Defective HIV-1 DNA pol sequences are not associated with HIV-1 DNA levels and drive most APOBEC-context drug resistance mutations

The specificity of HIV-1 DNA genotypic resistance tests (GRTs) is hampered by the detection of the APOBEC-context drug resistance mutations (AC DRMs), usually harboured by replication-incompetent proviruses. We sought factors associated with defective sequences in the HIV-1 pol region. In addition, AC DRMs and their link with defective sequences were investigated. We included ART-treated patients with viral suppression or plasma viral load (VL) lower than 200 copies/mL, who underwent HIV-1 DNA genotyping, with successful sequencing of protease (PR), reverse transcriptase (RT) and integrase (IN) regions. Sequencing was performed using either the Sanger method or the Sentosa® NGS approach with a 20% cut-off. All hypermutated sequences and/or those containing at least one stop codon were considered defective. A total of 613 HIV-1 DNA GRTs were analysed. Defective sequences were identified for 186 samples (30.3%) including 65 PR sequences, 92 RT sequences and 65 IN sequences. No association, including HIV-1 DNA levels, was found with the detection of defective pol sequences. A total of 226 AC DRMs were recorded in all sequences. Most of these mutations (78%) were harboured by defective sequences. AC DRMs did not emerge in the plasma viral population, and likely do not impact the virological response to ART. Defectives pol sequences were not associated with HIV-1 DNA levels and harboured most of the AC DRMs. Such mutations likely have no clinical impact, and should not be reported in routine practice. Consensus guidelines for reporting HIV-1 DNA GRTs are needed, especially for the assessment and management of AC DRMs.