Abstract

We have investigated the role that proteolytic enzymes in Aplysia hemolymph play in the inactivation of the neurotransmitter alpha-bag cell peptide (alpha-BCP(1-9), Ala-Pro-Arg-Leu-Arg-Phe-Tyr-Ser-Leu). alpha-BCP fragments containing Pro in positions 1 or 2, or Tyr in position 1, were degraded relatively slowly (half-life, t1/2 = 10-64 min), whereas fragments lacking these residues were degraded relatively rapidly (t1/2 = 0.5-2.7 min). Of 12 peptidase inhibitors tested, only bestatin, amastatin, and phenanthroline significantly inhibited alpha-BCP(3-9) degradation. alpha-BCP(3-9) yielded only four observable cleavage products (in order of decreasing abundance at early time points): alpha-BCP(4-9), alpha-BCP(5-9), alpha-BCP(6-9), and alpha-BCP(7-9). Degradation of alpha-BCP(3-9), alpha-BCP(4-9), alpha-BCP(5-9), alpha-BCP(6-9), or alpha-BCP(7-9) was strongly inhibited by bestatin, moderately inhibited by amastatin, and not inhibited by arphramenine B. The rates of degradation of eight alpha-BCP fragments and three other peptides in plasma were well correlated with their rates of degradation in mammalian leucine aminopeptidase (LAP, EC 3.4.11.1). Collectively our data support the following ideas. 1) In hemolymph one or more LAP-like enzymes rapidly and sequentially cleave alpha-BCP(3-9) or other small peptides lacking Pro at positions 1 or 2 or Tyr at position 1. 2) LAP-like peptidases in hemolymph may act in concert with previously described ganglionic peptidases to degrade neurally released alpha-BCP(1-9) and alpha-BCP(1-8) into inactive fragments.