Abstract

Both the deep pocket region and its neighboring subpocket site on the N-trimer of HIV-1 gp41 protein can serve as targets for the development of HIV-1 entry inhibitors. Pocket-binding domain (PBD)-containing peptides with the potential to inhibit HIV-1 fusion through targeting the deep pocket have been extensively exploited. However, using an artificial peptide strategy, we herein report the design of α-helical lipopeptides with non-native protein sequences as HIV-1 fusion inhibitors that can occupy both gp41 deep cavity and subpocket sites. The most active compound, PP24C, inhibited HIV-1 replication, including T20-resistant HIV-1 mutants, at low nanomolar level. Biophysical approaches revealed that both the artificial α-helical peptide P35A4 and its cholesterol-tagged peptide PP24C could bind to T21 peptide used as a target surrogate comprising both pockets. Our study offers a new template for the design of artificial anti-HIV-1 therapeutics and highlights the novel concept of peptide secondary structure-based virus fusion inhibitors.

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