Literature DB >> 7737111

Mice lacking glial fibrillary acidic protein display astrocytes devoid of intermediate filaments but develop and reproduce normally.

M Pekny1, P Levéen, M Pekna, C Eliasson, C H Berthold, B Westermark, C Betsholtz.   

Abstract

Glial fibrillary acidic protein (GFAP) is the main component of the intermediate filaments in cells of astroglial lineage, including astrocytes in the CNS, nonmyelin forming Schwann cells and enteric glia. To address the function of GFAP in vivo, we have disrupted the GFAP gene in mice via targeted mutation in embryonic stem cells. Mice lacking GFAP developed normally, reached adulthood and reproduced. We did not find any abnormalities in the histological architecture of the CNS, in their behavior, motility, memory, blood-brain barrier function, myenteric plexi histology or intestinal peristaltic movement. Comparisons between GFAP and S-100 immunohistochemical staining patterns in the hippocampus of wild-type and mutant mice suggested a normal abundance of astrocytes in GFAP-negative mice, however, in contrast to wild-types, GFAP-negative astrocytes of the hippocampus and in the white matter of the spinal cord were completely lacking intermediate filaments. This shows that the loss of GFAP intermediate filaments is not compensated for by the up-regulation of other intermediate filament proteins, such as vimentin. The GFAP-negative mice displayed post-traumatic reactive gliosis, which suggests that GFAP up-regulation, a hallmark of reactive gliosis, is not an obligatory requirement for this process.

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Year:  1995        PMID: 7737111      PMCID: PMC398251          DOI: 10.1002/j.1460-2075.1995.tb07147.x

Source DB:  PubMed          Journal:  EMBO J        ISSN: 0261-4189            Impact factor:   11.598


  37 in total

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Authors:  K R Jessen; R Mirsky
Journal:  J Neurosci       Date:  1983-11       Impact factor: 6.167

2.  Cracks in the foundation: keratin filaments and genetic disease.

Authors:  E Fuchs; Y M Chan; A S Paller; Q C Yu
Journal:  Trends Cell Biol       Date:  1994-09       Impact factor: 20.808

3.  Coexpression of vimentin and glial fibrillary acidic protein in astrocytes of the adult rat optic nerve.

Authors:  J L Calvo; A L Carbonell; J Boya
Journal:  Brain Res       Date:  1990-11-05       Impact factor: 3.252

4.  Sequence of a cDNA clone encoding mouse glial fibrillary acidic protein: structural conservation of intermediate filaments.

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Journal:  Proc Natl Acad Sci U S A       Date:  1984-05       Impact factor: 11.205

5.  A mutation in the conserved helix termination peptide of keratin 5 in hereditary skin blistering.

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Journal:  Nature       Date:  1992-03-19       Impact factor: 49.962

6.  Mice lacking vimentin develop and reproduce without an obvious phenotype.

Authors:  E Colucci-Guyon; M M Portier; I Dunia; D Paulin; S Pournin; C Babinet
Journal:  Cell       Date:  1994-11-18       Impact factor: 41.582

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Authors:  E L Rugg; W H McLean; E B Lane; R Pitera; J R McMillan; P J Dopping-Hepenstal; H A Navsaria; I M Leigh; R A Eady
Journal:  Genes Dev       Date:  1994-11-01       Impact factor: 11.361

9.  Three markers of adult non-myelin-forming Schwann cells, 217c(Ran-1), A5E3 and GFAP: development and regulation by neuron-Schwann cell interactions.

Authors:  K R Jessen; L Morgan; H J Stewart; R Mirsky
Journal:  Development       Date:  1990-05       Impact factor: 6.868

10.  Suppression by antisense mRNA demonstrates a requirement for the glial fibrillary acidic protein in the formation of stable astrocytic processes in response to neurons.

Authors:  D E Weinstein; M L Shelanski; R K Liem
Journal:  J Cell Biol       Date:  1991-03       Impact factor: 10.539
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  75 in total

1.  Increased adenine nucleotide translocator 1 in reactive astrocytes facilitates glutamate transport.

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2.  Axonal plasticity and functional recovery after spinal cord injury in mice deficient in both glial fibrillary acidic protein and vimentin genes.

Authors:  V Menet; M Prieto; A Privat; M Giménez y Ribotta
Journal:  Proc Natl Acad Sci U S A       Date:  2003-07-14       Impact factor: 11.205

3.  Targeted deletion in astrocyte intermediate filament (Gfap) alters neuronal physiology.

Authors:  M A McCall; R G Gregg; R R Behringer; M Brenner; C L Delaney; E J Galbreath; C L Zhang; R A Pearce; S Y Chiu; A Messing
Journal:  Proc Natl Acad Sci U S A       Date:  1996-06-25       Impact factor: 11.205

4.  Intermittent hypercapnic hypoxia induced protein changes in the piglet hippocampus identified by MALDI-TOF-MS.

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Journal:  Neurochem Res       Date:  2009-12       Impact factor: 3.996

5.  Detection of subtle phenotypes: the case of the cell adhesion molecule csA in Dictyostelium.

Authors:  E Ponte; E Bracco; J Faix; S Bozzaro
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Review 6.  Intermediate filaments in the nervous system: implications in cancer.

Authors:  C L Ho; R K Liem
Journal:  Cancer Metastasis Rev       Date:  1996-12       Impact factor: 9.264

7.  Protein misfolding and oxidative stress promote glial-mediated neurodegeneration in an Alexander disease model.

Authors:  Liqun Wang; Kenneth J Colodner; Mel B Feany
Journal:  J Neurosci       Date:  2011-02-23       Impact factor: 6.167

Review 8.  Intermediate filaments as dynamic structures.

Authors:  M W Klymkowsky
Journal:  Cancer Metastasis Rev       Date:  1996-12       Impact factor: 9.264

9.  Attenuating astrocyte activation accelerates plaque pathogenesis in APP/PS1 mice.

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10.  Protective role of phosphorylation in turnover of glial fibrillary acidic protein in mice.

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