Isabelle Malet1, Olivier Delelis2, Thuy Nguyen1, Valentin Leducq1, Besma Abdi1, Laurence Morand-Joubert3, Vincent Calvez1, Anne-Geneviève Marcelin1. 1. Sorbonne Université, INSERM, Institut Pierre Louis d'Epidémiologie et de Santé Publique (IPLESP), AP-HP, Hôpital Pitié-Salpêtrière, Laboratoire de virologie, F-75013 Paris, France. 2. LBPA, ENS Paris-Saclay, CNRS UMR8113, IDA FR3242, Université Paris-Saclay, F-94235 Cachan, France. 3. Sorbonne Université, INSERM, Institut Pierre Louis d'Epidémiologie et de Santé Publique (IPLESP), APHP, Hôpital Saint-Antoine, laboratoire de virologie, F-75012 Paris, France.
Abstract
BACKGROUND: Integrase strand-transfer inhibitors (INSTIs) are efficient at impairing retroviral integration, which is a critical step in HIV-1 replication. To date, resistance to these compounds has been explained by mutations in the viral protein integrase, which catalyses the integration step. Recently, it has been shown that selected mutations in the 3' polypurine tract (3'PPT), a sequence involved in the reverse transcription mechanism, result in high-level resistance to these compounds. This observation was reinforced by the description of a patient who failed INSTI treatment by selecting mutations in the 3'PPT sequence. METHODS: Sequences of the 3'PPT region were analysed in 30706 treatment-naive patients from the public Los Alamos database belonging to six different subtypes and, in parallel, in 107 patients failing INSTI treatment. RESULTS: The analysis showed that the sequences of patients failing INSTI treatment, in the same way as those of treatment-naive patients, are very well conserved regardless of the presence or absence of resistance mutations in the integrase gene. CONCLUSIONS: This study confirms that the selection of a mutation in the 3'PPT region conferring high-level resistance to INSTIs is a rare event. It would require a particular in vivo context and especially a long enough time to be selected, this exposure time being generally reduced by the rapid change of treatment in the case of virological failure. Larger-scale studies in patients with INSTI treatment failure are needed to determine whether the 3'PPT region can play an important role in vivo in INSTI resistance.
BACKGROUND: Integrase strand-transfer inhibitors (INSTIs) are efficient at impairing retroviral integration, which is a critical step in HIV-1 replication. To date, resistance to these compounds has been explained by mutations in the viral protein integrase, which catalyses the integration step. Recently, it has been shown that selected mutations in the 3' polypurine tract (3'PPT), a sequence involved in the reverse transcription mechanism, result in high-level resistance to these compounds. This observation was reinforced by the description of a patient who failed INSTI treatment by selecting mutations in the 3'PPT sequence. METHODS: Sequences of the 3'PPT region were analysed in 30706 treatment-naive patients from the public Los Alamos database belonging to six different subtypes and, in parallel, in 107 patients failing INSTI treatment. RESULTS: The analysis showed that the sequences of patients failing INSTI treatment, in the same way as those of treatment-naive patients, are very well conserved regardless of the presence or absence of resistance mutations in the integrase gene. CONCLUSIONS: This study confirms that the selection of a mutation in the 3'PPT region conferring high-level resistance to INSTIs is a rare event. It would require a particular in vivo context and especially a long enough time to be selected, this exposure time being generally reduced by the rapid change of treatment in the case of virological failure. Larger-scale studies in patients with INSTI treatment failure are needed to determine whether the 3'PPT region can play an important role in vivo in INSTI resistance.