5dt4 Citations

Allosteric modulation of AURKA kinase activity by a small-molecule inhibitor of its protein-protein interaction with TPX2.

<div class='caption-title'>Identification of AurkinA, inhibitor of Aurora A-TPX2 complex.</div>
<div class='caption-title'>AurkinA triggers conformational changes in AURKA protein.</div>
<div class='caption-title'>AurkinA causes allosteric inihibition of the kinase activity of AURKA.</div>
Janeček M, Rossmann M, Sharma P, Emery A, Huggins DJ, Stockwell SR, Stokes JE, Tan YS, Almeida EG, Hardwick B, Narvaez AJ, Hyvönen M, Spring DR, McKenzie GJ, Venkitaraman AR
OpenAccess logo Sci Rep 6 28528 (2016)
Related entries: 5dn3, 5dnr, 5dos, 5dpv, 5dr2, 5dr6, 5dr9, 5drd, 5dt0, 5dt3

Cited: 35 times
EuropePMC logo PMID: 27339427

Abstract

The essential mitotic kinase Aurora A (AURKA) is controlled during cell cycle progression via two distinct mechanisms. Following activation loop autophosphorylation early in mitosis when it localizes to centrosomes, AURKA is allosterically activated on the mitotic spindle via binding to the microtubule-associated protein, TPX2. Here, we report the discovery of AurkinA, a novel chemical inhibitor of the AURKA-TPX2 interaction, which acts via an unexpected structural mechanism to inhibit AURKA activity and mitotic localization. In crystal structures, AurkinA binds to a hydrophobic pocket (the 'Y pocket') that normally accommodates a conserved Tyr-Ser-Tyr motif from TPX2, blocking the AURKA-TPX2 interaction. AurkinA binding to the Y- pocket induces structural changes in AURKA that inhibit catalytic activity in vitro and in cells, without affecting ATP binding to the active site, defining a novel mechanism of allosteric inhibition. Consistent with this mechanism, cells exposed to AurkinA mislocalise AURKA from mitotic spindle microtubules. Thus, our findings provide fresh insight into the catalytic mechanism of AURKA, and identify a key structural feature as the target for a new class of dual-mode AURKA inhibitors, with implications for the chemical biology and selective therapeutic targeting of structurally related kinases.

Articles - 5dt4 mentioned but not cited (1)

  1. Allosteric modulation of AURKA kinase activity by a small-molecule inhibitor of its protein-protein interaction with TPX2. Janeček M, Rossmann M, Sharma P, Emery A, Huggins DJ, Stockwell SR, Stokes JE, Tan YS, Almeida EG, Hardwick B, Narvaez AJ, Hyvönen M, Spring DR, McKenzie GJ, Venkitaraman AR. Sci Rep 6 28528 (2016)


Reviews citing this publication (12)

  1. Inhibitors of protein-protein interactions (PPIs): an analysis of scaffold choices and buried surface area. Ran X, Gestwicki JE. Curr Opin Chem Biol 44 75-86 (2018)
  2. Aurora-PLK1 cascades as key signaling modules in the regulation of mitosis. Joukov V, De Nicolo A. Sci Signal 11 eaar4195 (2018)
  3. Non-kinase targets of protein kinase inhibitors. Munoz L. Nat Rev Drug Discov 16 424-440 (2017)
  4. Mechanisms for nonmitotic activation of Aurora-A at cilia. Korobeynikov V, Deneka AY, Golemis EA. Biochem Soc Trans 45 37-49 (2017)
  5. The multifaceted allosteric regulation of Aurora kinase A. Levinson NM. Biochem J 475 2025-2042 (2018)
  6. Switching Aurora-A kinase on and off at an allosteric site. Bayliss R, Burgess SG, McIntyre PJ. FEBS J 284 2947-2954 (2017)
  7. Nuclear localisation of Aurora-A: its regulation and significance for Aurora-A functions in cancer. Naso FD, Boi D, Ascanelli C, Pamfil G, Lindon C, Paiardini A, Guarguaglini G. Oncogene 40 3917-3928 (2021)
  8. Structural features of the protein kinase domain and targeted binding by small-molecule inhibitors. Arter C, Trask L, Ward S, Yeoh S, Bayliss R. J Biol Chem 298 102247 (2022)
  9. Aurora A and AKT Kinase Signaling Associated with Primary Cilia. Nishimura Y, Yamakawa D, Shiromizu T, Inagaki M. Cells 10 3602 (2021)
  10. CK1 Is a Druggable Regulator of Microtubule Dynamics and Microtubule-Associated Processes. Roth A, Gihring A, Bischof J, Pan L, Oswald F, Knippschild U. Cancers (Basel) 14 1345 (2022)
  11. Aurora Kinase A Regulation by Cysteine Oxidative Modification. Lee IG, Lee BJ. Antioxidants (Basel) 12 531 (2023)
  12. Recent advances in the understanding of cilia mechanisms and their applications as therapeutic targets. Saito M, Otsu W, Miyadera K, Nishimura Y. Front Mol Biosci 10 1232188 (2023)

Articles citing this publication (22)



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