Your search keyword '"Aussedat, Baptiste"' showing total 3 results

1. Chemical synthesis of highly congested gp120 V1V2 N-glycopeptide antigens for potential HIV-1-directed vaccines.

Author

Aussedat B, Vohra Y, Park PK, Fernández-Tejada A, Alam SM, Dennison SM, Jaeger FH, Anasti K, Stewart S, Blinn JH, Liao HX, Sodroski JG, Haynes BF, and Danishefsky SJ

Subjects

AIDS Vaccines chemistry, Antigens chemistry, Carbohydrate Conformation, Crystallography, X-Ray, Glycopeptides chemistry, HIV Envelope Protein gp120 chemistry, Models, Molecular, Molecular Sequence Data, AIDS Vaccines immunology, Antigens immunology, Glycopeptides immunology, HIV Envelope Protein gp120 immunology, HIV-1 immunology

Abstract

Critical to the search for an effective HIV-1 vaccine is the development of immunogens capable of inducing broadly neutralizing antibodies (BnAbs). A key first step in this process is to design immunogens that can be recognized by known BnAbs. The monoclonal antibody PG9 is a BnAb that neutralizes diverse strains of HIV-1 by targeting a conserved carbohydrate-protein epitope in the variable 1 and 2 (V1V2) region of the viral envelope. Important for recognition are two closely spaced N-glycans at Asn(160) and Asn(156). Glycopeptides containing this synthetically challenging bis-N-glycosylated motif were prepared by convergent assembly, and were shown to be antigenic for PG9. Synthetic glycopeptides such as these may be useful for the development of HIV-1 vaccines based on the envelope V1V2 BnAb epitope.

Published

2013

2. Recognition of synthetic glycopeptides by HIV-1 broadly neutralizing antibodies and their unmutated ancestors

Author

Alam, S. Munir, Dennison, Moses, Aussedat, Baptiste, Vohra, Yusuf, Park, Peter K., Fernández-Tejada, Alberto, Stewart, Shelley, Jaeger, Frederick H., Anasti, Kara, Blinn, Julie H., Kepler, Thomas B., Bonsignori, Mattia, Liao, Hua-Xin, Sodroski, Joseph G., Danishefsky, Samuel J., and Haynes, Barton F.

Published

2013

3. Star nanoparticles delivering HIV-1 peptide minimal immunogens elicit near-native envelope antibody responses in nonhuman primates.

Author

Francica, Joseph R., Laga, Richard, Lynn, Geoffrey M., Mužíková, Gabriela, Androvič, Ladislav, Aussedat, Baptiste, Walkowicz, William E., Padhan, Kartika, Ramirez-Valdez, Ramiro Andrei, Parks, Robert, Schmidt, Stephen D., Flynn, Barbara J., Tsybovsky, Yaroslav, Stewart-Jones, Guillaume B. E., Saunders, Kevin O., Baharom, Faezzah, Petrovas, Constantinos, Haynes, Barton F., and Seder, Robert A.

Abstract

Peptide immunogens provide an approach to focus antibody responses to specific neutralizing sites on the HIV envelope protein (Env) trimer or on other pathogens. However, the physical characteristics of peptide immunogens can limit their pharmacokinetic and immunological properties. Here, we have designed synthetic “star” nanoparticles based on biocompatible N-[(2-hydroxypropyl)methacrylamide] (HPMA)-based polymer arms extending from a poly(amidoamine) (PAMAM) dendrimer core. In mice, these star nanoparticles trafficked to lymph nodes (LNs) by 4 hours following vaccination, where they were taken up by subcapsular macrophages and then resident dendritic cells (DCs). Immunogenicity optimization studies revealed a correlation of immunogen density with antibody titers. Furthermore, the co-delivery of Env variable loop 3 (V3) and T-helper peptides induced titers that were 2 logs higher than if the peptides were given in separate nanoparticles. Finally, we performed a nonhuman primate (NHP) study using a V3 glycopeptide minimal immunogen that was structurally optimized to be recognized by Env V3/glycan broadly neutralizing antibodies (bnAbs). When administered with a potent Toll-like receptor (TLR) 7/8 agonist adjuvant, these nanoparticles elicited high antibody binding titers to the V3 site. Similar to human V3/glycan bnAbs, certain monoclonal antibodies (mAbs) elicited by this vaccine were glycan dependent or targeted the GDIR peptide motif. To improve affinity to native Env trimer affinity, nonhuman primates (NHPs) were boosted with various SOSIP Env proteins; however, significant neutralization was not observed. Taken together, this study provides a new vaccine platform for administration of glycopeptide immunogens for focusing immune responses to specific bnAb epitopes. [ABSTRACT FROM AUTHOR]

Published

2019