The neuroendocrine cerebral caudodorsal cells of Lymnaea stagnalis initiate and coordinate ovulation and egg mass production and associated behaviors through the release of a complex set of peptides that are derived from the caudodorsal cell hormone-I (CDCH-I) precursor. We have previously characterized the CDCH-I peptide. In the present study, we isolated and amino acid sequenced by conventional peptide chemistry five additional peptides, epsilon-peptide, calfluxin, alpha-caudodorsal cell peptide, delta-peptide, and carboxyl-terminally located peptide, from the cerebral commissure, the neurohemal area of the caudodorsal cells. Fingerprinting by matrix-assisted laser desorption mass spectrometry of peptides in the commissure demonstrated the presence of all sequenced peptides and, in addition, could identify two other peptides derived from pro-CDCH-1, the beta 1- and beta 3-peptides. These findings together with previous immunocytochemical studies enabled us to define cleavage sites and major processing events of pro-CDCH-1. Pro-CDCH-1 is initially cleaved in the Golgi apparatus into carboxyl- and amino-terminal parts, each of which is sorted into distinct vesicle classes that traffic to different intracellular sites. As a result, in the commissure, peptides derived from the carboxyl-terminal part, including CDCH-1, are present at a many-fold higher concentration than those derived from the amino-terminal part.