Cdk5 directly targets nuclear p21CIP1 and promotes cancer cell growth

Pao Hsuan Huang; Mei Chih Chen; Yu Ting Peng; Wei Hsiang Kao; Chih Hsiang Chang; Yun Chi Wang; Chih Ho Lai; Jer Tsong Hsieh; Jo Hsin Wang; Yueh Tsung Lee; Eugene Lin; Chia Herng Yue; Hsin Yi Wang; Shuen Chi You; Ho Lin

doi:10.1158/0008-5472.CAN-15-3253

Cdk5 directly targets nuclear p21^CIP1 and promotes cancer cell growth

Pao Hsuan Huang, Mei Chih Chen, Yu Ting Peng, Wei Hsiang Kao, Chih Hsiang Chang, Yun Chi Wang, Chih Ho Lai, Jer Tsong Hsieh, Jo Hsin Wang, Yueh Tsung Lee, Eugene Lin, Chia Herng Yue, Hsin Yi Wang, Shuen Chi You, Ho Lin

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22 Scopus citations

Abstract

The significance of Cdk5 in cell-cycle control and cancer biology has gained increased attention. Here we report the inverse correlation between the protein levels of Cdk5 and p21^CIP1 from cell-based and clinical analysis. Mechanistically, we identify that Cdk5 overexpression triggers the proteasome-dependent degradation of p21^CIP1 through a S130 phosphorylation in a Cdk2-independent manner. Besides, the evidence from cell-based and clinical analysis shows that Cdk5 primarily regulates nuclear p21^CIP1 protein degradation. S130A-p21^CIP1 mutant enables to block either its protein degradation or the increase of cancer cell growth caused by Cdk5. Notably, Cdk5-triggered p21^CIP1 targeting primarily appears in S-phase, while Cdk5 overexpression increases the activation of Cdk2 and its interaction with DNA polymerase δ. The in vivo results show that Cdk2 might play an important role in the downstream signaling to Cdk5. In summary, these findings suggest that Cdk5 in a high expression status promotes cancer growth by directly and rapidly releasing p21^CIP1-dependent cell-cycle inhibition and subsequent Cdk2 activation, which illustrates an oncogenic role of Cdk5 potentially applied for future diagnosis and therapy.

Original language	English (US)
Pages (from-to)	6888-6900
Number of pages	13
Journal	Cancer research
Volume	76
Issue number	23
DOIs	https://doi.org/10.1158/0008-5472.CAN-15-3253
State	Published - Dec 1 2016

ASJC Scopus subject areas

Oncology
Cancer Research

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10.1158/0008-5472.CAN-15-3253

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title = "Cdk5 directly targets nuclear p21CIP1 and promotes cancer cell growth",

abstract = "The significance of Cdk5 in cell-cycle control and cancer biology has gained increased attention. Here we report the inverse correlation between the protein levels of Cdk5 and p21CIP1 from cell-based and clinical analysis. Mechanistically, we identify that Cdk5 overexpression triggers the proteasome-dependent degradation of p21CIP1 through a S130 phosphorylation in a Cdk2-independent manner. Besides, the evidence from cell-based and clinical analysis shows that Cdk5 primarily regulates nuclear p21CIP1 protein degradation. S130A-p21CIP1 mutant enables to block either its protein degradation or the increase of cancer cell growth caused by Cdk5. Notably, Cdk5-triggered p21CIP1 targeting primarily appears in S-phase, while Cdk5 overexpression increases the activation of Cdk2 and its interaction with DNA polymerase δ. The in vivo results show that Cdk2 might play an important role in the downstream signaling to Cdk5. In summary, these findings suggest that Cdk5 in a high expression status promotes cancer growth by directly and rapidly releasing p21CIP1-dependent cell-cycle inhibition and subsequent Cdk2 activation, which illustrates an oncogenic role of Cdk5 potentially applied for future diagnosis and therapy.",

author = "Huang, {Pao Hsuan} and Chen, {Mei Chih} and Peng, {Yu Ting} and Kao, {Wei Hsiang} and Chang, {Chih Hsiang} and Wang, {Yun Chi} and Lai, {Chih Ho} and Hsieh, {Jer Tsong} and Wang, {Jo Hsin} and Lee, {Yueh Tsung} and Eugene Lin and Yue, {Chia Herng} and Wang, {Hsin Yi} and You, {Shuen Chi} and Ho Lin",

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doi = "10.1158/0008-5472.CAN-15-3253",

language = "English (US)",

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T1 - Cdk5 directly targets nuclear p21CIP1 and promotes cancer cell growth

AU - Huang, Pao Hsuan

AU - Chen, Mei Chih

AU - Peng, Yu Ting

AU - Kao, Wei Hsiang

AU - Chang, Chih Hsiang

AU - Wang, Yun Chi

AU - Lai, Chih Ho

AU - Hsieh, Jer Tsong

AU - Wang, Jo Hsin

AU - Lee, Yueh Tsung

AU - Lin, Eugene

AU - Yue, Chia Herng

AU - Wang, Hsin Yi

AU - You, Shuen Chi

AU - Lin, Ho

PY - 2016/12/1

Y1 - 2016/12/1

N2 - The significance of Cdk5 in cell-cycle control and cancer biology has gained increased attention. Here we report the inverse correlation between the protein levels of Cdk5 and p21CIP1 from cell-based and clinical analysis. Mechanistically, we identify that Cdk5 overexpression triggers the proteasome-dependent degradation of p21CIP1 through a S130 phosphorylation in a Cdk2-independent manner. Besides, the evidence from cell-based and clinical analysis shows that Cdk5 primarily regulates nuclear p21CIP1 protein degradation. S130A-p21CIP1 mutant enables to block either its protein degradation or the increase of cancer cell growth caused by Cdk5. Notably, Cdk5-triggered p21CIP1 targeting primarily appears in S-phase, while Cdk5 overexpression increases the activation of Cdk2 and its interaction with DNA polymerase δ. The in vivo results show that Cdk2 might play an important role in the downstream signaling to Cdk5. In summary, these findings suggest that Cdk5 in a high expression status promotes cancer growth by directly and rapidly releasing p21CIP1-dependent cell-cycle inhibition and subsequent Cdk2 activation, which illustrates an oncogenic role of Cdk5 potentially applied for future diagnosis and therapy.

AB - The significance of Cdk5 in cell-cycle control and cancer biology has gained increased attention. Here we report the inverse correlation between the protein levels of Cdk5 and p21CIP1 from cell-based and clinical analysis. Mechanistically, we identify that Cdk5 overexpression triggers the proteasome-dependent degradation of p21CIP1 through a S130 phosphorylation in a Cdk2-independent manner. Besides, the evidence from cell-based and clinical analysis shows that Cdk5 primarily regulates nuclear p21CIP1 protein degradation. S130A-p21CIP1 mutant enables to block either its protein degradation or the increase of cancer cell growth caused by Cdk5. Notably, Cdk5-triggered p21CIP1 targeting primarily appears in S-phase, while Cdk5 overexpression increases the activation of Cdk2 and its interaction with DNA polymerase δ. The in vivo results show that Cdk2 might play an important role in the downstream signaling to Cdk5. In summary, these findings suggest that Cdk5 in a high expression status promotes cancer growth by directly and rapidly releasing p21CIP1-dependent cell-cycle inhibition and subsequent Cdk2 activation, which illustrates an oncogenic role of Cdk5 potentially applied for future diagnosis and therapy.

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Cdk5 directly targets nuclear p21^CIP1 and promotes cancer cell growth

Abstract

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