Cell-specific alternative RNA splicing of an FMRFamide gene transcript in the brain

Abstract

Individual neurons synthesize different peptide neurotransmitters and neuromodulators. In general, specificity is achieved by transcriptional regulation of neuropeptide-encoding genes. In Lymnaea, the FMRFamide and GDP/SDPFLRFamide neuropeptides are encoded by separate exons. Here we provide evidence that the two exons are part of the same gene and that in neurons expressing the gene the two exons are spliced onto a common upstream exon encoding a hydrophobic leader sequence. In addition, in situ hybridization data show that there is mutually exclusive cytoplasmic expression of each of the neuropeptide-encoding exons. Thus, differential neuropeptide synthesis is likely to be regulated by an alternative splicing mechanism. The cellular specificity of these splicing events is remarkable and suggests that cell-specific alternative splicing may be of major importance in establishing neuronal diversity in this system.