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The molecular determinants of R-roscovitine block of hERG channels

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  • Bryan Cernuda
  • Christopher Thomas Fernandes
  • Salma Mohamed Allam
  • Matthew Orzillo
  • Gabrielle Suppa
  • Zuleen Chia Chang
  • Demosthenes Athanasopoulos
  • Zafir Buraei

Abstract

Human ether-à-go-go-related gene (Kv11.1, or hERG) is a potassium channel that conducts the delayed rectifier potassium current (IKr) during the repolarization phase of cardiac action potentials. hERG channels have a larger pore than other K+channels and can trap many unintended drugs, often resulting in acquired LQTS (aLQTS). R-roscovitine is a cyclin-dependent kinase (CDK) inhibitor that induces apoptosis in colorectal, breast, prostate, multiple myeloma, other cancer cell lines, and tumor xenografts, in micromolar concentrations. It is well tolerated in phase II clinical trials. R-roscovitine inhibits open hERG channels but does not become trapped in the pore. Two-electrode voltage clamp recordings from Xenopus oocytes expressing wild-type (WT) or hERG pore mutant channels (T623A, S624A, Y652A, F656A) demonstrated that compared to WT hERG, T623A, Y652A, and F656A inhibition by 200 μM R-roscovitine was ~ 48%, 29%, and 73% weaker, respectively. In contrast, S624A hERG was inhibited more potently than WT hERG, with a ~ 34% stronger inhibition. These findings were further supported by the IC50 values, which were increased for T623A, Y652A and F656A (by ~5.5, 2.75, and 42 fold respectively) and reduced 1.3 fold for the S624A mutant. Our data suggest that while T623, Y652, and F656 are critical for R-roscovitine-mediated inhibition, S624 may not be. Docking studies further support our findings. Thus, R-roscovitine’s relatively unique features, coupled with its tolerance in clinical trials, could guide future drug screens.

Suggested Citation

  • Bryan Cernuda & Christopher Thomas Fernandes & Salma Mohamed Allam & Matthew Orzillo & Gabrielle Suppa & Zuleen Chia Chang & Demosthenes Athanasopoulos & Zafir Buraei, 2019. "The molecular determinants of R-roscovitine block of hERG channels," PLOS ONE, Public Library of Science, vol. 14(9), pages 1-26, September.
    • Handle: RePEc:plo:pone00:0217733
    DOI: 10.1371/journal.pone.0217733
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    References listed on IDEAS

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    1. Youxing Jiang & Alice Lee & Jiayun Chen & Vanessa Ruta & Martine Cadene & Brian T. Chait & Roderick MacKinnon, 2003. "X-ray structure of a voltage-dependent K+ channel," Nature, Nature, vol. 423(6935), pages 33-41, May.
    2. Michael C. Sanguinetti & Martin Tristani-Firouzi, 2006. "hERG potassium channels and cardiac arrhythmia," Nature, Nature, vol. 440(7083), pages 463-469, March.
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