Journal ArticleDOI
Activation of CDC25A phosphatase is limited by CDK2/cyclin A-mediated feedback inhibition.
TLDR
In this article, a feedback inhibitory loop was proposed to prevent over activation of CDK2 in early S phase, while still leaving CDK 2/cyclin E to catalyze replicon initiation.Abstract:
Cyclin-dependent kinase (CDK) 1 complexed with cyclin B is a driver of mitosis, while CDK2 drives S phase entry and replicon initiation. CDK2 activity increases as cells progress through S phase, and its cyclin partner switches from cyclin E to cyclin A. Activation of CDK2 requires dephosphorylation of tyrosine-15 by CDC25A. DNA damage activates the checkpoint protein CHK1, which phosphorylates and degrades CDC25A to prevent activation of CDK2 and protect from cell cycle progression before damage is repaired. CHK1 inhibitors were developed to circumvent this arrest and enhance the efficacy of many cancer chemotherapeutic agents. CHK1 inhibition results in the accumulation of CDC25A and activation of CDK2. We demonstrate that inhibition of CDK2 or suppression of cyclin A also results in accumulation of CDC25A suggesting a feedback loop that prevents over activation of this pathway. The feedback inhibition of CDC25A targets phosphorylation of S88-CDC25A, which resides within a CDK consensus sequence. In contrast, it appears that CDK complexes with cyclin B (and possibly cyclin E) stabilize CDC25A in a feed-forward activation loop. While CDK2/cyclin A would normally be active at late S/G2, we propose that this feedback inhibitory loop prevents over activation of CDK2 in early S phase, while still leaving CDK2/cyclin E to catalyze replicon initiation. One importance of this observation is that a subset of cancer cell lines are very sensitive to CHK1 inhibition, which is mediated by CDK2/cyclin A activity in S phase cells. Hence, dysregulation of this feedback loop might facilitate sensitivity of the cells.read more
Citations
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Journal ArticleDOI
Adapalene Inhibits Prostate Cancer Cell Proliferation In Vitro and In Vivo by Inducing DNA Damage, S-phase Cell Cycle Arrest, and Apoptosis
Hai-bin Nong,Yanan Zhang,Yi-guang Bai,Qiong Zhang,Ming Li,Quansheng Zhou,Z. Shi,Gaofeng Zeng,Shaohui Zong +8 more
TL;DR: The results suggest that ADA may be a potential treatment against prostate cancer, and it is observed that ADA could effectively inhibited tumor growth and bone destruction in mice.
Journal ArticleDOI
BPTF inhibition antagonizes colorectal cancer progression by transcriptionally inactivating Cdc25A
Ping Guo,Shi Zu,Shilong Han,Wendan Yu,Guoqing Xue,Xiaona Lu,Hua-Ching Lin,Xinrui Zhao,Haibo Lu,Chunyu Hua,Xinyu Wan,Liyuan Ru,Ziyue Guo,Hanxiao Ge,Kuan Lv,Guohui Zhang,Wuguo Deng,Cheng Luo,Wei Guo +18 more
TL;DR: Wang et al. as discussed by the authors showed that under the expression regulation of c-Myc, BPTF promoted CRC progression by targeting Cdc25A, thus accelerating the cell cycle process of CRC cells.
Journal ArticleDOI
Targeting the DNA Damage Response and DNA Repair Pathways to Enhance Radiosensitivity in Colorectal Cancer
TL;DR: The potential of developing high-efficiency and low-toxicity radiosensitizers targeting the DNA damage response and DNA repair pathways to enhance the response to radiotherapy in colorectal cancer is evaluated.
Journal ArticleDOI
SRSF10 stabilizes CDC25A by triggering exon 6 skipping to promote hepatocarcinogenesis
Xiaoming Liu,Yongqiang Zheng,Mengqing Xiao,Xingyu Chen,Yuxing Zhu,Canxia Xu,Fen Wang,Zexian Liu,Ke Cao +8 more
TL;DR: In this article , the effect of SRSF10 on the progression of hepatocellular carcinoma (HCC) was investigated using RNA sequencing, and the authors revealed a regulatory pattern whereby SRS10 contributes to a large proportion of stabilized CDC25A(△E6) production.
Journal ArticleDOI
The Regulation of Cyclins and Cyclin-Dependent Kinases in the Development of Gastric Cancer
TL;DR: In this paper , the authors present a review of the role of molecules acting as regulators of both Cyclins and CDKs, i.e., upstream regulators either activating or inhibiting cyclin-dependent kinases (CDKs) in gastric cancer.
References
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Journal ArticleDOI
Cell cycle, CDKs and cancer: a changing paradigm
TL;DR: Genetic evidence suggests that tumour cells may also require specific interphase CDKs for proliferation, and selective CDK inhibition may provide therapeutic benefit against certain human neoplasias.
Journal ArticleDOI
Rapid destruction of human Cdc25A in response to DNA damage.
Niels Mailand,Jacob Falck,Claudia Lukas,Randi G. Syljuåsen,Markus Welcker,Jiri Bartek,Jiri Lukas +6 more
TL;DR: These results identify specific degradation of Cdc25A as part of the DNA damage checkpoint mechanism and suggest how CDC25A overexpression in human cancers might contribute to tumorigenesis.
Journal ArticleDOI
Selective small-molecule inhibitor reveals critical mitotic functions of human CDK1.
Lyubomir T. Vassilev,Christian Tovar,Shaoqing Chen,Dejan Knezevic,Xiaolan Zhao,Hongmao Sun,David C. Heimbrook,Li Chen +7 more
TL;DR: A selective small-molecule inhibitor of CDK1 is identified that reversibly arrests human cells at the G(2)/M border of the cell cycle and allows for effective cell synchronization in early mitosis.
Journal ArticleDOI
CDC25 phosphatases in cancer cells: key players? Good targets?
TL;DR: The roles of CDC25 phosphatases in both normal and abnormal cell proliferation are focused on, a critical assessment of the current data on CDC25 overexpression in cancer is provided, and both current and future therapeutic strategies for targeting CDC25 activity in cancer treatment are discussed.
Journal ArticleDOI
The proliferation-quiescence decision is controlled by a bifurcation in CDK2 activity at mitotic exit.
Sabrina L. Spencer,Steven D. Cappell,Feng-Chiao Tsai,K. Wesley Overton,Clifford L. Wang,Tobias Meyer +5 more
TL;DR: A live-cell sensor for CDK2 activity is introduced and it is unexpectedly found that proliferating cells bifurcate into two populations as they exit mitosis.