Literature DB >> 33846242

PI3Kγ inhibition suppresses microglia/TAM accumulation in glioblastoma microenvironment to promote exceptional temozolomide response.

Jie Li1, Megan M Kaneda2, Jun Ma1, Ming Li1, Ryan M Shepard2, Kunal Patel3, Tomoyuki Koga1, Aaron Sarver4, Frank Furnari5, Beibei Xu1, Sanjay Dhawan1, Jianfang Ning1, Hua Zhu1,6, Anhua Wu7, Gan You1,8, Tao Jiang8,9, Andrew S Venteicher1, Jeremy N Rich10, Christopher K Glass11, Judith A Varner12, Clark C Chen13.   

Abstract

Precision medicine in oncology leverages clinical observations of exceptional response. Toward an understanding of the molecular features that define this response, we applied an integrated, multiplatform analysis of RNA profiles derived from clinically annotated glioblastoma samples. This analysis suggested that specimens from exceptional responders are characterized by decreased accumulation of microglia/macrophages in the glioblastoma microenvironment. Glioblastoma-associated microglia/macrophages secreted interleukin 11 (IL11) to activate STAT3-MYC signaling in glioblastoma cells. This signaling induced stem cell states that confer enhanced tumorigenicity and resistance to the standard-of-care chemotherapy, temozolomide (TMZ). Targeting a myeloid cell restricted an isoform of phosphoinositide-3-kinase, phosphoinositide-3-kinase gamma isoform (PI3Kγ), by pharmacologic inhibition or genetic inactivation disrupted this signaling axis by reducing microglia/macrophage-associated IL11 secretion in the tumor microenvironment. Mirroring the clinical outcomes of exceptional responders, PI3Kγ inhibition synergistically enhanced the anti-neoplastic effects of TMZ in orthotopic murine glioblastoma models. Moreover, inhibition or genetic inactivation of PI3Kγ in murine glioblastoma models recapitulated expression profiles observed in clinical specimens isolated from exceptional responders. Our results suggest key contributions from tumor-associated microglia/macrophages in exceptional responses and highlight the translational potential for PI3Kγ inhibition as a glioblastoma therapy.

Entities:  

Keywords:  IL11; PI3Kγ; exceptional responders; glioblastoma; microglia/macrophages

Mesh:

Substances:

Year:  2021        PMID: 33846242      PMCID: PMC8072253          DOI: 10.1073/pnas.2009290118

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  80 in total

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Journal:  Proc Natl Acad Sci U S A       Date:  2006-01-23       Impact factor: 11.205

2.  Remodeling tumor immune microenvironment via targeted blockade of PI3K-γ and CSF-1/CSF-1R pathways in tumor associated macrophages for pancreatic cancer therapy.

Authors:  Man Li; Mengmeng Li; Yiliang Yang; Yingke Liu; Hanbing Xie; Qianwen Yu; Lifeng Tian; Xian Tang; Kebai Ren; Jianping Li; Zhirong Zhang; Qin He
Journal:  J Control Release       Date:  2020-02-05       Impact factor: 9.776

Review 3.  Temozolomide and treatment of malignant glioma.

Authors:  H S Friedman; T Kerby; H Calvert
Journal:  Clin Cancer Res       Date:  2000-07       Impact factor: 12.531

4.  Recursive partitioning analysis of prognostic factors in three Radiation Therapy Oncology Group malignant glioma trials.

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Journal:  J Natl Cancer Inst       Date:  1993-05-05       Impact factor: 13.506

5.  PI3Kγ is a molecular switch that controls immune suppression.

Authors:  Megan M Kaneda; Karen S Messer; Natacha Ralainirina; Hongying Li; Christopher J Leem; Sara Gorjestani; Gyunghwi Woo; Abraham V Nguyen; Camila C Figueiredo; Philippe Foubert; Michael C Schmid; Melissa Pink; David G Winkler; Matthew Rausch; Vito J Palombella; Jeffery Kutok; Karen McGovern; Kelly A Frazer; Xuefeng Wu; Michael Karin; Roman Sasik; Ezra E W Cohen; Judith A Varner
Journal:  Nature       Date:  2016-09-19       Impact factor: 49.962

Review 6.  PI3K signalling in inflammation.

Authors:  P T Hawkins; L R Stephens
Journal:  Biochim Biophys Acta       Date:  2014-12-13

7.  Molecular profiling of long-term IDH-wildtype glioblastoma survivors.

Authors:  Danielle M Burgenske; Jie Yang; Paul A Decker; Thomas M Kollmeyer; Matthew L Kosel; Ann C Mladek; Alissa A Caron; Rachael A Vaubel; Shiv K Gupta; Gaspar J Kitange; Hugues Sicotte; Ryan S Youland; Dioval Remonde; Jesse S Voss; Emily G Barr Fritcher; Kathryn L Kolsky; Cristiane M Ida; Fredric B Meyer; Daniel H Lachance; Ian J Parney; Benjamin R Kipp; Caterina Giannini; Erik P Sulman; Robert B Jenkins; Jeanette E Eckel-Passow; Jann N Sarkaria
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Review 8.  Cancer stem cells in glioblastoma.

Authors:  Justin D Lathia; Stephen C Mack; Erin E Mulkearns-Hubert; Claudia L L Valentim; Jeremy N Rich
Journal:  Genes Dev       Date:  2015-06-15       Impact factor: 11.361

9.  PI3-kinase γ promotes Rap1a-mediated activation of myeloid cell integrin α4β1, leading to tumor inflammation and growth.

Authors:  Michael C Schmid; Irene Franco; Sang Won Kang; Emilio Hirsch; Lawrence A Quilliam; Judith A Varner
Journal:  PLoS One       Date:  2013-04-02       Impact factor: 3.240

10.  IDH-Mutation Is a Weak Predictor of Long-Term Survival in Glioblastoma Patients.

Authors:  Aymeric Amelot; Patricia De Cremoux; Véronique Quillien; Marc Polivka; Homa Adle-Biassette; Jacqueline Lehmann-Che; Laurence Françoise; Antoine F Carpentier; Bernard George; Emmanuel Mandonnet; Sébastien Froelich
Journal:  PLoS One       Date:  2015-07-09       Impact factor: 3.752
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  10 in total

Review 1.  Mechanism and therapeutic potential of tumor-immune symbiosis in glioblastoma.

Authors:  Lizhi Pang; Fatima Khan; Amy B Heimberger; Peiwen Chen
Journal:  Trends Cancer       Date:  2022-05-24

Review 2.  Pharmacological targeting of the tumor-immune symbiosis in glioblastoma.

Authors:  Lizhi Pang; Fatima Khan; Madeline Dunterman; Peiwen Chen
Journal:  Trends Pharmacol Sci       Date:  2022-05-07       Impact factor: 17.638

Review 3.  Necrotic reshaping of the glioma microenvironment drives disease progression.

Authors:  Steven M Markwell; James L Ross; Cheryl L Olson; Daniel J Brat
Journal:  Acta Neuropathol       Date:  2022-01-17       Impact factor: 15.887

Review 4.  Coming in from the cold: overcoming the hostile immune microenvironment of medulloblastoma.

Authors:  Tanja Eisemann; Robert J Wechsler-Reya
Journal:  Genes Dev       Date:  2022-05-01       Impact factor: 12.890

5.  Lucanthone Targets Lysosomes to Perturb Glioma Proliferation, Chemoresistance and Stemness, and Slows Tumor Growth In Vivo.

Authors:  Daniel P Radin; Gregory Smith; Victoria Moushiaveshi; Alexandra Wolf; Robert Bases; Stella E Tsirka
Journal:  Front Oncol       Date:  2022-04-14       Impact factor: 5.738

Review 6.  Macrophages as tools and targets in cancer therapy.

Authors:  Alberto Mantovani; Paola Allavena; Federica Marchesi; Cecilia Garlanda
Journal:  Nat Rev Drug Discov       Date:  2022-08-16       Impact factor: 112.288

Review 7.  Macrophages in Glioblastoma Development and Therapy: A Double-Edged Sword.

Authors:  Mengwan Wu; Ying Shi; Luyi Zhu; Luoyi Chen; Xinchen Zhao; Chuan Xu
Journal:  Life (Basel)       Date:  2022-08-12

8.  Radiated glioblastoma cell-derived exosomal circ_0012381 induce M2 polarization of microglia to promote the growth of glioblastoma by CCL2/CCR2 axis.

Authors:  Chunzhi Zhang; Yuan Zhou; Ya Gao; Ze Zhu; Xianliang Zeng; Weizi Liang; Songwei Sun; Xiuli Chen; Hu Wang
Journal:  J Transl Med       Date:  2022-09-04       Impact factor: 8.440

Review 9.  From protein-protein interactions to immune modulation: Therapeutic prospects of targeting Neuropilin-1 in high-grade glioma.

Authors:  Gregory T Smith; Daniel P Radin; Stella E Tsirka
Journal:  Front Immunol       Date:  2022-09-20       Impact factor: 8.786

Review 10.  Macrophages/Microglia in the Glioblastoma Tumor Microenvironment.

Authors:  Jun Ma; Clark C Chen; Ming Li
Journal:  Int J Mol Sci       Date:  2021-05-28       Impact factor: 5.923
  10 in total

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