TY - JOUR
T1 - The CDK2–c-myc–miR-571 axis regulates DNA replication and genomic stability by targeting geminin
AU - Zhang, Yi
AU - Li, Zhuqing
AU - Hao, Qiang
AU - Tan, Wei
AU - Sun, Jing
AU - Li, Jing
AU - Chen, Chi wei
AU - Li, Zongzhu
AU - Meng, Yunxiao
AU - Zhou, Yuan
AU - Han, Zhiyong
AU - Pei, Huadong
AU - DePamphilis, Melvin L.
AU - Zhu, Wenge
N1 - Funding Information:
This work was partially supported by funding from the NIH (CA177898 and CA184717 to W. Zhu). W. Zhu was supported by a Research Scholar Grant (RSG-13-214-01-DMC) from the American Cancer Society and a grant from the McCormick Genomic and Proteomic Center. This work was partially supported by National Institute of Child Health and Human Development and a NIH Director's Challenge grant awarded to M.L. DePamphilis. We thank Dr. Scott Martin for help on HTS assay.
Publisher Copyright:
©2019 American Association for Cancer Research.
PY - 2019
Y1 - 2019
N2 - DNA rereplication leads to genomic instability and has been implicated in the pathology of a variety of human cancers. Eukaryotic DNA replication is tightly controlled to ensure it occurs only once during each cell cycle. Geminin is a critical component of this control, it prevents DNA rereplication from occurring during S, G2, and early M phases by preventing MCM helicases from forming prereplication complexes. Geminin is targeted for degradation by the anaphase-promoting complex (APC/C) from anaphase through G1-phase, however, accumulating evidence indicates that Geminin is downregulated in late S-phase due to an unknown mechanism. Here, we used a high-throughput screen to identify miRNAs that can induce excess DNA replication and found that miR-571 could reduce the protein level of Geminin in late S-phase independent of the APC/C. Furthermore, miR-571 regulated efficient DNA replication and S-phase cell-cycle progression. Strikingly, c-Myc suppressed miR-571 expression by binding directly to the miR-571 promoter. At the beginning of S-phase, Cdk2 phosphorylated c-Myc at Serine 62, promoting its association with the miR-571 promoter region. Collectively, we identify miR-571 as the first miRNA that prevents aberrant DNA replication and the Cdk2–c-Myc–miR-571 axis as a new pathway for regulating DNA replication, cell cycle, and genomic stability in cancer cells.
AB - DNA rereplication leads to genomic instability and has been implicated in the pathology of a variety of human cancers. Eukaryotic DNA replication is tightly controlled to ensure it occurs only once during each cell cycle. Geminin is a critical component of this control, it prevents DNA rereplication from occurring during S, G2, and early M phases by preventing MCM helicases from forming prereplication complexes. Geminin is targeted for degradation by the anaphase-promoting complex (APC/C) from anaphase through G1-phase, however, accumulating evidence indicates that Geminin is downregulated in late S-phase due to an unknown mechanism. Here, we used a high-throughput screen to identify miRNAs that can induce excess DNA replication and found that miR-571 could reduce the protein level of Geminin in late S-phase independent of the APC/C. Furthermore, miR-571 regulated efficient DNA replication and S-phase cell-cycle progression. Strikingly, c-Myc suppressed miR-571 expression by binding directly to the miR-571 promoter. At the beginning of S-phase, Cdk2 phosphorylated c-Myc at Serine 62, promoting its association with the miR-571 promoter region. Collectively, we identify miR-571 as the first miRNA that prevents aberrant DNA replication and the Cdk2–c-Myc–miR-571 axis as a new pathway for regulating DNA replication, cell cycle, and genomic stability in cancer cells.
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U2 - 10.1158/0008-5472.CAN-19-0020
DO - 10.1158/0008-5472.CAN-19-0020
M3 - Article
C2 - 31431461
AN - SCOPUS:85072769656
SN - 0008-5472
VL - 79
SP - 4896
EP - 4910
JO - Cancer Research
JF - Cancer Research
IS - 19
ER -