Literature DB >> 28483841

TREM2 deficiency impairs chemotaxis and microglial responses to neuronal injury.

Fargol Mazaheri1, Nicolas Snaidero2,3, Gernot Kleinberger4,5, Charlotte Madore6, Anna Daria5, Georg Werner5, Susanne Krasemann7, Anja Capell5, Dietrich Trümbach8, Wolfgang Wurst1,4,8,9, Bettina Brunner1, Sebastian Bultmann10, Sabina Tahirovic1, Martin Kerschensteiner3,4, Thomas Misgeld1,2,4, Oleg Butovsky6, Christian Haass11,4,5.   

Abstract

Sequence variations in the triggering receptor expressed on myeloid cells 2 (TREM2) have been linked to an increased risk for neurodegenerative disorders such as Alzheimer's disease and frontotemporal lobar degeneration. In the brain, TREM2 is predominantly expressed in microglia. Several disease-associated TREM2 variants result in a loss of function by reducing microglial phagocytosis, impairing lipid sensing, preventing binding of lipoproteins and affecting shielding of amyloid plaques. We here investigate the consequences of TREM2 loss of function on the microglia transcriptome. Among the differentially expressed messenger RNAs in wild-type and Trem2-/- microglia, gene clusters are identified which represent gene functions in chemotaxis, migration and mobility. Functional analyses confirm that loss of TREM2 impairs appropriate microglial responses to injury and signals that normally evoke chemotaxis on multiple levels. In an ex vivo organotypic brain slice assay, absence of TREM2 reduces the distance migrated by microglia. Moreover, migration towards defined chemo-attractants is reduced upon ablation of TREM2 and can be rescued by TREM2 re-expression. In vivo, microglia lacking TREM2 migrate less towards injected apoptotic neurons, and outgrowth of microglial processes towards sites of laser-induced focal CNS damage in the somatosensory cortex is slowed. The apparent lack of chemotactic stimulation upon depletion of TREM2 is consistent with a stable expression profile of genes characterizing the homoeostatic signature of microglia.
© 2017 The Authors.

Entities:  

Keywords:  Alzheimer's disease; TREM2; chemotaxis; microglia; neurodegeneration

Mesh:

Substances:

Year:  2017        PMID: 28483841      PMCID: PMC5494532          DOI: 10.15252/embr.201743922

Source DB:  PubMed          Journal:  EMBO Rep        ISSN: 1469-221X            Impact factor:   8.807


  67 in total

1.  TREM2 and neurodegenerative disease.

Authors:  Rita Guerreiro; John Hardy
Journal:  N Engl J Med       Date:  2013-10-17       Impact factor: 91.245

2.  Synaptic pruning by microglia is necessary for normal brain development.

Authors:  Rosa C Paolicelli; Giulia Bolasco; Francesca Pagani; Laura Maggi; Maria Scianni; Patrizia Panzanelli; Maurizio Giustetto; Tiago Alves Ferreira; Eva Guiducci; Laura Dumas; Davide Ragozzino; Cornelius T Gross
Journal:  Science       Date:  2011-07-21       Impact factor: 47.728

3.  Sequential proteolytic processing of the triggering receptor expressed on myeloid cells-2 (TREM2) protein by ectodomain shedding and γ-secretase-dependent intramembranous cleavage.

Authors:  Patrick Wunderlich; Konstantin Glebov; Nadja Kemmerling; Nguyen T Tien; Harald Neumann; Jochen Walter
Journal:  J Biol Chem       Date:  2013-09-27       Impact factor: 5.157

Review 4.  TREM2 Function in Alzheimer's Disease and Neurodegeneration.

Authors:  Jason D Ulrich; David M Holtzman
Journal:  ACS Chem Neurosci       Date:  2016-02-19       Impact factor: 4.418

5.  In vitro modulation of microglia motility by glioma cells is mediated by hepatocyte growth factor/scatter factor.

Authors:  B Badie; J Schartner; J Klaver; J Vorpahl
Journal:  Neurosurgery       Date:  1999-05       Impact factor: 4.654

Review 6.  Games played by rogue proteins in prion disorders and Alzheimer's disease.

Authors:  Adriano Aguzzi; Christian Haass
Journal:  Science       Date:  2003-10-31       Impact factor: 47.728

7.  TREM2 Haplodeficiency in Mice and Humans Impairs the Microglia Barrier Function Leading to Decreased Amyloid Compaction and Severe Axonal Dystrophy.

Authors:  Peng Yuan; Carlo Condello; C Dirk Keene; Yaming Wang; Thomas D Bird; Steven M Paul; Wenjie Luo; Marco Colonna; David Baddeley; Jaime Grutzendler
Journal:  Neuron       Date:  2016-05-18       Impact factor: 17.173

8.  Long-term, high-resolution imaging in the mouse neocortex through a chronic cranial window.

Authors:  Anthony Holtmaat; Tobias Bonhoeffer; David K Chow; Jyoti Chuckowree; Vincenzo De Paola; Sonja B Hofer; Mark Hübener; Tara Keck; Graham Knott; Wei-Chung A Lee; Ricardo Mostany; Tom D Mrsic-Flogel; Elly Nedivi; Carlos Portera-Cailliau; Karel Svoboda; Joshua T Trachtenberg; Linda Wilbrecht
Journal:  Nat Protoc       Date:  2009-07-16       Impact factor: 13.491

9.  TREM2 lipid sensing sustains the microglial response in an Alzheimer's disease model.

Authors:  Yaming Wang; Marina Cella; Kaitlin Mallinson; Jason D Ulrich; Katherine L Young; Michelle L Robinette; Susan Gilfillan; Gokul M Krishnan; Shwetha Sudhakar; Bernd H Zinselmeyer; David M Holtzman; John R Cirrito; Marco Colonna
Journal:  Cell       Date:  2015-02-26       Impact factor: 41.582

Review 10.  Novel compound heterozygous mutation in TREM2 found in a Turkish frontotemporal dementia-like family.

Authors:  Rita Guerreiro; Basar Bilgic; Gamze Guven; José Brás; Jonathan Rohrer; Ebba Lohmann; Hasmet Hanagasi; Hakan Gurvit; Murat Emre
Journal:  Neurobiol Aging       Date:  2013-07-17       Impact factor: 4.673
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  106 in total

1.  Peripheral TREM1 responses to brain and intestinal immunogens amplify stroke severity.

Authors:  Qingkun Liu; Emily M Johnson; Rachel K Lam; Qian Wang; Hong Bo Ye; Edward N Wilson; Paras S Minhas; Ling Liu; Michelle S Swarovski; Stephanie Tran; Jing Wang; Swapnil S Mehta; Xi Yang; Joshua D Rabinowitz; Samuel S Yang; Mehrdad Shamloo; Christoph Mueller; Michelle L James; Katrin I Andreasson
Journal:  Nat Immunol       Date:  2019-07-01       Impact factor: 25.606

Review 2.  [Neuroinflammation as motor of Alzheimer's disease].

Authors:  Sergio Castro-Gomez; Julius Binder; Michael T Heneka
Journal:  Nervenarzt       Date:  2019-09       Impact factor: 1.214

3.  Increased soluble TREM2 in cerebrospinal fluid is associated with reduced cognitive and clinical decline in Alzheimer's disease.

Authors:  Michael Ewers; Nicolai Franzmeier; Marc Suárez-Calvet; Estrella Morenas-Rodriguez; Miguel Angel Araque Caballero; Gernot Kleinberger; Laura Piccio; Carlos Cruchaga; Yuetiva Deming; Martin Dichgans; John Q Trojanowski; Leslie M Shaw; Michael W Weiner; Christian Haass
Journal:  Sci Transl Med       Date:  2019-08-28       Impact factor: 17.956

4.  Opposite microglial activation stages upon loss of PGRN or TREM2 result in reduced cerebral glucose metabolism.

Authors:  Julia K Götzl; Matthias Brendel; Georg Werner; Samira Parhizkar; Laura Sebastian Monasor; Gernot Kleinberger; Alessio-Vittorio Colombo; Maximilian Deussing; Matias Wagner; Juliane Winkelmann; Janine Diehl-Schmid; Johannes Levin; Katrin Fellerer; Anika Reifschneider; Sebastian Bultmann; Peter Bartenstein; Axel Rominger; Sabina Tahirovic; Scott T Smith; Charlotte Madore; Oleg Butovsky; Anja Capell; Christian Haass
Journal:  EMBO Mol Med       Date:  2019-06       Impact factor: 12.137

5.  TREM2 Is a Receptor for β-Amyloid that Mediates Microglial Function.

Authors:  Yingjun Zhao; Xilin Wu; Xiaoguang Li; Lu-Lin Jiang; Xun Gui; Yan Liu; Yu Sun; Bing Zhu; Juan C Piña-Crespo; Muxian Zhang; Ningyan Zhang; Xiaochun Chen; Guojun Bu; Zhiqiang An; Timothy Y Huang; Huaxi Xu
Journal:  Neuron       Date:  2018-03-07       Impact factor: 17.173

6.  Microglia express ABI3 in the brains of Alzheimer's disease and Nasu-Hakola disease.

Authors:  Jun-Ichi Satoh; Yoshihiro Kino; Motoaki Yanaizu; Youhei Tosaki; Kenji Sakai; Tsuyoshi Ishida; Yuko Saito
Journal:  Intractable Rare Dis Res       Date:  2017-11

7.  Microglia depletion rapidly and reversibly alters amyloid pathology by modification of plaque compaction and morphologies.

Authors:  Brad T Casali; Kathryn P MacPherson; Erin G Reed-Geaghan; Gary E Landreth
Journal:  Neurobiol Dis       Date:  2020-05-30       Impact factor: 5.996

8.  Loss of TREM2 function increases amyloid seeding but reduces plaque-associated ApoE.

Authors:  Samira Parhizkar; Thomas Arzberger; Matthias Brendel; Gernot Kleinberger; Maximilian Deussing; Carola Focke; Brigitte Nuscher; Monica Xiong; Alireza Ghasemigharagoz; Natalie Katzmarski; Susanne Krasemann; Stefan F Lichtenthaler; Stephan A Müller; Alessio Colombo; Laura Sebastian Monasor; Sabina Tahirovic; Jochen Herms; Michael Willem; Nadine Pettkus; Oleg Butovsky; Peter Bartenstein; Dieter Edbauer; Axel Rominger; Ali Ertürk; Stefan A Grathwohl; Jonas J Neher; David M Holtzman; Melanie Meyer-Luehmann; Christian Haass
Journal:  Nat Neurosci       Date:  2019-01-07       Impact factor: 24.884

9.  Triggering receptor expressed on myeloid cells-2 expression in the brain is required for maximal phagocytic activity and improved neurological outcomes following experimental stroke.

Authors:  Kota Kurisu; Zhen Zheng; Jong Youl Kim; Jian Shi; Atsushi Kanoke; Jialing Liu; Christine L Hsieh; Midori A Yenari
Journal:  J Cereb Blood Flow Metab       Date:  2018-12-07       Impact factor: 6.200

Review 10.  Inflammatory mechanisms in neurodegeneration.

Authors:  Michael R Nichols; Marie-Kim St-Pierre; Ann-Christin Wendeln; Nyasha J Makoni; Lisa K Gouwens; Evan C Garrad; Mona Sohrabi; Jonas J Neher; Marie-Eve Tremblay; Colin K Combs
Journal:  J Neurochem       Date:  2019-03-27       Impact factor: 5.372
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