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February 7, 2008
Also appeared in print Feb. 11, 2008, p. 14

Drug Discovery

How An Anti-HIV Drug Sidesteps Resistance

Inhibitor modifies its shape to accommodate changes in enzyme conformation

Stu Borman

Video

Shape Shifter

As HIV reverse transcriptase (gray, orange, and red) changes its shape through mutation, TMC278 (green and blue) follows the changes (yellow and blue) and stays bound.

© 2008 Proc. Natl. Acad. Sci. USA

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Human immunodeficiency virus is usually pretty good at mutating, thereby developing resistance to antiretroviral drugs. Agents targeting the virus's reverse transcriptase enzyme sometimes lose their efficacy when the enzyme mutates, but the inhibitor TMC278 (rilpivirine) tends to remain effective. Researchers have now obtained crystal structures that show that the drug shifts its shape, enabling it to hold on to mutated versions of the enzyme, an ability that might be incorporated into the design of other drugs.

TMC278 Scheme

The diarylpyrimidine TMC278 "is a highly promising compound" that has shown efficacy against a broad range of drug-resistant HIV variants, says virologist John M. Coffin of Tufts University, who did not participate in the crystallographic study. The compound is entering Phase III clinical trials sponsored by Tibotec Pharmaceuticals. The related diarylpyrimidine TMC125 (etravirine, or Intelence) was approved by FDA last month for treatment of antiretroviral drug-resistant HIV infections.

To learn why TMC278 inhibits HIV reverse transcriptase so persistently, a research team has obtained high-resolution crystal structures of the native enzyme and two key drug-resistant mutants, each bound to TMC278. The structures show that the inhibitor's compactness and flexibility enable it to adjust its conformation to accommodate mutational changes in the enzyme binding pocket (Proc. Natl. Acad. Sci. USA, DOI: 10.1073/pnas.0711209105).

Kalyan Das
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Persistent Inhibitor TMC278 (blue) binds and inhibits HIV reverse transcriptase (green). It is effective against a number of HIV variants that have developed resistance to other antiretroviral drugs.

The work was carried out by professor of chemistry and chemical biology Eddy Arnold of Rutgers University, whose group helped discover TMC278; Aaron J. Shatkin, professor and director of the Center for Advanced Biotechnology & Medicine, Piscataway, N.J.; and their coworkers, including Kalyan Das and Joseph D. Bauman. The researchers note that even as the enzyme's binding pocket adjusts its shape through mutation, it remains tightly wrapped around TMC278, which is flexible enough to make complementary conformational changes.

Arnold, Shatkin, and coworkers note that such mutual adaptability suggests the desirability of a more dynamic approach to drug design than is used conventionally. Shape modifications in protein targets and possible corresponding conformational adjustment in drugs should both be considered in the rational design of agents "intended to be broadly effective against targets that readily mutate and develop drug resistance," the researchers write.

Shape Shifter

As HIV reverse transcriptase (gray, orange, and red) changes its shape through mutation, TMC278 (green and blue) follows the changes (yellow and blue) and stays bound.

© 2008 Proc. Natl. Acad. Sci. USA

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Chemical & Engineering News
ISSN 0009-2347
Copyright © 2009 American Chemical Society

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