An Engineered N-Glycosylated Dengue Envelope Protein Domain III Facilitates Epitope-Directed Selection of Potently Neutralizing and Minimally Enhancing Antibodies

Nilchan, Napon; Kraivong, Romchat; Luangaram, Prasit; Phungsom, Anunyaporn; Tantiwatcharakunthon, Mongkhonphan; Traewachiwiphak, Somchoke; Prommool, Tanapan; Punyadee, Nuntaya; Avirutnan, Panisadee; Duangchinda, Thaneeya; Malasit, Prida; Puttikhunt, Chunya

doi:10.1021/acsinfecdis.4c00058

ACS Infect. Dis.

2024

DOI: 10.1021/acsinfecdis.4c00058

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An Engineered N-Glycosylated Dengue Envelope Protein Domain III Facilitates Epitope-Directed Selection of Potently Neutralizing and Minimally Enhancing Antibodies

Napon Nilchan,

Romchat Kraivong,

Prasit Luangaram

et al.

Abstract: The envelope protein of dengue virus (DENV) is a primary target of the humoral immune response. The domain III of the DENV envelope protein (EDIII) is known to be the target of multiple potently neutralizing antibodies. One such antibody is 3H5, a mouse antibody that binds strongly to EDIII and potently neutralizes DENV serotype 2 (DENV-2) with unusually minimal antibody-dependent enhancement (ADE). To selectively display the binding epitope of 3H5, we strategically modified DENV-2 EDIII by shielding other kno… Show more

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Future Sequon Finder - A novel approach for predicting future N-linked glycosylation sequons on viral surface proteins

Bryan,

Zand

2024

Preprint

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Influenza viruses are known to evade host immune responses by shielding vulnerable surface protein epitopes via N-linked glycosylation. A program titledFuture Sequon Finderwas developed to predict the locations in which glycan binding sites are most likely to emerge in future influenza hemagglutinin proteins. The predictive modeling approach considers how closely sites in currently circulating strains resemble glycosylation sequons genetically, the surface accessibility of those sites, and the site-specific mutation frequency of the amino acids within those sites that would need to change to generate a glycosylation sequon. The efficacy of this model is tested using historic human H1N1 and H3N2 influenza strains along with swine H1N1 strains. Through this analysis, it is revealed that glycosylation addition events in influenza hemagglutinin proteins are almost always the result of single nucleotide mutation events. It is also revealed that site-specific mutation frequency and surface accessability are powerful predictors of which sites will become glycosylated in human influenza viruses when considered with the genetic composition of the sites in question. Having been designed to incorporate these factors, the program successfully predicted almost every historic sequon addition event and, in the case of the human strains, ranked them highly among falsely predicted sequons. After demonstrating the model's power with historical data, the program is used to predict future HA glycosylation sequon locations based on currently circulating human influenza viruses.

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Future Sequon Finder - A novel approach for predicting future N-linked glycosylation sequons on viral surface proteins

Bryan,

Zand

2024

Preprint

View full text Add to dashboard Cite

show abstract

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An Engineered N-Glycosylated Dengue Envelope Protein Domain III Facilitates Epitope-Directed Selection of Potently Neutralizing and Minimally Enhancing Antibodies

Cited by 1 publication

References 53 publications

Future Sequon Finder - A novel approach for predicting future N-linked glycosylation sequons on viral surface proteins

Future Sequon Finder - A novel approach for predicting future N-linked glycosylation sequons on viral surface proteins

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