Phosphorylation by Aurora B kinase regulates caspase-2 activity and function

Yoon Lim; Dylan De Bellis; Jarrod J. Sandow; Luisa Capalbo; Pier Paolo D’Avino; James M. Murphy; Andrew I. Webb; Loretta Dorstyn; Sharad Kumar

doi:10.1038/s41418-020-00604-y

Phosphorylation by Aurora B kinase regulates caspase-2 activity and function

Yoon Lim, Dylan De Bellis, Jarrod J. Sandow, Luisa Capalbo, Pier Paolo D’Avino, James M. Murphy, Andrew I. Webb, Loretta Dorstyn, Sharad Kumar

Research output: Contribution to journal › Article › Research › peer-review

25 Citations (Scopus)

Abstract

Mitotic catastrophe (MC) is an important oncosuppressive mechanism that serves to eliminate cells that become polyploid or aneuploid due to aberrant mitosis. Previous studies have demonstrated that the activation and catalytic function of caspase-2 are key steps in MC to trigger apoptosis and/or cell cycle arrest of mitotically defective cells. However, the molecular mechanisms that regulate caspase-2 activation and its function are unclear. Here, we identify six new phosphorylation sites in caspase-2 and show that a key mitotic kinase, Aurora B kinase (AURKB), phosphorylates caspase-2 at the highly conserved residue S384. We demonstrate that phosphorylation at S384 blocks caspase-2 catalytic activity and apoptosis function in response to mitotic insults, without affecting caspase-2 dimerisation. Moreover, molecular modelling suggests that phosphorylation at S384 may affect substrate binding by caspase-2. We propose that caspase-2 S384 phosphorylation by AURKB is a key mechanism that controls caspase-2 activation during mitosis.

Original language	English
Pages (from-to)	349-366
Number of pages	18
Journal	Cell Death and Differentiation
Volume	28
Issue number	1
DOIs	https://doi.org/10.1038/s41418-020-00604-y
Publication status	Published - Jan 2021
Externally published	Yes

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@article{85bc41e9bda4418c8f61359ebc19ee86,

title = "Phosphorylation by Aurora B kinase regulates caspase-2 activity and function",

abstract = "Mitotic catastrophe (MC) is an important oncosuppressive mechanism that serves to eliminate cells that become polyploid or aneuploid due to aberrant mitosis. Previous studies have demonstrated that the activation and catalytic function of caspase-2 are key steps in MC to trigger apoptosis and/or cell cycle arrest of mitotically defective cells. However, the molecular mechanisms that regulate caspase-2 activation and its function are unclear. Here, we identify six new phosphorylation sites in caspase-2 and show that a key mitotic kinase, Aurora B kinase (AURKB), phosphorylates caspase-2 at the highly conserved residue S384. We demonstrate that phosphorylation at S384 blocks caspase-2 catalytic activity and apoptosis function in response to mitotic insults, without affecting caspase-2 dimerisation. Moreover, molecular modelling suggests that phosphorylation at S384 may affect substrate binding by caspase-2. We propose that caspase-2 S384 phosphorylation by AURKB is a key mechanism that controls caspase-2 activation during mitosis.",

author = "Yoon Lim and \{De Bellis\}, Dylan and Sandow, \{Jarrod J.\} and Luisa Capalbo and D{\textquoteright}Avino, \{Pier Paolo\} and Murphy, \{James M.\} and Webb, \{Andrew I.\} and Loretta Dorstyn and Sharad Kumar",

note = "Funding Information: Acknowledgements We thank J. Puccini for helping generate the U2OS-CASP2−/−cell line, A. Villunger for A549 and A549-CASP2−/− cell lines, CCB Cytometry for DNA content analysis, and members of our laboratory for discussions and useful comments. This project was supported by the National Health and Medical Research Council (NHMRC) of Australia project grants 1043057 and 1156601, an NHMRC Senior Principal Research Fellowship (1103006) and a University of South Australia support package to SK. We acknowledge the support of the Australian Cancer Research Foundation funded Cancer Genomics and Imaging Core Facilities at CCB. JMM acknowledges the NHMRC fellowship (1105754, 1172929) support; JJS, AIW and JMM acknowledge NHMRC IRIISS (9000587); and the work in PPD laboratory is supported by a BBSRC grant (BB/ R001227/1). Publisher Copyright: {\textcopyright} 2020, The Author(s).",

year = "2021",

month = jan,

doi = "10.1038/s41418-020-00604-y",

language = "English",

volume = "28",

pages = "349--366",

journal = "Cell Death and Differentiation",

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T1 - Phosphorylation by Aurora B kinase regulates caspase-2 activity and function

AU - Lim, Yoon

AU - De Bellis, Dylan

AU - Sandow, Jarrod J.

AU - Capalbo, Luisa

AU - D’Avino, Pier Paolo

AU - Murphy, James M.

AU - Webb, Andrew I.

AU - Dorstyn, Loretta

AU - Kumar, Sharad

N1 - Funding Information: Acknowledgements We thank J. Puccini for helping generate the U2OS-CASP2−/−cell line, A. Villunger for A549 and A549-CASP2−/− cell lines, CCB Cytometry for DNA content analysis, and members of our laboratory for discussions and useful comments. This project was supported by the National Health and Medical Research Council (NHMRC) of Australia project grants 1043057 and 1156601, an NHMRC Senior Principal Research Fellowship (1103006) and a University of South Australia support package to SK. We acknowledge the support of the Australian Cancer Research Foundation funded Cancer Genomics and Imaging Core Facilities at CCB. JMM acknowledges the NHMRC fellowship (1105754, 1172929) support; JJS, AIW and JMM acknowledge NHMRC IRIISS (9000587); and the work in PPD laboratory is supported by a BBSRC grant (BB/ R001227/1). Publisher Copyright: © 2020, The Author(s).

PY - 2021/1

Y1 - 2021/1

N2 - Mitotic catastrophe (MC) is an important oncosuppressive mechanism that serves to eliminate cells that become polyploid or aneuploid due to aberrant mitosis. Previous studies have demonstrated that the activation and catalytic function of caspase-2 are key steps in MC to trigger apoptosis and/or cell cycle arrest of mitotically defective cells. However, the molecular mechanisms that regulate caspase-2 activation and its function are unclear. Here, we identify six new phosphorylation sites in caspase-2 and show that a key mitotic kinase, Aurora B kinase (AURKB), phosphorylates caspase-2 at the highly conserved residue S384. We demonstrate that phosphorylation at S384 blocks caspase-2 catalytic activity and apoptosis function in response to mitotic insults, without affecting caspase-2 dimerisation. Moreover, molecular modelling suggests that phosphorylation at S384 may affect substrate binding by caspase-2. We propose that caspase-2 S384 phosphorylation by AURKB is a key mechanism that controls caspase-2 activation during mitosis.

AB - Mitotic catastrophe (MC) is an important oncosuppressive mechanism that serves to eliminate cells that become polyploid or aneuploid due to aberrant mitosis. Previous studies have demonstrated that the activation and catalytic function of caspase-2 are key steps in MC to trigger apoptosis and/or cell cycle arrest of mitotically defective cells. However, the molecular mechanisms that regulate caspase-2 activation and its function are unclear. Here, we identify six new phosphorylation sites in caspase-2 and show that a key mitotic kinase, Aurora B kinase (AURKB), phosphorylates caspase-2 at the highly conserved residue S384. We demonstrate that phosphorylation at S384 blocks caspase-2 catalytic activity and apoptosis function in response to mitotic insults, without affecting caspase-2 dimerisation. Moreover, molecular modelling suggests that phosphorylation at S384 may affect substrate binding by caspase-2. We propose that caspase-2 S384 phosphorylation by AURKB is a key mechanism that controls caspase-2 activation during mitosis.

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SP - 349

EP - 366

JO - Cell Death and Differentiation

JF - Cell Death and Differentiation

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Phosphorylation by Aurora B kinase regulates caspase-2 activity and function

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