Glycosylation Benchmark Profile for HIV-1 Envelope Glycoprotein Production Based on Eleven Env Trimers
Autor: | S. Munir Alam, Joseph Sodroski, David Hua, Robert T. Steinbock, Michael Golabek, Haitao Ding, Rajesh P. Ringe, Nathan I. Nicely, Shijian Zhang, Albert Cupo, Heather Desaire, Barton F. Haynes, John C. Kappes, Eden P. Go, John P. Moore, James Alin |
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Rok vydání: | 2017 |
Předmět: |
0301 basic medicine
Glycan Glycosylation viruses Immunology CHO Cells macromolecular substances HIV Antibodies HIV Envelope Protein gp120 Biology Microbiology Epitope law.invention Epitopes 03 medical and health sciences chemistry.chemical_compound Cricetulus Viral envelope law Cricetinae Virology Vaccines and Antiviral Agents Animals Amino Acid Sequence Peptide sequence Immune Evasion AIDS Vaccines chemistry.chemical_classification Genetics 030102 biochemistry & molecular biology env Gene Products Human Immunodeficiency Virus virus diseases Antibodies Neutralizing HIV Envelope Protein gp41 carbohydrates (lipids) Benchmarking 030104 developmental biology chemistry Insect Science HIV-1 biology.protein Recombinant DNA lipids (amino acids peptides and proteins) Antibody Glycoprotein |
Zdroj: | Journal of Virology. 91 |
ISSN: | 1098-5514 0022-538X |
DOI: | 10.1128/jvi.02428-16 |
Popis: | HIV-1 envelope glycoprotein (Env) glycosylation is important because individual glycans are components of multiple broadly neutralizing antibody epitopes, while shielding other sites that might otherwise be immunogenic. The glycosylation on Env is influenced by a variety of factors, including the genotype of the protein, the cell line used for its expression, and the details of the construct design. Here, we used a mass spectrometry (MS)-based approach to map the complete glycosylation profile at every site in multiple HIV-1 Env trimers, accomplishing two goals. (i) We determined which glycosylation sites contain conserved glycan profiles across many trimeric Envs. (ii) We identified the variables that impact Env's glycosylation profile at sites with divergent glycosylation. Over half of the gp120 glycosylation sites on 11 different trimeric Envs have a conserved glycan profile, indicating that a native consensus glycosylation profile does indeed exist among trimers. We showed that some soluble gp120s and gp140s exhibit highly divergent glycosylation profiles compared to trimeric Env. We also assessed the impact of several variables on Env glycosylation: truncating the full-length Env; producing Env, instead of the more virologically relevant T lymphocytes, in CHO cells; and purifying Env with different chromatographic platforms, including nickel-nitrilotriacetic acid (Ni-NTA), 2G12, and PGT151 affinity. This report provides the first consensus glycosylation profile of Env trimers, which should serve as a useful benchmark for HIV-1 vaccine developers. This report also defines the sites where glycosylation may be impacted when Env trimers are truncated or produced in CHO cells. IMPORTANCE A protective HIV-1 vaccine will likely include a recombinant version of the viral envelope glycoprotein (Env). Env is highly glycosylated, and yet vaccine developers have lacked guidance on how to assess whether their immunogens have optimal glycosylation. The following important questions are still unanswered. (i) What is the “target” glycosylation profile, when the goal is to generate a natively glycosylated protein? (ii) What variables exert the greatest influence on Env glycosylation? We identified numerous sites on Env where the glycosylation profile does not deviate in 11 different Env trimers, and we investigated the impact on the divergent glycosylation profiles of changing the genotype of the Env sequence, the construct design, the purification method, and the producer cell type. The data presented here give vaccine developers a “glycosylation target” for their immunogens, and they show how protein production variables can impact Env glycosylation. |
Databáze: | OpenAIRE |
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