Effect of ethanol on the concentration of serotonin in the brain of the rat and the excretion of 5-hydroxyindoleacetic acid

It is found that serotonin content in the brain areas and heart of rats with low alcohol motivation decreases after 5 months of chronic consumption of 48% ethanol solution in a dose of 4 g/kg; in animals with high alcohol motivation serotonin content decreases only in the hypothalamus. Under chronic alcoholization for 1 and 12 months no considerable changes were found in serotonin level of the studied tissues. 60 min after intraperitoneal administration of 20% ethanol solution in a dose of 3 g/kg in intact animals there occurs an increase of serotonin content in the brain hemispheres and heart and its decrease in the hypothalamus; in rat with low alcohol motivation after taking ethanol for 5 months this administration evokes a decrease of serotonin content in the hypothalamus and truncus cerebri; in rats with high alcohol motivation--its decrease in the hypothalamus. Excretion of 5-oxyindoleacetic acid with urine decreases 10 months after alcohol intoxication. When rats were not given ethanol after its chronic taking for 3 months serotonin oxidation was intensified for the first day, which was not observed after 7-month alcoholization of animals.     

Dynamics of various integral characteristics of individual changes in ethanol resistance in isolated muscles of grass frog]

A study was made of the dynamics of the mean level of toxic ethyl alcohol (EA) (3.5 M) resistance, of the correlation between the initial individual level of this resistance and the value and shifting direction of the level, and of the pattern of correlation between levels of resistance in the pair sartoria muscles and variability of resistance level in muscles, kept in EA subtoxic solutions (0.87 and 1.09 M) for 240 min. Two-phase changes in the mean level of resistance in muscles were revealed that involved its increase by 20% within 60 min of maintenance in both EA concentrations, and followed by a decrease of this level by the end of observation. On the first steps of muscle maintenance in EA subtoxic solutions, a negative correlation was noticed between the initial level of resistance and the value and direction of its shifting, in addition to narrowing the range of variability of this level in muscles. All these events were accompanied by a decrease or fluctuations in the correlation coefficient between levels of resistance in the pair muscles. By the end of the experiment, the range of variability of the level of resistance was seen to increase, and the earlier negative correlation between the initial individual level of resistance and the value and direction of its shifting appeared to change for a positive one. Both processes preceded the decrease in the mean level of muscle resistance.     

Pituitary function during the sexual maturation of the male rat: inhibition of prolactin secretion by exogenous dopamine

Experiments were designed to determine if the responsiveness of the anterior pituitary to the prolactin (Prl) inhibiting effects of dopamine were altered during the sexual maturation of the male rat. Initial experiments established that bolus injection of dopamine HCl into cannulated (left carotid) rats pretreated with alpha-methyl-p -tyrosine (MPT) resulted in an appropriate reduction of serum Prl and that the MPT treatment did not significantly alter testosterone or luteinizing hormone (LH). Immature (25-30 days), pubertal (50-55 days), and young adult (75-80 days) rats were studied. One hour after MPT administration a blood sample was collected, followed by administration via the cannula of 2.5, 10, 40 or 160 micrograms dopamine/100 g BW or the 5% glucose vehicle. Additional blood samples were collected 15, 30, 45 and 60 min after dopamine. MPT administration resulted in a significant increase in serum Prl compared to saline-treated controls at all ages; however, the absolute value of these increases varied significantly with age. Subsequent data were calculated in terms of the decrement in serum Prl versus Time O. In immature rats the 160-micrograms dose of dopamine resulted in a significant inhibition of Prl at 15 and 30 min when compared to glucose-treated controls. In pubertal animals, 40 micrograms dopamine was effective in inhibiting Prl at both 15 and 30 min. In young adult rats, 10 micrograms dopamine was effective at 15 and 30 min; 160 micrograms lowered Prl through 45 min. These data suggest that the responsiveness of the pituitary to the Prl inhibiting effects of dopamine increases during the sexual maturation of the male rat.     

Blood pressure and mesenteric blood flow in rats during the infusion of biogenic amines. Effect of supralethal irradiation]

The action of biogenic amines (noradrenaline, dopamine), infused at different concentration into the aorta of the urethane anesthetized control and irradiated rats for 2 min., was followed on the basis of systemic blood pressure and mesenteric blood flow. The mesenteric blood flow was measured by means of an electromagnetic flow meter. The changes observed i.e. after dopamine an increase in pressure and flow, after noradrenaline an increase in pressure and a decrease in flow with an increase after infusion had been stopped, correspond to those obtained in larger animals. In many, but not in all cases, the response is proportional to the log of the concentration of the amine infused. Irradiation with 2 kR, i.e. a dose which causes the animals to die from the gastrointestinal syndrome after 3 days, modified the response to dopamine and noradrenaline. The changes are, for noradrenaline, a greater pressure and a lower flow responses and for dopamine a greater pressure response at low and middle doses.     

Evening Alcohol Suppresses Salivary Melatonin in Young Adults

The study objective was to determine the acute effects of a moderate evening dose of alcohol on salivary melatonin levels in humans with stable prior sleep‐wake histories and in a controlled environment. Twenty‐nine adults (nine males) ages 21 to 25 (M=22.6, SD=1.2) yrs adhered to a 10‐day at‐home stabilized sleep schedule followed by three in‐lab adaptation, placebo, and alcohol (order counterbalanced) study nights. Alcohol (vodka: 0.54 g/kg for men and 0.49 g/kg for women) or placebo beverage was consumed over 30 min, ending 1 h before stabilized bedtime. At 140 and 190 min after alcohol administration, melatonin level was reduced by 15% and 19%, respectively, in comparison to placebo. The findings indicate that a moderate dose of alcohol in the evening suppressed melatonin in young adults.     

Effects of Monoamine Oxidase Inhibitors on Methamphetamine-Induced Stereotypy in Mice and Rats

In male ICR mice, a single intraperitoneal administration of methamphetamine (METH) (10 mg/kg) induced stereotyped behavior such as continuous sniffing, circling, and nail biting, reaching a plateau level 20 min after the injection. Subcutaneous pretreatment with clorgyline, a monoamine oxidase (MAO)-A inhibitor, at a dose of 0.1 mg/kg 2 h prior to the drug challenge significantly decreased the initial (first 20 min) intensity of stereotypies and increased the latency to onset. The effect was not observed with either higher doses of clorgyline (1 and 10 mg/kg) or l-deprenyl, a MAO-B inhibitor, at doses of 0.1–10 mg/kg. In male Wistar rats, the inhibitory effect of clorgyline on METH-induced stereotypy was not observed. Pretreatment of the mice with clorgyline (0.1 mg/kg) had no effect on apparent serotonin and dopamine turnover in the striatum, although the higher doses of clorgyline (1 and 10 mg/kg) significantly decreased the turnover. These results suggest that a low dose of clorgyline tends to increase the latency and decrease the intensity of stereotypies induced by METH in a dopamine metabolism-independent manner in mice.     

Direct hypophysial inhibition of luteinizing hormone release by dopamine in the rabbit.

The role and site of action of dopamine in regulating gonadotropin secretion remain unclear. In the present study, we investigated the possibility that dopamine regulates LH secretion by acting directly on the pituitary gland of the rabbit. The effect of dopamine infusion on LHRH-evoked LH release was determined in intact and pituitary stalk sectioned animals. Intravenous injection of LHRH (1 μg) in intact and acutely stalk sectioned rabbits increased peripheral plasma LH levels from a resting value of 0.2 ng/ml to maximal values of 12–14 ng/ml within 10–20 min. When dopamine was infused iv at a dose of 6.6 μg/min/kg BW from 30 min before LHRH injection until 120 min after, the rise in plasma LH levels in intact and stalk sectioned animals was decreased by 50–70%. However, dopamine infused at a lower dose (0.66 μg/min/kg BW) or at a higher dose (66.0 μg/min/kg BW), did not affect the LHRH-induced secretion of LH. These results suggest that dopamine can exert a direct hypophysial inhibitory effect on release of LH. They also demonstrate that dopamine is inhibitory only within a restricted dose-range, extending to the pituitary an established property of dopamine in the cardiovascular system.     

Multiple subcutaneous injections of somatostatin induce tachyphylaxis of the suppression of plasma insulin, but not glucagon, in the rat

The time course of pancreatic effects of somatostatin was studied over a period of 2 h in unanesthetized unrestrained rats after administration of the peptide by intravenous infusion and by single and multiple subcutaneous injections. During infusion of 10 and 30 micrograms/kg per min, somatostatin continuously suppressed plasma insulin and plasma glucagon. Plasma glucose was significantly increased at the lower dose, but not affected at the higher dose. Single subcutaneous injections of 0.3 and 3 mg/kg decreased plasma insulin and glucagon dose-dependently for 20-60 min without affecting plasma glucose. Multiple subcutaneous injections of somatostatin (one to four doses of 3 mg/kg, administered at intervals of 30 min) caused an initial decrease of plasma insulin (at 30 min), a rebound-increase at 60 and 90 min, and a final return to control values by 120 min. Plasma glucagon remained continuously suppressed. Plasma glucose increased significantly at 60 and 90 min and tended to return towards control values thereafter. In conclusion, pancreatic B cells - but not A cells - of the rat develop tachyphylaxis to somatostatin within 2 h after multiple subcutaneous injections of the peptide. By this mode of administration, 'selective' suppression of plasma glucagon can be achieved with somatostatin in the rat.     

Extracellular Events Induced by γ-Hydroxybutyrate in Striatum: A Microdialysis Study

The modification of dopamine release and accumulation induced by gamma-hydroxybutyrate (GHB) was studied using both striatal slices and in vivo microdialysis of caudate-putamen. GHB inhibited dopamine release for approximately 5-10 min in vitro, and this was associated with an accumulation of dopamine in the tissue. Subsequently, there was an increase in dopamine release. In the microdialysis experiments, low doses of GHB inhibited dopamine release, whereas higher doses strongly increased release; the initial decrease seen in slices could not be detected in vivo. Thus, GHB had a biphasic effect on the release of dopamine: An initial decrease in the release of transmitter was followed by an increase. A time-dependent biphasic effect was observed when GHB was added to brain slices, and a dose-dependent biphasic effect was seen in dialysate after systemic administration of GHB. Naloxone blocked GHB-induced dopamine accumulation and release both in vitro and in vivo. GHB also increased the release of opioid-like substances in the striatum. A specific antagonist of GHB receptors completely blocked both the dopamine response and the release of opioid-like substances. These data suggest that GHB increases dopamine release via specific receptors that may modulate the activity of opioid interneurons.     

Antihypertensive effect of total flavonoid fraction of Astragalus complanatus in hypertensive rats

The purpose of the present study was to quantify the antihypertensive effect of the total flavonoid (TF), extracted from the seed of Astragalus complanatus R. Brown, and to observe its effect on the renin-angiotensin system (RAS) in both renal hypertensive rats (RHR) and spontaneously hypertensive rats (SHR). RHR were created by the two-kidney one clip (2K1C) method. Systolic blood pressure was measured in conscious rats by the tail-cuff method. Plasma angiotensin II (AngII) and plasma renin activity (PRA) were measured with radioimmunoassay at 60 min after drug administration. The effects of TF on cardiac hemodynamics were also recorded in anesthetized RHR and SHR. TF was given by oral administration in low dose (100 mg/kg) and high dose (200 mg/kg) respectively. Compared to pre-administration control, TF induced an obvious decrease in systolic blood pressure in conscious normotensive Wistar rat, RHR and SHR. In the three groups the systolic blood pressure reached the lowest value at 60 min after TF. TF also induced a significant decrease in blood pressure in anesthetized RHR and SHR. At 60 min after treatment of TF, mean arterial pressure in high dose group (200 mg/kg) was decreased by 17% in RHR and by 17% in SHR respectively (P < 0.01). The depressor effect of TF lasted for at least 60 min. Cardiac output, heart rate and +/- dp/dtmax did not change. Conversely, total peripheral resistance was significantly decreased. The decrease in plasma AngII was found in both RHR and SHR. On the contrary, PRA increased at the same time. These findings suggested that TF is effective in reducing blood pressure in both RHR and SHR. The antihypertensive action of TF was attributed to a decrease in TPR secondary to a decrease in plasma concentration of AngII caused by TF.     

Bioremediation of phenolic compounds having endocrine-disrupting activity using ozone oxidation and activated sludge treatment

The bioremediation of water system contaminated with phenolic compounds having endocrine-disrupting activity,i.e. 2,4-dichlorophenol, 2,4-dichlorophenoxy acetic acid (2,4-D), and 2,4,5-trichlorophenoxy acetic acid (2,4,5-T), was investigated by using ozone oxidation and activated sludge treatment. Ozone oxidation (ozonation time: 30 min) followed by activated sludge treatment (incubation time: 5 days) was an efficient treatment method for the conversion of phenolic compounds in water into carbon dioxide and decreased the value of total organic carbon (TOC) up to about 10% of initial value. Furthermore, 2,4-D was dissolved in water containing salt,i.e. artificial seawater (ASW), and this water was used as model coastal water contaminated with phenolic compounds. The activated sludge treatment (incubation time: 5 days) could consume significantly organic acids produced from 2,4-D in the model costal water by the ozone oxidation (ozonation time: 30 min) and decrease the value of TOC up to about 35% of initial value.     

Effects of hypoxia and reoxygenation on adult rat heart cell metabolism

Isolated adult rat heart cells were used to study the effects of oxygen deprivation followed by reoxygenation upon myocardial metabolism. Calcium-tolerant nonbeating myocytes were incubated for 5, 30, or 60 min under 100% oxygen or 100% nitrogen and then rinsed with oxygenated buffer. Substrate oxidation was studied by incubating the cells with 14C-labeled glucose, pyruvate, or octanoate and determining the rates of 14CO2 production from the individual substrates. After 5 min of hypoxia, metabolism of glucose, as assessed by glucose oxidation and lactate production, was significantly depressed. Pyruvate and octanoate oxidation were unaltered. Oxygen consumption was also unchanged by short-term hypoxia and reoxygenation. With reoxygenation after 30 min of oxygen deprivation, more exaggerated changes in glucose metabolism were noted as well as a depression in pyruvate oxidation and unaltered octanoate oxidation. Oxidation of octanoate was slightly depressed after 60 min of hypoxia. Cell viability assessed after reoxygenation was not significantly altered until 60 min of oxygen deprivation. The results indicate that cytosolic changes occur after short periods of hypoxia followed by reoxygenation, whereas mitochondrial function is more resistant to damage inflicted by hypoxia and reoxygenation.     

Effect of ionizing radiation on DNA synthesis in ataxia telangiectasia cells.

The effect of ionizing radiation on DNA synthesis in control and ataxia telangiectasia (AT) lymphoblastoid cell lines was determined. A dose dependent decrease in DNA synthesis was observed in control cells, and the rate and extent of thi decrease in synthesis increased with time after irradiation. No decrease in DNA synthesis was obtained in AT cells, immediately following irradiation, at doses up to 400 rads. At longer times postirradiation, inhibition of synthesis increased but the extent of inhibition was less in AT cell than controls at all doses used. An immediate depression of DNA synthesis was evident in control cells after a radiation dose of 200 rads reaching a maximum at 90 min postirradiation. Little or no decrease in DNA synthesis was evident in AT cells up to 60 min after the same radiation dose, but a decrease occurred between 60 and 90 min after irradiation. The rate of recovery of DNA synthesis to normal levels was more rapid in AT cells than in controls.     

Effect of bupropion on hippocampal neurotransmitters and on peripheral hormonal concentrations in the rat.

The purpose of the present study was to administer an acute dose of the dual dopamine norepinephrine reuptake blocker bupropion in freely moving rats and to monitor the extracellular neurotransmitter concentrations in the hippocampus via in vivo microdialysis and the peripheral hormonal concentrations via catheterization. A microdialysis probe was inserted in the hippocampus, and samples for serotonin, dopamine, and norepinephrine were collected every 20 min before and after the injection of 17 mg/kg of bupropion, for a total sampling time of 180 min. A catheter was placed in the vena femoralis of the second group of rats, and blood samples were collected before and after bupropion injection for quantification of growth hormone, prolactin, corticosterone, adrenocorticotropin hormone, and beta-endorphins. All neurotransmitter levels (dopamine, norepinephrine, and serotonin) significantly increased after bupropion injection. This was accompanied by a significant decrease in prolactin concentrations, whereas the other hormones showed no statistically significant variation. It can, therefore, be concluded that, although bupropion has dual reuptake proprieties, the observed effects both at the central and at the peripheral level seem to be ruled by the dopaminergic system.     

Biodegradation of the gasoline oxygenates methyl tert-butyl ether, ethyl tert-butyl ether, and tert-amyl methyl ether by propane-oxidizing bacteria.

Several propane-oxidizing bacteria were tested for their ability to degrade gasoline oxygenates, including methyl tert-butyl ether (MTBE), ethyl tert-butyl ether (ETBE), and tert-amyl methyl ether (TAME). Both a laboratory strain and natural isolates were able to degrade each compound after growth on propane. When propane-grown strain ENV425 was incubated with 20 mg of uniformly labeled [14C]MTBE per liter, the strain converted > 60% of the added MTBE to 14CO2 in < 30 h. The initial oxidation of MTBE and ETBE resulted in the production of nearly stoichiometric amounts of tert-butyl alcohol (TBA), while the initial oxidation of TAME resulted in the production of tert-amyl alcohol. The methoxy methyl group of MTBE was oxidized to formaldehyde and ultimately to CO2. TBA was further oxidized to 2-methyl-2-hydroxy-1-propanol and then 2-hydroxy isobutyric acid; however, neither of these degradation products was an effective growth substrate for the propane oxidizers. Analysis of cell extracts of ENV425 and experiments with enzyme inhibitors implicated a soluble P-450 enzyme in the oxidation of both MTBE and TBA. MTBE was oxidized to TBA by camphor-grown Pseudomonas putida CAM, which produces the well-characterized P-450cam, but not by Rhodococcus rhodochrous 116, which produces two P-450 enzymes. Rates of MTBE degradation by propane-oxidizing strains ranged from 3.9 to 9.2 nmol/min/mg of cell protein at 28 degrees C, whereas TBA was oxidized at a rate of only 1.8 to 2.4 nmol/min/mg of cell protein at the same temperature.     

Effect of wounding on nucleotide pools inBidens pilosa L.

Wounding both cotyledons ofBidens pilosa (var.radiatus) induces the inhibition of hypocotyl growth. The wound signal is transmitted very rapidly from cotyledon to hypocotyl and can be visualized by the change in nucleotide pools. First we have shown that the irradiance of the plant can change the ATP level without plant wounding. Therefore, plants were harvested at the start of the light period. Under these conditions, we have determined in hypocotyl the levels of adenosine triphosphate (ATP), guanosine triphosphate (GTP) and non adenylic triphosphates (NTP), and adenylate energy charge (AEC) after wounding. We have observed a transient (2 min) increase in the ATP level followed by a decrease 5 to 30 min later. A similar result was obtained for the GTP level but with some delay. The GTP level increased in 5 min and then decreased after 60 min. For the NTP level the decrease is effective from 5 to 60 min after wounding. The calculation of AEC has shown that a very tight control in the level of ATP may be involved in response to wounding.     

Inhibitory effect of alcohol on the established suckling-induced prolactin surge in lactating rats

The effect of acute alcohol infusion on the established suckling-induced prolactin surge in lactating rats was examined. Dams were implanted with an atrial catheter on Day 6 of lactation and blood sampling was done on Day 10. Following the separation of litters from dams for a 6-hr period, a baseline blood sample was removed via a catheter extension. Pups were weighed and returned to dams. Subsequent blood samples were obtained 10, 30, and 60 min after initiation of suckling. Dams were then infused with alcohol doses of 0, 0.5, 1.0, 2.0, or 2.5 g/kg body wt. Infusion (0.1 ml/min) was completed in approximately 30 min. Additional blood samples were obtained 10 30, 60, and 120 min after the termination of infusion. In a separate group of rats, pups were removed from the dam after the first 60 min of suckling and additional blood samples were obtained 40, 70, 90, and 150 min after removal of pups (corresponding to 10-, 30-, 60-, and 120-min samples for rats infused with various alcohol doses). Alcohol, when administered after the establishement of suckling-induced prolactin surge and resulting in blood alcohol levels equal to or greater than legal human intoxication levels, inhibited prolactin release. However, continued suckling for an extended period (120 min in the present study) overcame this inhibitory effect, even when the blood alcohol level was comparable to (2.0 g/kg group) or greater than (2.5 g/kg group) the human legal intoxication level. Furthermore, in rats with established prolactin surges, the patterns of prolactin decline that followed alcohol administration or pup removal were comparable, indicating that similar mechanism(s) may be involved.     

The decrease of NAD(P)H has a prominent role in dopamine toxicity

We characterized dopamine toxicity in human neuroblastoma SH-SY5Y cells as a direct effect of dopamine on cell reductive power, measured as NADH and NADPH cell content. In cell incubations with 100 or 500 microM dopamine, the accumulation of dopamine inside the cell reached a maximum after 6 h. The decrease in cell viability was 40% and 75%, respectively, after 24 h, and was not altered by MAO inhibition with tranylcypromine. Dopamine was metabolized to DOPAC by mitochondrial MAO and, at 500 microM concentration, significantly reduced mitochondrial potential and oxygen consumption. This DA concentration caused only a slight increase in cell peroxidation in the absence of Fe(III), but a dramatic decrease in NADH and NADPH cell content and a concomitant decrease in total cell NAD(P)H/NAD(P)+ and GSH/GSSG and in mitochondrial NADH/NAD+ ratios. Dopaminechrome, a product of dopamine oxidation, was found to be a MAO-A inhibitor and a strong oxidizer of NADH and NADPH in a cell-free system. We conclude that dopamine may affect NADH and NADPH oxidation directly. When the intracellular concentrations of NAD(P)H and oxidized dopamine are similar, NAD(P)H triggers a redox cycle with dopamine that leads to its own consumption. The time-course of NADH and NADPH oxidation by dopamine was assessed in cell-free assays: NAD(P)H concentration decreased at the same time as dopamine oxidation advanced. The break in cell redox equilibrium, not excluding the involvement of free oxygen radicals, could be sufficient to explain the toxicity of dopamine in dopaminergic neurons.     

The predominant role of the spleen in lymphocyte recirculation. II. Pre- and postsplenectomy retransfusion studies in young pigs.

Autologous blood lymphocytes from three normal pigs were labelled with 3H-uridine and retransfused before and after splenectomy. Frequent samples for up to 150 min after retransfusion were evaluated autoradiographically to determine the rate of disappearance of labelled lymphocytes from the blood. In one pig retransfusion was performed before and after sham-splenectomy. In all preoperative experiments the pattern of disappearance of labelled lymphocytes was very similar. After a first rapid decline (halving time on average 8 min) a short rise of the labelling index was observed from 10 to 15 min after retransfusion. Then a second more gradual decrease of labelled lymphocytes followed. The mean halving time during this period was less than 32 min. From 60 min onwards the labelling index remained nearly constant. Retransfusions performed 3 days after splenectomy revealed only one nearly constant decline of the labelling index (halving time on average 129 min). After sham-splenectomy the pattern of disappearance was similar to the preoperative experiment. One hour after the end of retransfusion the labelling index had decreased by three-quarters of the initial value in normal pigs and by only one-third in the splenectomized ones. These results indicate that in the pig the total rate of recirculation is at least 4 times faster with the spleen in situ than without the spleen.     

Evening alcohol suppresses salivary melatonin in young adults

The study objective was to determine the acute effects of a moderate evening dose of alcohol on salivary melatonin levels in humans with stable prior sleep-wake histories and in a controlled environment. Twenty-nine adults (nine males) ages 21 to 25 (M=22.6, SD=1.2) yrs adhered to a 10-day at-home stabilized sleep schedule followed by three in-lab adaptation, placebo, and alcohol (order counterbalanced) study nights. Alcohol (vodka: 0.54 g/kg for men and 0.49 g/kg for women) or placebo beverage was consumed over 30 min, ending 1 h before stabilized bedtime. At 140 and 190 min after alcohol administration, melatonin level was reduced by 15% and 19%, respectively, in comparison to placebo. The findings indicate that a moderate dose of alcohol in the evening suppressed melatonin in young adults.