Literature DB >> 23647051

Cyclin-dependent kinase inhibitor therapy for hematologic malignancies.

Prithviraj Bose1, Gary L Simmons, Steven Grant.   

Abstract

INTRODUCTION: Cyclin-dependent kinases (CDKs) regulate cell cycle progression. Certain CDKs (e.g., CDK7, CDK9) also control cellular transcription. Consequently, CDKs represent attractive targets for anticancer drug development, as their aberrant expression is common in diverse malignancies, and CDK inhibition can trigger apoptosis. CDK inhibition may be particularly successful in hematologic malignancies, which are more sensitive to inhibition of cell cycling and apoptosis induction. AREAS COVERED: A number of CDK inhibitors, ranging from pan-CDK inhibitors such as flavopiridol (alvocidib) to highly selective inhibitors of specific CDKs (e.g., CDK4/6), such as PD0332991, that are currently in various phases of development, are profiled in this review. Flavopiridol induces cell cycle arrest, and globally represses transcription via CDK9 inhibition. The latter may represent its major mechanism of action via down-regulation of multiple short-lived proteins. In early phase trials, flavopiridol has shown encouraging efficacy across a wide spectrum of hematologic malignancies. Early results with dinaciclib and PD0332991 also appear promising. EXPERT OPINION: In general, the antitumor efficacy of CDK inhibitor monotherapy is modest, and rational combinations are being explored, including those involving other targeted agents. While selective CDK4/6 inhibition might be effective against certain malignancies, broad-spectrum CDK inhibition will likely be required for most cancers.

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Year:  2013        PMID: 23647051      PMCID: PMC4039040          DOI: 10.1517/13543784.2013.789859

Source DB:  PubMed          Journal:  Expert Opin Investig Drugs        ISSN: 1354-3784            Impact factor:   6.206


  114 in total

1.  Selective killing of transformed cells by cyclin/cyclin-dependent kinase 2 antagonists.

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Journal:  Proc Natl Acad Sci U S A       Date:  1999-04-13       Impact factor: 11.205

2.  Intra-S-phase checkpoint activation by direct CDK2 inhibition.

Authors:  Yonghong Zhu; Carmen Alvarez; Ronald Doll; Hirokazu Kurata; Xiao Min Schebye; David Parry; Emma Lees
Journal:  Mol Cell Biol       Date:  2004-07       Impact factor: 4.272

3.  Transformed cells require continuous activity of RNA polymerase II to resist oncogene-induced apoptosis.

Authors:  C Koumenis; A Giaccia
Journal:  Mol Cell Biol       Date:  1997-12       Impact factor: 4.272

4.  Cytotoxic synergy between flavopiridol (NSC 649890, L86-8275) and various antineoplastic agents: the importance of sequence of administration.

Authors:  K C Bible; S H Kaufmann
Journal:  Cancer Res       Date:  1997-08-15       Impact factor: 12.701

5.  Early induction of apoptosis in hematopoietic cell lines after exposure to flavopiridol.

Authors:  B W Parker; G Kaur; W Nieves-Neira; M Taimi; G Kohlhagen; T Shimizu; M D Losiewicz; Y Pommier; E A Sausville; A M Senderowicz
Journal:  Blood       Date:  1998-01-15       Impact factor: 22.113

6.  Potent antileukemic interactions between flavopiridol and TRAIL/Apo2L involve flavopiridol-mediated XIAP downregulation.

Authors:  R R Rosato; Y Dai; J A Almenara; S C Maggio; S Grant
Journal:  Leukemia       Date:  2004-11       Impact factor: 11.528

7.  Cyclin B1 depletion inhibits proliferation and induces apoptosis in human tumor cells.

Authors:  Juping Yuan; Ruilan Yan; Andrea Krämer; Frank Eckerdt; Marc Roller; Manfred Kaufmann; Klaus Strebhardt
Journal:  Oncogene       Date:  2004-07-29       Impact factor: 9.867

8.  Contribution of disruption of the nuclear factor-kappaB pathway to induction of apoptosis in human leukemia cells by histone deacetylase inhibitors and flavopiridol.

Authors:  Ning Gao; Yun Dai; Mohamed Rahmani; Paul Dent; Steven Grant
Journal:  Mol Pharmacol       Date:  2004-07-02       Impact factor: 4.436

9.  Bortezomib and flavopiridol interact synergistically to induce apoptosis in chronic myeloid leukemia cells resistant to imatinib mesylate through both Bcr/Abl-dependent and -independent mechanisms.

Authors:  Yun Dai; Mohamed Rahmani; Xin-Yan Pei; Paul Dent; Steven Grant
Journal:  Blood       Date:  2004-03-23       Impact factor: 22.113

10.  DNA end resection, homologous recombination and DNA damage checkpoint activation require CDK1.

Authors:  Grzegorz Ira; Achille Pellicioli; Alitukiriza Balijja; Xuan Wang; Simona Fiorani; Walter Carotenuto; Giordano Liberi; Debra Bressan; Lihong Wan; Nancy M Hollingsworth; James E Haber; Marco Foiani
Journal:  Nature       Date:  2004-10-21       Impact factor: 49.962
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  50 in total

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Authors:  Prithviraj Bose; Varsha Gandhi; Marina Konopleva
Journal:  Leuk Lymphoma       Date:  2017-01-31

Review 2.  Pharmacological cyclin dependent kinase inhibitors: Implications for colorectal cancer.

Authors:  Archana Balakrishnan; Arpita Vyas; Kaivalya Deshpande; Dinesh Vyas
Journal:  World J Gastroenterol       Date:  2016-02-21       Impact factor: 5.742

3.  Effect of HM910, a novel camptothecin derivative, on the inhibition of multiple myeloma cell growth in vitro and in vivo.

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Journal:  Am J Cancer Res       Date:  2015-02-15       Impact factor: 6.166

Review 4.  The history and future of targeting cyclin-dependent kinases in cancer therapy.

Authors:  Uzma Asghar; Agnieszka K Witkiewicz; Nicholas C Turner; Erik S Knudsen
Journal:  Nat Rev Drug Discov       Date:  2015-02       Impact factor: 84.694

5.  Epigenetic regulation of miRNA-124 and multiple downstream targets is associated with treatment response in myeloid malignancies.

Authors:  Hongbin Liu; Phillip Pattie; Sahan Chandrasekara; Andrew Spencer; Anthony E Dear
Journal:  Oncol Lett       Date:  2016-07-25       Impact factor: 2.967

Review 6.  Treatment of Relapsed/Refractory Acute Myeloid Leukemia.

Authors:  Prithviraj Bose; Pankit Vachhani; Jorge E Cortes
Journal:  Curr Treat Options Oncol       Date:  2017-03

7.  Antitumor action of CDK inhibitor LS-007 as a single agent and in combination with ABT-199 against human acute leukemia cells.

Authors:  Shao Xie; Hui Jiang; Xiao-Wen Zhai; Fan Wei; Shu-Dong Wang; Jian Ding; Yi Chen
Journal:  Acta Pharmacol Sin       Date:  2016-08-29       Impact factor: 6.150

Review 8.  CDK inhibitors in cancer therapy, an overview of recent development.

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Journal:  Am J Cancer Res       Date:  2021-05-15       Impact factor: 6.166

9.  Role of CDKN2C Copy Number in Sporadic Medullary Thyroid Carcinoma.

Authors:  Elizabeth G Grubbs; Michelle D Williams; Paul Scheet; Selina Vattathil; Nancy D Perrier; Jeffrey E Lee; Robert F Gagel; Tao Hai; Lei Feng; Maria E Cabanillas; Gilbert J Cote
Journal:  Thyroid       Date:  2016-10-18       Impact factor: 6.568

10.  Mitochondrial dysfunction RAD51, and Ku80 proteolysis promote apoptotic effects of Dinaciclib in Bcl-xL silenced cells.

Authors:  Daniel R Premkumar; Esther P Jane; Swetha Thambireddy; Philip A Sutera; Jonathon M Cavaleri; Ian F Pollack
Journal:  Mol Carcinog       Date:  2017-12-30       Impact factor: 4.784
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