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Literature DB >> 26014097

Resistance to Antiangiogenic Therapy Is Associated with an Immunosuppressive Tumor Microenvironment in Metastatic Renal Cell Carcinoma.

Xian-De Liu¹, Anh Hoang¹, Lijun Zhou¹, Sarathi Kalra¹, Alper Yetil¹, Mianen Sun¹, Zhiyong Ding², Xuesong Zhang¹, Shanshan Bai¹, Peter German¹, Pheroze Tamboli¹, Priya Rao¹, Jose A Karam¹, Christopher Wood¹, Surena Matin¹, Amado Zurita¹, Axel Bex³, Arjan W Griffioen⁴, Jianjun Gao¹, Padmanee Sharma¹, Nizar Tannir¹, Kanishka Sircar¹, Eric Jonasch⁵.

Abstract

Renal cell carcinoma (RCC) is an immunogenic and proangiogenic cancer, and antiangiogenic therapy is the current mainstay of treatment. Patients with RCC develop innate or adaptive resistance to antiangiogenic therapy. There is a need to identify biomarkers that predict therapeutic resistance and guide combination therapy. We assessed the interaction between antiangiogenic therapy and the tumor immune microenvironment and determined their impact on clinical outcome. We found that antiangiogenic therapy-treated RCC primary tumors showed increased infiltration of CD4(+) and CD8(+) T lymphocytes, which was inversely related to patient overall survival and progression-free survival. Furthermore, specimens from patients treated with antiangiogenic therapy showed higher infiltration of CD4(+)FOXP3(+) regulatory T cells and enhanced expression of checkpoint ligand programed death-ligand 1 (PD-L1). Both immunosuppressive features were correlated with T-lymphocyte infiltration and were negatively related to patient survival. Treatment of RCC cell lines and RCC xenografts in immunodeficient mice with sunitinib also increased tumor PD-L1 expression. Results from this study indicate that antiangiogenic treatment may both positively and negatively regulate the tumor immune microenvironment. These findings generate hypotheses on resistance mechanisms to antiangiogenic therapy and will guide the development of combination therapy with PD-1/PD-L1-blocking agents. ©2015 American Association for Cancer Research.

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Year: 2015 PMID： 26014097 PMCID： PMC4561186 DOI： 10.1158/2326-6066.CIR-14-0244

Source DB: PubMed Journal: Cancer Immunol Res ISSN： 2326-6066 Impact factor: 11.151

46 in total

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Journal: Clin Cancer Res Date: 2013-10-11 Impact factor: 12.531

Review 4. Potential of new therapies like anti-PD1 in kidney cancer.

Authors: Anasuya Gunturi; David F McDermott
Journal: Curr Treat Options Oncol Date: 2014-03

5. Sunitinib versus interferon alfa in metastatic renal-cell carcinoma.

Authors: Robert J Motzer; Thomas E Hutson; Piotr Tomczak; M Dror Michaelson; Ronald M Bukowski; Olivier Rixe; Stéphane Oudard; Sylvie Negrier; Cezary Szczylik; Sindy T Kim; Isan Chen; Paul W Bycott; Charles M Baum; Robert A Figlin
Journal: N Engl J Med Date: 2007-01-11 Impact factor: 91.245

6. Predictive correlates of response to the anti-PD-L1 antibody MPDL3280A in cancer patients.

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Journal: Nature Date: 2014-11-27 Impact factor: 49.962

7. CD25 identifies a subset of CD4⁺FoxP3⁻ TIL that are exhausted yet prognostically favorable in human ovarian cancer.

Authors: Ronald J deLeeuw; David R Kroeger; Sara E Kost; Pheh-Ping Chang; John R Webb; Brad H Nelson
Journal: Cancer Immunol Res Date: 2014-12-05 Impact factor: 11.151

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Authors: Junko Ozao-Choy; Ge Ma; Johnny Kao; George X Wang; Marcia Meseck; Max Sung; Myron Schwartz; Celia M Divino; Ping-Ying Pan; Shu-Hsia Chen
Journal: Cancer Res Date: 2009-03-10 Impact factor: 12.701

9. PD-1 blockade induces responses by inhibiting adaptive immune resistance.

Authors: Paul C Tumeh; Christina L Harview; Jennifer H Yearley; I Peter Shintaku; Emma J M Taylor; Lidia Robert; Bartosz Chmielowski; Marko Spasic; Gina Henry; Voicu Ciobanu; Alisha N West; Manuel Carmona; Christine Kivork; Elizabeth Seja; Grace Cherry; Antonio J Gutierrez; Tristan R Grogan; Christine Mateus; Gorana Tomasic; John A Glaspy; Ryan O Emerson; Harlan Robins; Robert H Pierce; David A Elashoff; Caroline Robert; Antoni Ribas
Journal: Nature Date: 2014-11-27 Impact factor: 49.962

10. Autophagy mediates HIF2α degradation and suppresses renal tumorigenesis.

Authors: X-D Liu; J Yao; D N Tripathi; Z Ding; Y Xu; M Sun; J Zhang; S Bai; P German; A Hoang; L Zhou; D Jonasch; X Zhang; C J Conti; E Efstathiou; N M Tannir; N T Eissa; G B Mills; C L Walker; E Jonasch
Journal: Oncogene Date: 2014-07-07 Impact factor: 9.867

71 in total

Review 1. Strategies to overcome therapeutic resistance in renal cell carcinoma.

Authors: Peter J Siska; Kathryn E Beckermann; W Kimryn Rathmell; Scott M Haake
Journal: Urol Oncol Date: 2017-01-11 Impact factor: 3.498

2. Combined antiangiogenic and anti-PD-L1 therapy stimulates tumor immunity through HEV formation.

Authors: Elizabeth Allen; Arnaud Jabouille; Lee B Rivera; Inge Lodewijckx; Rindert Missiaen; Veronica Steri; Kevin Feyen; Jaime Tawney; Douglas Hanahan; Iacovos P Michael; Gabriele Bergers
Journal: Sci Transl Med Date: 2017-04-12 Impact factor: 17.956

Review 3. Anti-angiogenic agents - overcoming tumour endothelial cell anergy and improving immunotherapy outcomes.

Authors: Zowi R Huinen; Elisabeth J M Huijbers; Judy R van Beijnum; Patrycja Nowak-Sliwinska; Arjan W Griffioen
Journal: Nat Rev Clin Oncol Date: 2021-04-08 Impact factor: 66.675

Review 4. Improving immunotherapy outcomes with anti-angiogenic treatments and vice versa.

Authors: Kabir A Khan; Robert S Kerbel
Journal: Nat Rev Clin Oncol Date: 2018-02-13 Impact factor: 66.675

5. Can immune biomarkers predict benefit from targeted agents in metastatic renal cell carcinoma?

Authors: Renate Pichler; Manuela Schmidinger
Journal: Ann Transl Med Date: 2019-12

Review 6. The Course of Immune Stimulation by Photodynamic Therapy: Bridging Fundamentals of Photochemically Induced Immunogenic Cell Death to the Enrichment of T-Cell Repertoire.

Authors: Shubhankar Nath; Girgis Obaid; Tayyaba Hasan
Journal: Photochem Photobiol Date: 2019-11-10 Impact factor: 3.421