Des-Tyr1-gamma-endorphin (DT gamma E) and des-enkephalin-gamma-endorphin (DE gamma E): plasma profile and brain uptake after systemic administration in the rat.

The plasma disappearance, metabolism and uptake in the brain of [3H-Phe4]-DT gamma E and [3H-Lys9]-DE gamma E were investigated following systemic administration of these neuroleptic-like peptides to rats. 3H-DT gamma E, 3H-DE gamma E and their radioactive metabolites in plasma and brain extracts were determined by reversed-phase HPLC. Plasma disappearance of DT gamma E upon intravenous (IV) dosing followed a biphasic pattern with half-lives of 0.7 min (distribution phase) and 5.5 min (elimination phase). For DE gamma E the plasma disappearance curve was best characterized by a one-compartment model since a second elimination phase was hardly detectable by our methods. The corresponding half-life was 0.6 min, probably representative for the initial distribution phase of DE gamma E. Both neuropeptides distributed rapidly over the larger part of the extracellular fluid. Following the IV route of administration, brain uptake of DT gamma E and DE gamma E appeared to be low. Brain levels of DT gamma E decreased from 0.0075% to 0.0031% of the administered dose/g tissue at 2-15.5 min after injection, whereas those of DE gamma E decreased very rapidly from 0.0174% of the dose/g brain tissue to below the detection limit at 2-4.5 min after injection. As compared to the IV route of administration, subcutaneous (SC) injection of DE gamma E resulted into lower but remarkably longer-lasting peptide concentrations in plasma as well as in brain, possibly because of a sustained release from the SC site of injection.(ABSTRACT TRUNCATED AT 250 WORDS)