Literature DB >> 29875319

Phosphoinositide 3-kinase δ inhibition promotes antitumor responses but antagonizes checkpoint inhibitors.

Ee Lyn Lim1, Fiorella M Cugliandolo1, Dalya R Rosner1, David Gyori1, Rahul Roychoudhuri1, Klaus Okkenhaug1,2.   

Abstract

Multiple modes of immunosuppression restrain immune function within tumors. We previously reported that phosphoinositide 3-kinase δ (PI3Kδ) inactivation in mice confers resistance to a range of tumor models by disrupting immunosuppression mediated by regulatory T cells (Tregs). The PI3Kδ inhibitor idelalisib has proven highly effective in the clinical treatment of chronic lymphocytic leukemia and the potential to extend the use of PI3Kδ inhibitors to nonhematological cancers is being evaluated. In this work, we demonstrate that the antitumor effect of PI3Kδ inactivation is primarily mediated through the disruption of Treg function, and correlates with tumor dependence on Treg immunosuppression. Compared with Treg-specific PI3Kδ deletion, systemic PI3Kδ inactivation is less effective at conferring resistance to tumors. We show that PI3Kδ deficiency impairs the maturation and reduces the capacity of CD8+ cytotoxic T lymphocytes (CTLs) to kill tumor cells in vitro, and to respond to tumor antigen-specific immunization in vivo. PI3Kδ inactivation antagonized the antitumor effects of tumor vaccines and checkpoint blockade therapies intended to boost the CD8+ T cell response. These findings provide insights into mechanisms by which PI3Kδ inhibition promotes antitumor immunity and demonstrate that the mechanism is distinct from that mediated by immune checkpoint blockade.

Entities:  

Keywords:  Adaptive immunity; Cancer immunotherapy; Immunology; Oncology; Signal transduction

Mesh:

Substances:

Year:  2018        PMID: 29875319      PMCID: PMC6124416          DOI: 10.1172/jci.insight.120626

Source DB:  PubMed          Journal:  JCI Insight        ISSN: 2379-3708


  50 in total

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Journal:  N Engl J Med       Date:  2014-01-22       Impact factor: 91.245

Review 2.  Immune checkpoint blockade: a common denominator approach to cancer therapy.

Authors:  Suzanne L Topalian; Charles G Drake; Drew M Pardoll
Journal:  Cancer Cell       Date:  2015-04-06       Impact factor: 31.743

3.  T cell costimulatory receptor CD28 is a primary target for PD-1-mediated inhibition.

Authors:  Enfu Hui; Jeanne Cheung; Jing Zhu; Xiaolei Su; Marcus J Taylor; Heidi A Wallweber; Dibyendu K Sasmal; Jun Huang; Jeong M Kim; Ira Mellman; Ronald D Vale
Journal:  Science       Date:  2017-03-09       Impact factor: 47.728

4.  Akt inhibition enhances expansion of potent tumor-specific lymphocytes with memory cell characteristics.

Authors:  Joseph G Crompton; Madhusudhanan Sukumar; Rahul Roychoudhuri; David Clever; Alena Gros; Robert L Eil; Eric Tran; Ken-Ichi Hanada; Zhiya Yu; Douglas C Palmer; Sid P Kerkar; Ryan D Michalek; Trevor Upham; Anthony Leonardi; Nicolas Acquavella; Ena Wang; Francesco M Marincola; Luca Gattinoni; Pawel Muranski; Mark S Sundrud; Christopher A Klebanoff; Steven A Rosenberg; Douglas T Fearon; Nicholas P Restifo
Journal:  Cancer Res       Date:  2014-11-28       Impact factor: 12.701

5.  PD-1 and CTLA-4 combination blockade expands infiltrating T cells and reduces regulatory T and myeloid cells within B16 melanoma tumors.

Authors:  Michael A Curran; Welby Montalvo; Hideo Yagita; James P Allison
Journal:  Proc Natl Acad Sci U S A       Date:  2010-02-16       Impact factor: 11.205

6.  Nivolumab plus ipilimumab in advanced melanoma.

Authors:  Jedd D Wolchok; Harriet Kluger; Margaret K Callahan; Michael A Postow; Naiyer A Rizvi; Alexander M Lesokhin; Neil H Segal; Charlotte E Ariyan; Ruth-Ann Gordon; Kathleen Reed; Matthew M Burke; Anne Caldwell; Stephanie A Kronenberg; Blessing U Agunwamba; Xiaoling Zhang; Israel Lowy; Hector David Inzunza; William Feely; Christine E Horak; Quan Hong; Alan J Korman; Jon M Wigginton; Ashok Gupta; Mario Sznol
Journal:  N Engl J Med       Date:  2013-06-02       Impact factor: 91.245

7.  PI3Kδ is essential for tumor clearance mediated by cytotoxic T lymphocytes.

Authors:  Eva Maria Putz; Michaela Prchal-Murphy; Olivia Annabella Simma; Florian Forster; Xaver Koenig; Hannes Stockinger; Roland P Piekorz; Michael Freissmuth; Mathias Müller; Veronika Sexl; Eva Zebedin-Brandl
Journal:  PLoS One       Date:  2012-07-13       Impact factor: 3.240

8.  Complete but curtailed T-cell response to very low-affinity antigen.

Authors:  Dietmar Zehn; Sarah Y Lee; Michael J Bevan
Journal:  Nature       Date:  2009-01-28       Impact factor: 49.962

Review 9.  Signaling by the phosphoinositide 3-kinase family in immune cells.

Authors:  Klaus Okkenhaug
Journal:  Annu Rev Immunol       Date:  2013-01-16       Impact factor: 28.527

10.  PDK1 regulation of mTOR and hypoxia-inducible factor 1 integrate metabolism and migration of CD8+ T cells.

Authors:  David K Finlay; Ella Rosenzweig; Linda V Sinclair; Carmen Feijoo-Carnero; Jens L Hukelmann; Julia Rolf; Andrey A Panteleyev; Klaus Okkenhaug; Doreen A Cantrell
Journal:  J Exp Med       Date:  2012-11-26       Impact factor: 14.307
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  13 in total

Review 1.  Phosphoinositide 3-kinase δ is a regulatory T-cell target in cancer immunotherapy.

Authors:  Ee Lyn Lim; Klaus Okkenhaug
Journal:  Immunology       Date:  2019-07       Impact factor: 7.397

Review 2.  The Next Generation of Immunotherapy for Cancer: Small Molecules Could Make Big Waves.

Authors:  William G Kerr; John D Chisholm
Journal:  J Immunol       Date:  2019-01-01       Impact factor: 5.422

3.  Cancer immunotherapy with PI3K and PD-1 dual-blockade via optimal modulation of T cell activation signal.

Authors:  Sho Isoyama; Shigeyuki Mori; Daisuke Sugiyama; Yasuhiro Kojima; Yasuko Tada; Kohei Shitara; Kunihiko Hinohara; Shingo Dan; Hiroyoshi Nishikawa
Journal:  J Immunother Cancer       Date:  2021-08       Impact factor: 13.751

Review 4.  Improvement of the anticancer efficacy of PD-1/PD-L1 blockade via combination therapy and PD-L1 regulation.

Authors:  Mengling Wu; Qianrui Huang; Yao Xie; Xuyi Wu; Hongbo Ma; Yiwen Zhang; Yong Xia
Journal:  J Hematol Oncol       Date:  2022-03-12       Impact factor: 17.388

5.  A systemically deliverable Vaccinia virus with increased capacity for intertumoral and intratumoral spread effectively treats pancreatic cancer.

Authors:  Giulia Marelli; Louisa S Chard Dunmall; Ming Yuan; Carmela Di Gioia; Jinxin Miao; Zhenguo Cheng; Zhongxian Zhang; Peng Liu; Jahangir Ahmed; Rathi Gangeswaran; Nicholas Lemoine; Yaohe Wang
Journal:  J Immunother Cancer       Date:  2021-01       Impact factor: 13.751

Review 6.  Phosphoinositide 3-Kinase Signaling in the Tumor Microenvironment: What Do We Need to Consider When Treating Chronic Lymphocytic Leukemia With PI3K Inhibitors?

Authors:  Ebru Aydin; Sebastian Faehling; Mariam Saleh; Laura Llaó Cid; Martina Seiffert; Philipp M Roessner
Journal:  Front Immunol       Date:  2021-01-20       Impact factor: 7.561

Review 7.  PI3K inhibitors are finally coming of age.

Authors:  Bart Vanhaesebroeck; Matthew W D Perry; Jennifer R Brown; Fabrice André; Klaus Okkenhaug
Journal:  Nat Rev Drug Discov       Date:  2021-06-14       Impact factor: 112.288

Review 8.  Checkpoint inhibitor blockade and epigenetic reprogrammability in CD8+ T-cell activation and exhaustion.

Authors:  José Belizário; Maria Fernanda Destro Rodrigues
Journal:  Ther Adv Vaccines Immunother       Date:  2020-03-13

Review 9.  Control of T lymphocyte fate decisions by PI3K signaling.

Authors:  Benjamin Murter; Lawrence P Kane
Journal:  F1000Res       Date:  2020-09-25

10.  Enhanced antitumor immunity through sequential targeting of PI3Kδ and LAG3.

Authors:  Sarah Nicol Lauder; Kathryn Smart; Veerle Kersemans; Danny Allen; Jake Scott; Ana Pires; Stefan Milutinovic; Michelle Somerville; Sean Smart; Paul Kinchesh; Elena Lopez-Guadamillas; Ellyn Hughes; Emma Jones; Martin Scurr; Andrew Godkin; Lori S Friedman; Bart Vanhaesebroeck; Awen Gallimore
Journal:  J Immunother Cancer       Date:  2020-10       Impact factor: 13.751
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