Literature DB >> 27618552

Glioma-induced inhibition of caspase-3 in microglia promotes a tumor-supportive phenotype.

Xianli Shen1, Miguel A Burguillos1, Ahmed M Osman2,3, Jeroen Frijhoff1, Alejandro Carrillo-Jiménez4,5, Sachie Kanatani6,7, Martin Augsten1, Dalel Saidi1, Johanna Rodhe1, Edel Kavanagh1, Anthony Rongvaux8, Vilma Rraklli9, Ulrika Nyman9, Johan Holmberg9, Arne Östman1, Richard A Flavell8,10, Antonio Barragan6,7, Jose Luis Venero4,5, Klas Blomgren2,3, Bertrand Joseph1.   

Abstract

Glioma cells recruit and exploit microglia (the resident immune cells of the brain) for their proliferation and invasion ability. The underlying molecular mechanism used by glioma cells to transform microglia into a tumor-supporting phenotype has remained elusive. We found that glioma-induced microglia conversion was coupled to a reduction in the basal activity of microglial caspase-3 and increased S-nitrosylation of mitochondria-associated caspase-3 through inhibition of thioredoxin-2 activity, and that inhibition of caspase-3 regulated microglial tumor-supporting function. Furthermore, we identified the activity of nitric oxide synthase 2 (NOS2, also known as iNOS) originating from the glioma cells as a driving stimulus in the control of microglial caspase-3 activity. Repression of glioma NOS2 expression in vivo led to a reduction in both microglia recruitment and tumor expansion, whereas depletion of microglial caspase-3 gene promoted tumor growth. Our results provide evidence that inhibition of the denitrosylation of S-nitrosylated procaspase-3 mediated by the redox protein Trx2 is a part of the microglial pro-tumoral activation pathway initiated by glioma cancer cells.

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Year:  2016        PMID: 27618552     DOI: 10.1038/ni.3545

Source DB:  PubMed          Journal:  Nat Immunol        ISSN: 1529-2908            Impact factor:   31.250


  44 in total

Review 1.  Apoptotic and non-apoptotic roles of caspases in neuronal physiology and pathophysiology.

Authors:  Bradley T Hyman; Junying Yuan
Journal:  Nat Rev Neurosci       Date:  2012-05-18       Impact factor: 34.870

2.  The biotin switch method for the detection of S-nitrosylated proteins.

Authors:  S R Jaffrey; S H Snyder
Journal:  Sci STKE       Date:  2001-06-12

3.  Microglia-Secreted Galectin-3 Acts as a Toll-like Receptor 4 Ligand and Contributes to Microglial Activation.

Authors:  Miguel Angel Burguillos; Martina Svensson; Tim Schulte; Antonio Boza-Serrano; Albert Garcia-Quintanilla; Edel Kavanagh; Martiniano Santiago; Nikenza Viceconte; Maria Jose Oliva-Martin; Ahmed Mohamed Osman; Emma Salomonsson; Lahouari Amar; Annette Persson; Klas Blomgren; Adnane Achour; Elisabet Englund; Hakon Leffler; Jose Luis Venero; Bertrand Joseph; Tomas Deierborg
Journal:  Cell Rep       Date:  2015-03-05       Impact factor: 9.423

4.  Assessment and application of the biotin switch technique for examining protein S-nitrosylation under conditions of pharmacologically induced oxidative stress.

Authors:  Michael T Forrester; Matthew W Foster; Jonathan S Stamler
Journal:  J Biol Chem       Date:  2007-03-21       Impact factor: 5.157

5.  Basal and stimulated protein S-nitrosylation in multiple cell types and tissues.

Authors:  Andrew J Gow; Qiping Chen; Douglas T Hess; Brian J Day; Harry Ischiropoulos; Jonathan S Stamler
Journal:  J Biol Chem       Date:  2002-01-16       Impact factor: 5.157

6.  Migratory activation of primary cortical microglia upon infection with Toxoplasma gondii.

Authors:  Isabel Dellacasa-Lindberg; Jonas M Fuks; Romanico B G Arrighi; Henrik Lambert; Robert P A Wallin; Benedict J Chambers; Antonio Barragan
Journal:  Infect Immun       Date:  2011-05-31       Impact factor: 3.441

7.  A dialog between glioma and microglia that promotes tumor invasiveness through the CCL2/CCR2/interleukin-6 axis.

Authors:  Jing Zhang; Susobhan Sarkar; Rowena Cua; Yan Zhou; Walter Hader; V Wee Yong
Journal:  Carcinogenesis       Date:  2011-12-08       Impact factor: 4.944

8.  Thioredoxin catalyzes the S-nitrosation of the caspase-3 active site cysteine.

Authors:  Douglas A Mitchell; Michael A Marletta
Journal:  Nat Chem Biol       Date:  2005-07-10       Impact factor: 15.040

9.  Microglia promote learning-dependent synapse formation through brain-derived neurotrophic factor.

Authors:  Christopher N Parkhurst; Guang Yang; Ipe Ninan; Jeffrey N Savas; John R Yates; Juan J Lafaille; Barbara L Hempstead; Dan R Littman; Wen-Biao Gan
Journal:  Cell       Date:  2013-12-19       Impact factor: 41.582

Review 10.  Immunocompetent murine models for the study of glioblastoma immunotherapy.

Authors:  Taemin Oh; Shayan Fakurnejad; Eli T Sayegh; Aaron J Clark; Michael E Ivan; Matthew Z Sun; Michael Safaee; Orin Bloch; Charles D James; Andrew T Parsa
Journal:  J Transl Med       Date:  2014-04-29       Impact factor: 5.531
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  32 in total

1.  Guilt by association, caspase-3 regulates microglia polarization.

Authors:  Xianli Shen; Miguel A Burguillos; Bertrand Joseph
Journal:  Cell Cycle       Date:  2016-11-10       Impact factor: 4.534

2.  Glioma and microglia, a double entendre.

Authors:  Korneel Grauwet; E Antonio Chiocca
Journal:  Nat Immunol       Date:  2016-10-19       Impact factor: 25.606

Review 3.  The A to Z of modulated cell patterning by mammalian thioredoxin reductases.

Authors:  Markus Dagnell; Edward E Schmidt; Elias S J Arnér
Journal:  Free Radic Biol Med       Date:  2017-12-24       Impact factor: 7.376

4.  The cellular selection between apoptosis and autophagy: roles of vitamin D, glucose and immune response in diabetic nephropathy.

Authors:  Magda Hamzawy; Sarah Ali Abdelhameed Gouda; Laila Rashid; Mary Attia Morcos; Heba Shoukry; Nivin Sharawy
Journal:  Endocrine       Date:  2017-09-09       Impact factor: 3.633

Review 5.  The neuropathological basis to the functional role of microglia/macrophages in gliomas.

Authors:  Davide Schiffer; Marta Mellai; Enrica Bovio; Laura Annovazzi
Journal:  Neurol Sci       Date:  2017-06-07       Impact factor: 3.307

6.  Directed evolution of adeno-associated virus for efficient gene delivery to microglia.

Authors:  Rui Lin; Youtong Zhou; Ting Yan; Ruiyu Wang; Heng Li; Zhaofa Wu; Xinshuang Zhang; Xiangyu Zhou; Fei Zhao; Li Zhang; Yulong Li; Minmin Luo
Journal:  Nat Methods       Date:  2022-07-25       Impact factor: 47.990

7.  TRX2/Rab35 Interaction Impairs Exosome Secretion by Inducing Rab35 Degradation.

Authors:  Tao Zhang; Lili Zhao; Liping Han; Yan Li; Lanlin Hu; Huani Wang; Fangdong Zou
Journal:  Int J Mol Sci       Date:  2022-06-12       Impact factor: 6.208

8.  The long non-coding RNA UPAT promotes gastric cancer cell progression via UHRF1.

Authors:  Chaoyong Liu; Minghua Ai; Yan Zhang; Jie Li; Chao Xu
Journal:  Genes Genomics       Date:  2022-03-16       Impact factor: 2.164

9.  Nitric Oxide-Dependent Protein Post-Translational Modifications Impair Mitochondrial Function and Metabolism to Contribute to Neurodegenerative Diseases.

Authors:  Tomohiro Nakamura; Stuart A Lipton
Journal:  Antioxid Redox Signal       Date:  2019-12-03       Impact factor: 8.401

10.  Atg7 deficiency in microglia drives an altered transcriptomic profile associated with an impaired neuroinflammatory response.

Authors:  Lara Friess; Mathilde Cheray; Lily Keane; Kathleen Grabert; Bertrand Joseph
Journal:  Mol Brain       Date:  2021-06-03       Impact factor: 4.041
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