Degradation kinetics of methionine5-enkephalin by select brain areas from patients with chronic schizophrenia.

After 10-minute incubation of [3H]-tyrosine methionine-enkephalin (MET) with 100,000 x g supernatant from select brain regions of patients with chronic schizophrenia (n = 3), essentially all of the labeled tyrosine was recovered as the free amino acid. Initial velocity and half-life of MET degradation obtained from different brain areas (limbic system, thalamus, basal ganglia, cerebellum, and cortex) of individual brains or from equivalent sections from different brains were scattered and considerable spread out (brains A, B, and C: 21.7-60.2 and 2.1-14.3, 25.6-88.7 and 1.6-14.1, 24.5-56.1 and 2.6-14.3 pg MET/mg brain tissue/min and min, respectively; brains A-C range, 21.7-88.7 pg MET/mg brain tissue/min and 1.6-14.3 min, respectively). These results failed to identify consistent differences in peptide degradation kinetics between the various brains areas studied from the same individual or from equivalent section from different subjects. MET metabolic rate was pH and temperature-dependent (optimum 7.4 degrees C and 37 degrees C), reduced by the aminopeptidase inhibitors puromycin, bacitracin, and bestatin, and to a lesser extent by thioridazine. However, peptide metabolism was not significantly affected by differences in tissue storage time or repeated freezing and thawing; by preincubation with N-carboxymethyl phenyl leucine, captopril, or thiorphan (dipeptidyl peptidase[s] or peptidyl dipeptidase[s] inhibitors, respectively); or by the many different drugs used by the patients with chronic schizophrenia. Our findings, although of a preliminary nature and generally similar to those recently reported for comparable studies on nonneuropsychiatric patients, provide a much needed understanding of the mechanisms regulating brain MET metabolism. Whether these results may contribute to the rational design of pharmacologic strategies for the treatment of pathologies associated with alterations in the enkephalinergic system needs further research.

In vitro methionine5-enkephalin degradation kinetics by human brain preparations.

Incubation of [3H]-tyrosine methionine5-enkephalin (MET) with human brain preparations (100,000g supernatant; sections of the limbic system, thalamus, basal ganglia, cerebellum, and cortex) results in its rapid and complete degradation; over 95% of the initial labeled tyrosine is recovered as the free aminoacid within 10 min. Results show a considerable range in the peptide initial velocity (Iv) and half-life (t1/2) degradation values obtained from different brain sections of individual brains, either from the same or from different main brain areas. This relatively wide range of values was scattered, failing to identify consistent differences between the various brains areas studied. Differences in brain tissue storage time or repeated sample freezing and thawing failed to alter significantly either of these kinetic parameters of MET metabolism. Peptide degradation rate (optimum pH and temperature of 7.4 and 37 degrees C, respectively) was concentration-dependent inhibited by known aminopeptidase inhibitors (puromycin, bacitracin, and bestatin, and to a lesser extent by thioridazine). However, it was not significantly affected by either N-carboxymethyl phenyl leucine, captopril or thiorphan [dipeptidyl peptidase(s) or peptidyl dipeptidase(s) inhibitors, respectively]. A better understanding of the mechanisms regulating brain MET metabolism may contribute to the rational design of pharmacological strategies based in the modulation of its bioavailability.