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Vol. 292, Issue 1, 173-180, January 2000
The Ernest Gallo Clinic and Research Center, Program in Biomedical
Sciences and Department of Neurology, University of California, San
Francisco, San Francisco, California
Chronic exposure to ethanol increases transcription of the molecular
chaperone Hsc70 in NG108-15 neuroblastoma X glioma cells. This
and other ethanol-induced changes in gene expression may contribute to
central nervous system tolerance and dependence in alcoholics. Here, we
characterized sequences in the hsc70 promoter that are
required for ethanol-induced transcriptional regulation. Deletion
analysis of the hsc70 promoter showed that the 74-base pair region proximal to the transcription start site was sufficient for
ethanol responsiveness. Point mutation or deletion of a consensus Spl-binding site at 
67/61 base pairs greatly reduced the induction by ethanol. Hsc70 promoter constructs with diminished ethanol responsiveness in NG108-15 cells similarly had decreased
transcriptional activation by exogenous Sp1 in
Drosophila SL2 cells. Some artificial promoter
constructs containing multiple Sp1 sites were highly responsive to
ethanol, but others were not, suggesting that the organization of the
proximal promoter region was an additional factor that affected the
ethanol response. Gel mobility shift analysis confirmed that an
Sp1-like protein bound to the 67/61 consensus Sp1 site. However
ethanol exposure did not alter Sp1 DNA-binding activity. Together, our
findings show that ethanol induction of Hsc70 requires a functional
Sp1-binding site. Additional proximal promoter elements may also play a
role in determining whether an Sp1-containing promoter will respond to ethanol.
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