Literature DB >> 28813415

CDK4/6 inhibition triggers anti-tumour immunity.

Shom Goel1,2, Molly J DeCristo3,4, April C Watt1, Haley BrinJones1, Jaclyn Sceneay3,4, Ben B Li1, Naveed Khan1, Jessalyn M Ubellacker3,4, Shaozhen Xie1, Otto Metzger-Filho2, Jeremy Hoog5, Matthew J Ellis6, Cynthia X Ma5, Susanne Ramm7,8, Ian E Krop2, Eric P Winer2, Thomas M Roberts1, Hye-Jung Kim9,10, Sandra S McAllister3,4,11,12, Jean J Zhao1,12,13.   

Abstract

Cyclin-dependent kinases 4 and 6 (CDK4/6) are fundamental drivers of the cell cycle and are required for the initiation and progression of various malignancies. Pharmacological inhibitors of CDK4/6 have shown significant activity against several solid tumours. Their primary mechanism of action is thought to be the inhibition of phosphorylation of the retinoblastoma tumour suppressor, inducing G1 cell cycle arrest in tumour cells. Here we use mouse models of breast carcinoma and other solid tumours to show that selective CDK4/6 inhibitors not only induce tumour cell cycle arrest, but also promote anti-tumour immunity. We confirm this phenomenon through transcriptomic analysis of serial biopsies from a clinical trial of CDK4/6 inhibitor treatment for breast cancer. The enhanced anti-tumour immune response has two underpinnings. First, CDK4/6 inhibitors activate tumour cell expression of endogenous retroviral elements, thus increasing intracellular levels of double-stranded RNA. This in turn stimulates production of type III interferons and hence enhances tumour antigen presentation. Second, CDK4/6 inhibitors markedly suppress the proliferation of regulatory T cells. Mechanistically, the effects of CDK4/6 inhibitors both on tumour cells and on regulatory T cells are associated with reduced activity of the E2F target, DNA methyltransferase 1. Ultimately, these events promote cytotoxic T-cell-mediated clearance of tumour cells, which is further enhanced by the addition of immune checkpoint blockade. Our findings indicate that CDK4/6 inhibitors increase tumour immunogenicity and provide a rationale for new combination regimens comprising CDK4/6 inhibitors and immunotherapies as anti-cancer treatment.

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Year:  2017        PMID: 28813415      PMCID: PMC5570667          DOI: 10.1038/nature23465

Source DB:  PubMed          Journal:  Nature        ISSN: 0028-0836            Impact factor:   49.962


  30 in total

1.  Inhibiting DNA Methylation Causes an Interferon Response in Cancer via dsRNA Including Endogenous Retroviruses.

Authors:  Katherine B Chiappinelli; Pamela L Strissel; Alexis Desrichard; Huili Li; Christine Henke; Benjamin Akman; Alexander Hein; Neal S Rote; Leslie M Cope; Alexandra Snyder; Vladimir Makarov; Sadna Budhu; Sadna Buhu; Dennis J Slamon; Jedd D Wolchok; Drew M Pardoll; Matthias W Beckmann; Cynthia A Zahnow; Taha Merghoub; Taha Mergoub; Timothy A Chan; Stephen B Baylin; Reiner Strick
Journal:  Cell       Date:  2015-08-27       Impact factor: 41.582

2.  Requirement for CDK4 kinase function in breast cancer.

Authors:  Qunyan Yu; Ewa Sicinska; Yan Geng; Marie Ahnström; Agnieszka Zagozdzon; Yinxin Kong; Humphrey Gardner; Hiroaki Kiyokawa; Lyndsay N Harris; Olle Stål; Piotr Sicinski
Journal:  Cancer Cell       Date:  2006-01       Impact factor: 31.743

3.  NeoPalAna: Neoadjuvant Palbociclib, a Cyclin-Dependent Kinase 4/6 Inhibitor, and Anastrozole for Clinical Stage 2 or 3 Estrogen Receptor-Positive Breast Cancer.

Authors:  Cynthia X Ma; Feng Gao; Jingqin Luo; Donald W Northfelt; Matthew Goetz; Andres Forero; Jeremy Hoog; Michael Naughton; Foluso Ademuyiwa; Rama Suresh; Karen S Anderson; Julie Margenthaler; Rebecca Aft; Timothy Hobday; Timothy Moynihan; William Gillanders; Amy Cyr; Timothy J Eberlein; Tina Hieken; Helen Krontiras; Zhanfang Guo; Michelle V Lee; Nicholas C Spies; Zachary L Skidmore; Obi L Griffith; Malachi Griffith; Shana Thomas; Caroline Bumb; Kiran Vij; Cynthia Huang Bartlett; Maria Koehler; Hussam Al-Kateb; Souzan Sanati; Matthew J Ellis
Journal:  Clin Cancer Res       Date:  2017-03-07       Impact factor: 12.531

4.  Gene set enrichment analysis: a knowledge-based approach for interpreting genome-wide expression profiles.

Authors:  Aravind Subramanian; Pablo Tamayo; Vamsi K Mootha; Sayan Mukherjee; Benjamin L Ebert; Michael A Gillette; Amanda Paulovich; Scott L Pomeroy; Todd R Golub; Eric S Lander; Jill P Mesirov
Journal:  Proc Natl Acad Sci U S A       Date:  2005-09-30       Impact factor: 11.205

5.  The epigenetic regulator Uhrf1 facilitates the proliferation and maturation of colonic regulatory T cells.

Authors:  Yuuki Obata; Yukihiro Furusawa; Takaho A Endo; Jafar Sharif; Daisuke Takahashi; Koji Atarashi; Manabu Nakayama; Satoshi Onawa; Yumiko Fujimura; Masumi Takahashi; Tomokatsu Ikawa; Takeshi Otsubo; Yuki I Kawamura; Taeko Dohi; Shoji Tajima; Hiroshi Masumoto; Osamu Ohara; Kenya Honda; Shohei Hori; Hiroshi Ohno; Haruhiko Koseki; Koji Hase
Journal:  Nat Immunol       Date:  2014-04-28       Impact factor: 25.606

6.  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

Review 7.  The senescence-associated secretory phenotype: the dark side of tumor suppression.

Authors:  Jean-Philippe Coppé; Pierre-Yves Desprez; Ana Krtolica; Judith Campisi
Journal:  Annu Rev Pathol       Date:  2010       Impact factor: 23.472

8.  Efficacy and Safety of Abemaciclib, an Inhibitor of CDK4 and CDK6, for Patients with Breast Cancer, Non-Small Cell Lung Cancer, and Other Solid Tumors.

Authors:  Amita Patnaik; Lee S Rosen; Sara M Tolaney; Anthony W Tolcher; Jonathan W Goldman; Leena Gandhi; Kyriakos P Papadopoulos; Muralidhar Beeram; Drew W Rasco; John F Hilton; Aejaz Nasir; Richard P Beckmann; Andrew E Schade; Angie D Fulford; Tuan S Nguyen; Ricardo Martinez; Palaniappan Kulanthaivel; Lily Q Li; Martin Frenzel; Damien M Cronier; Edward M Chan; Keith T Flaherty; Patrick Y Wen; Geoffrey I Shapiro
Journal:  Cancer Discov       Date:  2016-05-23       Impact factor: 39.397

9.  PGC-1alpha-responsive genes involved in oxidative phosphorylation are coordinately downregulated in human diabetes.

Authors:  Vamsi K Mootha; Cecilia M Lindgren; Karl-Fredrik Eriksson; Aravind Subramanian; Smita Sihag; Joseph Lehar; Pere Puigserver; Emma Carlsson; Martin Ridderstråle; Esa Laurila; Nicholas Houstis; Mark J Daly; Nick Patterson; Jill P Mesirov; Todd R Golub; Pablo Tamayo; Bruce Spiegelman; Eric S Lander; Joel N Hirschhorn; David Altshuler; Leif C Groop
Journal:  Nat Genet       Date:  2003-07       Impact factor: 38.330

10.  Vascular normalization by loss of Siah2 results in increased chemotherapeutic efficacy.

Authors:  Christina S F Wong; Jaclyn Sceneay; Colin M House; Heloise M Halse; Mira C P Liu; Joshy George; Titaina C U Potdevin Hunnam; Belinda S Parker; Izhak Haviv; Ze'ev Ronai; Carleen Cullinane; David D Bowtell; Andreas Möller
Journal:  Cancer Res       Date:  2012-02-21       Impact factor: 12.701
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  398 in total

Review 1.  Challenges and unanswered questions for the next decade of immune-oncology research in NSCLC.

Authors:  Niki Karachaliou; Manuel Fernandez-Bruno; Jillian Wilhelmina Paulina Bracht; Rafael Rosell
Journal:  Transl Lung Cancer Res       Date:  2018-12

Review 2.  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

3.  CDK4/6 inhibitor palbociclib suppresses IgE-mediated mast cell activation.

Authors:  Yi-Bo Hou; Kunmei Ji; Yue-Tong Sun; Li-Na Zhang; Jia-Jie Chen
Journal:  J Transl Med       Date:  2019-08-20       Impact factor: 5.531

Review 4.  The Role of CDK4/6 Inhibitors in Breast Cancer.

Authors:  Conleth G Murphy
Journal:  Curr Treat Options Oncol       Date:  2019-05-18

Review 5.  Cell Cycle Dysregulation in Mantle Cell Lymphoma: Genomics and Therapy.

Authors:  Kevin Wang; Xiangao Huang; Maurizio Di Liberto; Selina Chen-Kiang
Journal:  Hematol Oncol Clin North Am       Date:  2020-08-01       Impact factor: 3.722

6.  Targeting CDK9 Reactivates Epigenetically Silenced Genes in Cancer.

Authors:  Hanghang Zhang; Somnath Pandey; Meghan Travers; Hongxing Sun; George Morton; Jozef Madzo; Woonbok Chung; Jittasak Khowsathit; Oscar Perez-Leal; Carlos A Barrero; Carmen Merali; Yasuyuki Okamoto; Takahiro Sato; Joshua Pan; Judit Garriga; Natarajan V Bhanu; Johayra Simithy; Bela Patel; Jian Huang; Noël J-M Raynal; Benjamin A Garcia; Marlene A Jacobson; Cigall Kadoch; Salim Merali; Yi Zhang; Wayne Childers; Magid Abou-Gharbia; John Karanicolas; Stephen B Baylin; Cynthia A Zahnow; Jaroslav Jelinek; Xavier Graña; Jean-Pierre J Issa
Journal:  Cell       Date:  2018-10-25       Impact factor: 41.582

Review 7.  Biochemical Aspects of PD-L1 Regulation in Cancer Immunotherapy.

Authors:  Jinfang Zhang; Fabin Dang; Junming Ren; Wenyi Wei
Journal:  Trends Biochem Sci       Date:  2018-10-01       Impact factor: 13.807

Review 8.  Arrested Developments: CDK4/6 Inhibitor Resistance and Alterations in the Tumor Immune Microenvironment.

Authors:  Jessica L F Teh; Andrew E Aplin
Journal:  Clin Cancer Res       Date:  2018-10-04       Impact factor: 12.531

9.  Reprogramming normal human epithelial tissues to a common, lethal neuroendocrine cancer lineage.

Authors:  Jung Wook Park; John K Lee; Katherine M Sheu; Liang Wang; Nikolas G Balanis; Kim Nguyen; Bryan A Smith; Chen Cheng; Brandon L Tsai; Donghui Cheng; Jiaoti Huang; Siavash K Kurdistani; Thomas G Graeber; Owen N Witte
Journal:  Science       Date:  2018-10-05       Impact factor: 47.728

Review 10.  Targeted and Immune-Based Therapies for Hepatocellular Carcinoma.

Authors:  Tim F Greten; Chunwei Walter Lai; Guangfu Li; Kevin F Staveley-O'Carroll
Journal:  Gastroenterology       Date:  2018-10-01       Impact factor: 22.682
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