Myelin basic protein gene transcription. Identification of proximal and distal cis-acting regulatory elements.

Myelin basic proteins (MBPs) represent a major component of the myelin membrane which are exclusively expressed by glial cells in the nervous system. The cell type-specific expression of MBP is controlled preferentially at the level of RNA synthesis. To investigate the mechanisms by which the MBP gene is regulated, we analyzed transcriptional regulation of this gene in glial and non-glial cells. We have demonstrated that the 320 base pairs upstream of the MBP transcriptional start site contain regulatory elements that preferentially stimulate transcription of MBPs in glial cells. Using a test vector containing the simian virus 40 (SV40) early promoter placed upstream of the bacterial chloramphenicol acetyltransferase gene, we localized three major promoter elements within the 5'-upstream sequence. These elements, designated MB1, MB4, and MB7, spanning proximal (-14 to -50) and distal (-130 to -169 and -249 to -288) positions with respect to the RNA initiation site, activated SV40 promoter transcription more than 40-fold in glial cells. The promoter distal elements, MB4 and MB7, enhanced SV40 promoter activity 2- and 8-fold, respectively, in L cells. Using the gel mobility shift assay, we have demonstrated that the MBP activators (MB1, MB4, and MB7) interact with multiple proteins derived from glial and L cell extract and result in the formation of several complexes. Comparison of band intensity of these complexes implies that these cells contain both unique and ubiquitous DNA binding proteins that recognize the DNA sequences within these activators. These studies suggest that the MBP promoter consists of several regulatory sequences in which the proximal element, MB1, and one of the distal elements, MB4, are selectively more active in glial cells than in L cells. Thus, these novel regulatory elements, in concert with other sequences, appear to stimulate MBP promoter transcription in glial cells.