Characterization of Host-Cell Line Specific Glycosylation Profiles of Early Transmitted/Founder HIV-1 gp120 Envelope Proteins

HIV-1 Vpu targets the host cell proteins CD4 and BST-2/Tetherin for degradation, ultimately resulting in enhanced virus spread and host immune evasion. The discovery and characterization of small molecules that antagonize Vpu would further elucidate the contribution of Vpu to pathogenesis and lay the foundation for the study of a new class of novel HIV-1 therapeutics. To identify novel compounds that block Vpu activity, we developed a cell-based 'gain of function' assay that produces a positive signal in response to Vpu inhibition. To develop this assay, we took advantage of the viral glycoprotein, GaLV Env. In the presence of Vpu, GaLV Env is not incorporated into viral particles, resulting in non-infectious virions. Vpu inhibition restores infectious particle production. Using this assay, a high throughput screen of >650,000 compounds was performed to identify inhibitors that block the biological activity of Vpu. From this screen, we identified several positive hits but focused on two compounds from one structural family, SRI-41897 and SRI-42371. It was conceivable that the compounds inhibited the formation of infectious virions by targeting host cell proteins instead of Vpu directly, so we developed independent counter-screens for off target interactions of the compounds and found no off target interactions. Additionally, these compounds block Vpu-mediated modulation of CD4, BST-2/Tetherin and antibody dependent cell-mediated toxicity (ADCC). Unfortunately, both SRI-41897 and SRI-42371 were shown to be specific to the N-terminal region of NL4-3 Vpu and did not function against other, more clinically relevant, strains of Vpu.

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Effect of the host cell line on the vaccine efficacy of an attenuated porcine reproductive and respiratory syndrome virus

Veterinary Immunology and Immunopathology ◽

10.1016/j.vetimm.2012.05.008 ◽

2012 ◽

Vol 148 (1-2) ◽

pp. 116-125 ◽

Cited By ~ 10

Author(s):

Gabriela Calzada-Nova ◽

Robert J. Husmann ◽

William M. Schnitzlein ◽

Federico A. Zuckermann

Keyword(s):

Host Cell ◽

Cell Line ◽

Vaccine Efficacy ◽

Respiratory Syndrome Virus ◽

Host Cell Line

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Choice of host cell line is essential for the functional glycosylation of the fragment crystallizable (Fc) region of human IgG1 inhibitors of influenza B viruses

10.1101/719849 ◽

2019 ◽

Author(s):

Patricia A. Blundell ◽

Dongli Lu ◽

Anne Dell ◽

Stuart M. Haslam ◽

Richard J. Pleass

Keyword(s):

Host Cell ◽

Cell Line ◽

Influenza B ◽

Matched Pairs ◽

Host Cell Line ◽

Hek 293 ◽

Functional Attributes ◽

F Cells ◽

Human Igg1

AbstractAntibodies are glycoproteins that carry a conserved N-linked carbohydrate attached to the Fc, whose presence and fine structure profoundly impacts on their in vivo immunogenicity, pharmacokinetics and functional attributes. The host cell line used to produce IgG has a major impact on this glycosylation, as different systems express different glycosylation enzymes and transporters that contribute to the specificity and heterogeneity of the final IgG-Fc glycosylation profile. Here we compare two panels of glycan-adapted IgG1-Fc mutants expressed in either the HEK 293-F or CHO-K1 systems. We show that the types of N-linked glycans between matched pairs of Fc mutants vary significantly, and in particular with respect to sialylation. These cell line effects on glycosylation profoundly influence the ability of the engineered Fcs to interact with either human or pathogen receptors. For example, we describe Fc mutants that potently disrupted influenza B-mediated agglutination of human erythrocytes when expressed in CHO-K1 but not in HEK 293-F cells.

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A New Host Cell-line for the Fast, Reproducible and Efficient Production of Biopharmaceuticals

Cell Technology for Cell Products ◽

10.1007/978-1-4020-5476-1_140 ◽

2007 ◽

pp. 769-771

Author(s):

B. Greulich ◽

H.F. Abts ◽

S. Zahn ◽

A. Herrmann

Keyword(s):

Host Cell ◽

Cell Line ◽

Efficient Production ◽

Host Cell Line ◽

New Host

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Curvature Concentrations on the HIV-1 Capsid

Computational and Mathematical Biophysics ◽

10.1515/mlbmb-2015-0003 ◽

2015 ◽

Vol 3 (1) ◽

Author(s):

Jiangguo Liu ◽

Farrah Sadre-Marandi ◽

Simon Tavener ◽

Chaoping Chen

Keyword(s):

Host Cell ◽

Capsid Proteins ◽

Quantitative Characterization ◽

Viral Capsids ◽

Virus Capsids ◽

Hiv 1

AbstractIt is known that the retrovirus capsids possess a fullerene-like structure. These caged polyhedral arrangements are built entirely from hexagons and exactly 12 pentagons according to the Euler theorem. Viral capsids are composed of capsid proteins, which create the hexagon and pentagon shapes by groups of six (hexamer) and five (pentamer) proteins. Different distributions of these 12 pentamers result in icosahedral, tubular, or conical shaped capsids. These pentamer clusters introduce declination and hence curvature on the capsids. This paper provides explicit and quantitative characterization of curvature on virus capsids. The concept of curvature concentration is also introduced. For the HIV (5,7)-cone, it is shown that the curvature concentration at the narrow end is about at least four times higher than that at the broad end. Our modeling results about curvature concentrations on HIV-1 capsids echo the results in the literature that the pentamers are in the regions with the highest stress, although the connection between the two approaches (curvature concentration and stress) is to be explored. This also leads to a conjecture that “HIV-1 capsid narrow end may close last during maturation but open first during entry into a host cell".

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