Increased concentrations of immunoreactive cathepsin D in supraoptic nucleus of the Brattleboro rat

Changes induced in astrocyte cathepsin D by cytokines and leupeptin

Cathepsin D is widely, but unevenly, distributed among cells and is capable of degrading a number of neural peptides and proteins. The present study was undertaken to examine the level of cathepsin D in astrocytes that might be relevant to its induction in inflammatory demyelination. Primary astrocytes were cultured from neonatal rat cerebrums according to the method of McCarthy and de Vellis. Based on staining for cell markers, cultures were greater than 95% astrocytes and less than 3% microglia. Under serum-free conditions, leupeptin induced a 1.4- to 2.0-fold increase, maximal by 48 hours, in cathepsin D protein quantified by a radioimmunoassay. Cathepsin D enzymatic activity, inhibitable by pepstatin, also increased. Northern blot analysis demonstrated that leupeptin also increased cathepsin D mRNA expression. Kinetic analysis indicated that maximal cathepsin D mRNA levels are detected 24 h after stimulation with leupeptin. Exposure of astrocytes under the same conditions to rat recombinant interferon-gamma, human recombinant tumor necrosis factor-alpha, human recombinant interleukin-1 beta, lipopolysaccharide, calcium ionophore, or a combination of these reagents did not increase the level of cathepsin D above controls. These results indicate that astrocytic cathepsin D mRNA and protein can be induced by selected materials. Furthermore, the effects attributed to leupeptin as a proteinase inhibitor may be modified by its ability to increase cathepsin D activity.

Angiotensin I-generating acid endopeptidase activity in neurosecretory vesicles isolated from bovine pituitary

Secretory vesicles purified from the neural and intermediate lobes of the bovine pituitary contain acidic endopeptidases which are capable of converting renin tetradecapeptide (RTD) substrate to Angiotensin I (AI). Preliminary characterization of the neurosecretory vesicle (NSV) endopeptidase showed that it had a pH optimum of 4.0, and unlike renin was inactive at pHs greater than 6.0. It is inhibited by 10(-6) M pepstatin A, but not by PMSF, leupeptin, PMBS, or the specific renin inhibitor H-142. This NSV endopeptidase differed from cathepsin D in that it was unable to degrade alpha-casein, but was quite active in generating AI from RTD (Vmax = 5 moles/g protein/hour). No enzyme activity that could convert AI to Angiotensin II could be detected in the NSVs suggesting that the acidic endopeptidase is involved in processing neurosecretory vesicle proteins other than those associated with the renin angiotensin system in the brain.