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Literature DB >> 24733573

Microglia: dismantling and rebuilding circuits after acute neurological injury.

Jenna M Ziebell¹, P David Adelson, Jonathan Lifshitz.

Abstract

The brain is comprised of neurons and its support system including astrocytes, glial cells and microglia, thereby forming neurovascular units. Neurons require support from glial cells to establish and maintain functional circuits, but microglia are often overlooked. Microglia function as the immune cell of the central nervous system, acting to monitor the microenvironment for changes in signaling, pathogens and injury. More recently, other functional roles for microglia within the healthy brain have been identified, including regulating synapse formation, elimination and function. This review aims to highlight and discuss these alternate microglial roles in the healthy and in contrast, diseased brain with a focus on two acute neurological diseases, traumatic brain injury and epilepsy. In these conditions, microglial roles in synaptic stripping and stabilization as part of neuronal:glial interactions may position them as mediators of the transition between injury-induced circuit dismantling and subsequent reorganization. Increased understanding of microglia roles could identify therapeutic targets to mitigate the consequences of neurological disease.

Entities: Chemical Disease Gene Species

Mesh：

Year: 2014 PMID： 24733573 PMCID： PMC4198517 DOI： 10.1007/s11011-014-9539-y

Source DB: PubMed Journal: Metab Brain Dis ISSN： 0885-7490 Impact factor: 3.584

81 in total

1. Resting microglial cells are highly dynamic surveillants of brain parenchyma in vivo.

Authors: Axel Nimmerjahn; Frank Kirchhoff; Fritjof Helmchen
Journal: Science Date: 2005-04-14 Impact factor: 47.728

Review 2. Microglial cell population dynamics in the injured adult central nervous system.

Authors: Rune Ladeby; Martin Wirenfeldt; Daniel Garcia-Ovejero; Christina Fenger; Lasse Dissing-Olesen; Ishar Dalmau; Bente Finsen
Journal: Brain Res Brain Res Rev Date: 2005-04

3. ATP mediates rapid microglial response to local brain injury in vivo.

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Journal: Nat Neurosci Date: 2005-05-15 Impact factor: 24.884

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Authors: Brian J Kelley; Orsolya Farkas; Jonathan Lifshitz; John T Povlishock
Journal: Exp Neurol Date: 2006-01-31 Impact factor: 5.330

5. Control of microglial neurotoxicity by the fractalkine receptor.

Authors: Astrid E Cardona; Erik P Pioro; Margaret E Sasse; Volodymyr Kostenko; Sandra M Cardona; Ineke M Dijkstra; Deren Huang; Grahame Kidd; Stephen Dombrowski; RanJan Dutta; Jar-Chi Lee; Donald N Cook; Steffen Jung; Sergio A Lira; Dan R Littman; Richard M Ransohoff
Journal: Nat Neurosci Date: 2006-06-18 Impact factor: 24.884

Review 6. Microglia-mediated neurotoxicity: uncovering the molecular mechanisms.

Authors: Michelle L Block; Luigi Zecca; Jau-Shyong Hong
Journal: Nat Rev Neurosci Date: 2007-01 Impact factor: 34.870

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Authors: Knut Biber; Eiko K de Jong; Hilmar R J van Weering; Hendrikus W G M Boddeke
Journal: Curr Drug Targets Date: 2006-01 Impact factor: 3.465

8. Evidence for synaptic stripping by cortical microglia.

Authors: Bruce D Trapp; Jerome R Wujek; Gerson A Criste; Walid Jalabi; Xinghua Yin; Grahame J Kidd; Stephen Stohlman; Richard Ransohoff
Journal: Glia Date: 2007-03 Impact factor: 7.452

9. Perisomatic thalamic axotomy after diffuse traumatic brain injury is associated with atrophy rather than cell death.

Authors: Jonathan Lifshitz; Brian Joseph Kelley; John Theodore Povlishock
Journal: J Neuropathol Exp Neurol Date: 2007-03 Impact factor: 3.685

10. Evidence of activated microglia in focal cortical dysplasia.

Authors: K Boer; W G M Spliet; P C van Rijen; S Redeker; D Troost; E Aronica
Journal: J Neuroimmunol Date: 2006-02-17 Impact factor: 3.478

21 in total

1. Does time heal all wounds? Experimental diffuse traumatic brain injury results in persisting histopathology in the thalamus.

Authors: Theresa Currier Thomas; Sarah B Ogle; Benjamin M Rumney; Hazel G May; P David Adelson; Jonathan Lifshitz
Journal: Behav Brain Res Date: 2016-12-29 Impact factor: 3.332

2. Nogo presence is inversely associated with shifts in cortical microglial morphology following experimental diffuse brain injury.

Authors: Jenna M Ziebell; Helen Ray-Jones; Jonathan Lifshitz
Journal: Neuroscience Date: 2017-07-20 Impact factor: 3.590

Review 3. The far-reaching scope of neuroinflammation after traumatic brain injury.

Authors: Dennis W Simon; Mandy J McGeachy; Hülya Bayır; Robert S B Clark; David J Loane; Patrick M Kochanek
Journal: Nat Rev Neurol Date: 2017-02-10 Impact factor: 42.937

4. Gracilin-Derivatives as Lead Compounds for Anti-inflammatory Effects.

Authors: Sandra Gegunde; Amparo Alfonso; Eva Alonso; Rebeca Alvariño; Luis M Botana
Journal: Cell Mol Neurobiol Date: 2019-11-15 Impact factor: 5.046

5. Granulocyte-macrophage colony stimulating factor exerts protective and immunomodulatory effects in cortical trauma.

Authors: Matthew L Kelso; Bret R Elliott; Nicole A Haverland; R Lee Mosley; Howard E Gendelman
Journal: J Neuroimmunol Date: 2014-11-07 Impact factor: 3.478

6. Vascular Abnormalities within Normal Appearing Tissue in Chronic Traumatic Brain Injury.

Authors: Margalit Haber; Franck Amyot; Kimbra Kenney; Tawny Meredith-Duliba; Carol Moore; Erika Silverman; Jamie Podell; Yi-Yu Chou; Dzung L Pham; John Butman; Hanzhang Lu; Ramon Diaz-Arrastia; Danielle Sandsmark
Journal: J Neurotrauma Date: 2018-06-07 Impact factor: 5.269