Hippocampal degeneration inducing impairment of learning in rats: model of dementia?

In the pharmacological field, the development of drugs effective for dementia is now widely anticipated because of the increase in the elderly population. Dementia has some histological degeneration in the brain, including the hippocampus. Preclinical evaluations of such drugs use animal models with memory impairment, since memory impairment is a major criterion of dementia. We therefore investigated two animal models with hippocampal degeneration. Neonatal administration of monosodium glutamate (MSG) induced specific degeneration of hippocampal pyramidal cells in the CA1 region of Wistar rats in adulthood. In these animals, the correct response rate during the acquisition period of light-dark discrimination learning was significantly lower than that in the control group. No significant changes were noted in the hippocampal concentrations of neurotransmitter substances, including acetylcholine and glutamate. In the second model, similar histological changes were observed at 3 weeks after oral administration of trimethyltin (TMT). These histological changes were accompanied by a reduction in the intrahippocampal concentrations of acetylcholine and glutamate. In the case of light-dark discrimination learning, neither pre- nor post-training administration of TMT affected the correct response rate during both the acquisition and retention test periods. In the case of 8-arm radial maze learning, the increase in correct response rate was significantly suppressed in comparison with that of the control group when TMT was administered at 4 weeks before starting the acquisition trial. This suppression was followed by a lower response rate in the retention test. On the other hand, the correct response rates in retention tests were not affected when TMT was administered after completion of the acquisition trial. These findings indicate that sole degeneration of the hippocampus was able to induce different types of memory impairment, and single evaluation of a drug with one learning paradigm was difficult to justify that a drug is effective for dementia.

Measurement and pharmacokinetic analysis of imipramine and its metabolite by brain microdialysis

1. The feasibility of the brain microdialysis method for direct measurement and pharmacokinetic study of imipramine (Imip) and its metabolite desipramine (DMI) was investigated in the rat brain. 2. A dialysis tube was inserted into the right striatum of male Wistar rats, which were administered i.p. with 12.5 mg kg-1 Imip. Thirty microliters dialysate was collected every 15 min, and the levels of Imip and DMI were measured by high-performance liquid chromatography with electrochemical detection (h.p.l.c.-e.c.d.). SKF-525A and aminopyrine were concomitantly administered in order to assess their respective effects on the pharmacokinetics of Imip and DMI in the brain. 3. The intracerebral half life (t1/2) of Imip was 2.4 +/- 0.3 h with Imip alone. Premedication with SKF-525A, an inhibitor of drug-metabolizing enzymes, significantly prolonged the t1/2 of Imip, while at the same time production of DMI from Imip was accordingly inhibited. Concomitant administration of aminopyrine did not induce any significant change in the concentrations of Imip, but significantly inhibited the concentrations of DMI through its competitive antagonism in the demethylation pathway. 4. The present results suggest that the brain microdialysis method reflects the intracerebral pharmacokinetics of Imip and DMI well and may be applicable to further pharmacokinetic investigations of psychotropic agents.

Effect of systemic administration of N-methyl-D-aspartic acid on extracellular taurine level measured by microdialysis in the hippocampal CA1 field and striatum of rats

The extracellular concentrations of amino acids in the hippocampal CA1 field and striatum of conscious freely moving rats were monitored simultaneously by in vivo brain microdialysis using HPLC with electrochemical detection. Under basal conditions, aspartate, glutamate, glutamine, glycine, taurine, and alanine were detected, but gamma-aminobutyric acid was undetectable in both regions. Intraperitoneal injection of N-methyl-D-aspartic acid (NMDA; 10 mg/kg) caused a significant increase (three- to fivefold) in the taurine concentration in the dialysate obtained from both the hippocampal CA1 and striatum, whereas other amino acids (aspartate, glutamate, and alanine) did not show significant changes. Local application of NMDA (300 microM) to both regions via the dialysis probes also caused a similar increase (three- to fivefold) in both regions. Under infusion of hypertonic Ringer's solution containing 150 mM sucrose, the effect of NMDA on the level of taurine in both the regional dialysates was not affected. The effect of NMDA was totally reduced by intraperitoneal administration of MK-801 (0.3-1.0 mg/kg), a noncompetitive antagonist of NMDA receptors. Continuous infusion of DL-2-amino-5-phosphonovaleric acid (1.0 mM), a competitive antagonist of NMDA receptors, via the dialysis probes completely inhibited the effect of NMDA. These findings suggest that systemic administration of NMDA is effective as well as local administration into the brain and that NMDA receptors might be involved in the regulation of the extracellular taurine level in the brain without dependence on cell swelling.

Enkephalin hydrolysis by mouse plasma in vitro

Hydrolysis of [Leu]- and [Met]enkephalin was determined in samples of pooled whole mouse plasma in vitro by using HPLC-ECD to measure accumulation of Tyr-containing metabolites. More Tyr-Gly-Gly accumulated from [Met]enkephalin than from [Leu]enkephalin hydrolysis, and [Met]enkephalin's half-life in mouse plasma was approximately half that of [Leu]enkephalin. Comparisons of metabolite formation in the presence versus the absence of inhibitors with high selectivity for various peptidases demonstrated that a bestatin-sensitive aminopeptidase, presumably aminopeptidase M, as well as enkephalinase and angiotensin converting enzyme, participate in the hydrolysis of enkephalin in mouse plasma.

Naloxone affects both pharmacokinetics and pharmacodynamics of morphine. Application of direct correlation analysis

Direct correlation analyses between the distribution of morphine (pharmacokinetics) and the biochemical effects of the drug on monoamine metabolism (pharmacodynamics) are reported for dissected regions of the brain. Determinations of morphine and monoamine-related substances were carried out in the same sample by high performance liquid chromatography with electrochemical detection. Naloxone, an antagonist of morphine, significantly shortened the biological half lives of morphine in both the blood and brain tissue. Such pharmacokinetic behavior appeared to be related to the contractive effect of morphine on the bile duct, and naloxone facilitated the excretion of morphine via this route. In the striatum, significant correlations were observed between the concentrations of the metabolites of dopamine, 3,4-dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA), and morphine with a shift to the right in the concentration-response curve on naloxone treatment indicating competitive antagonism. While significant correlations were also observed in this brain region for the metabolites of noradrenaline, 3-methoxy-4-hydroxyphenylethylene glycol (MOPEG), and 5-hydroxytryptamine, 5-hydroxyindoleacetic acid (5-HIAA), a shift to the right did not occur. Significant correlations and shifts were noted for DOPAC, HVA and MOPEG in the hypothalamus. However, no correlation was found between the concentrations of 5-HIAA and morphine in this region. In other regions such as the hippocampus and medulla oblongata, similar correlations and shifts were not observed for MOPEG and 5-HIAA or for DOPAC and HVA.(ABSTRACT TRUNCATED AT 250 WORDS)

Effect of 9-amino-2,3,5,6,7,8-hexahydro-1H-cyclopenta-(b)-quinoline monohydrate hydrochloride (NIK-247) on cholinergic enzyme activity in rats

An in vitro comparison demonstrated that the concentration of NIK-247 that inhibited cholinesterase (ChE) activities to half the normal level (ID50) was 1.3 x 10(-6) M. This value was higher than those for both physostigmine (PHY; 1.2 x 10(-7) M) and tetrahydroaminoacridine (THA; 3.6 x 10(-7) M), which are used as cholinesterase inhibitors in the treatment of cholinergic deficits. Neither NIK-247 nor THA affected the activity of choline acetyltransferase (ChAT). These inhibitions of ChE by NIK-247 and PHY lasted for 2 h, while that by THA lasted for over 4 h. In the effects of NIK-247 and PHY, the concentrations of intrastriatal acetylcholine (ACh) were changed in relation to the inhibition of the ChE activity. However, THA caused a transient increase in the ACh level lasting for only 2 h instead of inhibiting the enzyme activity for over 4 h. These findings suggest that NIK-247 is a drug with a similar profile in its effect on cholinergic neurons to PHY, the prototype drug among ChE inhibitors. The data indicate that NIK-247 may be useful as a drug for the treatment of central as well as peripheral deficits of the cholinergic mechanism.

Further characterization of the in vitro hydrolysis of [Leu]- and [Met]enkephalin in rat plasma: HPLC-ECD measurement of substrate and metabolite concentrations

Hydrolysis of [Leu]- and [Met]enkephalin was determined in whole rat plasma in vitro by using HPLC-ECD to measure Tyr, Tyr-Gly and Tyr-Gly-Gly formation. Although [Leu]- and [Met]enkephalin did not differ in Tyr or Tyr-Gly accumulation, the amount of Tyr-Gly-Gly resulting from [Met]enkephalin hydrolysis was greater than that resulting from [Leu]enkephalin hydrolysis, and [Met]enkephalin's half-life in plasma was slightly shorter than that of [Leu]enkephalin. By comparing metabolite formation in the presence and absence of peptidase inhibitors with high selectivity for their respective enzymes, these studies demonstrated that aminopeptidase M and angiotensin converting enzyme are the major peptidases that hydrolyze enkephalins in rat plasma.

Hydrolysis of [Leu]enkephalin by chick brain in vitro

Using high-performance liquid chromatography with electrochemical detection to measure substrate disappearance and metabolite accumulation following addition of [Leu]enkephalin to samples prepared from chick brain in vitro, the following were found: 1. [Leu]enkephalin hydrolysis by whole forebrain homogenates is almost solely attributable to aminopeptidase MII activity. 2. [Leu]enkephalin hydrolysis by whole forebrain P2 membrane fractions is attributable to both aminopeptidase MII and dipeptidyl carboxypeptidase activity. 3. Differences are apparent in both [Leu]enkephalin disappearance and Tyr-Gly-Gly accumulation in P2 membrane fractions, but not in homogenate fractions, prepared from several regions of the chick brain.

Sensitive method for measuring hydrolysis of enkephalins in plasma, using high-performance liquid chromatography with electrochemical detection

This paper describes a simple and sensitive method for detection of [Leu]- and [Met]enkephalin and their N-terminal tyrosine-containing metabolic fragments (Tyr, Tyr-Gly, Tyr-Gly-Gly, and Tyr-Gly-Gly-Phe), using high-performance liquid chromatography with electrochemical detection. The method employs a carbon graphite working electrode with increased working electrode surface area (40 mm2). The procedures were applied to assay of the activities of enkephalin-degrading enzymes in whole plasma collected from rats, mice, and chicks.

Facilitated growth of transplanted raphe cells in hydrocephalic interstitial edema

Fetal raphe cells were transplanted into the anterior corpus callosum (CC) of serotonin (5-HT)-denervated hydrocephalic rats. The levels of 5-HT and its metabolite, 5-hydroxyindoleacetic acid (5-HIAA), were measured in the anterior and posterior parts of the CC at 1-2, 5-6, and 7-8 weeks posttransplantation. The 5-HT and 5-HIAA levels in the anterior part were restored to their maximum within 5-6 weeks posttransplantation in both hydrocephalic and nonhydrocephalic rats. In contrast, the 5-HT and 5-HIAA levels in the posterior part continued to increase for the period beyond 5-6 weeks posttransplantation. The longer time course of the restoration in the posterior part may reflect the time for fiber growth from the site of transplantation to remote brain areas. Hydrocephalic rats showed slightly higher levels of 5-HT (154.4%) and 5-HIAA (159.5%) in the anterior part, and markedly higher levels of 5-HT (254.8%) and 5-HIAA (388.7%) in the posterior part at 5-6 weeks posttransplantation, compared with nonhydrocephalic rats. These results imply favorable effects of interstitial edema associated with hydrocephalus on the survival of transplanted raphe cells and fiber outgrowth.

Role of central serotonergic systems in the development of hypertension in spontaneously hypertensive rats

The spontaneously hypertensive rat (SHR) maintained a higher blood pressure level at and after 8 weeks old than the genetical control Wistar-Kyoto strain (WKY). At 10 weeks old, the turnover rate of 5-hydroxytryptamine (5-HT) was lower in the hypothalamus of SHR than of WKY. Following portacaval anastomosis (PCA) in SHR, the blood pressure was significantly decreased in comparison with that of sham-operated control SHR. In WKY, no significant change in the blood pressure response was observed. PCA treatment increased the 5-HT turnover including that in SHR. If the SHR with PCA was bred with food pellets containing higher concentrations of leucine and isoleucine, the blood pressure increased and the 5-HT turnover decreased. These findings suggest that the central serotonergic system is involved in the development of hypertension.

Developmental changes in serotonin levels in the chick spinal cord and brain

Developmental changes in 5-hydroxytryptamine (5-HT) and 5-hydroxyindoleacetic acid (5-HIAA) in the developing chick spinal cord and brain were examined using high-performance liquid chromatography with electrochemical detection and immunohistochemistry. On embryonic day (E)6 only small amounts of 5-HT (0.086 ng) and 5-HIAA (0.0144 ng) were found in the spinal cord. By contrast, large amounts of 5-HT (x30) and 5-HIAA (x60) were detected in non-neuronal tissue outside the spinal cord; a similar distribution of 5-HT was also detected by immunohistochemistry. Up to E10, the highest concentrations of 5-HT in the spinal cord were found in the cervical region, followed by the thoracic and lumbar regions. In embryos older than E16, as well as in posthatched chicks, however, the highest and lowest concentrations of 5-HT were found in the lumbar and thoracic spinal cord, respectively. The concentration of spinal cord 5-HT reached maximal values on posthatching day (P)7, after which there was a marked decrease. By P120, 5-HT levels in the spinal cord decreased to the same level as on E10-E16. Concentrations in the brain, however, gradually increased with development. The basic pattern of development of 5-HIAA was similar to that of 5-HT.

Effect of YM-09151-2, a putative D2 dopamine receptor antagonist, on dopamine metabolism in the striatum of rats

YM-09151-2, a novel benzamide derivative, significantly increased the concentrations of dopamine (DA) metabolites, both 3,4-dihydroxyphenylacetic acid and 3-methoxy-4-hydroxyphenylacetic acid (homovanillic acid). The maximum increase in such metabolites was about 4-fold the concentration in control animals, and was observed at 2 hr after oral administration. 3-Methoxy-4-hydroxyphenylethylene glycol, a metabolite of noradrenaline, was slightly increased in its concentration exhibiting a transient effect, but 5-hydroxyindoleacetic acid was not. YM-09151-2 antagonized the decreasing effects of apomorphine, a nonselective DA agonist, and LY-171555, a selective D2 DA receptor agonist, on the concentrations of DA metabolites in the brain. In contrast, SCH-23390, a selective D1 DA receptor antagonist, did not antagonize the effects of DA agonist. These results strongly suggest that YM-09151-2 is a selective antagonist of D2 DA receptor and a candidate as a new antipsychotic agent for clinical use.

Functional difference in monoamine transmitters in the behaviorally abnormal mouse mutant (wriggle mouse sagami)

A mutant mouse (wriggle mouse sagami, WMS) with neurological disorders was found in a colony of the BALB/c strain. The clinical signs included tremor, dystonia and involuntary movements. The concentrations of the neurotransmitter substances, noradrenaline (NA), dopamine (DA), 5-hydroxytryptamine (5-HT) and acetylcholine (ACh), were measured simultaneously with their metabolites in dissected brain regions by high-performance liquid chromatography with electrochemical detection. The turnover of 5-HT was significantly higher in the cerebral cortex, hippocampus, hypothalamus, midbrain and pons-medulla of WMS than of the genetic control, BALB/c. The intrastriatal DA and its metabolites, 3,4-dihydroxyphenylacetic acid and homovanillic acid were increased. However, there was no evidence to suggest an increase in turnover rate of this neurotransmitter. An increase in concentration of and decrease in turnover rate of NA were observed in the cerebellum of this mutant. These findings suggest that multiple disturbance of the neurotransmitter system was largely responsible for the manifestation of the clinical signs of WMS.

Portacaval anastomosis attenuates the impairing effect of cyproheptadine on avoidance learning in rats--an involvement of the serotonergic system

Portacaval-anastomized (PCA) rats were used to demonstrate the involvement of the serotonergic system in long-term memory formation. Significant increases in the concentration of 5-hydroxyindoleacetic acid, a metabolite of 5-hydroxytryptamine (5-HT), in all regions examined and the turnover rate of this indoleamine transmitter in the hippocampus, hypothalamus, midbrain and medulla oblongata were observed in PCA rats in comparison with sham-operated controls. Cyproheptadine, a 5-HT receptor blocking agent, impaired the retention of two-way avoidance learning reinforced by light stimuli when the drug was intraperitoneally injected immediately after the completion of training. PCA treatment attenuated the impairing effect of cyproheptadine. When cyproheptadine was injected 2 h after the completion of training, the correct response in the retention test period was not decreased. The present results suggest that memory formation is a time-requiring process and is mediated by the central serotonergic mechanism.

A study of the clinical usefulness of dobutamine administered orally

Dobutamine 300 mg was administered orally to both healthy volunteers and to patients with circulatory failure. After the 300 mg dose of dobutamine, subjects were found to have a higher concentration of the drug in their plasma than the effective levels of 37.5 (SD 2.9) ng/ml (n = 5) normally seen during intravenous infusion of the clinically effective (5 micrograms/kg/min) dose. This increased concentration waned within 90 minutes. A clinical effect of dobutamine on the circulation was observed in both the healthy volunteers and the patients. An increase in the cardiac index of the patients continued longer than 90 minutes. An unidentified substance was noticed on chromatography measuring plasma dobutamine concentrations, which may have contributed to the increased cardiac index, although its chemical formula could not be determined. The results suggest that the oral administration of dobutamine may be expected to have a long-lasting and significant therapeutic effect on patients with chronic circulatory failure.

Supranormal levels of serotonin and its metabolite after raphe cell transplantation in serotonin-denervated rat hippocampus

Transplantation of fetal raphe cells (14 days of gestation) into the adult rat hippocampus, 2 weeks following serotonin (5-HT)-denervation with intracisternal injection of 5,7-dihydroxytryptamine, can restore 5-HT and 5-hydroxyindoleacetic acid (5-HIAA) levels in the hippocampus to far beyond normal values. Transplantation into the unilateral hippocampus produces asymmetrical turning behavior after administration of the 5-HT releasor, p-chloroamphetamine (IP), comparable to the behavior reported for rats with 5-HT denervation of the unilateral hippocampus. The effect is blocked by prior depletion of 5-HT with p-chlorophenylalanine (IP). The asymmetry in 5-HT levels are correlated with the behavioral change. These data indicate that a large amount of 5-HT is released from nerve terminals of transplanted raphe cells, and suggest that the supranormal levels of 5-HT and 5-HIAA after raphe cell transplantation are neurochemical correlates of 5-HT hyper-innervation of the hippocampus which has been reported previously.

Determination of dosulepin and its metabolite: application of high-performance liquid chromatography with electrochemical detection

Dosulepin, 11-(3-dimethylaminopropylidene)-6,11-dihydrodibenzo [b,e]thiepin hydrochloride, is a thio analogue of amitriptyline and is used for the treatment of anxiety and affective disorders. The present study developed a simple and sensitive procedure for the determination of this compound and its metabolite, northiaden, by a combination of high-performance liquid chromatography with electrochemical detection. Hydrodynamic voltammograms demonstrated an optimal applied potential at 1300 mV for both dosulepin and northiaden. A mobile phase consisting of 0.1 M acetate buffer-acetonitrile-perchloric acid-trichloroacetic acid (50:50:2:1.5) provided the best separation of the drugs. The extraction procedure, which used a heptane-isoamyl alcohol (99:1) mixture, was successfully applied with a recovery of over 90%. A preliminary pharmacokinetic study was performed by the proposed method.

Comparative study of phenothiazine derivatives on monoamine metabolism--direct correlation between the concentrations of drugs and monoamine metabolites in the brain

The pharmacokinetics (distribution and elimination) and pharmacodynamics (biochemical effects on monoamine systems) of phenothiazines including the novel compound, E-0663 (10-[3-(3-hydroxypyrrolidinyl)-propyl]-2-trifluoromethyl phenothiazine), in the central nervous system were investigated concurrently in mice using high-performance liquid chromatography with electrochemical detection. The elimination rate of E-0663 from the brain was longer than that of the classical compounds, chlorpromazine, perphenazine and triflupromazine. The phenothiazine (0.01-100 mumol/kg i.v.) increased the metabolites of catecholamines. Direct correlation analysis was applied to the intracerebral concentrations of the drugs and monoamine-related substances. Significant correlations were observed between the concentrations of drugs and dopamine metabolites (3,4-dihydroxyphenylacetic acid and homovanillic acid). The relative potency of the drugs for the effect on the extraneuronal process was promethazine less than chlorpromazine less than E-0663 less than triflupromazine less than perphenazine by covariance analysis. On the other hand, noradrenaline metabolite (3-methoxy-4-hydroxyphenylethylene glycol) also revealed a significant correlation, and the potency was highest in the case of E-0663. These results suggest that E-0663 possessed different pharmacokinetic profiles and a different spectrum in its action on monoamine metabolism from classical phenothiazines. The method described here is simple for comparing the real potency and is useful as a new approach in the biochemical pharmacology of centrally acting drugs.

Simultaneous determination of the pharmacokinetics and pharmacodynamics of chlorpromazine in the brain of mice

The direct correlation analyses between the distribution of chlorpromazine (pharmacokinetics) and the biochemical effects of the drug on monoamine metabolisms (pharmacodynamics) are reported. Both samples for quantitative determination of CPZ and of monoamine transmitters and metabolites were obtained by organic extraction procedures from the same sample. The determinations were carried out by high performance liquid chromatography with electrochemical detection. CPZ affected the concentrations of metabolites of noradrenaline, dopamine and 5-hydroxytryptamine, but not those of the monoamine transmitters themselves. However, simultaneous assay demonstrated differences in effects of the drug on the transmitter systems. The concentrations of HVA and DOPAC were increased over a wide range of intracerebral concentrations of the drug, but those of MOPEG, in the range of higher concentrations. On the other hand, CPZ did not reveal any correlations between the intracerebral concentrations of the drug and 5-HIAA. These results suggest that CPZ affected primarily the dopaminergic system rather than the serotonergic one in the early stage of its biochemical actions. The proposed procedure is demonstrated to be simple and useful as a new approach in biochemical pharmacology. The same procedure can be applicable for other centrally acting drugs.

Effects of various tricyclic antidepressants on amine uptake

A comparative study of the ability to block the amine pump was carried out on tricyclic antidepressants including dothiepin and northiaden in vivo. Dothiepin was found to prevent the 6-OHDA-induced depletion of cardiac noradrenaline but not the PCA-induced depletion of intracerebral serotonin. Northiaden, an active metabolite of dothiepin, also possessed the same ability with a greater potency than the parent drug. Neither compound affected the biosynthesis of catecholamines and indoleamine. However, neither dothiepin nor northiaden affected 5-HT uptake, as was also observed with imipramine and amitriptyline. These results suggest that the clinical efficacy of dothiepin may be due to inhibition of the amine pump, especially of the catecholamine uptake mechanism, which is qualitatively the same as for imipramine and amitriptyline.

Liquid chromatographic determination of free and conjugated 3-methoxy-4-hydroxyphenylethylene glycol with wide-ranging substances related to monoamine metabolism

A simple and sensitive procedure was developed for the simultaneous determination of substances metabolically related to monoamine transmitters including 3-methoxy-4-hydroxy-phenylethylene glycol (MOPEG) in dissected brain regions of rats using high-performance liquid chromatography combined with electrochemical detection. The tissue sample was homogenized in HCl solution. The homogenate was divided into two portions, of which one was used for the assay of MOPEG after enzymatic hydrolysis with sulfatase. A butanol extraction process was performed on the remaining portion to obtain the sample of monoamine transmitters, precursor amino acids, and acidic metabolites. The monoamines and precursor amino acids were finally recovered in HCl solution, while the acidic metabolites shifted into the alkaline buffer from the organic layer. The basic and neutral substances were separated with a 0.1 M sodium citrate/citric acid buffer system (pH 4.0) containing 1% tetrahydrofuran, and the acidic ones with 0.075 M sodium citrate/citric acid buffer (pH 3.5) containing 1% tetrahydrofuran, 10% methanol, and 12% acetic acid. The steady-state concentrations of three monoamine transmitters (noradrenaline, dopamine, and 5-hydroxytryptamine) were determined together with their precursors and metabolites. Changes in the concentrations of these substances were examined for various drugs, of which the effects had been previously confirmed. The changes reflected putative drug effects and demonstrated that the procedure was applicable to the regional determination of monoamines and their metabolically related substances.

Determination of chlorpromazine in the blood and brain of mice by high performance liquid chromatography combined with electrochemical detection

A simple and sensitive procedure was developed for determining the concentration of chlorpromazine (CPZ) in the blood and brain of mice with promethazine as the internal standard. The procedure involves (1) primary extraction by a mixture of heptane and isoamyl alcohol (99:1) in an alkaline condition and (2) determination by means of high performance liquid chromatography with electrochemical detection. The detection limit of CPZ was 0.5 ng for one chromatographic injection. The drug was detectable in a 100 microliters sample of the blood by 6 hr after an intravenous injection of 0.25 mg/kg. The concentration of CPZ was about 40 times higher in the brain compared with that in the blood. The biological half life was estimated to be 87 and 65 min, in the blood and brain, respectively. The proposed method is also applicable for the determination of other phenothiazine derivatives and effective for pharmacokinetic study of the compounds in clinics and laboratories.

Direct correlation between level of morphine and its biochemical effect on monoamine systems in mouse brain. Evidence for involvement of dopaminergic neurons in the pharmacological action of acute morphine

The pharmacokinetics (uptake and elimination) and pharmacodynamics (biochemical effects on monoamine systems) of morphine in the CNS were investigated concurrently. ICR mice, weighing about 25 g, were injected intravenously with several doses (2.5-80 mg/kg) of morphine. The animals were killed by microwave irradiation (5 kW, 0.6 sec) at 10 and 30 min, and 1, 2, 4, 8 and 24 hr after the injection. The intracerebral levels of morphine and metabolically related substances consisting of monoamines [noradrenaline, dopamine (DA), 5-hydroxytryptamine (5-HT), 3, 4-dihydroxyphenylacetic acid (DOPAC), 3-methoxy-4-hydroxyphenylacetic acid [homovanillic acid (HVA)], 5-hydroxyindoleacetic acid (5-HIAA), tyrosine and tryptophan] were determined in identical samples by a combination of organic extraction and high-performance liquid chromatography with electrochemical detection. The intracerebral level of morphine was found to depend on the dose injected, and the biological half-life of the drug was estimated to be about 1 hr. The morphine injection (2.5-80 mg/kg) caused significant increases in monoamine metabolites although only slight changes occurred in the concns of parent transmitters. The intracerebral level of morphine was significantly correlated with the ratios DOPAC/DA and HVA/DA (r = 0.7033, P less than 0.0001; and r = 0.6455, P less than 0.0001, respectively). On the other hand, the correlation between the morphine level and 5-HIAA/5-HT was lower than those for DOPAC/DA and HVA/DA. These results suggest that monoamine systems, especially DA, are closely involved in the biochemical effects of morphine. Furthermore, the proposed procedure is demonstrated to be useful as a new approach in biochemical pharmacology, where the direct correlation between the distribution of a drug (pharmacokinetics) and the biochemical effects of the drug (pharmacodynamics) can be measured.

Effect of microwave irradiation on monoamine metabolism in dissected rat brain

The effect of 5 kW microwave irradiation on monoamine metabolism was investigated in dissected regions of rat brain. Concentrations of intracerebral monoamines and their metabolites were simultaneously determined by means of high performance liquid chromatography with electrochemical detection. The concentrations of noradrenaline, dopamine and 5-hydroxytryptamine were reduced by a 0.5 s irradiation in comparison with those of decapitated animals. When the duration of irradiation was prolonged by 1.5 s, on the other hand, the levels of monoamines were increased. The changes of metabolite concentrations were generally opposite direction for those of parent transmitters. These findings suggest that the microwave irradiation affects those concentrations and that a 1.5 s irradiation is recommended in order to completely inactivate the corresponding enzyme prior to the simultaneous determination of monoamines' related substances in dissected brain regions.

[Digestant effects of a new digestive enzyme capsule, Excelase, on jejunectomized and pancreato-jejunectomized Beagle dogs (author's transl)]

The digestant effects of a new digestive capsule, excelase containing sanactase, proctase, meicelase, olipase-2S and pancreatic digestive enzyme TA, were investigated in vivo. Jejunectomy and pancreato-jejunectomy were performed to cause an artificial disturbance of gastro-intestinal digestion and absorption in Beagle dogs. Absorption of protein and fat was measured using chromic oxide as an indicator. Excelase (3 capsules/dog/day) was given orally to Beagle dogs 1 week after each operation for 7 weeks. Changes in body weight and absorption of protein and fat were observed during the administration. The decrease in body weight of dogs treated with excelase fully recovered, however, that of controls remained even 8 weeks after the surgery. Absorption of protein and fat in the groups of dogs treated with excelase was greatly improved as compared with controls. The digestant effects of excelase on percent absorption of protein and fat were more manifest in pancreato-jejunectomized dogs than in jejunectomized dogs. These results indicate that excelase is effective for gastro-intestinal disturbances of digestion and absorption. The digestant effects of excelase on starch, protein and cellulose were also investigated in vitro using a gastro-intestinal model.