{Reference Type}: Journal Article
{Title}: A consensus CaMK IV-responsive RNA sequence mediates regulation of alternative exons in neurons.
{Author}: Xie J;Jan C;Stoilov P;Park J;Black DL;
{Journal}: RNA
{Volume}: 11
{Issue}: 12
{Year}: Dec 2005
{Factor}: 5.636
{DOI}: 10.1261/rna.2171205
{Abstract}: Neurons make extensive use of alternative pre-mRNA splicing to regulate gene expression and diversify physiological responses. We showed previously in a pituitary cell line that the Ca(++)/calmodulin-dependent protein kinase CaMK IV specifically repressed splicing of the BK channel STREX exon. This repression is dependent on a CaMK IV-responsive RNA element (CaRRE) within the STREX 3' splice site. Here, we report that similar Ca(++) regulation of splicing, mediated by L-type calcium channels and CaM kinase IV, occurs in cultured neurons and in the brain. We identify a critical CaRRE motif (CACATNRTTAT) that is essential for conferring CaMK IV repression on an otherwise constitutive exon. Additional Ca(++)-regulated exons that carry this consensus sequence are also identified in the human genome. Thus, the Ca(++)/CaMK IV pathway in neurons controls the alternative splicing of a group of exons through this short CaRRE consensus sequence. The functions of some of these exons imply that splicing control through the CaMK IV pathway will alter neuronal activity.