Abstract

Since its identification, HIV has continued to have a detrimental impact on the lives of millions of people throughout the world. The protease of HIV is a major target in antiviral treatment. The South African HIV-1 subtype C (C-SA) protease displays weaker binding affinity for some clinically approved protease inhibitors in comparison with the HIV-1 subtype B protease. The heavy HIV burden in sub-Saharan Africa, where subtype C HIV-1 predominates, makes this disparity a topic of great interest. In light of this, the enzyme activity and affinity of protease inhibitors for the subtype B and C-SA proteases were determined. The relative vitality, indicating the selective advantage of polymorphisms, of the C-SA protease relative to the subtype B protease in the presence of ritonavir and darunavir was four- and tenfold greater, respectively. Dynamic differences that contribute to the reduced drug susceptibility of the C-SA protease were investigated by performing hydrogen-deuterium exchange/mass spectrometry (HDX/MS) on unbound subtype B and C-SA proteases. The reduced propensity to form the E35-R57 salt bridge, and alterations in the hydrophobic core of the C-SA protease, are proposed to affect the anchoring of the flexible flaps, resulting in an increased proportion of the fully open flap conformation. HDX/MS data suggested that the N-terminus of both proteases is less stable than the C-terminus of the proteases, thus explaining the increased efficacy of dimerization inhibitors targeted toward the C-terminus of HIV proteases. As far as we are aware, this is the first report on assessment of HIV protease dynamics using HDX/MS.

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