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  • Histone acetylation in astrocytes suppresses GFAP and stimulates a reorganization of the intermediate filament network.

Histone acetylation in astrocytes suppresses GFAP and stimulates a reorganization of the intermediate filament network.

Journal of cell science (2014-08-17)
Regina Kanski, Marjolein A M Sneeboer, Emma J van Bodegraven, Jacqueline A Sluijs, Wietske Kropff, Marit W Vermunt, Menno P Creyghton, Lidia De Filippis, Angelo Vescovi, Eleonora Aronica, Paula van Tijn, Miriam E van Strien, Elly M Hol
ABSTRACT

Glial fibrillary acidic protein (GFAP) is the main intermediate filament in astrocytes and is regulated by epigenetic mechanisms during development. We demonstrate that histone acetylation also controls GFAP expression in mature astrocytes. Inhibition of histone deacetylases (HDACs) with trichostatin A or sodium butyrate reduced GFAP expression in primary human astrocytes and astrocytoma cells. Because splicing occurs co-transcriptionally, we investigated whether histone acetylation changes the ratio between the canonical isoform GFAPα and the alternative GFAPδ splice variant. We observed that decreased transcription of GFAP enhanced alternative isoform expression, as HDAC inhibition increased the GFAPδ∶GFAPα ratio. Expression of GFAPδ was dependent on the presence and binding of splicing factors of the SR protein family. Inhibition of HDAC activity also resulted in aggregation of the GFAP network, reminiscent of our previous findings of a GFAPδ-induced network collapse. Taken together, our data demonstrate that HDAC inhibition results in changes in transcription, splicing and organization of GFAP. These data imply that a tight regulation of histone acetylation in astrocytes is essential, because dysregulation of gene expression causes the aggregation of GFAP, a hallmark of human diseases like Alexander's disease.

MATERIALS
Product Number
Brand
Product Description

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Sodium butyrate, ≥98.5% (GC)
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D-(−)-Ribose, 98%
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D-(−)-Ribose, suitable for cell culture, BioReagent
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