Structure-function analyses reveal key molecular determinants of HIV-1 CRF01_AE resistance to the entry inhibitor temsavir

Jérémie Prévost; Yaozong Chen; Fei Zhou; William D. Tolbert; Romain Gasser; Halima Medjahed; Manon Nayrac; Dung N. Nguyen; Suneetha Gottumukkala; Ann J. Hessell; Venigalla B. Rao; Edwin Pozharski; Rick K. Huang; Doreen Matthies; Andrés Finzi; Marzena Pazgier

doi:10.1038/s41467-023-42500-2

Structure-function analyses reveal key molecular determinants of HIV-1 CRF01_AE resistance to the entry inhibitor temsavir

Jérémie Prévost, Yaozong Chen, Fei Zhou, William D. Tolbert, Romain Gasser, Halima Medjahed, Manon Nayrac, Dung N. Nguyen, Suneetha Gottumukkala, Ann J. Hessell, Venigalla B. Rao, Edwin Pozharski, Rick K. Huang, Doreen Matthies, Andrés Finzi, Marzena Pazgier

Oregon National Primate Research Center

Research output: Contribution to journal › Article › peer-review

Abstract

The HIV-1 entry inhibitor temsavir prevents the viral receptor CD4 (cluster of differentiation 4) from interacting with the envelope glycoprotein (Env) and blocks its conformational changes. To do this, temsavir relies on the presence of a residue with small side chain at position 375 in Env and is unable to neutralize viral strains like CRF01_AE carrying His375. Here we investigate the mechanism of temsavir resistance and show that residue 375 is not the sole determinant of resistance. At least six additional residues within the gp120 inner domain layers, including five distant from the drug-binding pocket, contribute to resistance. A detailed structure-function analysis using engineered viruses and soluble trimer variants reveals that the molecular basis of resistance is mediated by crosstalk between His375 and the inner domain layers. Furthermore, our data confirm that temsavir can adjust its binding mode to accommodate changes in Env conformation, a property that likely contributes to its broad antiviral activity.

Original language	English (US)
Article number	6710
Journal	Nature communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-42500-2
State	Published - Dec 2023

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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Prévost, J., Chen, Y., Zhou, F., Tolbert, W. D., Gasser, R., Medjahed, H., Nayrac, M., Nguyen, D. N., Gottumukkala, S., Hessell, A. J., Rao, V. B., Pozharski, E., Huang, R. K., Matthies, D., Finzi, A., & Pazgier, M. (2023). Structure-function analyses reveal key molecular determinants of HIV-1 CRF01_AE resistance to the entry inhibitor temsavir. Nature communications, 14(1), Article 6710. https://doi.org/10.1038/s41467-023-42500-2

Prévost, J, Chen, Y, Zhou, F, Tolbert, WD, Gasser, R, Medjahed, H, Nayrac, M, Nguyen, DN, Gottumukkala, S, Hessell, AJ, Rao, VB, Pozharski, E, Huang, RK, Matthies, D, Finzi, A & Pazgier, M 2023, 'Structure-function analyses reveal key molecular determinants of HIV-1 CRF01_AE resistance to the entry inhibitor temsavir', Nature communications, vol. 14, no. 1, 6710. https://doi.org/10.1038/s41467-023-42500-2

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title = "Structure-function analyses reveal key molecular determinants of HIV-1 CRF01_AE resistance to the entry inhibitor temsavir",

abstract = "The HIV-1 entry inhibitor temsavir prevents the viral receptor CD4 (cluster of differentiation 4) from interacting with the envelope glycoprotein (Env) and blocks its conformational changes. To do this, temsavir relies on the presence of a residue with small side chain at position 375 in Env and is unable to neutralize viral strains like CRF01_AE carrying His375. Here we investigate the mechanism of temsavir resistance and show that residue 375 is not the sole determinant of resistance. At least six additional residues within the gp120 inner domain layers, including five distant from the drug-binding pocket, contribute to resistance. A detailed structure-function analysis using engineered viruses and soluble trimer variants reveals that the molecular basis of resistance is mediated by crosstalk between His375 and the inner domain layers. Furthermore, our data confirm that temsavir can adjust its binding mode to accommodate changes in Env conformation, a property that likely contributes to its broad antiviral activity.",

author = "J{\'e}r{\'e}mie Pr{\'e}vost and Yaozong Chen and Fei Zhou and Tolbert, {William D.} and Romain Gasser and Halima Medjahed and Manon Nayrac and Nguyen, {Dung N.} and Suneetha Gottumukkala and Hessell, {Ann J.} and Rao, {Venigalla B.} and Edwin Pozharski and Huang, {Rick K.} and Doreen Matthies and Andr{\'e}s Finzi and Marzena Pazgier",

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doi = "10.1038/s41467-023-42500-2",

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AU - Prévost, Jérémie

AU - Chen, Yaozong

AU - Zhou, Fei

AU - Tolbert, William D.

AU - Gasser, Romain

AU - Medjahed, Halima

AU - Nayrac, Manon

AU - Nguyen, Dung N.

AU - Gottumukkala, Suneetha

AU - Hessell, Ann J.

AU - Rao, Venigalla B.

AU - Pozharski, Edwin

AU - Huang, Rick K.

AU - Matthies, Doreen

AU - Finzi, Andrés

AU - Pazgier, Marzena

PY - 2023/12

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Structure-function analyses reveal key molecular determinants of HIV-1 CRF01_AE resistance to the entry inhibitor temsavir

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