Targeting the nucleolus for cancer-specific activation of p53

Denis Drygin; Sean E. O'Brien; Ross D. Hannan; Grant A. McArthur; Daniel D. Von Hoff

doi:10.1016/j.drudis.2013.08.012

Targeting the nucleolus for cancer-specific activation of p53

Denis Drygin, Sean E. O'Brien, Ross D. Hannan, Grant A. McArthur, Daniel D. Von Hoff^*

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

38 Citations (Scopus)

Abstract

The tumor suppressor protein p53 plays a crucial part in the cellular defense against malignancies. DNA-damaging chemotherapeutics rely on the activation of p53 for their anticancer activity at the expense of genotoxicity. Nongenotoxic approaches for p53 activation have been extensively investigated validating p53 as a therapeutic target. However, their development has been hampered by low efficacy and a narrow therapeutic window. An alternate nongenotoxic approach for cancer-specific activation of wild-type p53 has been recently identified. It relies on the activation of a cellular checkpoint mechanism termed 'nucleolar stress', which can be triggered by acute inhibition of rRNA biogenesis. CX5461, the first selective inhibitor of rRNA biogenesis, and thus a potent activator of nucleolar stress, is poised to enter clinical development.

Original language	English
Pages (from-to)	259-265
Number of pages	7
Journal	Drug Discovery Today
Volume	19
Issue number	3
DOIs	https://doi.org/10.1016/j.drudis.2013.08.012
Publication status	Published - Mar 2014
Externally published	Yes

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10.1016/j.drudis.2013.08.012

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title = "Targeting the nucleolus for cancer-specific activation of p53",

abstract = "The tumor suppressor protein p53 plays a crucial part in the cellular defense against malignancies. DNA-damaging chemotherapeutics rely on the activation of p53 for their anticancer activity at the expense of genotoxicity. Nongenotoxic approaches for p53 activation have been extensively investigated validating p53 as a therapeutic target. However, their development has been hampered by low efficacy and a narrow therapeutic window. An alternate nongenotoxic approach for cancer-specific activation of wild-type p53 has been recently identified. It relies on the activation of a cellular checkpoint mechanism termed 'nucleolar stress', which can be triggered by acute inhibition of rRNA biogenesis. CX5461, the first selective inhibitor of rRNA biogenesis, and thus a potent activator of nucleolar stress, is poised to enter clinical development.",

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AU - Drygin, Denis

AU - O'Brien, Sean E.

AU - Hannan, Ross D.

AU - McArthur, Grant A.

AU - Von Hoff, Daniel D.

PY - 2014/3

Y1 - 2014/3

N2 - The tumor suppressor protein p53 plays a crucial part in the cellular defense against malignancies. DNA-damaging chemotherapeutics rely on the activation of p53 for their anticancer activity at the expense of genotoxicity. Nongenotoxic approaches for p53 activation have been extensively investigated validating p53 as a therapeutic target. However, their development has been hampered by low efficacy and a narrow therapeutic window. An alternate nongenotoxic approach for cancer-specific activation of wild-type p53 has been recently identified. It relies on the activation of a cellular checkpoint mechanism termed 'nucleolar stress', which can be triggered by acute inhibition of rRNA biogenesis. CX5461, the first selective inhibitor of rRNA biogenesis, and thus a potent activator of nucleolar stress, is poised to enter clinical development.

AB - The tumor suppressor protein p53 plays a crucial part in the cellular defense against malignancies. DNA-damaging chemotherapeutics rely on the activation of p53 for their anticancer activity at the expense of genotoxicity. Nongenotoxic approaches for p53 activation have been extensively investigated validating p53 as a therapeutic target. However, their development has been hampered by low efficacy and a narrow therapeutic window. An alternate nongenotoxic approach for cancer-specific activation of wild-type p53 has been recently identified. It relies on the activation of a cellular checkpoint mechanism termed 'nucleolar stress', which can be triggered by acute inhibition of rRNA biogenesis. CX5461, the first selective inhibitor of rRNA biogenesis, and thus a potent activator of nucleolar stress, is poised to enter clinical development.

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DO - 10.1016/j.drudis.2013.08.012

M3 - Review article

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VL - 19

SP - 259

EP - 265

JO - Drug Discovery Today

JF - Drug Discovery Today

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ER -

Targeting the nucleolus for cancer-specific activation of p53

Abstract

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