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Literature DB >> 34094661

CDK inhibitors in cancer therapy, an overview of recent development.

Mengna Zhang¹, Lingxian Zhang¹, Ruoxuan Hei², Xiao Li¹, Haonan Cai³, Xuan Wu², Qiping Zheng^2,4, Cheguo Cai¹.

Abstract

Dysregulated cell division, which leads to aberrant cell proliferation, is one of the key hallmarks of cancer. Therefore, therapeutic targets that block cell division would be effective for cancer treatment. Cell division is mainly controlled by a complex composed of cyclin and cyclin dependent kinases (CDKs). To date, the CDK inhibitors (CDKIs), specifically the ones that block the enzyme activity of CDK4 and CDK6 (CDK4/6), have been approved by FDA for the treatment of metastatic hormone receptor positive breast cancer. However, due to the non-selectivity and significant toxicity, most of the first generation CDK inhibitors (so called pan-CDK inhibitors that target several CDKs), have not been approved for clinical application. Despite this, great efforts and progress have been made to enable pan-CDK inhibitors application in the clinical setting. Notably, the development of combination therapy strategies in recent years has made it possible to reduce the toxicity and side effects of pan-CDK inhibitors. Thus, as a combination therapy approach, pan-CDK inhibitors regain great potential in clinical application. In this review, we introduced the CDK family members and discussed their major functions in cell cycle controlling. Then, we summarized the research progress regarding CDK inhibitors, especially those other than CDK4/6 inhibitors. We reviewed first-generation pan-CDKIs Flavopiridol and Roscovitine, and second-generation CDKIs Dinaciclib, P276-00, AT7519, TG02, Roniciclib, RGB-286638 by focusing on their developing stages, clinical trials and targeting cancers. The specific CDKIs, which targets to increase specificity and decrease the side effects, were also discussed. These CDKIs include CDK4/6, CDK7, CDK9, and CDK12/13 inhibitors. Finally, the efficacy and discrepancy of combination therapy with CDK inhibitors and PD1/PDL1 antibodies were analyzed, which might give insights into the development of promising strategy for cancer treatment. AJCR

Entities: Chemical Disease Gene

Keywords: CDK; cancer; combination therapy; pan-CDK inhibitors; specific CDK inhibitors

Year: 2021 PMID： 34094661 PMCID： PMC8167670

Source DB: PubMed Journal: Am J Cancer Res ISSN： 2156-6976 Impact factor: 6.166

137 in total

Review 1. CDK4/6 Inhibitors: The Mechanism of Action May Not Be as Simple as Once Thought.

Authors: Mary E Klein; Marta Kovatcheva; Lara E Davis; William D Tap; Andrew Koff
Journal: Cancer Cell Date: 2018-05-03 Impact factor: 31.743

2. CR8, a novel inhibitor of CDK, limits microglial activation, astrocytosis, neuronal loss, and neurologic dysfunction after experimental traumatic brain injury.

Authors: Shruti V Kabadi; Bogdan A Stoica; David J Loane; Tao Luo; Alan I Faden
Journal: J Cereb Blood Flow Metab Date: 2014-01-08 Impact factor: 6.200

3. Consequences of abnormal CDK activity in S phase.

Authors: Silje Anda; Christiane Rothe; Erik Boye; Beáta Grallert
Journal: Cell Cycle Date: 2016 Impact factor: 4.534

Review 4. CDK9: A key player in cancer and other diseases.

Authors: Lia Carolina Franco; Fátima Morales; Silvia Boffo; Antonio Giordano
Journal: J Cell Biochem Date: 2017-10-05 Impact factor: 4.429

5. CDK7-dependent transcriptional addiction in triple-negative breast cancer.

Authors: Yubao Wang; Tinghu Zhang; Nicholas Kwiatkowski; Brian J Abraham; Tong Ihn Lee; Shaozhen Xie; Haluk Yuzugullu; Thanh Von; Heyuan Li; Ziao Lin; Daniel G Stover; Elgene Lim; Zhigang C Wang; J Dirk Iglehart; Richard A Young; Nathanael S Gray; Jean J Zhao
Journal: Cell Date: 2015-09-24 Impact factor: 41.582

6. Phase Ib/II study of the pan-cyclin-dependent kinase inhibitor roniciclib in combination with chemotherapy in patients with extensive-disease small-cell lung cancer.

Authors: Byoung Chul Cho; Grace K Dy; Ramaswamy Govindan; Dong-Wan Kim; Nathan A Pennell; Gerard Zalcman; Benjamin Besse; Joo-Hang Kim; Goekben Koca; Prabhu Rajagopalan; Simon Langer; Matthias Ocker; Hendrik Nogai; Fabrice Barlesi
Journal: Lung Cancer Date: 2018-04-27 Impact factor: 5.705

7. N-(cycloalkylamino)acyl-2-aminothiazole inhibitors of cyclin-dependent kinase 2. N-[5-[[[5-(1,1-dimethylethyl)-2-oxazolyl]methyl]thio]-2-thiazolyl]-4- piperidinecarboxamide (BMS-387032), a highly efficacious and selective antitumor agent.

Authors: Raj N Misra; Hai-yun Xiao; Kyoung S Kim; Songfeng Lu; Wen-Ching Han; Stephanie A Barbosa; John T Hunt; David B Rawlins; Weifang Shan; Syed Z Ahmed; Ligang Qian; Bang-Chi Chen; Rulin Zhao; Mark S Bednarz; Kristen A Kellar; Janet G Mulheron; Roberta Batorsky; Urvashi Roongta; Amrita Kamath; Punit Marathe; Sunanda A Ranadive; John S Sack; John S Tokarski; Nikola P Pavletich; Francis Y F Lee; Kevin R Webster; S David Kimball
Journal: J Med Chem Date: 2004-03-25 Impact factor: 7.446

8. Identification of Driver Genes and Key Pathways of Glioblastoma Shows JNJ-7706621 as a Novel Antiglioblastoma Drug.

Authors: Sheng Zhong; Bo Wu; Xuechao Dong; Yujuan Han; Shanshan Jiang; Ying Zhang; Yang Bai; Sean X Luo; Yong Chen; Huimao Zhang; Gang Zhao
Journal: World Neurosurg Date: 2017-10-06 Impact factor: 2.104

Review 9. Inhibitors of cyclin-dependent kinases as cancer therapeutics.

Authors: Steven R Whittaker; Aurélie Mallinger; Paul Workman; Paul A Clarke
Journal: Pharmacol Ther Date: 2017-02-05 Impact factor: 12.310

Review 10. Therapeutic targeting of transcriptional cyclin-dependent kinases.

Authors: Matthew D Galbraith; Heather Bender; Joaquín M Espinosa
Journal: Transcription Date: 2018-11-09

30 in total

Review 1. Cyclin-dependent kinases in breast cancer: expression pattern and therapeutic implications.

Authors: Shazia Sofi; Umar Mehraj; Hina Qayoom; Shariqa Aisha; Syed Mohammad Basheeruddin Asdaq; Abdullah Almilaibary; Manzoor A Mir
Journal: Med Oncol Date: 2022-04-29 Impact factor: 3.064

Review 2. Cyclins and cyclin-dependent kinases: from biology to tumorigenesis and therapeutic opportunities.

Authors: Mitra Zabihi; Ramin Lotfi; Amir-Mohammad Yousefi; Davood Bashash
Journal: J Cancer Res Clin Oncol Date: 2022-07-04 Impact factor: 4.553

Review 3. How Should the Worldwide Knowledge of Traditional Cancer Healing Be Integrated with Herbs and Mushrooms into Modern Molecular Pharmacology?

Authors: Yulia Kirdeeva; Olga Fedorova; Alexandra Daks; Nikolai Barlev; Oleg Shuvalov
Journal: Pharmaceuticals (Basel) Date: 2022-07-14

4. eIF4A1 Inhibitor Suppresses Hyperactive mTOR-Associated Tumors by Inducing Necroptosis and G2/M Arrest.

Authors: Luyang Han; Yuting Wu; Fangming Liu; Hongbing Zhang
Journal: Int J Mol Sci Date: 2022-06-22 Impact factor: 6.208

Review 5. Molecular Pathogenesis of Sporadic Desmoid Tumours and Its Implications for Novel Therapies: A Systematised Narrative Review.

Authors: Thomas D McLean; Serena Duchi; Claudia Di Bella
Journal: Target Oncol Date: 2022-04-21 Impact factor: 4.864