Aurora kinase and FGFR3 inhibition results in significant apoptosis in molecular subgroups of multiple myeloma

Utkarsh Painuly,Jessica Haug,Linda Wellik,Lintao Bi,Zhongxia Huang,Vijay Ramakrishnan,Wilson Gonsalves,Teresa Kimlinger,S Vincent Rajkumar,Shaji Kumar

doi:10.18632/oncotarget.26180

Utkarsh Painuly, Jessica Haug + Show 8 more

Open Access

https://doi.org/10.18632/oncotarget.26180

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Abstract

Aberrant expression of proteins involved in cell division is a constant feature in multiple myeloma (MM), especially in high-risk disease. Increasingly, therapy of myeloma is moving towards individualization based on underlying genetic abnormalities. Aurora kinases are important mediators of cell cycle and are up regulated in MM. Functional loss of Aurora kinases results in genetic instability and dysregulated division leading to cellular aneuploidy and growth arrest. We investigated the role of Aurora kinase inhibition in MM, using a small molecule inhibitor A1014907. Low nanomolar A1014907 concentrations induced aneuploidy in MM cell lines independent of underlying cytogenetic abnormalities by inhibiting Aurora Kinases. However, A1014907 induced more pronounced and dose dependent apoptosis in cell lines with t(4;14) translocation. Translocation t(4;14) is observed in about 15% of patients with MM leading to constitutive activation of FGFR3 in two-thirds of these patients. Further investigation of the mechanism of action of A1014907 revealed potent FGFR3 pathway inhibition only in the sensitive cell lines. Thus, our results show that aurora kinase inhibition causes cell cycle arrest and aneuploidy with minimal apoptosis whereas inhibiting both aurora kinase and FGFR3 activity induced potent apoptosis in MM cells. These results support clinical evaluation of A1014907 in MM patients with t(4;14) translocation and/or FGFR3 expression.

Highlights

Aurora kinases (A, B and C) are highly conserved serine threonine kinases whose functions mediate different stages of cell division [1]
Abnormally formed spindles are detected at mitotic checkpoint, which arrests the cells in mitosis
We treated a panel of MM cell lines with various doses of A1014907 for 72 hrs and examined the cytotoxicity induced by the drug

Summary

Introduction

Aurora kinases (A, B and C) are highly conserved serine threonine kinases whose functions mediate different stages of cell division [1]. Aurora B along with survivin, borealin, and INCENP is a member of the chromosome passenger complex. This complex functions in several important steps in mitosis including chromosome condensation, spindle assembly checkpoint control and cytokinesis [6,7,8]. Depletion of Aurora-A leads to mitotic arrest followed by the induction of polyploidy in cells lacking p53 [10]. Low levels of Aurora A contributes to decreased activity www.oncotarget.com of Cyclin B/CDK1, a G2M regulatory protein complex, further contributing to cell cycle arrest [11, 12]. Depletion of Aurora-B eliminates activation of mitotic checkpoint, leading to formation of tetraploid cells. As mitotic checkpoint remains inactivated, these cells fail to arrest at mitosis [13, 14]

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