Quantitative deep sequencing reveals dynamic HIV-1 escape and large population shifts during CCR5 antagonist therapy in vivo

Athe M.N. Tsibris; Bette Korber; Ramy Arnaout; Carsten Russ; Chien Chi Lo; Thomas Leitner; Brian Gaschen; James Theiler; Roger Paredes; Zhaohui Su; Michael D. Hughes; Roy M. Gulick; Wayne Greaves; Eoin Coakley; Charles Flexner; Chad Nusbaum; Daniel R. Kuritzkes

doi:10.1371/journal.pone.0005683

Quantitative deep sequencing reveals dynamic HIV-1 escape and large population shifts during CCR5 antagonist therapy in vivo

Athe M.N. Tsibris, Bette Korber, Ramy Arnaout, Carsten Russ, Chien Chi Lo, Thomas Leitner, Brian Gaschen, James Theiler, Roger Paredes, Zhaohui Su, Michael D. Hughes, Roy M. Gulick, Wayne Greaves, Eoin Coakley, Charles Flexner, Chad Nusbaum, Daniel R. Kuritzkes

School of Medicine

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

177 Scopus citations

Abstract

High-throughput sequencing platforms provide an approach for detecting rare HIV-1 variants and documenting more fully quasispecies diversity. We applied this technology to the V3 loop-coding region of env in samples collected from 4 chronically HIV-infected subjects in whom CCR5 antagonist (vicriviroc [VVC]) therapy failed. Between 25,000-140,000 amplified sequences were obtained per sample. Profound baseline V3 loop sequence heterogeneity existed; predicted CXCR4-using populations were identified in a largely CCR5-using population. The V3 loop forms associated with subsequent virologic failure, either through CXCR4 use or the emergence of high-level VVC resistance, were present as minor variants at 0.8-2.8% of baseline samples. Extreme, rapid shifts in population frequencies toward these forms occurred, and deep sequencing provided a detailed view of the rapid evolutionary impact of VVC selection. Greater V3 diversity was observed post-selection. This previously unreported degree of V3 loop sequence diversity has implications for viral pathogenesis, vaccine design, and the optimal use of HIV-1 CCR5 antagonists.

Original language	English (US)
Article number	e5683
Journal	PloS one
Volume	4
Issue number	5
DOIs	https://doi.org/10.1371/journal.pone.0005683
State	Published - May 25 2009

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Tsibris, A. M. N., Korber, B., Arnaout, R., Russ, C., Lo, C. C., Leitner, T., Gaschen, B., Theiler, J., Paredes, R., Su, Z., Hughes, M. D., Gulick, R. M., Greaves, W., Coakley, E., Flexner, C., Nusbaum, C., & Kuritzkes, D. R. (2009). Quantitative deep sequencing reveals dynamic HIV-1 escape and large population shifts during CCR5 antagonist therapy in vivo. PloS one, 4(5), Article e5683. https://doi.org/10.1371/journal.pone.0005683

Tsibris, AMN, Korber, B, Arnaout, R, Russ, C, Lo, CC, Leitner, T, Gaschen, B, Theiler, J, Paredes, R, Su, Z, Hughes, MD, Gulick, RM, Greaves, W, Coakley, E, Flexner, C, Nusbaum, C & Kuritzkes, DR 2009, 'Quantitative deep sequencing reveals dynamic HIV-1 escape and large population shifts during CCR5 antagonist therapy in vivo', PloS one, vol. 4, no. 5, e5683. https://doi.org/10.1371/journal.pone.0005683

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title = "Quantitative deep sequencing reveals dynamic HIV-1 escape and large population shifts during CCR5 antagonist therapy in vivo",

abstract = "High-throughput sequencing platforms provide an approach for detecting rare HIV-1 variants and documenting more fully quasispecies diversity. We applied this technology to the V3 loop-coding region of env in samples collected from 4 chronically HIV-infected subjects in whom CCR5 antagonist (vicriviroc [VVC]) therapy failed. Between 25,000-140,000 amplified sequences were obtained per sample. Profound baseline V3 loop sequence heterogeneity existed; predicted CXCR4-using populations were identified in a largely CCR5-using population. The V3 loop forms associated with subsequent virologic failure, either through CXCR4 use or the emergence of high-level VVC resistance, were present as minor variants at 0.8-2.8% of baseline samples. Extreme, rapid shifts in population frequencies toward these forms occurred, and deep sequencing provided a detailed view of the rapid evolutionary impact of VVC selection. Greater V3 diversity was observed post-selection. This previously unreported degree of V3 loop sequence diversity has implications for viral pathogenesis, vaccine design, and the optimal use of HIV-1 CCR5 antagonists.",

author = "Tsibris, {Athe M.N.} and Bette Korber and Ramy Arnaout and Carsten Russ and Lo, {Chien Chi} and Thomas Leitner and Brian Gaschen and James Theiler and Roger Paredes and Zhaohui Su and Hughes, {Michael D.} and Gulick, {Roy M.} and Wayne Greaves and Eoin Coakley and Charles Flexner and Chad Nusbaum and Kuritzkes, {Daniel R.}",

note = "Funding Information: A.M.N.T., B.T.K., R.A., C.R., C.-C.L., T.L., B.G., J.T., R.P., Z.S., and C.N. report no conflicts of interest. R.M.G. receives research grant support from Pfizer and Schering-Plough and has served as an ad-hoc consultant to Abbott, GlaxoSmithKline, Monogram, Pfizer, Roche-Trimeris, and Schering-Plough. D.R.K. has served as a consultant to and has received honoraria and/or research grant support from Abbott, Bayer, Monogram Biosciences, and Schering-Plough. W.G. is an employee of Schering-Plough Research Institute. E.C. is an employee of Monogram Biosciences. M.D.H. has served as a paid member of data and safety monitoring boards for Boehringer-Ingelheim and Tibotec and as a consultant to Bristol-Myers. C.F. served on a scientific advisory board for Schering-Plough. ",

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AU - Korber, Bette

AU - Arnaout, Ramy

AU - Russ, Carsten

AU - Lo, Chien Chi

AU - Leitner, Thomas

AU - Gaschen, Brian

AU - Theiler, James

AU - Paredes, Roger

AU - Su, Zhaohui

AU - Hughes, Michael D.

AU - Gulick, Roy M.

AU - Greaves, Wayne

AU - Coakley, Eoin

AU - Flexner, Charles

AU - Nusbaum, Chad

AU - Kuritzkes, Daniel R.

N1 - Funding Information: A.M.N.T., B.T.K., R.A., C.R., C.-C.L., T.L., B.G., J.T., R.P., Z.S., and C.N. report no conflicts of interest. R.M.G. receives research grant support from Pfizer and Schering-Plough and has served as an ad-hoc consultant to Abbott, GlaxoSmithKline, Monogram, Pfizer, Roche-Trimeris, and Schering-Plough. D.R.K. has served as a consultant to and has received honoraria and/or research grant support from Abbott, Bayer, Monogram Biosciences, and Schering-Plough. W.G. is an employee of Schering-Plough Research Institute. E.C. is an employee of Monogram Biosciences. M.D.H. has served as a paid member of data and safety monitoring boards for Boehringer-Ingelheim and Tibotec and as a consultant to Bristol-Myers. C.F. served on a scientific advisory board for Schering-Plough.

PY - 2009/5/25

Y1 - 2009/5/25

N2 - High-throughput sequencing platforms provide an approach for detecting rare HIV-1 variants and documenting more fully quasispecies diversity. We applied this technology to the V3 loop-coding region of env in samples collected from 4 chronically HIV-infected subjects in whom CCR5 antagonist (vicriviroc [VVC]) therapy failed. Between 25,000-140,000 amplified sequences were obtained per sample. Profound baseline V3 loop sequence heterogeneity existed; predicted CXCR4-using populations were identified in a largely CCR5-using population. The V3 loop forms associated with subsequent virologic failure, either through CXCR4 use or the emergence of high-level VVC resistance, were present as minor variants at 0.8-2.8% of baseline samples. Extreme, rapid shifts in population frequencies toward these forms occurred, and deep sequencing provided a detailed view of the rapid evolutionary impact of VVC selection. Greater V3 diversity was observed post-selection. This previously unreported degree of V3 loop sequence diversity has implications for viral pathogenesis, vaccine design, and the optimal use of HIV-1 CCR5 antagonists.

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Quantitative deep sequencing reveals dynamic HIV-1 escape and large population shifts during CCR5 antagonist therapy in vivo

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