1. Academic Validation
  2. Aurora A kinase RNAi and small molecule inhibition of Aurora kinases with VE-465 induce apoptotic death in multiple myeloma cells

Aurora A kinase RNAi and small molecule inhibition of Aurora kinases with VE-465 induce apoptotic death in multiple myeloma cells

  • Leuk Lymphoma. 2008 Mar;49(3):559-69. doi: 10.1080/10428190701824544.
Robert Evans 1 Claudia Naber Tara Steffler Tamara Checkland Jonathan Keats Christopher Maxwell Troy Perry Heidi Chau Andrew Belch Linda Pilarski Tony Reiman
Affiliations

Affiliation

  • 1 Department of Oncology, University of Alberta/Cross Cancer Institute, Edmonton, Alberta, Canada.
Abstract

The expression of RHAMM and Other centrosome-associated genes are known to correlate with the extent of centrosome amplification in multiple myeloma, and with poor prognosis. RHAMM has a significant interaction with TPX2, a protein which regulates the localization and action of Aurora A kinase (AURKA) at the spindle poles. AURKA is known to be a central determinant of centrosome and spindle function and is a target for Cancer therapy. Given these observations, we investigated the role of Aurora kinases as therapeutic targets in myeloma. Here we report that AURKA is expressed ubiquitously in myeloma, to varying degrees, in both cell lines and patients' bone marrow plasma cells. siRNA targeting AURKA induces apoptotic cell death in myeloma cell lines. The Aurora Kinase Inhibitor VE-465 also induces Apoptosis and death in myeloma cell lines and primary myeloma plasma cells. The combination of VE-465 and dexamethasone improves cell killing compared with the use of either agent alone, even in cells resistant to the single agents. The phenotype of myeloma cells treated with VE-465 is consistent with published reports on the effects of Aurora Kinase inhibition. Aurora Kinase inhibitors should be pursued as potential treatments for myeloma.

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