding conditions that favor antibody responses to GDEs, our studies demonstrate that these antibodies can arise from a short-term immunization regimen. Our results suggest that antibodies to GDEs are more common than previously suspected, and that further analysis of antibody responses to the HIV-1 envelope protein will lead to the discovery of additional antibodies to GDEs., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

25. HIV-1 envelope proteins and V1/V2 domain scaffolds with mannose-5 to improve the magnitude and quality of protective antibody responses to HIV-1.

Author

Morales JF, Morin TJ, Yu B, Tatsuno GP, O'Rourke SM, Theolis R Jr, Mesa KA, and Berman PW

Subjects

AIDS Vaccines genetics, AIDS Vaccines pharmacology, Animals, Antibodies, Monoclonal, Murine-Derived immunology, Glycosylation, HIV Antibodies genetics, HIV Envelope Protein gp120 genetics, HIV-1 genetics, Humans, Mannose genetics, Protein Structure, Secondary, Protein Structure, Tertiary, Rabbits, AIDS Vaccines immunology, Antibodies, Neutralizing immunology, HIV Antibodies immunology, HIV Envelope Protein gp120 immunology, HIV-1 immunology, Mannose immunology

Abstract

Two lines of investigation have highlighted the importance of antibodies to the V1/V2 domain of gp120 in providing protection from HIV-1 infection. First, the recent RV144 HIV-1 vaccine trial documented a correlation between non-neutralizing antibodies to the V2 domain and protection. Second, multiple broadly neutralizing monoclonal antibodies to the V1/V2 domain (e.g. PG9) have been isolated from rare infected individuals, termed elite neutralizers. Interestingly, the binding of both types of antibodies appears to depend on the same cluster of amino acids (positions 167–171) adjacent to the junction of the B and C strands of the four-stranded V1/V2 domain β-sheet structure. However, the broadly neutralizing mAb, PG9, additionally depends on mannose-5 glycans at positions 156 and 160 for binding. Because the gp120 vaccine immunogens used in previous HIV-1 vaccine trials were enriched for complex sialic acid-containing glycans, and lacked the high mannose structures required for the binding of PG9-like mAbs, we wondered if these immunogens could be improved by limiting glycosylation to mannose-5 glycans. Here, we describe the PG9 binding activity of monomeric gp120s from multiple strains of HIV-1 produced with mannose-5 glycans. We also describe the properties of glycopeptide scaffolds from the V1/V2 domain also expressed with mannose-5 glycans. The V1/V2 scaffold from the A244 isolate was able to bind the PG9, CH01, and CH03 mAbs with high affinity provided that the proper glycans were present. We further show that immunization with A244 V1/V2 fragments alone, or in a prime/boost regimen with gp120, enhanced the antibody response to sequences in the V1/V2 domain associated with protection in the RV144 trial.

Published

2014

26. Vaccine-induced Env V1-V2 IgG3 correlates with lower HIV-1 infection risk and declines soon after vaccination.

Author

Yates NL, Liao HX, Fong Y, deCamp A, Vandergrift NA, Williams WT, Alam SM, Ferrari G, Yang ZY, Seaton KE, Berman PW, Alpert MD, Evans DT, O'Connell RJ, Francis D, Sinangil F, Lee C, Nitayaphan S, Rerks-Ngarm S, Kaewkungwal J, Pitisuttithum P, Tartaglia J, Pinter A, Zolla-Pazner S, Gilbert PB, Nabel GJ, Michael NL, Kim JH, Montefiori DC, Haynes BF, and Tomaras GD

Subjects

AIDS Vaccines administration & dosage, HIV Antibodies biosynthesis, HIV Antibodies immunology, HIV Infections immunology, HIV-1, Humans, AIDS Vaccines immunology, HIV Infections prevention & control, Immunoglobulin G immunology

Abstract

HIV-1-specific immunoglobulin G (IgG) subclass antibodies bind to distinct cellular Fc receptors. Antibodies of the same epitope specificity but of a different subclass therefore can have different antibody effector functions. The study of IgG subclass profiles between different vaccine regimens used in clinical trials with divergent efficacy outcomes can provide information on the quality of the vaccine-induced B cell response. We show that HIV-1-specific IgG3 distinguished two HIV-1 vaccine efficacy studies (RV144 and VAX003 clinical trials) and correlated with decreased risk of HIV-1 infection in a blinded follow-up case-control study with the RV144 vaccine. HIV-1-specific IgG3 responses were not long-lived, which was consistent with the waning efficacy of the RV144 vaccine. These data suggest that specific vaccine-induced HIV-1 IgG3 should be tested in future studies of immune correlates in HIV-1 vaccine efficacy trials.

Published

2014

27. Plasma IgG to linear epitopes in the V2 and V3 regions of HIV-1 gp120 correlate with a reduced risk of infection in the RV144 vaccine efficacy trial.

Author

Gottardo R, Bailer RT, Korber BT, Gnanakaran S, Phillips J, Shen X, Tomaras GD, Turk E, Imholte G, Eckler L, Wenschuh H, Zerweck J, Greene K, Gao H, Berman PW, Francis D, Sinangil F, Lee C, Nitayaphan S, Rerks-Ngarm S, Kaewkungwal J, Pitisuttithum P, Tartaglia J, Robb ML, Michael NL, Kim JH, Zolla-Pazner S, Haynes BF, Mascola JR, Self S, Gilbert P, and Montefiori DC

Subjects

Amino Acid Sequence, Antibodies, Neutralizing blood, Antibodies, Neutralizing immunology, Antigens, Viral immunology, B-Lymphocytes immunology, Case-Control Studies, HIV Antibodies blood, HIV Antibodies immunology, HIV Envelope Protein gp41 immunology, HIV Infections blood, HIV Infections immunology, HIV Infections prevention & control, HIV-1 genetics, HIV-1 immunology, Humans, Immunoglobulin A immunology, Immunoglobulin G immunology, Molecular Sequence Data, Risk, Sequence Alignment, AIDS Vaccines immunology, Epitopes immunology, HIV Envelope Protein gp120 genetics, HIV Envelope Protein gp120 immunology, Immunoglobulin G blood

Abstract

Neutralizing and non-neutralizing antibodies to linear epitopes on HIV-1 envelope glycoproteins have potential to mediate antiviral effector functions that could be beneficial to vaccine-induced protection. Here, plasma IgG responses were assessed in three HIV-1 gp120 vaccine efficacy trials (RV144, Vax003, Vax004) and in HIV-1-infected individuals by using arrays of overlapping peptides spanning the entire consensus gp160 of all major genetic subtypes and circulating recombinant forms (CRFs) of the virus. In RV144, where 31.2% efficacy against HIV-1 infection was seen, dominant responses targeted the C1, V2, V3 and C5 regions of gp120. An analysis of RV144 case-control samples showed that IgG to V2 CRF01_AE significantly inversely correlated with infection risk (OR= 0.54, p=0.0042), as did the response to other V2 subtypes (OR=0.60-0.63, p=0.016-0.025). The response to V3 CRF01_AE also inversely correlated with infection risk but only in vaccine recipients who had lower levels of other antibodies, especially Env-specific plasma IgA (OR=0.49, p=0.007) and neutralizing antibodies (OR=0.5, p=0.008). Responses to C1 and C5 showed no significant correlation with infection risk. In Vax003 and Vax004, where no significant protection was seen, serum IgG responses targeted the same epitopes as in RV144 with the exception of an additional C1 reactivity in Vax003 and infrequent V2 reactivity in Vax004. In HIV-1 infected subjects, dominant responses targeted the V3 and C5 regions of gp120, as well as the immunodominant domain, heptad repeat 1 (HR-1) and membrane proximal external region (MPER) of gp41. These results highlight the presence of several dominant linear B cell epitopes on the HIV-1 envelope glycoproteins. They also generate the hypothesis that IgG to linear epitopes in the V2 and V3 regions of gp120 are part of a complex interplay of immune responses that contributed to protection in RV144.

Published

2013

28. Antigenicity and immunogenicity of RV144 vaccine AIDSVAX clade E envelope immunogen is enhanced by a gp120 N-terminal deletion.

Author

Alam SM, Liao HX, Tomaras GD, Bonsignori M, Tsao CY, Hwang KK, Chen H, Lloyd KE, Bowman C, Sutherland L, Jeffries TL Jr, Kozink DM, Stewart S, Anasti K, Jaeger FH, Parks R, Yates NL, Overman RG, Sinangil F, Berman PW, Pitisuttithum P, Kaewkungwal J, Nitayaphan S, Karasavva N, Rerks-Ngarm S, Kim JH, Michael NL, Zolla-Pazner S, Santra S, Letvin NL, Harrison SC, and Haynes BF

Subjects

AIDS Vaccines genetics, Animals, Antibody Affinity, Epitopes immunology, HIV Antibodies blood, HIV Antibodies immunology, HIV Envelope Protein gp120 genetics, Humans, Macaca mulatta, AIDS Vaccines immunology, HIV Envelope Protein gp120 immunology, Sequence Deletion

Abstract

An immune correlates analysis of the RV144 HIV-1 vaccine trial revealed that antibody responses to the gp120 V1/V2 region correlated inversely with infection risk. The RV144 protein immunogens (A244-rp120 and MN-rgp120) were modified by an N-terminal 11-amino-acid deletion (Δ11) and addition of a herpes simplex virus (HSV) gD protein-derived tag (gD). We investigated the effects of these modifications on gp120 expression, antigenicity, and immunogenicity by comparing unmodified A244 gp120 with both Δ11 deletion and gD tag and with Δ11 only. Analysis of A244 gp120, with or without Δ11 or gD, demonstrated that the Δ11 deletion, without the addition of gD, was sufficient for enhanced antigenicity to gp120 C1 region, conformational V2, and V1/V2 gp120 conformational epitopes. RV144 vaccinee serum IgGs bound more avidly to A244 gp120 Δ11 than to the unmodified gp120, and their binding was blocked by C1, V2, and V1/V2 antibodies. Rhesus macaques immunized with the three different forms of A244 gp120 proteins gave similar levels of gp120 antibody titers, although higher antibody titers developed earlier in A244 Δ11 gp120-immunized animals. Conformational V1/V2 monoclonal antibodies (MAbs) gave significantly higher levels of blocking of plasma IgG from A244 Δ11 gp120-immunized animals than IgG from animals immunized with unmodified A244 gp120, thus indicating a qualitative difference in the V1/V2 antibodies induced by A244 Δ11 gp120. These results demonstrate that deletion of N-terminal residues in the RV144 A244 gp120 immunogen improves both envelope antigenicity and immunogenicity.

Published

2013

29. Sequences in glycoprotein gp41, the CD4 binding site, and the V2 domain regulate sensitivity and resistance of HIV-1 to broadly neutralizing antibodies.

Author

O'Rourke SM, Schweighardt B, Phung P, Mesa KA, Vollrath AL, Tatsuno GP, To B, Sinangil F, Limoli K, Wrin T, and Berman PW

Subjects

Binding Sites, Computational Biology methods, DNA Mutational Analysis, Gene Library, HEK293 Cells, HIV Envelope Protein gp160 chemistry, HIV Envelope Protein gp41 immunology, Humans, Models, Genetic, Models, Molecular, Molecular Conformation, Molecular Sequence Data, Mutagenesis, Phenotype, Protein Conformation, Protein Structure, Tertiary, Sequence Analysis, DNA, Antibodies, Neutralizing chemistry, CD4-Positive T-Lymphocytes virology, HIV Envelope Protein gp41 genetics, HIV-1 metabolism

Abstract

The swarm of quasispecies that evolves in each HIV-1-infected individual represents a source of closely related Env protein variants that can be used to explore various aspects of HIV-1 biology. In this study, we made use of these variants to identify mutations that confer sensitivity and resistance to the broadly neutralizing antibodies found in the sera of selected HIV-1-infected individuals. For these studies, libraries of Env proteins were cloned from infected subjects and screened for infectivity and neutralization sensitivity. The nucleotide sequences of the Env proteins were then compared for pairs of neutralization-sensitive and -resistant viruses. In vitro mutagenesis was used to identify the specific amino acids responsible for the neutralization phenotype. All of the mutations altering neutralization sensitivity/resistance appeared to induce conformational changes that simultaneously enhanced the exposure of two or more epitopes located in different regions of gp160. These mutations appeared to occur at unique positions required to maintain the quaternary structure of the gp160 trimer, as well as conformational masking of epitopes targeted by neutralizing antibodies. Our results show that sequences in gp41, the CD4 binding site, and the V2 domain all have the ability to act as global regulators of neutralization sensitivity. Our results also suggest that neutralization assays designed to support the development of vaccines and therapeutics targeting the HIV-1 Env protein should consider virus variation within individuals as well as virus variation between individuals.

Published

2012

30. Magnitude and breadth of the neutralizing antibody response in the RV144 and Vax003 HIV-1 vaccine efficacy trials.

Author

Montefiori DC, Karnasuta C, Huang Y, Ahmed H, Gilbert P, de Souza MS, McLinden R, Tovanabutra S, Laurence-Chenine A, Sanders-Buell E, Moody MA, Bonsignori M, Ochsenbauer C, Kappes J, Tang H, Greene K, Gao H, LaBranche CC, Andrews C, Polonis VR, Rerks-Ngarm S, Pitisuttithum P, Nitayaphan S, Kaewkungwal J, Self SG, Berman PW, Francis D, Sinangil F, Lee C, Tartaglia J, Robb ML, Haynes BF, Michael NL, and Kim JH

Subjects

AIDS Vaccines administration & dosage, Antibodies, Monoclonal blood, Antibodies, Monoclonal immunology, Canarypox virus, Epitope Mapping, HIV Infections blood, HIV Infections epidemiology, Human Immunodeficiency Virus Proteins immunology, Humans, Immunization Schedule, Substance Abuse, Intravenous, Thailand epidemiology, AIDS Vaccines immunology, Antibodies, Neutralizing blood, HIV Antibodies blood, HIV Infections prevention & control, HIV-1 immunology

Abstract

Background: A recombinant canarypox vector expressing human immunodeficiency virus type 1 (HIV-1) Gag, Pro, and membrane-linked gp120 (vCP1521), combined with a bivalent gp120 protein boost (AIDSVAX B/E), provided modest protection against HIV-1 infection in a community-based population in Thailand (RV144 trial). No protection was observed in Thai injection drug users who received AIDSVAX B/E alone (Vax003 trial). We compared the neutralizing antibody response in these 2 trials., Methods: Neutralization was assessed with tier 1 and tier 2 strains of virus in TZM-bl and A3R5 cells., Results: Neutralization of several tier 1 viruses was detected in both RV144 and Vax003. Peak titers were higher in Vax003 and waned rapidly in both trials. The response in RV144 was targeted in part to V3 of gp120.vCP1521 priming plus 2 boosts with gp120 protein was superior to 2 gp120 protein inoculations alone, confirming a priming effect for vCP1521. Sporadic weak neutralization of tier 2 viruses was detected only in Vax003 and A3R5 cells., Conclusion: The results suggest either that weak neutralizing antibody responses can be partially protective against HIV-1 in low-risk heterosexual populations or that the modest efficacy seen in RV144 was mediated by other immune responses, either alone or in combination with neutralizing antibodies.

Published

2012

31. Immune-correlates analysis of an HIV-1 vaccine efficacy trial.

Author

Haynes BF, Gilbert PB, McElrath MJ, Zolla-Pazner S, Tomaras GD, Alam SM, Evans DT, Montefiori DC, Karnasuta C, Sutthent R, Liao HX, DeVico AL, Lewis GK, Williams C, Pinter A, Fong Y, Janes H, DeCamp A, Huang Y, Rao M, Billings E, Karasavvas N, Robb ML, Ngauy V, de Souza MS, Paris R, Ferrari G, Bailer RT, Soderberg KA, Andrews C, Berman PW, Frahm N, De Rosa SC, Alpert MD, Yates NL, Shen X, Koup RA, Pitisuttithum P, Kaewkungwal J, Nitayaphan S, Rerks-Ngarm S, Michael NL, and Kim JH

Subjects

Adult, Case-Control Studies, Follow-Up Studies, HIV Infections prevention & control, Humans, Immunoglobulin A blood, Multivariate Analysis, Odds Ratio, Regression Analysis, Risk, Treatment Outcome, AIDS Vaccines immunology, HIV Antibodies blood, HIV Infections immunology, HIV-1 immunology

Abstract

Background: In the RV144 trial, the estimated efficacy of a vaccine regimen against human immunodeficiency virus type 1 (HIV-1) was 31.2%. We performed a case-control analysis to identify antibody and cellular immune correlates of infection risk., Methods: In pilot studies conducted with RV144 blood samples, 17 antibody or cellular assays met prespecified criteria, of which 6 were chosen for primary analysis to determine the roles of T-cell, IgG antibody, and IgA antibody responses in the modulation of infection risk. Assays were performed on samples from 41 vaccinees who became infected and 205 uninfected vaccinees, obtained 2 weeks after final immunization, to evaluate whether immune-response variables predicted HIV-1 infection through 42 months of follow-up., Results: Of six primary variables, two correlated significantly with infection risk: the binding of IgG antibodies to variable regions 1 and 2 (V1V2) of HIV-1 envelope proteins (Env) correlated inversely with the rate of HIV-1 infection (estimated odds ratio, 0.57 per 1-SD increase; P=0.02; q=0.08), and the binding of plasma IgA antibodies to Env correlated directly with the rate of infection (estimated odds ratio, 1.54 per 1-SD increase; P=0.03; q=0.08). Neither low levels of V1V2 antibodies nor high levels of Env-specific IgA antibodies were associated with higher rates of infection than were found in the placebo group. Secondary analyses suggested that Env-specific IgA antibodies may mitigate the effects of potentially protective antibodies., Conclusions: This immune-correlates study generated the hypotheses that V1V2 antibodies may have contributed to protection against HIV-1 infection, whereas high levels of Env-specific IgA antibodies may have mitigated the effects of protective antibodies. Vaccines that are designed to induce higher levels of V1V2 antibodies and lower levels of Env-specific IgA antibodies than are induced by the RV144 vaccine may have improved efficacy against HIV-1 infection.

Published

2012

32. Monoclonal antibodies to the V2 domain of MN-rgp120: fine mapping of epitopes and inhibition of α4β7 binding.

Author

Nakamura GR, Fonseca DP, O'Rourke SM, Vollrath AL, and Berman PW

Subjects

Antibody Specificity, HIV Envelope Protein gp120 chemistry, Humans, Integrins immunology, Mutagenesis, Site-Directed, Neutralization Tests, Protein Binding, Antibodies, Monoclonal immunology, Epitope Mapping, HIV Envelope Protein gp120 immunology, Integrins metabolism

Abstract

Background: Recombinant gp120 (MN-rgp120) was a major component of the AIDSVAX B/E vaccine used in the RV144 trial. This was the first clinical trial to show that vaccination could prevent HIV infection in humans. A recent RV144 correlates of protection study found that protection correlated with the presence of antibodies to the V2 domain. It has been proposed that antibodies to the α4β7 binding site in the V2 domain might prevent HIV-1 infection by blocking the ability of virions to recognize α4β7 on activated T-cells. In this study we investigated the specificity of monoclonal antibodies (MAbs) to the V2 domain of MN-rgp120 and examined the possibility that these antibodies could inhibit the binding of MN-rgp120 to the α4β7 integrin., Methodology/principal Findings: Nine MAbs to the V2 domain were isolated from mice immunized with recombinant envelope proteins. The ability of these MAbs to inhibit HIV infection, block the binding of gp120 to CD4, and block the binding of MN-rgp120 to the α4β7 integrin was measured. Mutational analysis showed that eight of the MAbs recognized two immunodominant clusters of amino acids (166-168 and 178-183) located at either end of the C strand within the four-strand anti-parallel sheet structure comprising the V1/V2 domain., Conclusions/significance: These studies showed that the antigenic structure of the V2 domain is exceedingly complex and that MAbs isolated from mice immunized with MN-rgp120 exhibited a high level of strain specificity compared to MAbs to the V2 domain isolated from HIV-infected humans. We found that immunization with MN-rgp120 readily elicits antibodies to the V2 domain and some of these were able to block the binding of MN-rgp120 to the α4β7 integrin.

Published

2012

33. Glycoform and net charge heterogeneity in gp120 immunogens used in HIV vaccine trials.

Author

Yu B, Morales JF, O'Rourke SM, Tatsuno GP, and Berman PW

Subjects

Animals, CHO Cells, Clinical Trials, Phase III as Topic, Cricetinae, Cricetulus, HEK293 Cells, HIV-1 immunology, Humans, Protein Isoforms chemistry, Protein Isoforms immunology, AIDS Vaccines chemistry, AIDS Vaccines immunology, HIV Envelope Protein gp120 chemistry, HIV Envelope Protein gp120 immunology, Polysaccharides, Vaccines, Synthetic chemistry, Vaccines, Synthetic immunology

Abstract

Background: The RV144 clinical trial showed for the first time that vaccination could provide modest but significant protection from HIV-1 infection. To understand the protective response, and to improve upon the vaccine's efficacy, it is important to define the structure of the immunogens used in the prime/boost regimen. Here we examined the heterogeneity in net charge, attributable to glycoform variation, of the gp120 immunogens contained in the AIDSVAX B/E vaccine., Methodology/principal Findings: Isoelectric focusing and glycosidase digestion were used to assess variation in net charge of the gp120s contained in the AIDSVAX B/E vaccine used in the RV144 trial. We observed 16 variants of MN-rgp120 and 24 variants of A244-rgp120. Glycoform variation in gp120 produced in Chinese hamster ovary cells was compared to glycoform variation in gp120 produced in the 293F human embryonic kidney cell line, often used for neutralization assays. We found that gp120 variants produced in CHO cells were distinctly more acidic than gp120 variants produced in 293 cells. The effect of glycoform heterogeneity on antigenicity was assessed using monoclonal antibodies. The broadly neutralizing PG9 MAb bound to A244-rgp120, but not to MN-rgp120, whether produced in CHO or in 293. However, PG9 was able to bind with high affinity to MN-rgp120 and A244-rgp120 produced in 293 cells deficient in N-acetylglucosaminyltransferase I., Conclusions/significance: MN- and A244-rgp120 used in the RV144 trial exhibited extensive heterogeneity in net charge due to variation in sialic acid-containing glycoforms. These differences were cell line-dependent, affected the antigenicity of recombinant envelope proteins, and may affect assays used to measure neutralization. These studies, together with recent reports documenting broadly neutralizing antibodies directed against carbohydrate epitopes of gp120, suggest that glycoform variation is a key variable to be considered in the production and evaluation of subunit vaccines designed to prevent HIV infection.

Published

2012

34. Phylodynamics of HIV-1 from a phase III AIDS vaccine trial in Bangkok, Thailand.

Author

Pérez-Losada M, Jobes DV, Sinangil F, Crandall KA, Arenas M, Posada D, and Berman PW

Subjects

Acquired Immunodeficiency Syndrome epidemiology, Acquired Immunodeficiency Syndrome immunology, Acquired Immunodeficiency Syndrome transmission, Acquired Immunodeficiency Syndrome virology, Genetic Variation, Humans, Population Dynamics, Thailand epidemiology, AIDS Vaccines immunology, Clinical Trials, Phase III as Topic, HIV-1 genetics, Phylogeny

Abstract

Background: In 2003, a phase III placebo-controlled trial (VAX003) was completed in Bangkok, Thailand. Of the 2,546 individuals enrolled in the trial based on high risk for infection through injection drug use (IDU), we obtained clinical samples and HIV-1 sequence data (envelope glycoprotein gene gp120) from 215 individuals who became infected during the trial. Here, we used these data in combination with other publicly available gp120 sequences to perform a molecular surveillance and phylodynamic analysis of HIV-1 in Thailand., Methodology and Findings: Phylogenetic and population genetic estimators were used to assess HIV-1 gp120 diversity as a function of vaccination treatment, viral load (VL) and CD4(+) counts, to identify transmission clusters and to investigate the timescale and demographics of HIV-1 in Thailand. Three HIV-1 subtypes were identified: CRF01&#95;AE (85% of the infections), subtype B (13%) and CRF15&#95;AE (2%). The Bangkok IDU cohort showed more gp120 diversity than other Asian IDU cohorts and similar diversity to that observed in sexually infected individuals. Moreover, significant differences (P<0.02) in genetic diversity were observed in CRF01&#95;AE IDU with different VL and CD4(+) counts. No phylogenetic structure was detected regarding any of the epidemiological and clinical factors tested, although high proportions (35% to 50%) of early infections fell into clusters, which suggests that transmission chains associated with acute infection play a key role on HIV-1 spread among IDU. CRF01&#95;AE was estimated to have emerged in Thailand in 1984.5 (1983-1986), 3-6 years before the first recognition of symptomatic patients (1989). The relative genetic diversity of the HIV-1 population has remained high despite decreasing prevalence rates since the mid 1990s., Conclusions: Our study and recent epidemiological reports indicate that HIV-1 is still a major threat in Thailand and suggest that HIV awareness and prevention needs to be strengthened to avoid AIDS resurgence.

Published

2011

35. Mutation at a single position in the V2 domain of the HIV-1 envelope protein confers neutralization sensitivity to a highly neutralization-resistant virus.

Author

O'Rourke SM, Schweighardt B, Phung P, Fonseca DP, Terry K, Wrin T, Sinangil F, and Berman PW

Subjects

Antigen-Antibody Reactions, Epitopes, HIV Envelope Protein gp120 immunology, HIV Envelope Protein gp41 immunology, Humans, Integrins metabolism, Neutralization Tests, Protein Conformation drug effects, Antibodies, Viral pharmacology, HIV Envelope Protein gp120 genetics, HIV Envelope Protein gp41 genetics, Mutation, Missense

Abstract

Understanding the determinants of neutralization sensitivity and resistance is important for the development of an effective human immunodeficiency virus type 1 (HIV-1) vaccine. In these studies, we have made use of the swarm of closely related envelope protein variants (quasispecies) from an extremely neutralization-resistant clinical isolate in order to identify mutations that conferred neutralization sensitivity to antibodies in sera from HIV-1-infected individuals. Here, we describe a virus with a rare mutation at position 179 in the V2 domain of gp120, where replacement of aspartic acid (D) by asparagine (N) converts a virus that is highly resistant to neutralization by multiple polyclonal and monoclonal antibodies, as well as antiviral entry inhibitors, to one that is sensitive to neutralization. Although the V2 domain sequence is highly variable, D at position 179 is highly conserved in HIV-1 and simian immunodeficiency virus (SIV) and is located within the LDI/V recognition motif of the recently described α4β7 receptor binding site. Our results suggest that the D179N mutation induces a conformational change that exposes epitopes in both the gp120 and the gp41 portions of the envelope protein, such as the CD4 binding site and the MPER, that are normally concealed by conformational masking. Our results suggest that D179 plays a central role in maintaining the conformation and infectivity of HIV-1 as well as mediating binding to α4β7.

Published

2010

36. Comparative immunogenicity of HIV-1 clade C envelope proteins for prime/boost studies.

Author

Smith DH, Winters-Digiacinto P, Mitiku M, O'Rourke S, Sinangil F, Wrin T, Montefiori DC, and Berman PW

Subjects

Animals, Antibody Formation immunology, CD4 Antigens immunology, Cell Line, Guinea Pigs, Immune Sera immunology, Neutralization Tests, HIV Envelope Protein gp120 immunology, HIV-1 classification, HIV-1 immunology, Immunization, Secondary

Abstract

Background: Previous clinical efficacy trials failed to support the continued development of recombinant gp120 (rgp120) as a candidate HIV vaccine. However, the recent RV144 HIV vaccine trial in Thailand showed that a prime/boost immunization strategy involving priming with canarypox vCP1521 followed by boosting with rgp120 could provide significant, although modest, protection from HIV infection. Based on these results, there is renewed interest in the development of rgp120 based antigens for follow up vaccine trials, where this immunization approach can be applied to other cohorts at high risk for HIV infection. Of particular interest are cohorts in Africa, India, and China that are infected with clade C viruses., Methodology/principal Findings: A panel of 10 clade C rgp120 envelope proteins was expressed in 293 cells, purified by immunoaffinity chromatography, and used to immunize guinea pigs. The resulting sera were collected and analyzed in checkerboard experiments for rgp120 binding, V3 peptide binding, and CD4 blocking activity. Virus neutralization studies were carried out with two different assays and two different panels of clade C viruses. A high degree of cross reactivity against clade C and clade B viruses and viral proteins was observed. Most, but not all of the immunogens tested elicited antibodies that neutralized tier 1 clade B viruses, and some sera neutralized multiple clade C viruses. Immunization with rgp120 from the CN97001 strain of HIV appeared to elicit higher cross neutralizing antibody titers than the other antigens tested., Conclusions/significance: While all of the clade C antigens tested were immunogenic, some were more effective than others in eliciting virus neutralizing antibodies. Neutralization titers did not correlate with rgp120 binding, V3 peptide binding, or CD4 blocking activity. CN97001 rgp120 elicited the highest level of neutralizing antibodies, and should be considered for further HIV vaccine development studies.

Published

2010

37. Phylodynamics of HIV-1 from a phase-III AIDS vaccine trial in North America.

Author

Pérez-Losada M, Jobes DV, Sinangil F, Crandall KA, Posada D, and Berman PW

Subjects

Clinical Trials, Phase III as Topic, HIV Envelope Protein gp120 classification, Humans, North America, AIDS Vaccines, HIV Envelope Protein gp120 genetics, HIV-1 genetics, HIV-1 isolation & purification, Phylogeny, Population Dynamics

Abstract

In 2003, a phase III placebo-controlled trial (VAX004) of a candidate HIV-1 vaccine (AIDSVAX B/B) was completed in 5,403 volunteers at high risk for HIV-1 infection from North America and the Netherlands. A total of 368 individuals became infected with HIV-1 during the trial. The envelope glycoprotein gene (gp120) from the HIV-1 subtype B viruses infecting 349 patients was sequenced from clinical samples taken as close as possible to the time of diagnosis, rendering a final data set of 1,047 sequences (1,032 from North America and 15 from the Netherlands). Here, we used these data in combination with other sequences available in public databases to assess HIV-1 variation as a function of vaccination treatment, geographic region, race, risk behavior, and viral load. Viral samples did not show any phylogenetic structure for any of these factors, but individuals with different viral loads showed significant differences (P = 0.009) in genetic diversity. The estimated time of emergence of HIV-1 subtype B was 1966-1970. Despite the fact that the number of AIDS cases has decreased in North America since the early 90s, HIV-1 genetic diversity seems to have remained almost constant over time. This study represents one of the largest molecular epidemiologic surveys of viruses responsible for new HIV-1 infections in North America and could help the selection of epidemiologically representative vaccine antigens to include in the next generation of candidate HIV-1 vaccines.

Published

2010

38. Protease cleavage sites in HIV-1 gp120 recognized by antigen processing enzymes are conserved and located at receptor binding sites.

Author

Yu B, Fonseca DP, O'Rourke SM, and Berman PW

Subjects

Amino Acid Sequence, Antibodies, Neutralizing immunology, Binding Sites, Conserved Sequence, Enzyme-Linked Immunosorbent Assay, HIV Envelope Protein gp120 chemistry, HIV Envelope Protein gp120 immunology, Humans, Hydrolysis, Models, Molecular, Molecular Sequence Data, Protein Conformation, Antigen Presentation, HIV Envelope Protein gp120 metabolism, HIV-1 metabolism

Abstract

The identification of vaccine immunogens able to elicit broadly neutralizing antibodies (bNAbs) is a major goal in HIV vaccine research. Although it has been possible to produce recombinant envelope glycoproteins able to adsorb bNAbs from HIV-positive sera, immunization with these proteins has failed to elicit antibody responses effective against clinical isolates of HIV-1. Thus, the epitopes recognized by bNAbs are present on recombinant proteins, but they are not immunogenic. These results led us to consider the possibility that changes in the pattern of antigen processing might alter the immune response to the envelope glycoprotein to better elicit protective immunity. In these studies, we have defined protease cleavage sites on HIV gp120 recognized by three major human proteases (cathepsins L, S, and D) important for antigen processing and presentation. Remarkably, six of the eight sites identified in gp120 were highly conserved and clustered in regions of the molecule associated with receptor binding and/or the binding of neutralizing antibodies. These results suggested that HIV may have evolved to take advantage of major histocompatibility complex (MHC) class II antigen processing enzymes in order to evade or direct the antiviral immune response.

Published

2010

39. Novel ring structure in the gp41 trimer of human immunodeficiency virus type 1 that modulates sensitivity and resistance to broadly neutralizing antibodies.

Author

O'Rourke SM, Schweighardt B, Scott WG, Wrin T, Fonseca DP, Sinangil F, and Berman PW

Subjects

Amino Acid Sequence, HIV Envelope Protein gp41 genetics, HIV Infections virology, HIV-1 chemistry, HIV-1 genetics, Humans, Molecular Conformation, Molecular Sequence Data, Mutation, Neutralization Tests, Protein Conformation, Antibodies, Viral immunology, HIV Envelope Protein gp41 chemistry, HIV Envelope Protein gp41 immunology, HIV Infections immunology, HIV-1 immunology

Abstract

The identification of the determinants of sensitivity and resistance to broadly neutralizing antibodies is a high priority for human immunodeficiency virus (HIV) research. An analysis of the swarm of closely related envelope protein variants in an HIV-infected individual revealed a mutation that markedly affected sensitivity to neutralization by antibodies and antiviral entry inhibitors targeting both gp41 and gp120. This mutation mapped to the C34 helix of gp41 and disrupted an unexplored structural feature consisting of a ring of hydrogen bonds in the gp41 trimer. This mutation appeared to affect the assembly of the six-helix bundle required for virus fusion and to alter the conformational equilibria so as to favor the prehairpin intermediate conformation required for the binding of the membrane proximal external region-specific neutralizing antibodies 2F5 and 4E10 and the antiviral drug enfuvirtide (Fuzeon). The "swarm analysis" method we describe furthers our understanding of the relationships among the structure, function, and antigenicity of the HIV envelope protein and represents a new approach to the identification of vaccine antigens.

Published

2009

40. Ethnic differences in the adaptation rate of HIV gp120 from a vaccine trial.

Author

Pérez-Losada M, Posada D, Arenas M, Jobes DV, Sinangil F, Berman PW, and Crandall KA

Subjects

HIV Envelope Protein gp120 immunology, HIV-1 immunology, Humans, North America, AIDS Vaccines immunology, Adaptation, Biological, Ethnicity, HIV Envelope Protein gp120 genetics, HIV Infections virology, HIV-1 genetics

Abstract

Differences in HIV-1 gp120 sequence variation were examined in North American volunteers who became infected during a phase III vaccine trial using the rgp120 vaccine. Molecular adaptation of the virus in vaccine and placebo recipients from different ethnic subgroups was compared by estimating the dN/dS ratios in viruses sampled from each individual using three different methods. ANOVA analyses detected significant differences in d(N)/d(S) ratios among races (P < 0.02). gp120 sequences from the black individuals showed higher mean d(N)/d(S) ratios for all estimators (1.24-1.45) than in other races (0.66-1.35), and several pairwise comparisons involving blacks remained significant (P < 0.05) after correction for multiple tests. In addition, black-placebo individuals showed significantly (P < 0.02) higher mean d(N)/d(S) ratios (1.3-1.66) than placebo individuals from the other races (0.65-1.56). These results suggest intrinsic differences among races in immune response and highlight the need for including multiple ethnicities in the design of future HIV-1 vaccine studies and trials.

Published

2009

41. High incidence of unusual cysteine variants in gp120 envelope proteins from early HIV type 1 infections from a Phase 3 vaccine efficacy trial.

Author

Jobes DV, Daoust M, Nguyen V, Padua A, Michele S, Lock MD, Chen A, Sinangil F, and Berman PW

Subjects

AIDS Vaccines, Female, HIV Envelope Protein gp120 chemistry, Humans, Male, Mutation, Polymorphism, Genetic, RNA, Viral chemistry, Cysteine genetics, HIV Envelope Protein gp120 genetics

Abstract

During the course of a large-scale HIV-1 vaccine field trial (VAX004), full-length gp120 sequences were determined for 349 new HIV-1 infections. The data collected represent the largest survey of full-length gp120 sequences from new HIV-1 infections ever assembled. Previous studies have shown that subtype B viruses typically possess 18 cysteine residues that are covalently linked to form 9 conserved disulfide bridges. However, in this study we found that approximately 20% of the trial participants possessed envelope proteins with an unusual number of cysteine residues that could very likely result in unusual protein structures. One class of variants included envelope proteins with two additional cysteine residues in close proximity, potentially yielding additional disulfide-bonded loops. Other classes of variants included envelope proteins where amino acid replacements increased or decreased the number of cysteine residues by one, resulting in molecules with either 19 or 17 cysteines, respectively. Initial functional analysis demonstrated that envelope proteins with 19 cysteine residues bind to CD4 and the CCR5 chemokine coreceptor, and are infectious. These results suggest that the protein structure of gp120 in newly transmitted viruses may be more heterogeneous than previously appreciated and potentially represent a new mechanism of virus variation. The disulfide variation that we report here may have important implications for HIV vaccine and drug development efforts.

Published

2006

42. Longitudinal population analysis of dual infection with recombination in two strains of HIV type 1 subtype B in an individual from a Phase 3 HIV vaccine efficacy trial.

Author

Jobes DV, Daoust M, Nguyen VT, Padua A, Sinangil F, Pérez-Losada M, Crandall KA, Oliphant T, Posada D, Rambaut A, Fuchs J, and Berman PW

Subjects

AIDS Vaccines, Humans, Longitudinal Studies, Male, Molecular Sequence Data, Phylogeny, HIV Infections virology, HIV-1 genetics, Recombination, Genetic

Abstract

This study documents a case of coinfection (simultaneous infection of an individual with two or more strains) of two HIV-1 subtype B strains in an individual from a Phase 3 HIV-1 vaccine efficacy trial, conducted in North American and the Netherlands. We examined 86 full-length gp120 (env) gene sequences from this individual collected from nine different time points over a 20-month period. We estimated evolutionary relationships using maximum likelihood and Bayesian methods and inferred recombination breakpoints and recombinant sequences using phylogenetic and substitutional methods. These analyses identified two strongly supported monophyletic clades (clades A and B) of 14 and 69 sequences each and a small paraphyletic recombinant clade of three sequences. We then studied the genetic characteristics of these lineages by comparing estimates of genetic diversity generated by mutation and recombination and adaptive selection within a coalescent and maximum likelihood framework. Our results suggest significant differences on the evolutionary dynamics of these strains. We then discuss the implications of these results for vaccine development.

Published

2006

43. Correlation between immunologic responses to a recombinant glycoprotein 120 vaccine and incidence of HIV-1 infection in a phase 3 HIV-1 preventive vaccine trial.

Author

Gilbert PB, Peterson ML, Follmann D, Hudgens MG, Francis DP, Gurwith M, Heyward WL, Jobes DV, Popovic V, Self SG, Sinangil F, Burke D, and Berman PW

Subjects

Adult, Ethnicity, Female, HIV-1 genetics, Humans, Incidence, Male, Middle Aged, Sex Factors, Time Factors, Vaccines, Synthetic immunology, AIDS Vaccines immunology, HIV Antibodies blood, HIV Envelope Protein gp120 immunology, HIV Infections prevention & control, HIV-1 immunology

Abstract

Background: An objective of the first efficacy trial of a candidate vaccine containing recombinant human immunodeficiency virus (HIV) type 1 envelope glycoprotein 120 (rgp120) antigens was to assess correlations between antibody responses to rgp120 and the incidence of HIV-1 infection., Methods: Within the randomized trial (for vaccinees, n=3598; for placebo recipients, n=1805), binding and neutralizing antibody responses to rgp120 were quantitated. A case-cohort design was used to study correlations between antibody levels and HIV-1 incidence., Results: Peak antibody levels were significantly inversely correlated with HIV-1 incidence. The relative risk (RR) of infection was 0.63 (95% confidence interval, 0.45-0.89) per log(10) higher neutralization titer against HIV-1(MN), and the RRs of infection for second-, third-, and fourth-quartile responses of antibody blocking of gp120 binding to soluble CD4 versus first-quartile responses (the lowest responses) were 0.35, 0.28, and 0.22, respectively., Conclusions: Despite inducing a complex, robust immune response, the vaccine was unable to reduce the incidence of HIV-1. Two interpretations of the correlative results are that the levels of antibodies (i) caused both an increased (low responders) and decreased (high responders) risk of HIV-1 acquisition or (ii) represented a correlate of susceptibility to HIV-1 but had no causal effect on susceptibility. Although the data cannot definitively discriminate between these 2 explanations, (ii) appears to be more likely.

Published

2005

44. Phase I/II study of a candidate vaccine designed against the B and E subtypes of HIV-1.

Author

Pitisuttithum P, Berman PW, Phonrat B, Suntharasamai P, Raktham S, Srisuwanvilai LO, Hirunras K, Kitayaporn D, Kaewkangwal J, Migasena S, Sheppard HW, Li E, Chernow M, Peterson ML, Shibata R, Heyward WL, and Francis DP

Subjects

AIDS Vaccines administration & dosage, Adjuvants, Immunologic administration & dosage, Adjuvants, Immunologic adverse effects, Adolescent, Adult, Alum Compounds, Female, HIV Antibodies blood, HIV Envelope Protein gp120 genetics, HIV Infections immunology, HIV Infections virology, HIV-1 genetics, Humans, Immunization Schedule, Male, Middle Aged, Recombinant Proteins immunology, Substance Abuse, Intravenous complications, Thailand, Vaccination, AIDS Vaccines adverse effects, AIDS Vaccines immunology, HIV Envelope Protein gp120 immunology, HIV Infections prevention & control, HIV-1 classification, HIV-1 immunology

Abstract

A phase I/II trial of a candidate vaccine to prevent HIV infection was carried out in Bangkok, Thailand, testing AIDSVAX B/E (VaxGen, Inc., Brisbane, CA), a bivalent subunit vaccine prepared by combining recombinant gp120 from a subtype B virus (HIV-1MN) with gp120 from a subtype E virus (HIV-1A244) in alum adjuvant. The studies provide human data on the immunogenicity of various dose combination of non-subtype B vaccine antigens. The results suggest that AIDSVAX B/E is safe and immunogenic in humans. The optimal dose for humans in developing countries was 300 microg of each antigen (B and E). Clade E responses were measurably increased by immunizing with gp120 B/E over B alone. Using the B/E combination did not interfere with the response to either clade. Antibodies to AIDSVAX B/E were able to bind to oligomeric gp120 on the surface of cells infected with primary isolates of HIV-1.

Published

2004

45. Candidate HIV/AIDS vaccines: lessons learned from the World's first phase III efficacy trials.

Author

Francis DP, Heyward WL, Popovic V, Orozco-Cronin P, Orelind K, Gee C, Hirsch A, Ippolito T, Luck A, Longhi M, Gulati V, Winslow N, Gurwith M, Sinangil F, and Berman PW

Subjects

Clinical Trials, Phase III as Topic, Government, Humans, Patient Selection, Research Design, AIDS Vaccines, HIV Infections prevention & control

Published

2003

46. Vaccine-induced antibodies to the native, oligomeric envelope glycoproteins of primary HIV-1 isolates.

Author

Lee SA, Orque R, Escarpe PA, Peterson ML, Good JW, Zaharias EM, Berman PW, Sheppard HW, and Shibata R

Subjects

Cell Line, Humans, Sensitivity and Specificity, AIDS Vaccines immunology, HIV Antibodies blood, HIV Envelope Protein gp120 immunology, HIV-1 immunology, Vaccines, Synthetic immunology

Abstract

A simple and sensitive method for measuring antibodies to primary human immunodeficiency virus type 1 (HIV-1) isolates has been developed. The flow cytometric immuno-fluorescence assay detects antibodies that bind to the native, oligomeric form of the envelope glycoprotein (gp120) expressed on the surface of PM-1 cells infected with primary isolates of HIV-1. Sera from people infected with HIV-1 or those immunized with recombinant gp120 vaccines were tested. Significant correlation was observed between neutralizing activity and oligomeric gp120 binding activity. Thirteen to 100% of individuals immunized with the subtype B bivalent vaccine AIDSVAX B/B developed oligomeric gp120 binding antibodies against a variety of subtype B primary isolates. For several isolates, AIDSVAX B/B sera reacted better than monovalent AIDSVAX B sera, suggesting that addition of the second immunogen improved the breadth of the antibody response. Cross-subtype binding activities, induced by AIDSVAX B/B, were lower than activities to subtype B isolates, suggesting that additional immunogen(s) may be desirable in vaccine(s) formulated for geographic regions where non-B subtypes are dominant.

Published

2001

47. Development of bivalent (B/E) vaccines able to neutralize CCR5-dependent viruses from the United States and Thailand.

Author

Berman PW, Huang W, Riddle L, Gray AM, Wrin T, Vennari J, Johnson A, Klaussen M, Prashad H, Köhne C, deWit C, and Gregory TJ

Subjects

Animals, Gene Products, env immunology, HIV Antibodies biosynthesis, HIV Antigens immunology, HIV Envelope Protein gp120 metabolism, HIV Infections prevention & control, HIV Infections virology, Humans, In Vitro Techniques, Macrophages virology, Neutralization Tests, Phenotype, Rabbits, Receptors, CXCR4 metabolism, Recombinant Proteins immunology, Thailand, United States, AIDS Vaccines, HIV-1 classification, HIV-1 immunology, Receptors, CCR5

Abstract

Recombinant envelope glycoproteins prepared from a subtype B (MN) strain and a subtype E (CM244) strain of HIV-1 were combined to create a bivalent vaccine (B/E) effective against viruses circulating in the United States and Asia. Combining the two antigens resulted in formulations that increased the breadth and potency of the inter-subtype neutralizing response. Antibodies to the bivalent vaccine formulation neutralized viruses possessing diverse phenotypes, including syncytia-inducing and non-syncytia-inducing primary isolates, viruses using either the CCR5 or the CXCR4 chemokine receptors, and viruses differing in their sensitivity to soluble CD4. These studies demonstrate for the first time that the magnitude and quality of the immune response to HIV-1 can be improved by combining recombinant envelope glycoproteins from different genetic subtypes., (Copyright 1999 Academic Press.)

Published

1999

48. Secretion of glycosylation site mutants can be rescued by the signal/pro sequence of tissue plasminogen activator.

Author

Köhne C, Johnson A, Tom S, Peers DH, Gehant RL, Hotaling TA, Brousseau D, Ryll T, Fox JA, Chamow SM, and Berman PW

Subjects

Amino Acid Sequence, Binding Sites genetics, Cell Line, Glycosylation, Humans, Immunoglobulin Heavy Chains chemistry, Immunoglobulin Heavy Chains genetics, Immunoglobulin Heavy Chains metabolism, Immunoglobulin gamma-Chains, Molecular Sequence Data, Mutagenesis, Site-Directed, Protein Sorting Signals chemistry, Protein Sorting Signals genetics, Protein Sorting Signals metabolism, Receptors, Tumor Necrosis Factor chemistry, Receptors, Tumor Necrosis Factor genetics, Receptors, Tumor Necrosis Factor metabolism, Recombinant Fusion Proteins chemistry, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Sequence Deletion, Tissue Plasminogen Activator chemistry, Transfection, Tumor Necrosis Factor-alpha metabolism, Mutation, Tissue Plasminogen Activator genetics, Tissue Plasminogen Activator metabolism

Abstract

Strategies that prevent the attachment of N-linked carbohydrates to nascent glycoproteins often impair intracellular transport and secretion. In the present study, we describe a method to rescue the intracellular transport and secretion of glycoproteins mutagenized to delete N-linked glycosylation sites. Site-directed mutagenesis was used to delete N-linked glycosylation sites from a chimeric protein, TNFR-IgG1. Deletion of any of the three glycosylation sites in the TNFR portion of the molecule, alone or in combination, resulted in a moderate or near total blockade of TNFR-IgG1 intracellular transport and secretion. Pulse chase experiments suggested that the glycosylation site mutants accumulated in the endoplasmic reticulum (ER) and were inefficiently exported to the Golgi apparatus (GA). Replacement of the TNFR signal sequence with the signal/pro sequence of human tissue plasminogen activator (tPA) overcame the blockade to intracellular transport, and restored secretion to levels comparable to those achieved with the fully glycosylated molecule. Ligand binding studies suggested that the secreted glycosylation variants possessed binding characteristics similar to the fully glycosylated protein. This study demonstrates that N-terminal sequences of tPA are unexpectedly efficient in facilitating transport from the ER to the GA and suggests that these sequences contain a previously unrecognized structural element that promotes intracellular transport., (Copyright 1999 Wiley-Liss, Inc.)

Published

1999

49. MN and IIIB recombinant glycoprotein 120 vaccine-induced binding antibodies to native envelope glycoprotein of human immunodeficiency virus type 1 primary isolates. National Institute of Allergy and Infectious Disease Aids Vaccine Evaluation Group.

Author

Gorse GJ, Patel GB, Mandava M, Berman PW, and Belshe RB

Subjects

Adolescent, Adult, Animals, CHO Cells, Cricetinae, HIV Antibodies blood, HIV-1 isolation & purification, Humans, Middle Aged, Vaccination, AIDS Vaccines immunology, HIV Antibodies immunology, HIV Envelope Protein gp120 immunology, HIV-1 immunology, Vaccines, Synthetic immunology

Abstract

The ability of antibody induced by MN and IIIB recombinant gp120 (rgp120) human immunodeficiency virus type 1 (HIV-1) vaccines to bind to oligomeric native HIV-1 envelope glycoproteins of primary isolates of HIV-1 was measured by flow cytometric indirect immunofluorescence assay (FIFA) in 25 uninfected, healthy adults. After three immunizations, MN rgp120 HIV-1 vaccine given alone and coadministered with IIIB rgp120 HIV-1 vaccine elicited antibody that bound to cells infected with each of a panel of six subtype B strains of HIV-1. Lower levels of vaccine-induced binding antibody were detected against envelope subtype A, D, and (EA) strains of HIV-1 than against subtype B strains. Priming immunization with IIIB rgp120 HIV-1 vaccine alone induced low levels of antibody capable of binding to envelope glycoprotein of primary isolate strains of HIV-1, and booster immunizations with MN rgp120 HIV-1 vaccine resulted in much higher antibody levels. We conclude that MN rgp120 HIV-1 vaccine was an effective inducer of antibody to native envelope glycoproteins of antigenically diverse primary isolates of HIV-1.

Published

1999

50. HIV-1MN recombinant glycoprotein 160 vaccine-induced cellular and humoral immunity boosted by HIV-1MN recombinant glycoprotein 120 vaccine. National Institute of Allergy and Infectious Diseases AIDS Vaccine Evaluation Group.

Author

Gorse GJ, Corey L, Patel GB, Mandava M, Hsieh RH, Matthews TJ, Walker MC, McElrath MJ, Berman PW, Eibl MM, and Belshe RB

Subjects

Adolescent, Adult, Cytokines analysis, Double-Blind Method, Female, HIV Antibodies blood, Humans, Immunity, Active, Immunoglobulin G blood, Lymphocyte Activation, Middle Aged, Skin Tests, AIDS Vaccines immunology, Acquired Immunodeficiency Syndrome immunology, HIV Envelope Protein gp120 immunology, HIV-1 immunology, Vaccines, Synthetic immunology

Abstract

We evaluated prime-boost immunization with two recombinant envelope glycoprotein subunit vaccines (HIV-1MN recombinant gp160 vaccine in alum adjuvant [MN rgp160] and HIV-1MN recombinant gp120 vaccine in alum adjuvant [MN rgp120]) for safety and immunogenicity in healthy, HIV-1-uninfected adults. The rationale was to combine the helper T cell memory and binding antibody responses typically induced by rgp160 vaccines with the superior neutralizing antibody responses induced by rgp120 vaccines. In a double-blinded, controlled trial, volunteers were randomly assigned to receive MN rgp160 or adjuvant placebo, and a subset later received MN rgp120. The two vaccines were safe, but reactions to MN rgp160 and its adjuvant placebo exceeded those to MN rgp120. MN rgp160 induced IgG binding antibodies, including all IgG subclasses, to MN rgp160 in all vaccine recipients. HIV-1MN-neutralizing and anti-V3 MN peptide-binding antibodies were observed in a majority of volunteers after the fourth MN rgp160 immunization, but at lower levels compared with immunization with MN rgp120 in historical controls. HIV-1-binding, neutralizing, and fusion inhibition antibodies were boosted to the highest levels among MN rgp160 recipients after MN rgp120 booster injections. MN rgp120 boosting appeared to alter the distribution of MN rgp160 vaccine-induced, anti-MN rgp160 IgG subclass antibodies. MN rgp160 induced helper T cell memory, measured by lymphocyte proliferation, Thl and Th2 cytokine production, and skin testing. Strategies including both subunit vaccines may help maximize antibody and helper T cell memory responses to HIV-1 envelope glycoprotein.

Published

1999