Litcius/Paper detail

Cell culture selections reveal favourable drug resistance profiles for doravirine and islatravir

Bluma Brenner, Maureen Oliveira, Ruxandra-Ilinca Ibanescu, Jean‐Pierre Routy, Réjean Thomas

2021Journal of Antimicrobial Chemotherapy18 citationsDOI

Abstract

BACKGROUND: The newer generation NNRTIs, including doravirine and rilpivirine, were designed to show high potency and overcome K103N, Y181C and G190A resistance. OBJECTIVES: To assess emergent resistance to doravirine and rilpivirine, alone and paired with lamivudine or islatravir through in vitro drug selections. METHODS: Subtype B (n = 3), non-B subtype (n = 3), and pNL4.3 viral isolates were passaged in cord blood mononuclear cells with progressively increasing concentrations of drug(s). Genotypic analysis compared the acquisition and accumulation of drug resistance mutations at weeks 8 and 24 following drug pressure. Cell-based phenotypic assays assessed cross-resistance patterns to NNRTIs by acquired resistance mutations. RESULTS: Doravirine pressure resulted in the acquisition of V108I (6/7) and V106A/I/M (5/7) mutations at weeks 8, followed by F227L (4/7), Y318F (4/7), M230L (2/7) or L234I (2/7) by weeks 24. In contrast, rilpivirine resulted in E138K (5/7) followed by L100I (3/7), K101E (1/7), or M230L (1/7). Doravirine resistance pathways retained susceptibility to rilpivirine, whereas rilpivirine resistance conferred intermediate resistance (12-152-fold) to doravirine. Dual selections with islatravir or lamivudine delayed and diminished emergent resistance to doravirine, resulting in V108I (9/15) with fewer or no other changes at weeks 24. There was a lesser delay in emergent resistance to rilpivirine when combined with islatravir or lamivudine. The M184V mutation did not arise in dual selections with islatravir or lamivudine. CONCLUSIONS: Doravirine showed a more robust resistance profile compared with other NNRTIs. The long intracellular half-life of islatravir and delayed acquisition of resistance in dual selections provide an opportunity for long-acting treatment options.

Topics & Concepts

RilpivirineLamivudineDrug resistanceResistance mutationReverse-transcriptase inhibitorVirologyPharmacologyMedicineHuman immunodeficiency virus (HIV)BiologySidaGeneticsVirusReverse transcriptaseViral loadPolymerase chain reactionAntiretroviral therapyViral diseaseGeneHepatitis B virusHIV/AIDS drug development and treatmentVirus-based gene therapy researchHIV-related health complications and treatments