Activity-dependent changes in neuropsin gene expression in the hippocampus implies an involvement of neuropsin in neural plasticity. Since the deduced amino acid sequence of the gene contained the complete triplet (His-Asp-Ser) of the serine protease domain, the protein was postulated to have proteolytic activity. Recombinant full-length neuropsin produced in the baculovirus/ insect cell system was enzymatically inactive but was readily converted to active enzyme by endoprotease processing. The activational processing of prototype neuropsin involved the specific cleavage of the Lys 32 -Ile 33 bond near its N terminus. Native neuropsin that was purified with a purity of 1,100-fold from mouse brain had enzymatic characteristics identical to those of active-type recombinant neuropsin. Both brain and recombinant neuropsin had amidolytic activities cleaving Arg-X and Lys-X bonds in the synthetic chromogenic substrates, and the highest specific activity was found against Boc-Val-Pro-Arg-4-methylcoumaryl-7-amide. The active-type recombinant neuropsin effectively cleaved fibronectin, an extracellular matrix protein. Taken together, these results indicate that this protease, which is enzymatically novel, has significant limbic effects by changing the extracellular matrix environment.Some proteases have been suggested to be related to neural cell dynamics in such processes as cell death, migration, cellto-cell adhesion and de-adhesion, process elongation, pathfinding, and axonal rearrangement (1-5). These phenomena have been investigated by supplying known proteases involved in blood coagulation, fibrinolysis, or digestion to neural cell cultures. However, the observations that the proteases are mainly localized in and released from non-neural cells do not support all of such neural effects (5-7). Thus, we postulated that neurons themselves may produce and release their own proteases to participate in the neural cell dynamics described above.
Neuropsin (NP)1 was cloned from the mouse brain and was shown to be localized in mouse hippocampal pyramidal neurons (8). These results and the observation that its mRNA showed marked activity-dependent changes caused by plasticity-inducible stimuli are suggestive of some neural effects in limbic plasticity (8, 9). However, it is still not known whether NP protein has enzyme activity as suggested by the deduced amino acid sequence (8). We postulated that the enzyme activity might be a molecular basis for the physiological responses induced by various stimuli. Therefore, in the present study, we examined whether recombinant NP (r-NP) and brain NP had proteolytic activity against synthetic and natural substrates.
EXPERIMENTAL PROCEDURESMaterials-Mono S, Sepharose 2B, CNBr-activated Sepharose 4B and CL-6B, Superdex-75HR, Superose 12, Resource S, and Protein G-Sepharose were from Amersham Pharmacia Biotech. Silver staining kits were from Bio-Rad. Diisopropyl fluorophosphate (DFP), benzamidine, bestatin, soybean trypsin inhibitor, human plasma thrombin (EC 3.4.4.13), and TNM-FH insect cel...
