Transcriptional regulation of myelin associated glycoprotein gene expression by cyclic AMP.

Abstract

The treatment of rat glioma C6 cells with 10 microM isoproterenol (Ipt) for 4 days upregulated the expression of the myelin-associated glycoprotein (MAG) gene by approximately 55-fold over the control value. The constant presence of Ipt in the medium was required for the maximal upregulation, as time-restricted exposures to the drug produced only partial, or no upregulation of the gene. No difference in the MAG mRNA stability could be detected in Ipt-treated vs untreated cells indicating that the drug upregulates the MAG gene at transcriptional level. Serum (FCS) strongly attenuated the response of the MAG gene to Ipt. The stimulatory effect of Ipt was profoundly reduced by spermine and H-89, indicating that protein kinase A-dependent protein phosphorylation is involved in the MAG gene activation. Within 30 min after Ipt administration, the c-fos gene was upregulated by 10-fold, and thereafter, its message level decreased and stabilized at approximately 3-fold over control. In contrast, the c-jun gene was downregulated to approximately 20% of control within 30 min after Ipt administration. Subsequently, its message level rose and fell once again within 12 h to approximately half of control, and returned to control level within 72 h.(ABSTRACT TRUNCATED AT 250 WORDS)