PLoS ONE (May 2009)

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
https://doi.org/10.1371/journal.pone.0005683
Journal volume & issue
Vol. 4, no. 5
p. e5683

Abstract

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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.