The study shows that delta sleep‑inducing peptide (DSIP) can cross the blood‑brain barrier and the blood‑cerebrospinal fluid barrier in animals by a saturable (carrier‑mediated) process, meaning the peptide stays intact and can reach the brain when given outside the skull.

Interactions of radiolabelled circulating neuroactive peptides: enkephalin-leucine (Enk-Leu), delta sleep inducing peptide (DSIP), thyrotropin-releasing hormone (TRH) and vasopressin-arginine (VP-Arg) with the blood-brain and blood-cerebrospinal fluid barriers were studied by mean of: 1. a vascular perfusion technique in the guinea-pig using multiple-time brain uptake analysis, 2. a vascular perfusion technique of the in situ isolated choroid plexus from sheep using single-circulation paired-tracer dilution or steady-state analysis. It has been demonstrated that Enk-Leu, DSIP and VP-Arg were taken up intact at the luminal side of the blood-brain barrier and blood-tissue interface of the blood-cerebrospinal fluid barrier by a saturable mechanism. On the other hand, a non-saturable mechanism as well as possible enzymatic degradation were shown during TRH interactions with either the blood-brain or blood-cerebrospinal fluid barriers. It is concluded that both, facilitated and simple diffusion, govern circulating neuroactive peptide uptake into the central nervous system.