1. A New Approach to Produce HIV-1 Envelope Trimers
- Author
-
Neeti Ananthaswamy, Marthandan Mahalingam, Christopher Hamlin, Guofen Gao, Dalia Flores, Venigalla B. Rao, and Wadad Alsalmi
- Subjects
recombinant protein expression ,Conformational change ,Glycosylation ,Recombinant Fusion Proteins ,Molecular Sequence Data ,Gene Expression ,Enzyme-Linked Immunosorbent Assay ,Trimer ,HIV Envelope Protein gp120 ,Gp41 ,Cleavage (embryo) ,Biochemistry ,Antibodies ,Protein Structure, Secondary ,Epitope ,chemistry.chemical_compound ,Viral entry ,Membrane Biology ,vaccine ,Escherichia coli ,Amino Acid Sequence ,Antigens, Viral ,Molecular Biology ,env Gene Products, Human Immunodeficiency Virus ,virus diseases ,Cell Biology ,gp140 trimer ,HIV Envelope Protein gp41 ,Protein Structure, Tertiary ,3. Good health ,AIDS ,human immunodeficiency virus (HIV) ,envelope protein ,chemistry ,Ectodomain ,Proteolysis ,HIV-1 ,Biophysics ,Protein Multimerization ,Oligopeptides - Abstract
Background: HIV-1 envelope trimer is a candidate for designing an effective HIV vaccine. Results: gp140 attached to Strep-tag through a long linker is used to purify HIV trimers. Cleaved, uncleaved, and fully and partially glycosylated trimers are characterized. Conclusion: Cleaved and glycosylated gp140 assembles into authentic propeller-shaped trimers. Significance: This system could generate HIV-1 trimers for clinical trials and vaccine manufacture., The trimeric envelope spike of HIV-1 mediates virus entry into human cells. The exposed part of the trimer, gp140, consists of two noncovalently associated subunits, gp120 and gp41 ectodomain. A recombinant vaccine that mimics the native trimer might elicit entry-blocking antibodies and prevent virus infection. However, preparation of authentic HIV-1 trimers has been challenging. Recently, an affinity column containing the broadly neutralizing antibody 2G12 has been used to capture recombinant gp140 and prepare trimers from clade A BG505 that naturally produces stable trimers. However, this antibody-based approach may not be as effective for the diverse HIV-1 strains with different epitope signatures. Here, we report a new and simple approach to produce HIV-1 envelope trimers. The C terminus of gp140 was attached to Strep-tag II with a long linker separating the tag from the massive trimer base and glycan shield. This allowed capture of nearly homogeneous gp140 directly from the culture medium. Cleaved, uncleaved, and fully or partially glycosylated trimers from different clade viruses were produced. Extensive biochemical characterizations showed that cleavage of gp140 was not essential for trimerization, but it triggered a conformational change that channels trimers into correct glycosylation pathways, generating compact three-blade propeller-shaped trimers. Uncleaved trimers entered aberrant pathways, resulting in hyperglycosylation, nonspecific cross-linking, and conformational heterogeneity. Even the cleaved trimers showed microheterogeneity in gp41 glycosylation. These studies established a broadly applicable HIV-1 trimer production system as well as generating new insights into their assembly and maturation that collectively bear on the HIV-1 vaccine design.
- Published
- 2015
- Full Text
- View/download PDF