Mechanisms of HIV-1 Integrase Resistance to Dolutegravir and Potent Inhibition of Drug Resistant Variants

Abstract

ABSTRACTHIV-1 infection depends on the integration of viral DNA into host chromatin. Integration is mediated by the viral enzyme integrase and is blocked by integrase strand transfer inhibitors (INSTIs), first-line antiretroviral therapeutics widely used in the clinic. Resistance to even the best INSTIs is a problem and the mechanisms of resistance are poorly understood. Here, we analyze combinations of the mutations E138K, G140A/S, and Q148H/K/R, which confer resistance to INSTIs. The investigational drug 4d more effectively inhibited the mutants compared with the approved drug Dolutegravir (DTG). We present 11 new cryo-EM structures of drug resistant HIV-1 intasomes bound toDTGor4d, with better than 3 Å resolution. These structures, complemented with free energy simulations, virology, and enzymology, explain the mechanisms ofDTGresistance involving E138K+G140A/S+Q148H/K/R and show why4dmaintains potency better thanDTG. These data establish a foundation for further development of INSTIs that potently inhibit resistant forms in integrase.