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CDK/CK1 inhibitors roscovitine and CR8 down-regulate amplified MYCN in neuroblastoma cells

CDK/CK1 inhibitors roscovitine and CR8 down-regulate amplified MYCN in neuroblastoma cells
CDK/CK1 inhibitors roscovitine and CR8 down-regulate amplified MYCN in neuroblastoma cells
To understand the mechanisms of action of (R)-roscovitine and (S)-CR8, two related pharmacological inhibitors of cyclin-dependent kinases (CDKs), we applied a variety of ‘-omics’ techniques to the human neuroblastoma SH-SY5Y and IMR32 cell lines: (1) kinase interaction assays, (2) affinity competition on immobilized broad-spectrum kinase inhibitors, (3) affinity chromatography on immobilized (R)-roscovitine and (S)-CR8, (4) whole genome transcriptomics analysis and specific quantitative PCR studies, (5) global quantitative proteomics approach and western blot analysis of selected proteins. Altogether, the results show that the major direct targets of these two molecules belong to the CDKs (1,2,5,7,9,12), DYRKs, CLKs and CK1s families. By inhibiting CDK7, CDK9 and CDK12, these inhibitors transiently reduce RNA polymerase 2 activity, which results in downregulation of a large set of genes. Global transcriptomics and proteomics analysis converge to a central role of MYC transcription factors downregulation. Indeed, CDK inhibitors trigger rapid and massive downregulation of MYCN expression in MYCN-amplified neuroblastoma cells as well as in nude mice xenografted IMR32 cells. Inhibition of casein kinase 1 may also contribute to the antitumoral activity of (R)-roscovitine and (S)-CR8. This dual mechanism of action may be crucial in the use of these kinase inhibitors for the treatment of MYC-dependent cancers, in particular neuroblastoma where MYCN amplification is a strong predictor factor for high-risk disease.
0950-9232
5675-5687
Meijer, L.
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Delehouze, C.
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Godl, K.
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Loaec, N.
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Desban, N.
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Oumata, N.
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Galons, H.
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Roumeliotis, Theodoros
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Giannopoulou, E.G.
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Grenet, J.
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Twitchell, D.
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Lahti, J.
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Mouchet, N.
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Galibert, M-D.
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Garbis, Spiros D.
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Bruyere, C.
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Meijer, L.
9cf571bd-3761-4d72-bbf3-13d6d64bd386
Delehouze, C.
80c92e0a-530e-484b-a720-56400bcdc584
Godl, K.
9ddb6194-f11b-41cd-b704-7d92b5a549ff
Loaec, N.
92758e10-d1e0-4342-ab86-73b2d023b59d
Desban, N.
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Oumata, N.
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Galons, H.
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Roumeliotis, Theodoros
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Giannopoulou, E.G.
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Grenet, J.
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Twitchell, D.
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Lahti, J.
522c081a-8ed6-476a-b421-f07e9c498ecb
Mouchet, N.
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Galibert, M-D.
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Garbis, Spiros D.
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Bruyere, C.
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Meijer, L., Delehouze, C., Godl, K., Loaec, N., Desban, N., Oumata, N., Galons, H., Roumeliotis, Theodoros, Giannopoulou, E.G., Grenet, J., Twitchell, D., Lahti, J., Mouchet, N., Galibert, M-D., Garbis, Spiros D. and Bruyere, C. (2013) CDK/CK1 inhibitors roscovitine and CR8 down-regulate amplified MYCN in neuroblastoma cells. Oncogene, 33, 5675-5687. (doi:10.1038/onc.2013.513). (PMID:24317512)

Record type: Article

Abstract

To understand the mechanisms of action of (R)-roscovitine and (S)-CR8, two related pharmacological inhibitors of cyclin-dependent kinases (CDKs), we applied a variety of ‘-omics’ techniques to the human neuroblastoma SH-SY5Y and IMR32 cell lines: (1) kinase interaction assays, (2) affinity competition on immobilized broad-spectrum kinase inhibitors, (3) affinity chromatography on immobilized (R)-roscovitine and (S)-CR8, (4) whole genome transcriptomics analysis and specific quantitative PCR studies, (5) global quantitative proteomics approach and western blot analysis of selected proteins. Altogether, the results show that the major direct targets of these two molecules belong to the CDKs (1,2,5,7,9,12), DYRKs, CLKs and CK1s families. By inhibiting CDK7, CDK9 and CDK12, these inhibitors transiently reduce RNA polymerase 2 activity, which results in downregulation of a large set of genes. Global transcriptomics and proteomics analysis converge to a central role of MYC transcription factors downregulation. Indeed, CDK inhibitors trigger rapid and massive downregulation of MYCN expression in MYCN-amplified neuroblastoma cells as well as in nude mice xenografted IMR32 cells. Inhibition of casein kinase 1 may also contribute to the antitumoral activity of (R)-roscovitine and (S)-CR8. This dual mechanism of action may be crucial in the use of these kinase inhibitors for the treatment of MYC-dependent cancers, in particular neuroblastoma where MYCN amplification is a strong predictor factor for high-risk disease.

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Accepted/In Press date: 21 October 2013
e-pub ahead of print date: 9 December 2013
Related URLs:
Organisations: Cancer Sciences

Identifiers

Local EPrints ID: 350560
URI: http://eprints.soton.ac.uk/id/eprint/350560
DOI: doi:10.1038/onc.2013.513
ISSN: 0950-9232
PURE UUID: 0372645d-3b55-4908-99e2-af1174319f83
ORCID for Spiros D. Garbis: ORCID iD orcid.org/0000-0002-1050-0805

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Date deposited: 04 Apr 2013 10:58
Last modified: 14 Mar 2024 13:27

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Contributors

Author: L. Meijer
Author: C. Delehouze
Author: K. Godl
Author: N. Loaec
Author: N. Desban
Author: N. Oumata
Author: H. Galons
Author: Theodoros Roumeliotis
Author: E.G. Giannopoulou
Author: J. Grenet
Author: D. Twitchell
Author: J. Lahti
Author: N. Mouchet
Author: M-D. Galibert
Author: Spiros D. Garbis ORCID iD
Author: C. Bruyere

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