Literature DB >> 33745909

The Molecular Context of Vulnerability for CDK9 Suppression in Triple Wild-Type Melanoma.

Samantha M Guhan1, Michael Shaughnessy2, Anpuchchelvi Rajadurai2, Michael Taylor2, Raj Kumar2, Zhenyu Ji2, Sarem Rashid2, Keith Flaherty3, Hensin Tsao4.   

Abstract

Approximately half of melanoma tumors lack a druggable target and are unresponsive to current targeted therapeutics. One proposed approach for treating these therapeutically orphaned tumors is by targeting transcriptional dependencies (oncogene starvation), whereby survival factors are depleted through inhibition of transcriptional regulators. A drug screen identified a CDK9 inhibitor (SNS-032) to have therapeutic selectivity against wild-type (wt) BRAFwt/NRASwt melanomas compared with BRAFmut/NRASmut mutated melanomas. We then used two strategies to inhibit CDK9 in vitro-a CDK9 degrader (TS-032) and a selective CDK9 kinase inhibitor (NVP-2). At 500 nM, both TS-032 and NVP-2 demonstrated greater suppression of BRAFwt/NRASwt/NF1wt cutaneous and uveal melanomas than mutant melanomas. RNA sequencing analysis of eight melanoma lines with NVP-2 treatment demonstrated that the context of this vulnerability appears to converge on a cell cycle network that includes many transcriptional regulators, such as the E2F family members. The Cancer Genome Atlas human melanoma tumor data further supported a potential oncogenic role for E2F1 and E2F2 in BRAFwt/NRASwt/NF1wt tumors and a direct link to CDK9. Our results suggest that transcriptional blockade through selective targeting of CDK9 is an effective method of suppressing therapeutically orphaned BRAF/NRAS/NF1 wt melanomas.
Copyright © 2021 The Authors. Published by Elsevier Inc. All rights reserved.

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Year:  2021        PMID: 33745909      PMCID: PMC8316294          DOI: 10.1016/j.jid.2020.12.035

Source DB:  PubMed          Journal:  J Invest Dermatol        ISSN: 0022-202X            Impact factor:   7.590


  30 in total

1.  Improved survival with vemurafenib in melanoma with BRAF V600E mutation.

Authors:  Paul B Chapman; Axel Hauschild; Caroline Robert; John B Haanen; Paolo Ascierto; James Larkin; Reinhard Dummer; Claus Garbe; Alessandro Testori; Michele Maio; David Hogg; Paul Lorigan; Celeste Lebbe; Thomas Jouary; Dirk Schadendorf; Antoni Ribas; Steven J O'Day; Jeffrey A Sosman; John M Kirkwood; Alexander M M Eggermont; Brigitte Dreno; Keith Nolop; Jiang Li; Betty Nelson; Jeannie Hou; Richard J Lee; Keith T Flaherty; Grant A McArthur
Journal:  N Engl J Med       Date:  2011-06-05       Impact factor: 91.245

2.  Contextual role of E2F1 in suppression of melanoma cell motility and invasiveness.

Authors:  Peng Meng; Roble G Bedolla; Huiyoung Yun; James E Fitzpatrick; Addanki P Kumar; Rita Ghosh
Journal:  Mol Carcinog       Date:  2019-05-23       Impact factor: 4.784

3.  The cyclin-dependent kinase inhibitor SNS-032 induces apoptosis in breast cancer cells via depletion of Mcl-1 and X-linked inhibitor of apoptosis protein and displays antitumor activity in vivo.

Authors:  Gui'e Xie; Hongping Tang; Shaoqing Wu; Jingsong Chen; Jiangwen Liu; Can Liao
Journal:  Int J Oncol       Date:  2014-05-26       Impact factor: 5.650

4.  E2F1 in melanoma progression and metastasis.

Authors:  Vijay Alla; David Engelmann; Annett Niemetz; Jens Pahnke; Anke Schmidt; Manfred Kunz; Stephan Emmrich; Marc Steder; Dirk Koczan; Brigitte M Pützer
Journal:  J Natl Cancer Inst       Date:  2009-12-21       Impact factor: 13.506

5.  CDK12 is a transcription elongation-associated CTD kinase, the metazoan ortholog of yeast Ctk1.

Authors:  Bartlomiej Bartkowiak; Pengda Liu; Hemali P Phatnani; Nicholas J Fuda; Jeffrey J Cooper; David H Price; Karen Adelman; John T Lis; Arno L Greenleaf
Journal:  Genes Dev       Date:  2010-10-15       Impact factor: 11.361

6.  Survival, durable tumor remission, and long-term safety in patients with advanced melanoma receiving nivolumab.

Authors:  Suzanne L Topalian; Mario Sznol; David F McDermott; Harriet M Kluger; Richard D Carvajal; William H Sharfman; Julie R Brahmer; Donald P Lawrence; Michael B Atkins; John D Powderly; Philip D Leming; Evan J Lipson; Igor Puzanov; David C Smith; Janis M Taube; Jon M Wigginton; Georgia D Kollia; Ashok Gupta; Drew M Pardoll; Jeffrey A Sosman; F Stephen Hodi
Journal:  J Clin Oncol       Date:  2014-03-03       Impact factor: 44.544

7.  Suppression of Adaptive Responses to Targeted Cancer Therapy by Transcriptional Repression.

Authors:  Maria Rusan; Kapsok Li; Yvonne Li; Camilla L Christensen; Brian J Abraham; Nicholas Kwiatkowski; Kevin A Buczkowski; Bruno Bockorny; Ting Chen; Shuai Li; Kevin Rhee; Haikuo Zhang; Wankun Chen; Hideki Terai; Tiffany Tavares; Alan L Leggett; Tianxia Li; Yichen Wang; Tinghu Zhang; Tae-Jung Kim; Sook-Hee Hong; Neermala Poudel-Neupane; Michael Silkes; Tenny Mudianto; Li Tan; Takeshi Shimamura; Matthew Meyerson; Adam J Bass; Hideo Watanabe; Nathanael S Gray; Richard A Young; Kwok-Kin Wong; Peter S Hammerman
Journal:  Cancer Discov       Date:  2017-10-20       Impact factor: 39.397

8.  Pharmacological perturbation of CDK9 using selective CDK9 inhibition or degradation.

Authors:  Calla M Olson; Baishan Jiang; Michael A Erb; Yanke Liang; Zainab M Doctor; Zinan Zhang; Tinghu Zhang; Nicholas Kwiatkowski; Myriam Boukhali; Jennifer L Green; Wilhelm Haas; Tyzoon Nomanbhoy; Eric S Fischer; Richard A Young; James E Bradner; Georg E Winter; Nathanael S Gray
Journal:  Nat Chem Biol       Date:  2017-12-18       Impact factor: 16.174

9.  Cyclin Dependent Kinase 9 Inhibitors for Cancer Therapy.

Authors:  Yogesh A Sonawane; Margaret A Taylor; John Victor Napoleon; Sandeep Rana; Jacob I Contreras; Amarnath Natarajan
Journal:  J Med Chem       Date:  2016-06-03       Impact factor: 7.446

10.  Transcriptional inhibition by CDK7/9 inhibitor SNS-032 abrogates oncogene addiction and reduces liver metastasis in uveal melanoma.

Authors:  Jing Zhang; Shenglan Liu; Qianyun Ye; Jingxuan Pan
Journal:  Mol Cancer       Date:  2019-09-16       Impact factor: 27.401
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