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Literature DB >> 28574504

NOX2-dependent ATM kinase activation dictates pro-inflammatory macrophage phenotype and improves effectiveness to radiation therapy.

Qiuji Wu^1,2,3,4,5,6, Awatef Allouch^1,2,3,4, Audrey Paoletti^1,2,3,4, Celine Leteur^2,3,4, Celine Mirjolet⁷, Isabelle Martins^1,2,3,4, Laurent Voisin^1,2,3,4, Frédéric Law^1,2,3,4, Haithem Dakhli^1,2,3,4, Elodie Mintet^1,2,3,4, Maxime Thoreau^1,2,3,4, Zeinaf Muradova^1,2,3,4, Mélanie Gauthier⁷, Olivier Caron³, Fabien Milliat⁸, David M Ojcius⁹, Filippo Rosselli¹⁰, Eric Solary¹¹, Nazanine Modjtahedi^2,3,4, Eric Deutsch^2,3,4, Jean-Luc Perfettini^1,2,3,4.

Abstract

Although tumor-associated macrophages have been extensively studied in the control of response to radiotherapy, the molecular mechanisms involved in the ionizing radiation-mediated activation of macrophages remain elusive. Here we show that ionizing radiation induces the expression of interferon regulatory factor 5 (IRF5) promoting thus macrophage activation toward a pro-inflammatory phenotype. We reveal that the activation of the ataxia telangiectasia mutated (ATM) kinase is required for ionizing radiation-elicited macrophage activation, but also for macrophage reprogramming after treatments with γ-interferon, lipopolysaccharide or chemotherapeutic agent (such as cisplatin), underscoring the fact that the kinase ATM plays a central role during macrophage phenotypic switching toward a pro-inflammatory phenotype through the regulation of mRNA level and post-translational modifications of IRF5. We further demonstrate that NADPH oxidase 2 (NOX2)-dependent ROS production is upstream to ATM activation and is essential during this process. We also report that the inhibition of any component of this signaling pathway (NOX2, ROS and ATM) impairs pro-inflammatory activation of macrophages and predicts a poor tumor response to preoperative radiotherapy in locally advanced rectal cancer. Altogether, our results identify a novel signaling pathway involved in macrophage activation that may enhance the effectiveness of radiotherapy through the reprogramming of tumor-infiltrating macrophages.

Entities: Chemical Disease Gene

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Year: 2017 PMID： 28574504 PMCID： PMC5563995 DOI： 10.1038/cdd.2017.91

Source DB: PubMed Journal: Cell Death Differ ISSN： 1350-9047 Impact factor: 15.828

60 in total

1. IRF5 promotes inflammatory macrophage polarization and TH1-TH17 responses.

Authors: Thomas Krausgruber; Katrina Blazek; Tim Smallie; Saba Alzabin; Helen Lockstone; Natasha Sahgal; Tracy Hussell; Marc Feldmann; Irina A Udalova
Journal: Nat Immunol Date: 2011-01-16 Impact factor: 25.606

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Authors: M Rodriguez-Zapata; E Reyes; L Sanchez; A Espinosa; J Solera; M Alvarez-Mon
Journal: Infection Date: 1997 May-Jun Impact factor: 3.553

3. A common haplotype of interferon regulatory factor 5 (IRF5) regulates splicing and expression and is associated with increased risk of systemic lupus erythematosus.

Authors: Robert R Graham; Sergey V Kozyrev; Emily C Baechler; M V Prasad Linga Reddy; Robert M Plenge; Jason W Bauer; Ward A Ortmann; Thearith Koeuth; Ma Francisca González Escribano; Bernardo Pons-Estel; Michelle Petri; Mark Daly; Peter K Gregersen; Javier Martín; David Altshuler; Timothy W Behrens; Marta E Alarcón-Riquelme
Journal: Nat Genet Date: 2006-04-16 Impact factor: 38.330

4. HRG inhibits tumor growth and metastasis by inducing macrophage polarization and vessel normalization through downregulation of PlGF.

Authors: Charlotte Rolny; Massimiliano Mazzone; Sònia Tugues; Damya Laoui; Irja Johansson; Cathy Coulon; Mario Leonardo Squadrito; Inmaculada Segura; Xiujuan Li; Ellen Knevels; Sandra Costa; Stefan Vinckier; Tom Dresselaer; Peter Åkerud; Maria De Mol; Henriikka Salomäki; Mia Phillipson; Sabine Wyns; Erik Larsson; Ian Buysschaert; Johan Botling; Uwe Himmelreich; Jo A Van Ginderachter; Michele De Palma; Mieke Dewerchin; Lena Claesson-Welsh; Peter Carmeliet
Journal: Cancer Cell Date: 2011-01-06 Impact factor: 31.743

Review 5. Radiation-induced cell death mechanisms.

Authors: David Eriksson; Torgny Stigbrand
Journal: Tumour Biol Date: 2010-05-20

6. Activation of the NLRP3 inflammasome in dendritic cells induces IL-1beta-dependent adaptive immunity against tumors.

Authors: François Ghiringhelli; Lionel Apetoh; Antoine Tesniere; Laetitia Aymeric; Yuting Ma; Carla Ortiz; Karim Vermaelen; Theocharis Panaretakis; Grégoire Mignot; Evelyn Ullrich; Jean-Luc Perfettini; Frédéric Schlemmer; Ezgi Tasdemir; Martin Uhl; Pierre Génin; Ahmet Civas; Bernhard Ryffel; Jean Kanellopoulos; Jürg Tschopp; Fabrice André; Rosette Lidereau; Nicole M McLaughlin; Nicole M Haynes; Mark J Smyth; Guido Kroemer; Laurence Zitvogel
Journal: Nat Med Date: 2009-09-20 Impact factor: 53.440

Review 7. Treatment of locally advanced rectal cancer: controversies and questions.

Authors: Atthaphorn Trakarnsanga; Suthinee Ithimakin; Martin R Weiser
Journal: World J Gastroenterol Date: 2012-10-21 Impact factor: 5.742

8. Reprogramming Tumor-Associated Macrophages by Antibody Targeting Inhibits Cancer Progression and Metastasis.

Authors: Anna-Maria Georgoudaki; Kajsa E Prokopec; Vanessa F Boura; Eva Hellqvist; Silke Sohn; Jeanette Östling; Rony Dahan; Robert A Harris; Mattias Rantalainen; Daniel Klevebring; Malin Sund; Suzanne Egyhazi Brage; Jonas Fuxe; Charlotte Rolny; Fubin Li; Jeffrey V Ravetch; Mikael C I Karlsson
Journal: Cell Rep Date: 2016-05-19 Impact factor: 9.423

9. Macrophage markers in serum and tumor have prognostic impact in American Joint Committee on Cancer stage I/II melanoma.

Authors: Trine O Jensen; Henrik Schmidt; Holger Jon Møller; Morten Høyer; Maciej Bogdan Maniecki; Pia Sjoegren; Ib Jarle Christensen; Torben Steiniche
Journal: J Clin Oncol Date: 2009-06-15 Impact factor: 44.544

10. Functional polarization of tumour-associated macrophages by tumour-derived lactic acid.

Authors: Oscar R Colegio; Ngoc-Quynh Chu; Alison L Szabo; Thach Chu; Anne Marie Rhebergen; Vikram Jairam; Nika Cyrus; Carolyn E Brokowski; Stephanie C Eisenbarth; Gillian M Phillips; Gary W Cline; Andrew J Phillips; Ruslan Medzhitov
Journal: Nature Date: 2014-07-13 Impact factor: 69.504

16 in total

Review 1. Metabolic Regulation of Macrophage Polarization in Cancer.

Authors: Kamiya Mehla; Pankaj K Singh
Journal: Trends Cancer Date: 2019-11-06

Review 2. The effects of radiation therapy on the macrophage response in cancer.

Authors: Callum Beach; David MacLean; Dominika Majorova; James N Arnold; Monica M Olcina
Journal: Front Oncol Date: 2022-09-29 Impact factor: 5.738

3. Quantification of radiation-induced DNA double strand break repair foci to evaluate and predict biological responses to ionizing radiation.

Authors: Sébastien Penninckx; Eloise Pariset; Egle Cekanaviciute; Sylvain V Costes
Journal: NAR Cancer Date: 2021-12-22

4. The Emerging Roles of Nicotinamide Adenine Dinucleotide Phosphate Oxidase 2 in Skeletal Muscle Redox Signaling and Metabolism.

Authors: Carlos Henríquez-Olguín; Susanna Boronat; Claudio Cabello-Verrugio; Enrique Jaimovich; Elena Hidalgo; Thomas E Jensen
Journal: Antioxid Redox Signal Date: 2019-11-01 Impact factor: 8.401

Review 5. Reprogramming of Tumor-Associated Macrophages with Anticancer Therapies: Radiotherapy versus Chemo- and Immunotherapies.

Authors: Géraldine Genard; Stéphane Lucas; Carine Michiels
Journal: Front Immunol Date: 2017-07-14 Impact factor: 7.561

6. Dual oxidase 1 limits the IFNγ-associated antitumor effect of macrophages.

Authors: Lydia Meziani; Marine Gerbé de Thoré; Pauline Hamon; Sophie Bockel; Ruy Andrade Louzada; Céline Clemenson; Raphaël Corre; Wincgygn Liu; Corinne Dupuy; Michele Mondini; Eric Deutsch
Journal: J Immunother Cancer Date: 2020-06 Impact factor: 13.751

7. Anti-tumor macrophages activated by ferumoxytol combined or surface-functionalized with the TLR3 agonist poly (I : C) promote melanoma regression.

Authors: Jiaojiao Zhao; Zhengkui Zhang; Yaxian Xue; Guoqun Wang; Yuan Cheng; Yuchen Pan; Shuli Zhao; Yayi Hou
Journal: Theranostics Date: 2018-11-29 Impact factor: 11.556