Browsing by Author "Greene, Kelli"

Now showing 1 - 2 of 2
  • Thumbnail Image
    Item
    Open Access
    Identification of broadly neutralizing antibody epitopes in the HIV-1 envelope glycoprotein using evolutionary models
    (BioMed Central Ltd, 2013) Lacerda, Miguel; Moore, Penny; Ngandu, Nobubelo; Seaman, Michael; Gray, Elin; Murrell, Ben; Krishnamoorthy, Mohan; Nonyane, Molati; Madiga, Maphuti; Wibmer, Constantinos; Sheward, Daniel; Bailer, Robert; Gao, Hongmei; Greene, Kelli; Karim, Salim S; M
    BACKGROUND:Identification of the epitopes targeted by antibodies that can neutralize diverse HIV-1 strains can provide important clues for the design of a preventative vaccine. METHODS: We have developed a computational approach that can identify key amino acids within the HIV-1 envelope glycoprotein that influence sensitivity to broadly cross-neutralizing antibodies. Given a sequence alignment and neutralization titers for a panel of viruses, the method works by fitting a phylogenetic model that allows the amino acid frequencies at each site to depend on neutralization sensitivities. Sites at which viral evolution influences neutralization sensitivity were identified using Bayes factors (BFs) to compare the fit of this model to that of a null model in which sequences evolved independently of antibody sensitivity. Conformational epitopes were identified with a Metropolis algorithm that searched for a cluster of sites with large Bayes factors on the tertiary structure of the viral envelope. RESULTS: We applied our method to ID50 neutralization data generated from seven HIV-1 subtype C serum samples with neutralization breadth that had been tested against a multi-clade panel of 225 pseudoviruses for which envelope sequences were also available. For each sample, between two and four sites were identified that were strongly associated with neutralization sensitivity (2ln(BF)>6), a subset of which were experimentally confirmed using site-directed mutagenesis. CONCLUSIONS: Our results provide strong support for the use of evolutionary models applied to cross-sectional viral neutralization data to identify the epitopes of serum antibodies that confer neutralization breadth.
  • Thumbnail Image
    Item
    Open Access
    Optimal combinations of broadly neutralizing antibodies for prevention and treatment of HIV-1 Clade C infection
    (Public Library of Science, 2016) Wagh, Kshitij; Bhattacharya, Tanmoy; Williamson, Carolyn; Robles, Alex; Bayne, Madeleine; Garrity, Jetta; Rist, Michael; Rademeyer, Cecilia; Yoon, Hyejin; Lapedes, Alan; Gao, Hongmei; Greene, Kelli; Louder, Mark K; Kong, Rui; Karim, Salim Abdool; Burton, Dennis R; Barouch, Dan H; Nussenzweig, Michel C; Mascola, John R; Morris, Lynn; Montefiori, David C; Korber, Bette; Seaman, Michael S
    Author Summary In recent years, a new generation of monoclonal antibodies has been isolated from HIV-1 infected individuals that exhibit broad and potent neutralizing activity when tested against diverse strains of virus. There is a high level of interest in the field in determining if these antibodies can be used to prevent or treat HIV-1 infection. Because HIV-1 is adept at escaping from immune recognition, it is generally thought that combinations of multiple antibodies targeting different sites will be required for efficacy, much the same as seen for conventional antiretroviral drugs. How many and which antibodies to include in such combinations is not known. In this study, a new mathematical model was developed and used to accurately predict various measures of neutralizing activity for all possible combinations having a total of 2, 3, or 4 of the most promising antibodies. Through a systematic and comprehensive comparison, we identified optimal combinations of antibodies that best complement one another for enhanced anti-viral activity, and therefore may be most effective for the prevention or treatment of HIV-1 infection. These results provide important parameters that inform the selection of antibodies to develop for clinical use.