Researchers created antibodies that bind to the peptide DSIP and used them to map where DSIP is located in rat brain tissue. They discovered DSIP in specific brain regions and that its presence differs in other rodent species, but the work does not give any practical advice on using DSIP for health or performance.

Monoclonal antibodies were produced following immunization of rats with delta sleep-including peptide (DSIP). The spleen cells of the rats were fused with the myeloma cell line SP2/0. The supernatants of hybridomas were screened on a solid-phase immunoassay using dot-immunobinding of DSIP and some DSIP fragments. The supernatants of six stable producer clones were found to react with DSIP. From this procedure it was also deduced that all these monoclonal antibodies recognized epitope(s) of the penta carboxy-terminal region of DSIP (DSIP5-9). Application of these monoclonal antibodies to rat median eminence sections gave a strong immunolabelling of a large population of fibres and terminal-like structures, mainly localized through the lateral areas. Elution-restaining experiments using a monoclonal antibody to DSIP and a polyclonal antiserum to luteinizing hormone-releasing hormone (LHRH) showed that the patterns of immunoreactivity respectively visualized overlap almost completely. Although numerous LHRH-immunoreactive neuronal elements were also easily demonstrated in the median eminence of the mouse, the hamster and the gerbil species, incubation of sections with monoclonal antibodies to DSIP failed to give any immunoreaction. Taken together these data argue for the independence of the DSIP/LHRH immunolabelling systems. Furthermore, it was demonstrated that DSIP5-9-related epitopes detected in the rat median eminence have no counterpart in the three other rodent species investigated. These species differences may reflect the fact that the carboxy-terminal sequence of the nonapeptide DSIP originally discovered in the rabbit is not conserved in all rodent species.