Warren M. Kati scite author profile

The mechanism of inhibition of HIV-1 reverse transcriptase by three nonnucleoside inhibitors is described. Nevirapine, O-TIBO, and CI-TIBO each bind to a hydrophobic pocket in the enzyme-DNA complex close to the active site catalytic residues. Pre-steady-state kinetic analysis was used to establish the mechanism of inhibition by these noncompetitive inhibitors. Analysis of the pre-steady-state burst of DNA polymerization indicated that inhibitors blocked the chemical reaction, but did not interfere with nucleotide binding or the nucleotide-induced conformational change. Rather, in the presence of saturating concentrations of the inhibitors, the nucleoside triphosphate bound tightly (Kd, 100 nM), but nonproductively. The data suggest that an inhibitor combining the functionalities of a nonnucleoside inhibitor and a nucleotide analog could bind very tightly and specifically to reverse transcriptase and could be effective in the treatment of AIDS.

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Mechanism and fidelity of HIV reverse transcriptase.

Kati

Johnson

Jerva

et al. 1992

Journal of Biological Chemistry

508

324

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Selective inhibition of the BD2 bromodomain of BET proteins in prostate cancer

Faivre

McDaniel

Albert

et al. 2020

Nature

290

356

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ABT-378, a Highly Potent Inhibitor of the Human Immunodeficiency Virus Protease

Sham¹,

Kempf²,

Molla³

et al. 1998

Antimicrob Agents Chemother

446

245

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The valine at position 82 (Val 82) in the active site of the human immunodeficiency virus (HIV) protease mutates in response to therapy with the protease inhibitor ritonavir. By using the X-ray crystal structure of the complex of HIV protease and ritonavir, the potent protease inhibitor ABT-378, which has a diminished interaction with Val 82, was designed. ABT-378 potently inhibited wild-type and mutant HIV protease (Ki = 1.3 to 3.6 pM), blocked the replication of laboratory and clinical strains of HIV type 1 (50% effective concentration [EC50], 0.006 to 0.017 μM), and maintained high potency against mutant HIV selected by ritonavir in vivo (EC50, ≤0.06 μM). The metabolism of ABT-378 was strongly inhibited by ritonavir in vitro. Consequently, following concomitant oral administration of ABT-378 and ritonavir, the concentrations of ABT-378 in rat, dog, and monkey plasma exceeded the in vitro antiviral EC50 in the presence of human serum by >50-fold after 8 h. In healthy human volunteers, coadministration of a single 400-mg dose of ABT-378 with 50 mg of ritonavir enhanced the area under the concentration curve of ABT-378 in plasma by 77-fold over that observed after dosing with ABT-378 alone, and mean concentrations of ABT-378 exceeded the EC50 for >24 h. These results demonstrate the potential utility of ABT-378 as a therapeutic intervention against AIDS.

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Use of a Fluorescence Plate Reader for Measuring Kinetic Parameters with Inner Filter Effect Correction

Liu

Kati

Chen

et al. 1999

Analytical Biochemistry

192

157

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Warren M. Kati

Mechanism of Inhibition of HIV-1 Reverse Transcriptase by Nonnucleoside Inhibitors

Mechanism and fidelity of HIV reverse transcriptase.

Selective inhibition of the BD2 bromodomain of BET proteins in prostate cancer

ABT-378, a Highly Potent Inhibitor of the Human Immunodeficiency Virus Protease

Use of a Fluorescence Plate Reader for Measuring Kinetic Parameters with Inner Filter Effect Correction

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