1bwa

The long-term therapeutic benefit of HIV antiretroviral therapy is still, threatened by drug-resistant variants. Mutations in the S1 subsite of the, protease are the primary cause for the loss of sensitivity toward many HIV, protease inhibitors, including our first-generation cyclic urea-based, inhibitors DMP323 and DMP450. We now report the structures of the three, active-site mutant proteases V82F, I84V, and V82F/I84V in complex with, XV638 and SD146, two P2 analogues of DMP323 that are 8-fold more potent, against the wild type and are able to inhibit a broad panel of, drug-resistant variants [Jadhav, P. K., et al. (1997) J. Med. Chem. 40, 181-191]. The increased efficacy of XV638 and SD146 is due primarily to an, increase in P2-S2 interactions: 30-40% more van der Waals contacts and two, to four additional hydrogen bonds. Furthermore, because these new, interactions do not perturb other subsites in the protease, it appears, that the large complementary surface areas of their P2 substituents, compensate for the loss of P1-S1 interactions and reduce the probability, of selecting for drug-resistant variants.

1BWA is a Single protein structure of sequence from Human immunodeficiency virus 1 with XV6 as ligand. Active as HIV-1 retropepsin, with EC number 3.4.23.16 Full crystallographic information is available from OCA.

Counteracting HIV-1 protease drug resistance: structural analysis of mutant proteases complexed with XV638 and SD146, cyclic urea amides with broad specificities., Ala PJ, Huston EE, Klabe RM, Jadhav PK, Lam PY, Chang CH, Biochemistry. 1998 Oct 27;37(43):15042-9. PMID:9790666

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