Åsa Wallén scite author profile

In response to injury of the central nervous system, astrocytes become reactive and express high levels of the intermediate filament (IF) proteins glial fibrillary acidic protein (GFAP), vimentin, and nestin. We have shown that astrocytes in mice deficient for both GFAP and vimentin (GFAP−/−vim−/−) cannot form IFs even when nestin is expressed and are thus devoid of IFs in their reactive state. Here, we have studied the reaction to injury in the central nervous system in GFAP−/−, vimentin−/−, or GFAP−/−vim−/− mice. Glial scar formation appeared normal after spinal cord or brain lesions in GFAP−/− or vimentin−/− mice, but was impaired in GFAP−/−vim−/− mice that developed less dense scars frequently accompanied by bleeding. These results show that GFAP and vimentin are required for proper glial scar formation in the injured central nervous system and that some degree of functional overlap exists between these IF proteins.

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Fate of Mesencephalic AHD2-Expressing Dopamine Progenitor Cells in Nurr1 Mutant Mice

Wallén

Zetterström

Solomin

et al. 1999

Experimental Cell Research

207

191

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Nurr1 regulates dopamine synthesis and storage in MN9D dopamine cells

Hermanson

Joseph

Castro

et al. 2003

Experimental Cell Research

149

130

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Åsa Wallén

Abnormal Reaction to Central Nervous System Injury in Mice Lacking Glial Fibrillary Acidic Protein and Vimentin

Fate of Mesencephalic AHD2-Expressing Dopamine Progenitor Cells in Nurr1 Mutant Mice

Nurr1 regulates dopamine synthesis and storage in MN9D dopamine cells

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