Biologically active peptides are synthesized as larger inactive proprotein peptide precursors which are processed by the concerted action of a cascade of enzymes. Among the proprotein convertases, PC2 is widely expressed in neuroendocrine tissues and has been proposed to be the major convertase involved in the biosynthesis of neuropeptides. In this study, we have examined the role of the Caenorhabditis elegans orthologue PC2/EGL-3 in the processing of proprotein peptide precursors. We recently isolated and identified 60 endogenous peptides in the nematode C. elegans by twodimensional nanoscale liquid chromatography -quadrupole time-of-flight tandem mass spectrometry. In the present study, we compare the peptide profile of different C. elegans strains, including PC2/EGL-3 mutants. For this purpose, we used an offline approach in which HPLC fractions are analysed by a matrix-assisted laser desorption ionisation -time of flight mass spectrometer. This differential peptidomic approach unambiguously provides evidence for the role of PC2/EGL-3 in the processing of FMRFamide-like peptide (FLP) precursors and neuropeptide-like protein (NLP) precursors in nematodes. Keywords: EGL-3, FMRFamide-like peptide gene, mass spectrometry, neuropeptide, neuropeptide-like protein gene, proprotein convertase. J. Neurochem. (2006Neurochem. ( ) 98, 1999Neurochem. ( -2012 Neuropeptides are derived from large proprotein peptide precursor genes, which encode for a single or multiple peptides. Several highly regulated and specific post-translational events are required for the formation of biologically active peptides from their larger inactive precursor proteins. A typical proprotein peptide precursor contains an amino terminal signal peptide, which is cleaved off upon entrance into the secretory pathway by a signal peptidase. Subsequently, proprotein convertases (PCs) cleave the remaining part of the precursor at specific cleavage sites. KR and RR constitute a large majority of all cleavage places, while RK and KK are found with much lower frequency (Veenstra 2000;Fricker 2005). In addition to these sites, some cleavages occur at sites containing pairs of basic amino acids separated by two, four, six or eight other residues. These sites were earlier described as 'monobasic' (Veenstra 2000). After cleavage from the proprotein peptide precursor, the peptide is further processed by a specific carboxypeptidase that removes the carboxyterminal basic amino acids. Next, the carboxyterminal glycine residue is transformed into an amide by a-amidating enzymes. This post-translational modification (conversion of a glycine into an amide) is a common feature of secretory peptides.In mammals, seven members of the kex2/subtilisin-like PCs have been described in detail (Rouille et al. 1995;Beinfeld 1998;Canaff et al. 1999). These are designated furin, PC1/3, PC2, PC4, PC5/6, PC7/8/LPC and PACE4 and they all share a characteristic overall similarity to the prototype member of the family, Kex2p, that was initially identified in yeast (Julius et a...
