Identification and characterization of the CDK1-BMAL1-UHRF1 pathway driving tumor progression

Dan Wang; Fenglin Wang; Shengfeng Wang; Ling Chu; Daolin Tang; Pan Chen; Minghua Yang

doi:10.1016/j.isci.2023.106544

Identification and characterization of the CDK1-BMAL1-UHRF1 pathway driving tumor progression

Dan Wang, Fenglin Wang, Shengfeng Wang, Ling Chu, Daolin Tang, Pan Chen, Minghua Yang

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

1 Scopus citations

Abstract

The abnormal regulation of BMAL1 could lead to the occurrence and progression of various tumors. However, the mechanism of phosphorylation regulation of BMAL1 in tumorigenesis remains poorly understood. In this study, we report a previously unrecognized BMAL1 dephosphorylation pathway that promotes tumor progression. BMAL1 accelerates cell proliferation, migration, and invasion of HT1080 and Calu1 cells. CDK1 binds to BMAL1 through a conserved domain and regulates the dephosphorylation of BMAL1 on Ser42 residues, but not on Ser78 or Thr224, thereby enhancing the oncogenic activity of BMAL1. Dephosphorylation of BMAL1 Ser42 promotes tumor growth and metastasis in mouse subcutaneous transplantation tumor and lung metastatic tumor models. Moreover, UHRF1 is recognized as an important target gene of BMAL1 in cancer cells. Consequently, UHRF1 depletion mimics BMAL1 deficiency with respect to tumor suppression, whereas transfection-enforced re-expression of UHRF1 restores tumor growth in BMAL1-deficient cells. These findings suggest a link between the circadian clock regulator and cancer progression.

Original language	English (US)
Article number	106544
Journal	iScience
Volume	26
Issue number	4
DOIs	https://doi.org/10.1016/j.isci.2023.106544
State	Published - Apr 21 2023

Keywords

Cancer
Cell biology
Molecular biology

ASJC Scopus subject areas

General

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10.1016/j.isci.2023.106544

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title = "Identification and characterization of the CDK1-BMAL1-UHRF1 pathway driving tumor progression",

abstract = "The abnormal regulation of BMAL1 could lead to the occurrence and progression of various tumors. However, the mechanism of phosphorylation regulation of BMAL1 in tumorigenesis remains poorly understood. In this study, we report a previously unrecognized BMAL1 dephosphorylation pathway that promotes tumor progression. BMAL1 accelerates cell proliferation, migration, and invasion of HT1080 and Calu1 cells. CDK1 binds to BMAL1 through a conserved domain and regulates the dephosphorylation of BMAL1 on Ser42 residues, but not on Ser78 or Thr224, thereby enhancing the oncogenic activity of BMAL1. Dephosphorylation of BMAL1 Ser42 promotes tumor growth and metastasis in mouse subcutaneous transplantation tumor and lung metastatic tumor models. Moreover, UHRF1 is recognized as an important target gene of BMAL1 in cancer cells. Consequently, UHRF1 depletion mimics BMAL1 deficiency with respect to tumor suppression, whereas transfection-enforced re-expression of UHRF1 restores tumor growth in BMAL1-deficient cells. These findings suggest a link between the circadian clock regulator and cancer progression.",

keywords = "Cancer, Cell biology, Molecular biology",

author = "Dan Wang and Fenglin Wang and Shengfeng Wang and Ling Chu and Daolin Tang and Pan Chen and Minghua Yang",

note = "Funding Information: This work was supported by grants from the National Natural Science Foundation of China ( 81974000 , 82270185 , 82202398 ) and Hunan Provincial Natural Science Foundation of China ( 2021JJ10077 ). The authors thank AiMi Academic Services ( www.aimieditor.com ) for the English language editing and review services. Publisher Copyright: {\textcopyright} 2023 The Authors",

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doi = "10.1016/j.isci.2023.106544",

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AU - Wang, Dan

AU - Wang, Fenglin

AU - Wang, Shengfeng

AU - Chu, Ling

AU - Tang, Daolin

AU - Chen, Pan

AU - Yang, Minghua

N1 - Funding Information: This work was supported by grants from the National Natural Science Foundation of China ( 81974000 , 82270185 , 82202398 ) and Hunan Provincial Natural Science Foundation of China ( 2021JJ10077 ). The authors thank AiMi Academic Services ( www.aimieditor.com ) for the English language editing and review services. Publisher Copyright: © 2023 The Authors

PY - 2023/4/21

Y1 - 2023/4/21

N2 - The abnormal regulation of BMAL1 could lead to the occurrence and progression of various tumors. However, the mechanism of phosphorylation regulation of BMAL1 in tumorigenesis remains poorly understood. In this study, we report a previously unrecognized BMAL1 dephosphorylation pathway that promotes tumor progression. BMAL1 accelerates cell proliferation, migration, and invasion of HT1080 and Calu1 cells. CDK1 binds to BMAL1 through a conserved domain and regulates the dephosphorylation of BMAL1 on Ser42 residues, but not on Ser78 or Thr224, thereby enhancing the oncogenic activity of BMAL1. Dephosphorylation of BMAL1 Ser42 promotes tumor growth and metastasis in mouse subcutaneous transplantation tumor and lung metastatic tumor models. Moreover, UHRF1 is recognized as an important target gene of BMAL1 in cancer cells. Consequently, UHRF1 depletion mimics BMAL1 deficiency with respect to tumor suppression, whereas transfection-enforced re-expression of UHRF1 restores tumor growth in BMAL1-deficient cells. These findings suggest a link between the circadian clock regulator and cancer progression.

AB - The abnormal regulation of BMAL1 could lead to the occurrence and progression of various tumors. However, the mechanism of phosphorylation regulation of BMAL1 in tumorigenesis remains poorly understood. In this study, we report a previously unrecognized BMAL1 dephosphorylation pathway that promotes tumor progression. BMAL1 accelerates cell proliferation, migration, and invasion of HT1080 and Calu1 cells. CDK1 binds to BMAL1 through a conserved domain and regulates the dephosphorylation of BMAL1 on Ser42 residues, but not on Ser78 or Thr224, thereby enhancing the oncogenic activity of BMAL1. Dephosphorylation of BMAL1 Ser42 promotes tumor growth and metastasis in mouse subcutaneous transplantation tumor and lung metastatic tumor models. Moreover, UHRF1 is recognized as an important target gene of BMAL1 in cancer cells. Consequently, UHRF1 depletion mimics BMAL1 deficiency with respect to tumor suppression, whereas transfection-enforced re-expression of UHRF1 restores tumor growth in BMAL1-deficient cells. These findings suggest a link between the circadian clock regulator and cancer progression.

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Identification and characterization of the CDK1-BMAL1-UHRF1 pathway driving tumor progression

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