Literature DB >> 17356378

Molecular mechanisms of astrogliosis: new approaches with mouse genetics.

Lina S Correa-Cerro1, James W Mandell.   

Abstract

Astrocytes are increasingly being recognized as dynamic participants in many aspects of normal central nervous system function. In disease states, reactive astrocytes undergo complex phenotypic changes, generically referred to as astrogliosis. Unraveling the functions of reactive astrocytes and underlying molecular mechanisms is a difficult problem. The use of genetically modified mice is beginning to yield some answers to long-standing questions in the field. What are the functions of reactive astrocytes? What extracellular factors and intracellular signaling mechanisms are responsible for astrocyte activation in various forms of neural injury? In this review we will highlight studies using astrocyte reporter lines for cellular imaging and lineage tracing, as well as gain- and loss-of-function mutations that have begun to shed light on mechanisms of astrogliosis.

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Year:  2007        PMID: 17356378     DOI: 10.1097/01.jnen.0000248555.53079.d5

Source DB:  PubMed          Journal:  J Neuropathol Exp Neurol        ISSN: 0022-3069            Impact factor:   3.685


  20 in total

Review 1.  Reactive astrogliosis after spinal cord injury-beneficial and detrimental effects.

Authors:  Soheila Karimi-Abdolrezaee; Rohini Billakanti
Journal:  Mol Neurobiol       Date:  2012-06-09       Impact factor: 5.590

Review 2.  Targeted activation of astrocytes: a potential neuroprotective strategy.

Authors:  Carole Escartin; Gilles Bonvento
Journal:  Mol Neurobiol       Date:  2008-10-18       Impact factor: 5.590

3.  Fimbria-fornix (FF)-transected hippocampal extracts induce the activation of astrocytes in vitro.

Authors:  Linqing Zou; Haoming Li; Guohua Jin; Meiling Tian; Jianbing Qin; Heyan Zhao
Journal:  In Vitro Cell Dev Biol Anim       Date:  2013-11-08       Impact factor: 2.416

4.  Brain-specific deletion of extracellular signal-regulated kinase 2 mitogen-activated protein kinase leads to aberrant cortical collagen deposition.

Authors:  Daniel S Heffron; Gary E Landreth; Ivy S Samuels; James W Mandell
Journal:  Am J Pathol       Date:  2009-11-05       Impact factor: 4.307

5.  Involvement of p38 MAPK in reactive astrogliosis induced by ischemic stroke.

Authors:  Gourav Roy Choudhury; Myoung-Gwi Ryou; Ethan Poteet; Yi Wen; Runlian He; Fen Sun; Fang Yuan; Kunlin Jin; Shao-Hua Yang
Journal:  Brain Res       Date:  2014-01-16       Impact factor: 3.252

6.  Dicer loss in striatal neurons produces behavioral and neuroanatomical phenotypes in the absence of neurodegeneration.

Authors:  Trinna L Cuellar; Tigwa H Davis; Peter T Nelson; Gabriel B Loeb; Brian D Harfe; Erik Ullian; Michael T McManus
Journal:  Proc Natl Acad Sci U S A       Date:  2008-04-02       Impact factor: 11.205

Review 7.  Molecular dissection of reactive astrogliosis and glial scar formation.

Authors:  Michael V Sofroniew
Journal:  Trends Neurosci       Date:  2009-09-24       Impact factor: 13.837

8.  Identification of barriers to retinal engraftment of transplanted stem cells.

Authors:  Thomas V Johnson; Natalie D Bull; Keith R Martin
Journal:  Invest Ophthalmol Vis Sci       Date:  2009-10-22       Impact factor: 4.799

9.  Malignant astrocytomas originate from neural stem/progenitor cells in a somatic tumor suppressor mouse model.

Authors:  Sheila Alcantara Llaguno; Jian Chen; Chang-Hyuk Kwon; Erica L Jackson; Yanjiao Li; Dennis K Burns; Arturo Alvarez-Buylla; Luis F Parada
Journal:  Cancer Cell       Date:  2009-01-06       Impact factor: 31.743

10.  Loss of Tsc2 in radial glia models the brain pathology of tuberous sclerosis complex in the mouse.

Authors:  Sharon W Way; James McKenna; Ulrike Mietzsch; R Michelle Reith; Henry Cheng-Ju Wu; Michael J Gambello
Journal:  Hum Mol Genet       Date:  2009-01-15       Impact factor: 6.150
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