This analysis revealed a high degree of similarity between the et

This analysis revealed a high degree of similarity between the ethanol- and heat shock-induced processes and some heterogeneity among the downregulated processes, suggesting that the two treatments share some common mechanisms but do not operate via a single identical mechanism of gene regulation in astrocytes. Identification of ARGs containing the alcohol response Inhibitors,research,lifescience,medical element We previously identified a novel mechanism for the ethanol induction of genes in cortical neurons, involving the binding of the activated

form of the transcription factor heat shock factor 1 (HSF1) to an 11-bp DNA consensus sequence termed the alcohol response element (ARE; Pignataro et al. 2007). To determine whether ethanol regulates ARGs in astrocytes in a similar manner to that observed in neurons, we analyzed the results of the ethanol and heat stress microarrays to identify Inhibitors,research,lifescience,medical genes with a similar degree of induction by both treatments. One thousand and eighty unique genes were significantly upregulated to a similar magnitude by both treatments

using a corrected P level of ≤0.05 (Fig. 1B and Table S1). Among this set of ethanol- and heat shock-sensitive genes, there were a variety of different functional gene groups: regulation of transcription, Inhibitors,research,lifescience,medical cell proliferation and differentiation, oxidoreductase activity, insulin-like growth factor signaling, calcium signaling, inflammatory/immune response, acetyl-CoA metabolism, Inhibitors,research,lifescience,medical serine/threonine kinase activity, cytoskeleton,

lipid metabolism, apoptosis, glial-specific genes, and stress proteins (Table 1). Table 1 Genes significantly activated Inhibitors,research,lifescience,medical by ethanol and heat stress in primary astrocyte culture Ethanol activates HSF1 and the expression of HSPs in astrocytes The microarray analysis also revealed that ethanol treatment induced several genes encoding for HSPs (Hsps) (Table 1), including the gene homolog of Hsp40 (Dnajc7) and members of the Hsp27 family of HSP genes (Hspb1 and Hspb8). In addition, ethanol upregulated the genes coding for the binding proteins Hsp70 and Hspa5 bp1, as well as Hspa1a, which encodes the protein 1A of the Hsp70 family. DNA ligase It is known that the induction of HSPs is dependent on the multi-step activation of HSF1. In unstressed cells, the chaperone proteins HSP40, HSP70, and HSP90 bind to HSF1, sequestering inactive HSF1 in the cytoplasm (Selleckchem KU55933 Morimoto et al. 1998; Tonkiss and Calderwood 2005). Stress causes protein misfolding in the cytoplasm, which triggers the release of HSF1 from the chaperone HSPs, and allows its subsequent translocation into the cell nucleus (Morimoto et al. 1998). Once in the nucleus, HSF1 trimerizes and acquires DNA-binding properties.

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