The present study was performed to investigate the effect of dexamethasone on the basal level of $PGD_2$ of rat brain. Primarily, several steroid hormones were administered orally for one week (10 mg/l drinking water) and dexamethasone thereof was shown to have the most strongly decreasing effect (40%) on the level of $PGD_2$ of the whole brain. When dexamethasone was administered orally to find out time dependency, it was demonstrated that there was a steadily increasing abatement of $PGD_2$ in the whole brain from 1st day onward to 7th day of uptake. In a similar way, there was also a fast reduction of $PGD_2$ content with maximum value of 35% by route of intraperitoneal injection. Furthermore, this result of $PGD_2$ decrease by injection showed typical circadian rhythm with peak value (2.4 ng of $PGD_2$/whole brain) at 5:00 PM. In an attempt to observe the dose dependency, this steroid was administered intraperitoneally in concentrations of $10;{mu}g$ to $1,000;{mu}g$/100g body weight. According to the injected dose, there was a gradual increment of decreasing effect of dexamethasone rather dose dependently to the concentration of $500;{mu}g$/100g body weight. As the effect of dexamethasone on the level of $PGD_2$ was very evident, we dissected the brain into 13 parts in order to find out the responsible area for specially reduced content of $PGD_2$ in the brain. However, the obtained data showed that dexamethasone exerts the decreasing effect on the basal level of $PGD_2$ generally with similar ratio (18~29%) in almost all areas. This result implied that dexamethasone may be involved in the physiological homeostasis by feed-back control acting on adrenal-hypothalamus axis as known already and additionally may take part in some other central nervous functions via $PGD_2$ derived from cell membrane by being distributed overally.