Cell Type-Specific Regulation of Expression of Transcription Factor AP-2 in Neuroectodermal Cells

Abstract

AP-2 is a cell type-specific DNA-binding transcription factor that regulates selected target genes in vertebrate organisms. Here we investigated cell type-specific expression and regulation of AP-2 in neuroectodermal cell lineages. During retinoic acid (RA)-mediated differentiation of P19 embryonal carcinoma cells into neuroectodermal cell types that include immunohistochemically defined neurons and astrocytes, we observed a strong induction of AP-2 transcripts and protein. In contrast, AP-2 mRNA was not induced in P19 cells which undergo mesoendodermal differentiation in response to 1% dimethylsulfoxide or low concentrations of RA, respectively. The potential of both neurons and astrocytes to express AP-2 was ascertained by using cerebellar neurons and astrocytes derived from newborn mice. Unlike these types of cells, microglial cells do not express AP-2. Dibutyryl cyclic AMP further enhanced levels of AP-2 transcripts in both P19 astrocytes and primary astrocytes which also respond to agents elevating intracellular cAMP (noradrenaline, isoproterenol, forskolin). The cAMP-dependent induction of AP-2 could be blocked by inhibitors of protein kinase A. In contrast to its action in P19 cells, RA had no effect on AP-2 mRNA levels in primary astrocytes. Our results indicate that AP-2 may play a role as a retinoic acid-sensitive regulator during differentiation of neurons and glia from an embryonic neural precursor. Furthermore, AP-2 may be involved in gene transcription in both mature neurons and astrocytes.