In mice, a peptide called delta sleep‑inducing peptide (DSIP) is found together with thyroid‑stimulating hormone in the front part of the pituitary gland. Giving synthetic DSIP reduces the release of ACTH, a stress hormone, and the hormones CRF and AVP can lower the amount of DSIP that the pituitary releases. The study is basic animal research and does not give direct advice for people.

Immunoreactive delta sleep-inducing peptide (IR-DSIP) has previously been localized to the ACTH/MSH cells of the human and porcine pituitary gland. In the present report, the distribution of IR-DSIP in the mouse pituitary gland was examined by immunocytochemistry. In this species, IR-DSIP was found to be co-localized with thyroid-stimulating hormone (TSH) in anterior pituitary thyrotrophs and was also present in nerve fibers in the posterior and intermediate lobes. The effect of synthetic DSIP on IR-ACTH release from dissociated mouse anterior pituitary cells was also studied. DSIP (greater than or equal to 10(-9) M) inhibited both basal and CRF-induced IR-ACTH release from these cells. In addition, the effect of synthetic rat corticotropin-releasing factor (CRF) and arginine vasopressin (AVP) on IR-DSIP secretion was investigated. CRF and AVP at concentrations of 10(-11)-10(-7)M inhibited release of IR-DSIP from mouse anterior pituitary cells by 63%. When CRF and AVP (10(-10)-10(-7) M) were given concomitantly, the maximal inhibition of IR-DSIP release was observed at a concentration of 10(-8)M of CRF and AVP. However, these two peptides when given together showed no additive effect on IR-DSIP secretion. These findings suggest that during CRF induction of ACTH secretion from anterior pituitary corticotrophs, CRF may also act simultaneously to inhibit DSIP secretion from the thyrotrophs.