Literature DB >> 28174424

Targeting A2 adenosine receptors in cancer.

David Allard1,2, Martin Turcotte1,2, John Stagg1,2.   

Abstract

Tumor cells use various ways to evade anti-tumor immune responses. Adenosine, a potent immunosuppressive metabolite, is often found elevated in the extracellular tumor microenvironment. Therefore, targeting adenosine-generating enzymes (CD39 and CD73) or adenosine receptors has emerged as a novel means to stimulate anti-tumor immunity. In particular, the A2 (A2a and A2b) adenosine receptors exhibit similar immunosuppressive and pro-angiogenic functions, yet have distinct biological roles in cancer. In this review, we describe the common and distinct biological consequences of A2a and A2b adenosine receptor signaling in cancer. We discuss recent pre-clinical studies and summarize the different mechanisms-of-action of adenosine-targeting drugs. We also review the rationale for combining inhibitors of the adenosine pathway with other anticancer therapies such immune checkpoint inhibitors, tumor vaccines, chemotherapy and adoptive T cell therapy.

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Year:  2017        PMID: 28174424     DOI: 10.1038/icb.2017.8

Source DB:  PubMed          Journal:  Immunol Cell Biol        ISSN: 0818-9641            Impact factor:   5.126


  93 in total

1.  IFN-γ Prevents Adenosine Receptor (A2bR) Upregulation To Sustain the Macrophage Activation Response.

Authors:  Heather B Cohen; Amanda Ward; Kajal Hamidzadeh; Katya Ravid; David M Mosser
Journal:  J Immunol       Date:  2015-09-09       Impact factor: 5.422

2.  Co-blockade of immune checkpoints and adenosine A2A receptor suppresses metastasis.

Authors:  Arabella Young; Deepak Mittal; Kimberley Stannard; Michelle Yong; Michele Wl Teng; Bertrand Allard; John Stagg; Mark J Smyth
Journal:  Oncoimmunology       Date:  2014-12-15       Impact factor: 8.110

3.  Extracellular adenosine induces apoptosis of human arterial smooth muscle cells via A(2b)-purinoceptor.

Authors:  M L Peyot; A P Gadeau; F Dandré; I Belloc; F Dupuch; C Desgranges
Journal:  Circ Res       Date:  2000 Jan 7-21       Impact factor: 17.367

4.  A2A adenosine receptor protects tumors from antitumor T cells.

Authors:  Akio Ohta; Elieser Gorelik; Simon J Prasad; Franca Ronchese; Dmitriy Lukashev; Michael K K Wong; Xiaojun Huang; Sheila Caldwell; Kebin Liu; Patrick Smith; Jiang-Fan Chen; Edwin K Jackson; Sergey Apasov; Scott Abrams; Michail Sitkovsky
Journal:  Proc Natl Acad Sci U S A       Date:  2006-08-17       Impact factor: 11.205

Review 5.  Targeting CD73 and downstream adenosine receptor signaling in triple-negative breast cancer.

Authors:  Bertrand Allard; Martin Turcotte; John Stagg
Journal:  Expert Opin Ther Targets       Date:  2014-05-06       Impact factor: 6.902

6.  Targeting the adenosine 2A receptor enhances chimeric antigen receptor T cell efficacy.

Authors:  Paul A Beavis; Melissa A Henderson; Lauren Giuffrida; Jane K Mills; Kevin Sek; Ryan S Cross; Alexander J Davenport; Liza B John; Sherly Mardiana; Clare Y Slaney; Ricky W Johnstone; Joseph A Trapani; John Stagg; Sherene Loi; Lev Kats; David Gyorki; Michael H Kershaw; Phillip K Darcy
Journal:  J Clin Invest       Date:  2017-02-06       Impact factor: 14.808

7.  An angiogenic switch in macrophages involving synergy between Toll-like receptors 2, 4, 7, and 9 and adenosine A(2A) receptors.

Authors:  Grace Pinhal-Enfield; Madhuri Ramanathan; Gyorgy Hasko; Stefanie N Vogel; Andrew L Salzman; Geert-Jan Boons; S Joseph Leibovich
Journal:  Am J Pathol       Date:  2003-08       Impact factor: 4.307

8.  The A2B adenosine receptor impairs the maturation and immunogenicity of dendritic cells.

Authors:  Jeffrey M Wilson; William G Ross; Oma N Agbai; Renea Frazier; Robert A Figler; Jayson Rieger; Joel Linden; Peter B Ernst
Journal:  J Immunol       Date:  2009-04-15       Impact factor: 5.422

9.  Genome-wide profiling of AP-1-regulated transcription provides insights into the invasiveness of triple-negative breast cancer.

Authors:  Chunyan Zhao; Yichun Qiao; Philip Jonsson; Jian Wang; Li Xu; Pegah Rouhi; Indranil Sinha; Yihai Cao; Cecilia Williams; Karin Dahlman-Wright
Journal:  Cancer Res       Date:  2014-05-15       Impact factor: 12.701

10.  Specific Activation of A3, A2A and A1 Adenosine Receptors in CD73-Knockout Mice Affects B16F10 Melanoma Growth, Neovascularization, Angiogenesis and Macrophage Infiltration.

Authors:  Patrycja Koszałka; Monika Gołuńska; Aleksandra Urban; Grzegorz Stasiłojć; Marcin Stanisławowski; Marceli Majewski; Andrzej C Składanowski; Jacek Bigda
Journal:  PLoS One       Date:  2016-03-10       Impact factor: 3.240
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  33 in total

1.  Clinical significance of CD73 in triple-negative breast cancer: multiplex analysis of a phase III clinical trial.

Authors:  L Buisseret; S Pommey; B Allard; S Garaud; M Bergeron; I Cousineau; L Ameye; Y Bareche; M Paesmans; J P A Crown; A Di Leo; S Loi; M Piccart-Gebhart; K Willard-Gallo; C Sotiriou; J Stagg
Journal:  Ann Oncol       Date:  2018-04-01       Impact factor: 32.976

2.  Targeting CD39 in Cancer Reveals an Extracellular ATP- and Inflammasome-Driven Tumor Immunity.

Authors:  Xian-Yang Li; Achim K Moesta; Christos Xiao; Kyohei Nakamura; Mika Casey; Haiyan Zhang; Jason Madore; Ailin Lepletier; Amelia Roman Aguilera; Ashmitha Sundarrajan; Celia Jacoberger-Foissac; Clifford Wong; Tracy Dela Cruz; Megan Welch; Alana G Lerner; Bradley N Spatola; Vanessa B Soros; John Corbin; Ana C Anderson; Maike Effern; Michael Hölzel; Simon C Robson; Rebecca L Johnston; Nicola Waddell; Corey Smith; Tobias Bald; Nishamol Geetha; Courtney Beers; Michele W L Teng; Mark J Smyth
Journal:  Cancer Discov       Date:  2019-11-07       Impact factor: 39.397

Review 3.  Novel Targets for the Treatment of Melanoma.

Authors:  Lara Ambrosi; Shaheer Khan; Richard D Carvajal; Jessica Yang
Journal:  Curr Oncol Rep       Date:  2019-11-06       Impact factor: 5.075

4.  CD73 expression and pathologic response to neoadjuvant chemotherapy in triple negative breast cancer.

Authors:  Bruna Cerbelli; Andrea Botticelli; Annalinda Pisano; Angelina Pernazza; Domenico Campagna; Alessandro De Luca; Paolo Antonio Ascierto; Maria Gemma Pignataro; Maria Pelullo; Carlo Della Rocca; Paolo Marchetti; Lucio Fortunato; Leopoldo Costarelli; Giulia d'Amati
Journal:  Virchows Arch       Date:  2019-12-18       Impact factor: 4.064

5.  Genome-wide CRISPR Screens in Primary Human T Cells Reveal Key Regulators of Immune Function.

Authors:  Eric Shifrut; Julia Carnevale; Victoria Tobin; Theodore L Roth; Jonathan M Woo; Christina T Bui; P Jonathan Li; Morgan E Diolaiti; Alan Ashworth; Alexander Marson
Journal:  Cell       Date:  2018-11-15       Impact factor: 41.582

6.  Tritium-labeled agonists as tools for studying adenosine A2B receptors.

Authors:  Sonja Hinz; Wessam M Alnouri; Ulrich Pleiss; Christa E Müller
Journal:  Purinergic Signal       Date:  2018-05-11       Impact factor: 3.765

7.  A defect in KCa3.1 channel activity limits the ability of CD8+ T cells from cancer patients to infiltrate an adenosine-rich microenvironment.

Authors:  Ameet A Chimote; Andras Balajthy; Michael J Arnold; Hannah S Newton; Peter Hajdu; Julianne Qualtieri; Trisha Wise-Draper; Laura Conforti
Journal:  Sci Signal       Date:  2018-04-24       Impact factor: 8.192

Review 8.  Inhibition of the Adenosine Pathway to Potentiate Cancer Immunotherapy: Potential for Combinatorial Approaches.

Authors:  Elizabeth A Thompson; Jonathan D Powell
Journal:  Annu Rev Med       Date:  2020-09-09       Impact factor: 13.739

Review 9.  Novel combinatorial strategies for boosting the efficacy of immune checkpoint inhibitors in advanced breast cancers.

Authors:  M F Tolba; H Elghazaly; E Bousoik; M M A Elmazar; S M Tolaney
Journal:  Clin Transl Oncol       Date:  2021-04-19       Impact factor: 3.405

Review 10.  Beyond conventional immune-checkpoint inhibition - novel immunotherapies for renal cell carcinoma.

Authors:  David A Braun; Ziad Bakouny; Laure Hirsch; Ronan Flippot; Eliezer M Van Allen; Catherine J Wu; Toni K Choueiri
Journal:  Nat Rev Clin Oncol       Date:  2021-01-12       Impact factor: 66.675
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