Literature DB >> 34544752

INK4 Tumor Suppressor Proteins Mediate Resistance to CDK4/6 Kinase Inhibitors.

Qing Li1, Baishan Jiang2,3, Jiaye Guo4, Hong Shao1, Isabella S Del Priore1, Qing Chang5, Rei Kudo1, Zhiqiang Li1, Pedram Razavi6,7, Bo Liu1, Andrew S Boghossian8, Matthew G Rees8, Melissa M Ronan8, Jennifer A Roth8, Katherine A Donovan2,3, Marta Palafox9, Jorge S Reis-Filho10, Elisa de Stanchina5, Eric S Fischer2,3, Neal Rosen11, Violeta Serra9, Andrew Koff12, John D Chodera4, Nathanael S Gray2,3, Sarat Chandarlapaty13,6,7.   

Abstract

Cyclin-dependent kinases 4 and 6 (CDK4/6) represent a major therapeutic vulnerability for breast cancer. The kinases are clinically targeted via ATP competitive inhibitors (CDK4/6i); however, drug resistance commonly emerges over time. To understand CDK4/6i resistance, we surveyed over 1,300 breast cancers and identified several genetic alterations (e.g., FAT1, PTEN, or ARID1A loss) converging on upregulation of CDK6. Mechanistically, we demonstrate CDK6 causes resistance by inducing and binding CDK inhibitor INK4 proteins (e.g., p18INK4C). In vitro binding and kinase assays together with physical modeling reveal that the p18INK4C-cyclin D-CDK6 complex occludes CDK4/6i binding while only weakly suppressing ATP binding. Suppression of INK4 expression or its binding to CDK6 restores CDK4/6i sensitivity. To overcome this constraint, we developed bifunctional degraders conjugating palbociclib with E3 ligands. Two resulting lead compounds potently degraded CDK4/6, leading to substantial antitumor effects in vivo, demonstrating the promising therapeutic potential for retargeting CDK4/6 despite CDK4/6i resistance. SIGNIFICANCE: CDK4/6 kinase activation represents a common mechanism by which oncogenic signaling induces proliferation and is potentially targetable by ATP competitive inhibitors. We identify a CDK6-INK4 complex that is resilient to current-generation inhibitors and develop a new strategy for more effective inhibition of CDK4/6 kinases.This article is highlighted in the In This Issue feature, p. 275. ©2021 The Authors; Published by the American Association for Cancer Research.

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Year:  2021        PMID: 34544752      PMCID: PMC8831444          DOI: 10.1158/2159-8290.CD-20-1726

Source DB:  PubMed          Journal:  Cancer Discov        ISSN: 2159-8274            Impact factor:   38.272


  64 in total

1.  UCSF Chimera--a visualization system for exploratory research and analysis.

Authors:  Eric F Pettersen; Thomas D Goddard; Conrad C Huang; Gregory S Couch; Daniel M Greenblatt; Elaine C Meng; Thomas E Ferrin
Journal:  J Comput Chem       Date:  2004-10       Impact factor: 3.376

2.  Cdk-inhibitory activity and stability of p27Kip1 are directly regulated by oncogenic tyrosine kinases.

Authors:  Matthias Grimmler; Yuefeng Wang; Thomas Mund; Zoran Cilensek; Eva-Maria Keidel; M Brett Waddell; Heidelinde Jäkel; Michael Kullmann; Richard W Kriwacki; Ludger Hengst
Journal:  Cell       Date:  2007-01-26       Impact factor: 41.582

3.  An optimized microRNA backbone for effective single-copy RNAi.

Authors:  Christof Fellmann; Thomas Hoffmann; Vaishali Sridhar; Barbara Hopfgartner; Matthias Muhar; Mareike Roth; Dan Yu Lai; Inês A M Barbosa; Jung Shick Kwon; Yuanzhe Guan; Nishi Sinha; Johannes Zuber
Journal:  Cell Rep       Date:  2013-12-12       Impact factor: 9.423

Review 4.  PROteolysis TArgeting Chimeras (PROTACs) - Past, present and future.

Authors:  Mariell Pettersson; Craig M Crews
Journal:  Drug Discov Today Technol       Date:  2019-02-13

5.  Structural basis of inhibition of CDK-cyclin complexes by INK4 inhibitors.

Authors:  P D Jeffrey; L Tong; N P Pavletich
Journal:  Genes Dev       Date:  2000-12-15       Impact factor: 11.361

6.  Cyclin D1 is a nuclear protein required for cell cycle progression in G1.

Authors:  V Baldin; J Lukas; M J Marcote; M Pagano; G Draetta
Journal:  Genes Dev       Date:  1993-05       Impact factor: 11.361

7.  The gatekeeper mutation T315I confers resistance against small molecules by increasing or restoring the ABL-kinase activity accompanied by aberrant transphosphorylation of endogenous BCR, even in loss-of-function mutants of BCR/ABL.

Authors:  A A Mian; M Schüll; Z Zhao; C Oancea; A Hundertmark; T Beissert; O G Ottmann; M Ruthardt
Journal:  Leukemia       Date:  2009-04-16       Impact factor: 11.528

8.  Acquired CDK6 amplification promotes breast cancer resistance to CDK4/6 inhibitors and loss of ER signaling and dependence.

Authors:  C Yang; Z Li; T Bhatt; M Dickler; D Giri; M Scaltriti; J Baselga; N Rosen; S Chandarlapaty
Journal:  Oncogene       Date:  2016-10-17       Impact factor: 9.867

9.  Targeting the BRD4/FOXO3a/CDK6 axis sensitizes AKT inhibition in luminal breast cancer.

Authors:  Jingyi Liu; Zhibing Duan; Weijie Guo; Lei Zeng; Yadi Wu; Yule Chen; Fang Tai; Yifan Wang; Yiwei Lin; Qiang Zhang; Yanling He; Jiong Deng; Rachel L Stewart; Chi Wang; Pengnian Charles Lin; Saghi Ghaffari; B Mark Evers; Suling Liu; Ming-Ming Zhou; Binhua P Zhou; Jian Shi
Journal:  Nat Commun       Date:  2018-12-05       Impact factor: 14.919

10.  Homolog-Selective Degradation as a Strategy to Probe the Function of CDK6 in AML.

Authors:  Matthias Brand; Baishan Jiang; Sophie Bauer; Katherine A Donovan; Yanke Liang; Eric S Wang; Radosław P Nowak; Jingting C Yuan; Tinghu Zhang; Nicholas Kwiatkowski; André C Müller; Eric S Fischer; Nathanael S Gray; Georg E Winter
Journal:  Cell Chem Biol       Date:  2018-12-27       Impact factor: 9.039
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  8 in total

1.  Expression patterns and therapeutic implications of CDK4 across multiple carcinomas: a molecular docking and MD simulation study.

Authors:  Hina Qayoom; Umar Mehraj; Shazia Sofi; Shariqa Aisha; Abdullah Almilaibary; Mustfa Alkhanani; Manzoor Ahmad Mir
Journal:  Med Oncol       Date:  2022-07-23       Impact factor: 3.738

Review 2.  Cancer cell cycle dystopia: heterogeneity, plasticity, and therapy.

Authors:  Agnieszka K Witkiewicz; Vishnu Kumarasamy; Ioannis Sanidas; Erik S Knudsen
Journal:  Trends Cancer       Date:  2022-05-20

Review 3.  Targeting CDK4 and CDK6 in cancer.

Authors:  Shom Goel; Johann S Bergholz; Jean J Zhao
Journal:  Nat Rev Cancer       Date:  2022-03-18       Impact factor: 69.800

4.  Utility of Select Gene Mutation Detection in Tumors by the Idylla Rapid Multiplex PCR Platform in Comparison to Next-Generation Sequencing.

Authors:  Dingani Nkosi; Vektra L Casler; Chauncey R Syposs; Zoltán N Oltvai
Journal:  Genes (Basel)       Date:  2022-04-29       Impact factor: 4.141

5.  Differences in the Molecular Profile between Primary Breast Carcinomas and Their Cutaneous Metastases.

Authors:  Silvia González-Martínez; David Pizarro; Belén Pérez-Mies; Tamara Caniego-Casas; José Luis Rodríguez-Peralto; Giuseppe Curigliano; Alfonso Cortés; María Gión; Javier Cortés; José Palacios
Journal:  Cancers (Basel)       Date:  2022-02-23       Impact factor: 6.639

Review 6.  Breast cancer metastasis: Is it a matter of OMICS and proper ex-vivo models?

Authors:  Mario Cioce; Andrea Sacconi; Sara Donzelli; Claudia Bonomo; Letizia Perracchio; Mariantonia Carosi; Stefano Telera; Vito Michele Fazio; Claudio Botti; Sabrina Strano; Giovanni Blandino
Journal:  Comput Struct Biotechnol J       Date:  2022-07-28       Impact factor: 6.155

7.  High p16 expression and heterozygous RB1 loss are biomarkers for CDK4/6 inhibitor resistance in ER+ breast cancer.

Authors:  Marta Palafox; Laia Monserrat; Meritxell Bellet; Guillermo Villacampa; Abel Gonzalez-Perez; Mafalda Oliveira; Fara Brasó-Maristany; Nusaibah Ibrahimi; Srinivasaraghavan Kannan; Leonardo Mina; Maria Teresa Herrera-Abreu; Andreu Òdena; Mònica Sánchez-Guixé; Marta Capelán; Analía Azaro; Alejandra Bruna; Olga Rodríguez; Marta Guzmán; Judit Grueso; Cristina Viaplana; Javier Hernández; Faye Su; Kui Lin; Robert B Clarke; Carlos Caldas; Joaquín Arribas; Stefan Michiels; Alicia García-Sanz; Nicholas C Turner; Aleix Prat; Paolo Nuciforo; Rodrigo Dienstmann; Chandra S Verma; Nuria Lopez-Bigas; Maurizio Scaltriti; Monica Arnedos; Cristina Saura; Violeta Serra
Journal:  Nat Commun       Date:  2022-09-07       Impact factor: 17.694

8.  CDK6 Degradation Is Counteracted by p16INK4A and p18INK4C in AML.

Authors:  Belinda S Schmalzbauer; Teresemary Thondanpallil; Gerwin Heller; Alessia Schirripa; Clio-Melina Sperl; Isabella M Mayer; Vanessa M Knab; Sofie Nebenfuehr; Markus Zojer; André C Mueller; Frédéric Fontaine; Thorsten Klampfl; Veronika Sexl; Karoline Kollmann
Journal:  Cancers (Basel)       Date:  2022-03-18       Impact factor: 6.639
  8 in total

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