Changes in succinate dehydrogenase activity of rats after intraventricular injections of GABA, muscimol and picrotoxin

Effects of intraventricular injections of GABA, and a GABA agonist, muscimol and an antagonist, picrotoxin on succinate dehydrogenase (SDH) enzyme activity in plasma and a few hypothalamic nuclei of brain of rats have been investigated using biochemical, histochemical and cytophotometric techniques. Results show that SDH decreased by GABA and muscimol treatment, and increased after picrotoxin injection. From the above findings, it is apparent that GABA, muscimol and picrotoxin influence SDH activity of plasma and hypothalamic nuclei.     

Early changes in mitochondrial monoamine oxidase activity of rat liver during 2-acetylaminofluorene feeding

The activities of mitochondrial type A and B monoamine oxidase were determined in the liver of rats fed a diet containing 2-acetylaminofluorene (AAF). Three days after the initiation of AAF-feeding, there was a significant decrease of type B monoamine oxidase activity without affect on type A enzyme. The decreased activity of type B monoamine oxidase, which reached a minimum after three weeks, was sustained for as long as AAF-feeding was continued. Sex-related difference in response to AAF was seen in the rat with respect to the onset and the intensity of the decreased type B monoamine oxidase activity, male rats being more sensitive to the carcinogen than female rats. In contrast to the in vivo effect, AAF showed a potent inhibitory effect on type A monoamine oxidase, rather than on type B enzyme, when added in vitro. The pI₅₀ values were estimated to be 7.5 against type A monoamine oxidase and 4.1 against type B enzyme, respectively. The in vitro inhibition of both types of monoamine oxidase by AAF was competitive. The K_i values for AAF were calculated to be 9.51 · 10^?9 M for type A monoamine oxidase and 1.30 · 10^?5 M for type B enzyme, respectively. In accordance with the potent inhibitory effect of AAF on type A monoamine oxidase in vitro, a single administration of the carcinogen, at a dose of 50 mg/kg, resulted in a marked and temporal decrease of the enzyme activity in the mitochondria of male rat liver. Recovery of the decreased type B monoamine oxidase activity was slow, and the enzyme activity did not return to control levels, even if rats were fed the basal diet for 2 or 4 weeks after the cessation of AAF-feeding.     

Imipramine inhibits monoamine oxidase activity in hyperglycemic rat brain

The effect of the chronic treatment of tricyclic antidepressants like Imipramine on the catecholamine metabolism of rat brain, in normal and hyperglycemic conditions was investigated. Imipramine was found to elevate the catecholamine levels in controls, while chronic treatment of hyperglycemic animals with the drug, failed to cause any change other than seen as a result of hyperglycemia. The activities of Monoamine oxidase on the other hand, decreases significantly as a result of the treatment, both in controls and in the hyperglycemic state. The results suggest that the drug apart from acting as an antidepressant, assumes the role of a monoamine oxidase inhibitor under pathological conditions.     

On rat liver mitochondrial monoamine oxidase activity and lipids

Following earlier observations on the retention of 5-hydroxytryptamine oxidizing activity by a purified preparation of monoamine oxidase from rat liver mitochondria, this fraction has been obtained in a water-soluble form by Triton X-100 gradient gel filtration and DEAE-Bio-Gel A chromatography. The soluble fraction appears to depend on Triton X-100 and phospholipids for its activity. The results seem to implicate membrane lipid components in the expression of rat liver mitochondrial monoamine oxidase activity.     

Effects of L-DOPA administration upon monoamine oxidase activity in rat tissues

The effects of L-DOPA administration in various doses (250,500 and 1000 mg/kg for 7 days) upon type A and B MAO activities in rat tissues have been investigated using the substrates 5-HT, tyramine and benzylamine. The specific activities of MAO in heart, kidney and brain were significantly increased after L-DOPA, whereas liver and vas deferens MAO was unchanged. None of the observed changes was totally specific for either form of the enzyme, although some evidence for a slight selectivity on type A MAO of heart and type B MAO of kidney and brain was obtained. These results indicate that some tissues may respond to elevated intracellular catecholamine levels, resulting from L-DOPA administration, by increasing their capacity to deaminate those amines. However, at present, the exact mechanism by which these changes are brought about is unknown.     

Developmental changes in the activity and substrate specificities of mouse brain monoamine oxidase

Developmental changes in monoamine oxidase (MAO) activity in the mouse brain were investigated with the substrates -phenylethylamine (PEA), tryptamine, and 5-hydroxytryptamine (5-HT). In the newborn brain, MAO activity towards PEA was found to be much lower than the adult and to be inhibited by clorgyline in a double-sigmoidal fashion. The inhibition curve shifted to a single-sigmoidal pattern with age. MAO activity towards 5-HT as substrate was inhibited by 90% and in a single-sigmoidal manner by clorgyline throughout the postnatal life. Lineweaver-Burk plots with PEA as substrate presented two linear lines (apparentK _m: 28.6 and 4.1 M) for the newborn and one line (apparentK _m: 11.4 M) for the adult, respectively. The plot with highK _m value for the newborn brain disappeared in a clorgyline-treated preparation. These findings suggest that age-dependent alterations in the ratio of MAO-A/MAO-B activity affect the substrate specificity of the enzyme.     

Effect of furosemide on changes in the rat behavior produced by intrastriatal GABA or picrotoxin microinjections

It was shown in chronic rat experiments that multiple microinjections of furosemide into the rostral region of the neostriatum facilitated avoidance conditioning in a shuttle box and prevented from GABA-induced deviant freezing, but did not abolish the choreic hyperkinesis produced by picrotoxine (GABA-A receptors antagonist) intrastriatal microinjections. Simultaneous microinjections of furosemide and picrotoxine into the neostriatum increased differences in parameters of picrotoxine-induced hyperkinesis between rat groups capable and incapable (extinct reflex) for conditioned avoidance. These findings point to a certain correlation between the intensity of hyperkinesis, capability for acquisition and realization of avoidance conditioning, and activity of neostriatal neurotransmitter systems involved in neuronal homeostasis. The findings suggest an involvement of neostriatal GABAergic system in conditioning and organization of free locomotor behavioral acts.     

Effect of benzamide derivatives on rat brain monoamine oxidase activity in vitro

The ability of moclobamide and other benzamide derivatives to inhibit the activity of monoamine oxidase in the rat brain was studied. Distinct effects of these compounds on the deamination of serotonin and norepinephrine (MAO-A substrates); 2-phenylethylamine (selective MAO-B substrate); tyramine and dopamine (MAO-A and MAO-B substrates) are shown. It was demonstrated that among all the compounds studied moclobamide appeared to be the most active and selective inhibitor of MAO-A: at a concentration of 100 microM it caused a 100% inhibition of serotonin and norepinephrine deamination, which might be explained by the presence of C1 atom in the para-position of benzene ring in moclobamide molecule. Other benzamide derivatives were less active in inhibiting MAO-A and had but a negligible effect on dopamine- and 2-phenylethylamine deamination.     

Mitochondrial monoamine oxidase activity and serotonin content of rat brain following gamma-irradiation

It is shown that gamma-irradiation of albino rats with a dose of 30 Gy leads to pronounced phase changes in monoaminoxidase activity and serotonin content in rat brain at early times after whole-body exposure. There is a similar direction of changes in the activity of the enzyme and in the content of the substrate adequate to the latter.     

Inhibition of rat brainstem monoamine oxidase activity by CGP 6085 A

CGP 6085 A [4-(5,6-dimethyl-2-benzofuranyl)piperidine] HCl, a known serotonin inhibitor, also inhibits rat brainstem monoamine oxidase A (MAO-A) and monoamine oxidase B (MAO-B) in both in vivo and in vitro experiments. Serotonin (5-HT) deamination by MAO-A is inhibited 35% at a dose of 100 mg/kg i.p. in vivo. Similar experiments show a maximal 20% decrease in phenylethylamine (PEA) deamination by MAO-B at a dosage of 30 mg/kg i.p. Over the range of 0.1 to 10 mg/kg i.p., CGP 6085 A decreases 5-HIAA levels in the brainstem. This in vivo inhibition of MAO activity is confirmed by in vitro experiments. In vitro studies in rat brainstem mitochondrial preparations show a dose-dependent, reversible, inhibition of MAO using tyramine as the substrate for the enzyme reaction. With an in vitro IC50 of 2-3 microM, the potency of CGP 6085 A is comparable to pargyline.     

Qualitative and quantitative changes in hepatic lipoprotein particles following acute injury of the rat liver induced by thioacetamide

Acute intoxication of the rat liver with a single dose of 100 mg thioacetamide (TAA)/kg body weight causes within 48 h a fatty liver and a heterogeneous reaction in the hepatocytes. This affects principally the centrilobular liver parenchymal cells (zone 3) and to a lesser extent the periportal ones (zone 1). Ultrastructural analysis was performed to determine to what extent the formation of lipid-carrying particles of the very low density type (VLDL) is changed in affected hepatocytes in zones 1 and 3. Being morphologically the most conspicuous site of VLDL processing, the Golgi complex was chosen for quantitation by measuring its volume, VLDL content and particle size. The concentration and composition of the liver lipids were determined, biochemically. After TAA treatment of the liver the number of Golgi-VLDL particles is significantly reduced to about 50% in both the lobular zones examined. In addition, distinct classes of size-modified Golgi-VLDL particles appear which show an abnormally wide size distribution pattern. In periportal hepatocytes the size distribution of Golgi-VLDL particles shows a clear shift towards smaller particles homogeneous in size (mean diameter 39 nm). In contrast, centrilobular hepatocytes contain particles of very heterogeneous size, the mean diameter of which is nearly doubled (77 nm). The decrease in VLDL particle number and their size modification induced by TAA is not accompanied by significant changes in the volume of the Golgi complex. Biochemical analysis showed that the accumulation of lipids in the TAA-treated liver, mainly evident morphologically as drop-like deposits in the central area of the liver lobules, is due to an increase in triglycerides (TG) by 23 mumol/g liver wet weight, which represents nearly 95% of the accumulated lipids. Despite the striking elevation of the absolute cholesterol ester (CHOL-E) content (2 mumol/g liver wet weight), this corresponds to only 5% of the newly accumulated lipids. Our electron optical and biochemical results support the suggestion that, in spite of the markedly different intralobular reaction of TAA-intoxicated hepatocytes, the formation of triglyceride-carrying particles is altered significantly in both lobular zones examined.     

A kinetic evaluation of monoamine oxidase activity in rat liver mitochondrial outer membranes

1. A preparation of mitochondrial outer membranes from rat liver can be shown to contain two kinetically distinct monoamine oxidase activities. These activities are distinguishable by their different sensitivities to the irreversible inhibitor clorgyline, and by the effect of the reversible inhibitors benzyl cyanide and 4-cyanophenol. 2. The substrate specificities of the preparation and the two enzyme species have been elucidated.     

Influence of age on brain vascular and cardiovascular monoamine oxidase activity in the rat

Monoamine oxidase (MAO) activity in brain microvessels and cardiovascular tissues was examined in rats of different age. MAO activity continued to increase with age in the heart, but in contrast, reached maximum activity in three weeks in the aorta, mesenteric artery and mesenteric vein. Between 7 and 60 weeks, there was a small decline in the MAO activity in the testicular artery. The highest MAO activity was found in the cerebral microvessels and increased with age. The half-life of MAO was estimated in the heart and peripheral blood vessels in young and old animals. The half-life of cardiac MAO was increased with age whereas that of the mesenteric vein, mesenteric artery and aorta remained constant between 7 and 112 weeks. Thus an explanation for this increased cardiac MAO activity in old rats was a reduced rate of degredation of this enzyme. The high activity of the enzyme in the brain microvessels suggests that it may participate in regulating the influx and efflux of monoamines in the central nervous system.     

Influence of culture conditions on monoamine oxidase A and B activity in rat astrocytes

Astroglial cells dispersed from newborn rat hemispheres were established in medium supplemented with 20 per cent fetal calf serum (FBS) and then grown to a confluent monolayer in the presence of 10 per cent FBS or charcoal-stripped FBS (CS). Type 1 astrocytes were subcultured and either maintained under the same conditions of the primary cultures or converted to serum-free chemically defined medium (CDM). No differences were found in either MAO A or MAO B activity of astrocytes grown in the presence of FBS or CS after 15 and 21 days in vitro (day 1 and 6 of subculture). In contrast, on day 21 both MAO A and MAO B activities were markedly higher in astrocytes subcultured in CDM compared with cells maintained in serum-supplemented medium. This difference appeared to be due to increased number of enzyme molecules, since kinetic analysis showed an increase in V_max of both MAO isoenzymes in serum-free medium, but no change in K_m. Consistently, the recovery of MAO A and MAO B activity after irreversible enzyme inhibition by clorgyline and deprenyl was faster in CDM than in FBS-supplemented medium, indicating enhanced enzyme synthesis under serum-free condition. Estimates of half-lives for the recovery of MAO A and MAO B activity indicated that, under both culture conditions, type A activity had a higher turnover rate than type B. The effect of CDM on astrocyte MAO does not appear to be due to selection of a subpopulation of cells, but rather linked to a morphological change (differentiation) with increased synthesis of both MAO isoenzymes.     

Effect of adafenoxate on different rat brain structures monoamine oxidase activity in vitro

1. The effect of the nootropic drug adafenoxate on monoamine oxidase (MAO) activity in rat brain cortex, striatum, hypothalamus and hippocampus has been studied using the following substrates: tyramine (total MAO), serotonin (MAO A) and beta-phenylethylamine (MAO B). 2. In a series of increased concentrations (from 5 x 10(-4) up to 1 x 10(-5) M) adafenoxate inhibits total MAO, MAO A and MAO B in the brain structures studied. 3. The adafenoxate IC50 values obtained illustrate its inhibitory properties and its lack of selectivity toward MAO in the brain structures isolated. 4. The results of our research prove the participation of MAO in the mechanisms through which adafenoxate affects the brain monoaminergic systems and realises its central effects.