Increased Frequency of Inter-Subtype HIV-1 Recombinants Identified by Near Full-Length Virus Sequencing in Rwandan Acute Transmission Cohorts

Gisele Umviligihozo; Erick Muok; Emmanuel Nyirimihigo Gisa; Rui Xu; Dario Dilernia; Kimberley Herard; Heeyah Song; Qianhong Qin; Jean Bizimana; Paul Farmer; Jonathan Hare; Jill Gilmour; Susan Allen; Etienne Karita; Eric Hunter; Ling Yue

doi:10.3389/fmicb.2021.734929

Increased Frequency of Inter-Subtype HIV-1 Recombinants Identified by Near Full-Length Virus Sequencing in Rwandan Acute Transmission Cohorts

Front Microbiol. 2021 Oct 7:12:734929. doi: 10.3389/fmicb.2021.734929. eCollection 2021.

Authors

Gisele Umviligihozo¹, Erick Muok¹, Emmanuel Nyirimihigo Gisa¹, Rui Xu², Dario Dilernia², Kimberley Herard², Heeyah Song², Qianhong Qin², Jean Bizimana¹, Paul Farmer², Jonathan Hare³, Jill Gilmour⁴, Susan Allen⁵, Etienne Karita¹, Eric Hunter^{2

5}, Ling Yue²

Affiliations

¹ Centre for Family Health Research, Kigali, Rwanda.
² Emory Vaccine Center at Yerkes National Primate Research Center, Atlanta, GA, United States.
³ IAVI, New York, NY, United States.
⁴ Faculty of Medicine, Imperial College London, London, United Kingdom.
⁵ Department of Pathology and Laboratory Medicine, Emory University, Atlanta, GA, United States.

Abstract

Most studies of HIV-1 transmission have focused on subtypes B and C. In this study, we determined the genomic sequences of the transmitted founder (TF) viruses from acutely infected individuals enrolled between 2005 and 2011 into IAVI protocol C in Rwanda and have compared these isolates to viruses from more recent (2016-2019) acute/early infections in three at risk populations - MSM, high risk women (HRW), and discordant couples (DC). For the Protocol C samples, we utilized near full-length single genome (NFLG) amplification to generate 288 HIV-1 amplicons from 26 acutely infected seroconverters (SC), while for the 21 recent seroconverter samples (13 from HRW, two from DC, and six from MSM), we PCR amplified overlapping half-genomes. Using PacBio SMRT technology combined with the MDPseq workflow, we performed multiplex sequencing to obtain high accuracy sequences for each amplicon. Phylogenetic analyses indicated that the majority of recent transmitted viruses from DC and HRW clustered within those of the earlier Protocol C cohort. However, five of six sequences from the MSM cohort branched together and were greater than 97% identical. Recombination analyses revealed a high frequency (6/26; 23%) of unique inter-subtype recombination in Protocol C with 19% AC and 4% CD recombinant viruses, which contrasted with only 6.5% of recombinants defined by sequencing of the pol gene previously. The frequency of recombinants was significantly higher (12/21; 57%) in the more recent isolates, although, the five related viruses from the MSM cohort had identical recombination break points. While major drug resistance mutations were absent from Protocol C viruses, 4/21 of recent isolates exhibited transmitted nevirapine resistance. These results demonstrate the ongoing evolution and increased prevalence of recombinant and drug resistant transmitted viruses in Rwanda and highlight the importance of defining NFLG sequences to fully understand the nature of TF viruses and in particular the prevalence of unique recombinant forms (URFs) in transmission cohorts.

Keywords: HIV subtype; HIV-1 transmission; antiretroviral drug resistance mutations; genetic bottleneck; inter-subtype recombination; near full-length genome sequencing.

Abstract

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