Hexobarbital Sleep Test for Predicting the Susceptibility or Resistance to Experimental Posttraumatic Stress Disorder

Hexobarbital sleep test (HST) was performed in male Wistar rats (hexobarbital 60 mg/kg, i.p.) 30 days prior to stress exposure. Based on the duration of hexobarbital-induced sleep, rats were divided into two groups, animals with high intensity (fast metabolizers (FM), sleep duration <15 min) or low intensity of hexobarbital metabolism (slow metabolizers (SM), sleep duration ≥15 min). The SM and FM groups were then divided into two subgroups: unstressed and stressed groups. The stressed subgroups were exposed to predator scent stress for 10 days followed by 15 days of rest. SM and FM rats from the unstressed group exhibited different behavioral and endocrinological patterns. SM showed greater anxiety and higher corticosterone levels. In stressed animals, anxiety-like posttraumatic stress disorder (PTSD) behavior was aggravated only in SM. Corticosterone levels in the stressed FM, PTSD-resistant rats, were lower than in unstressed SM. Thus, HST was able to predict the susceptibility or resistance to experimental PTSD, which was consistent with the changes in glucocorticoid metabolism.

Inhibitory effects of H2-receptor antagonists on cytochrome P450 in male ICR mice

1 The present study was undertaken to examine the effects of H2-receptor antagonists including newly developed mifentidine derivatives, IY-80843 and IY-80845, on cytochrome P450(P450) in vitro and in vivo. 2 Initially, 3-methylcholanthrene-, phenobarbital-, ethanol- and dexamethasone-induced liver microsomes were prepared from male ICR mice to study in vitro effects of above chemicals on ethoxyresorufin O- deethylase(EROD), pentoxyresorufin O-dealkylase(PROD), p-nitrophenol hydroxylase and erythromycin N-demethy lase(ERDM) activities, respectively. It was found that hist amine, cimetidine and famotidine were not inhibitory to four enzyme activities. Meanwhile, mifentidine slightly inhibited EROD and PROD activities and its derivatives IY-80843 and IY-80845 strongly inhibited PROD, EROD and ERDM activities. 3 Prolongation of hexobarbital-induced sleeping time was determined in male ICR mice to confirm in vitro inhibito ry effects of mifentidine and its derivatives in vivo. It was observed that cimetidine, mifentidine, IY-80843 and IY- 80845 caused dose-dependent increases in the sleeping time, indicating the inhibition of P450 responsible for hexobarbital metabolism. 4 It was concluded that mifentidine and its derivatives are P450 inhibitors and that our newly synthesized IY-80843 is most inhibitory. 5 The present results indicate that mifentidine and its derivatives not only antagonise the H 2-receptor but also inhibit P450 enzymes.

Neonatal phenobarbital-induced defects in age- and sex-specific growth hormone profiles regulating monooxygenases

Growth hormone was secreted in sexually dimorphic patterns in both 65- and 150-day-old rats (i.e., "on-off" pulsatile for males and "continuous" pulsatile for females), but as a result of a 200-400% increase in pulse levels the mean concentration of hormone in the circulation was about two times as great in the younger animals. Neonatal exposure to phenobarbital at anticonvulsant therapeutic doses for the rat reduced the pulse amplitudes of circulating growth hormone in both the 65- and 150-day-old males but only in the 65-day-old females. As expected, neonatal administration of the barbiturate produced an almost immediate increase in the activities of the hepatic monooxygenases, as measured by hexobarbital metabolism, which declined to noninduction levels after treatment ceased. Contrary to the well-known transient effects of phenobarbital, at around the time of sexual maturity when gender-dependent differences in hepatic monooxygenases appear (males > females), we observed a second "round" of enzyme induction that persisted in both sexes for the remainder of the study (180 days). Because growth hormone is the primary regulator of sex-dependent hepatic monooxygenases, we have proposed that the abnormal plasma growth hormone profiles produced by neonatal phenobarbital are responsible for the permanent induction of hepatic monooxygenases.