Regional turnover of norepinephrine and dopamine in rat brain following acute exposure to air ions

Exposure to air ions has been reported to influence serotonin (5HT), although critical reviews of these studies and previous measurements in our laboratory of the concentration, release, and utilization of brain 5HT indicate that neither the data nor the interpretations of the data are particularly convincing. Measurements of other possibly relevant neurotransmitter systems--norepinephrine (NE) and dopamine (DA)--were made in brain regions selected because of their importance in the modulation of brain functions relating to motivation, arousal, endocrine function, and motor activity, all responses that have been reported to be influenced by air ion exposure. Results indicate that exposure of male Holtzman rats to high concentrations (5.0 X 10(5)/cm3) of positive or negative air ions or to DC electric fields (3.0 kV/m) for periods up to 66 h failed to affect the concentration of NE or DA significantly in any of the brain regions.     

Separate effects of low carbon dioxide and low oxygen content on rat brain monoamine metabolism during hypoxemia

Awake, adult male rats (some with chronically indwelling femoral artery catheters) were exposed for up to 7 days to one of three environments: a) normoxia (PIO2 = 155 Torr), b) hypoxic hypocapnia (PIO2 = 90 Torr), and c) hypoxic normocapnia (PIO2 = 73 Torr, PICO2 = 32 Torr), and arterial blood gas and acid-base status were documented. After 1 hour to 7 days, rats were sacrificed, and the time courses of the brain levels and turnovers of norepinephrine (NE), dopamine (DA) and serotonin (5-hydroxytryptamine or 5HT) were determined in each condition. The transient decrease in monoamine levels seen on exposure to acute hypoxia was absent if normocapnia was maintained; 7 days hypoxia with or without hypocapnia resulted in increased monoamine levels. Normocapnia also prevented an immediate, sustained decrease in 5HT turnover and a delayed decrease in DA turnover which were observed in hypoxic hypocapnia. A delayed increase in 5HT turnover appeared to be due to hypoxia independent of PaCO2. Therefore, the initial, transient loss of mental acuity and some ventilatory adaptations observed during prolonged hypoxia may be a result of the decrease in PaCO2 rather than the decreased oxygen concentration.     

Activation of bulbospinal serotonergic neurons during cold exposure.

In a four-part study, we expand on our previous report that bulbospinal serotonin (5HT) neuronal activation occurs with 24 h of cold exposure. To characterize temporal aspects, rats were exposed to 3 degrees C or were maintained at 22 degrees C for 2, 8, 48, or 96 h (experiment 1) or for 15, 30, or 60 min (experiment 2). To ensure that cold-induced changes in 5HT activity were not due to disturbances in diurnal pattern, rats in experiment 3 were exposed to cold (8 h) during the dark cycle. To explore the hypothesis that cold-induced 5HT activation is part of a broad metabolic response that includes activation of the sympathetic nervous system, metabolically impaired (hypothyroid) rats were exposed to 8 degrees C in experiment 4. Significant increments in 5-hydroxyindoleacetic acid (SHIAA) concentration were evident by 60 min of cold exposure and existed at all later time points measured. These findings were most robust in spinal cord and rostral brainstem. Activation in spinal cord was also found when rats were exposed to 8 h of cold during the dark cycle, the active period for rats. In experiment 4, hypothyroid rats exhibited significantly greater norepinephrine excretion compared with control rats exposed to the same cold stimulus; this finding was accompanied by significantly greater increments in 5HIAA concentration in rostral brainstem and spinal cord of hypothyroid rats. In addition, significant elevations in tryptophan concentration were noted throughout the brainstem and spinal cord of cold-exposed, hypothyroid rats relative to room temperature, hypothyroid rats. This finding suggested that elevations in 5HIAA concentration in these rats were due to increases in precursor availability. The implications of these findings relative to autonomic and metabolic control are discussed.     

Disruption of 5-hydroxytryptaminergic neuronal function blocks the action of morphine on tuberoinfundibular dopaminergic neurons

Subcutaneous injections of morphine to male rats reduced dopamine(DA) turnover (α-methyltyrosine-induced decline of DA concentrations) in the median eminence, and increased DA turnover in the striatum. Selective destruction of central 5-hydroxytryptamine(5HT)-neurons with intracerebroventricular injections of 5,7-dihydroxytryptamine, or the administration of metergoline, a putative 5HT antagonist, blocked the inhibitory effects of morphine on DA turnover in the median eminence. In the same experiments disruption of 5HT neurotransmission processes caused a similar but less dramatic antagonism of the stimulatory actions of morphine on DA turnover in the striatum. Thus, 5HT neurons play a role in mediating the effects of morphine on tuberoinfundibular and possibly on nigrostriatal DA neurons.     

Dispositif d'aero—ionisation artificielle permettant des traitements ioniques variés

An apparatus is described for the exposure of rats to air ions in experimental work. Air ions are produced by high voltages of positive or negative polarity according to the requirements. Several devices protect animals against ozone and other undesirable molecules formed by high voltages and reduce the electric field to a natural value. Only the smallest ions are dispatched to the animals. The treatment chamber is also the ionization measuring gauge. The measured air ion concentration is identical with the one that reaches the animals. Possible concentrations are in the range from 50,000 to 750,000 ions/ml, with better than 5% precision. Simultaneous treatment of 10 rats for over one hour is possible.     

Effects of acute and chronic toluene inhalation on behavior and (3H)-serotonin binding in rat

Toluene inhalation (0.7 % in air) induced in rats abnormal neurological states resembling the serotonin syndrome, such as hindlimb abduction, resting tremor and head weaving. The frequency and intensity of these responses were unchanged after two weeks of exposure (0.7 % in air, 15 min/day for 14 days), indicating an absence of tolerance development. An examination of specific serotonin (³H-5HT) binding to crude synaptic membranes prepared from brains of rats subjected to acute and chronic toluene exposure revealed that while no changes in either apparent Kd or apparent Bmax occured in acutely exposed animals, in chronically treated animals specific (³H)-5HT binding decreased in hippocampus and pons + medulla oblongata. These results indicate that serotonergic mechanisms may play a role in some of the effects of toluene inhalation in rats, but cannot explain the absence of tolerance development after chronic exposure to toluene.     

Rats avoid exposure to HVdc electric fields: A dose response study

Rats, given the choice, avoid exposure to alternating current (ac) 60-Hz electric fields at intensities ? 75 kV/m. This study investigated the generality of this behavior by studying the response of rats when exposed to high voltage direct current (HV dc) electric fields. Three hundred eighty male Long Evans rats were studied in 9 experiments with 40 rats per experiment and in one experiment with 20 rats to determine 1) if rats avoid exposure to HVdc electric fields of varying field strengths, and 2) if avoidance did occur, what role, if any, the concentration of air ions would have on the avoidance behavior. In all experiments a three-compartment glass shuttlebox was used; either the left or right compartment could be exposed to a combination of HVdc electric fields and air ions while the other compartment remained sham-exposed. The third, center compartment was a transition zone between exposure and sham-exposure. In each experiment, the rats were individually assessed in 1-h sessions where half of the rats (n = 20) had the choice to locomote between the two sides being exposed or sham-exposed, while the other half of the rats'(n = 20) were sham-exposed regardless of their location, except in one experiment where there was no sham-exposed group. The exposure levels for the first six experiments were 80, 55, 42.5, 30, ?36, and ?55 kV/m, respectively. The air ion concentration was constant at 1.4 × 10⁶ ions/cc for the four positive exposure levels and ?1.4 × 10⁶ ions/cc for the two negative exposure levels. Rats having a choice between exposure and non-exposure relative to always sham-exposed control animals significantly reduced the amount of time spent on the exposed side at 80kV/m (P < .002) as they did at both 55 and ?55 kV/m (P < .005). No significant differences between groups were observed at 42.5, 30, or -36 kV/m. To determine what role the air ion concentration might have had on the avoidance behavior at field strengths of 55 kV/m or greater, four additional experiments were conducted. The HVdc exposure level was held constant at either ?55 kV/m (for three experiments) or -55 kV/m (for 1 experiment) while the air ion concentration was varied between experiments at 2.5 × 10⁵ ions/cc, 1.0 × 10⁴ for two of the experiments and was below the measurement limit (< ± 2 × 10³ ions/cc) for the other two experiments at 55 and ?55 kV/m. The exposed rats significantly reduced the amount of time spent on the exposed side at 55 and ?55 kV/m, relative to the sham-exposed rats regardless of air ion concentration (all at P < .005). Thus, HVdc electric fields of ? + or ?55 kV/m are sufficient to produce avoidance behavior in rats. Positive or negative air ion concentrations were not significant factors in these avoidance outcomes. © 1993 Wiley-Liss, Inc.     

Constitutively Elevated Blood Serotonin Is Associated with Bone Loss and Type 2 Diabetes in Rats

Reduced peripheral serotonin (5HT) in mice lacking tryptophan hydroxylase (TPH1), the rate limiting enzyme for 5HT synthesis, was reported to be anabolic to the skeleton. However, in other studies TPH1 deletion either had no bone effect or an age dependent inhibition of osteoclastic bone resorption. The role of 5HT in bone therefore remains poorly understood. To address this issue, we used selective breeding to create rat sublines with constitutively high (high-5HT) and low (low-5HT) platelet 5HT level (PSL) and platelet 5HT uptake (PSU). High-5HT rats had decreased bone volume due to increased bone turnover characterized by increased bone formation and mineral apposition rate, increased osteoclast number and serum C-telopeptide level. Daily oral administration of the TPH1 inhibitor (LX1032) for 6 weeks reduced PSL and increased the trabecular bone volume and trabecular number of the spine and femur in high-5HT rats. High-5HT animals also developed a type 2 diabetes (T2D) phenotype with increased: plasma insulin, glucose, hemoglobin A1c, body weight, visceral fat, β-cell pancreatic islets size, serum cholesterol, and decreased muscle strength. Serum calcium accretion mediated by parathyroid hormone slightly increased, whereas treatment with 1,25(OH)₂D₃ decreased PSL. Insulin reduction was paralleled by a drop in PSL in high-5HT rats. In vitro, insulin and 5HT synergistically up-regulated osteoblast differentiation isolated from high-5HT rats, whereas TPH1 inhibition decreased the number of bone marrow-derived osteoclasts. These results suggest that constitutively elevated PSL is associated with bone loss and T2D via a homeostatic interplay between the peripheral 5HT, bone and insulin.     

Lithium-induced Hypersensitivity to Foot Shock in Rats and the Role of 5-Hydroxytryptophan

REPORTS of the behavioural effects of lithium salts on animals mainly seem to have dealt with depressant effects on spontaneous activities or with toxic symptoms (weight loss, polyuria, polydipsia, diarrhoea and so on). After prolonged lithium treatment, changes in brain 5-hydroxytryptamine (5HT) metabolism have been found to occur; 5HT turnover is decreased either in the whole brain¹ or in specific areas such as brainstem and hypothalamus^{1, 2}, where the levels are also decreased². When levels of 5HT are reduced in the whole brain of rats either by lesions³ or by parachlorophenylalanine (PCPA)⁴, an inhibitor of 5HT synthesis, motor responsiveness of rats to electrical stimulation of the feet has been found to increase. We have observed that rats treated with lithium for a few days struggle more than controls when the skin is punctured in the course of injections and after 2 weeks of treatment with lithium chloride (LiCl), foot shock “jump response” thresholds are reduced by about 10 and 25% with doses of 1 and 2 mequiv./kg respectively. With larger doses, sensitivity to foot shock is not increased further, but may even decline as toxic effects appear; after 2 weeks of administration of 3 mequiv/kg LiCl, toxic effects appeared in nearly all our rats and about 10% of animals died. Sheard⁵ has found that treatment for 5 days with a high dose of LiCl (5 mequiv/kg) had no effect on motor responsiveness to foot shock, although shock-induced aggressive behaviour decreased; no toxic effects were reported.     

Effect of Aging on 24-Hour Changes in Serotonin and Dopamine Turnover, and Somatostatin and Amino Acid Content, of the Rat Hypothalamus and Pituitary Gland

The effect of aging on neurotransmitter and peptide content in the hypothalamichypophysial unit has commonly been analyzed at single time points in the 24-h cycle. Since significant changes in circadian rhythmicity occur during aging, this study aimed to examine 24-h rhythmicity in hypothalamic and pituitary serotonin (5HT) and dopamine (DA) turnover and content, and somatostatin and amino acid content in 2 months-old and 18-20 months-old rats, killed at 6 different time intervals throughout the light-dark cycle. Aged rats showed suppressed or disrupted 24-h rhythms of 5HT and DA turnover and of somatostatin, glutamate, aspartate and taurine content (anterior hypothalamus), of 5HT and DA turnover and of somatostatin, glutamate, taurine and glycine content (medial hypothalamus) and of DA turnover and amino acid content (posterior hypothalamus). Twenty-four h variations in DA, somatostatin, aspartate, GABA and glycine content of the anterior hypophysis and in all parameters tested in the neurointermediate lobe became suppressed or disrupted in aged rats. Mean values generally decreased with age, except for DA content in the anterior pituitary lobe and aspartate content in the neurointermediate lobe. Conclusions: Examination of neurotransmitter and neuropeptide content at different times of the day is needed to analyze the effects of aging in the hypothalamic-hypophysial unit.     

Behavioral monitoring of rats during exposure to air ions and DC electric fields

Air ions and direct current (DC) electric fields have been reported to exert subtle behavioral and biological effects on rodents and humans. These effects often appear inconsistent, yet there have been few attempts to resolve these inconsistencies by experimental replication. Rats exposed to negatively or positively charged air ions over a wide range of concentrations and exposure periods have been reported to show alterations in their level of locomotor activity. In this study, locomotor activity of Sprague-Dawley rats was quantified during exposure to either unipolar air ions and DC fields of the same polarity or DC fields alone. Both polarities were studied. Air ion concentrations were 5.0 X 10(3), DC fields were 3 kV/m, and exposures lasted 2, 18, or 66 h. In one experiment rats were exposed to DC fields of 12 kV/m. No exposure condition exerted any effect on locomotor activity or rearing behavior. In addition, no behavioral perturbations were observed after the onset of any of the exposure conditions, suggesting that the rats may have failed to detect the altered environment.     

Chronic morphine administration decreases 5-hydroxytryptamine and 2-hydroxyindoleacetic acid content in the brain of rats

To study the effects of chronic morphine treatment on cerebral 5-hydroxytryptamine (5HT) metabolism morphine was administered twice daily for 5 or 8 weeks to male Wistar rats. Control rats were treated with 0.9% NaCl solution for the same period. In rats treated chronically with morphine for 8 weeks the cerebral concentrations of 5HT and 5HIAA were reduced by 12--15% (P less than 0.05) at 26--28 h after the last morphine injection (50 mg/kg s.c.). No such decrease was found in the brain of rats treated with morphine for 5 weeks. A test dose of morphine (30 mg/kg s.c. 2h) increased the cerebral concentration and probenecid-induced accumulation of 5HIAA in the rats treated with morphine for 8 weeks almost as much as in the brain of the control rats. Naloxone (10 mg/kg s.c. 2h) did not cause clear changes in the cerebral 5HT or 5HIAA concentration. These experiments suggest that endogenous opioid mechanisms are concerned in the regulation of 5HT neurons and that prolonged morphine treatment weakens these mechanisms. This weakening of endogenous regulation of 5HT neurons, which, however, still respond to acute morphine administration, might be part of the mechanism of compulsive drug use in narcotic addiction. It is possible that these neurons in dependent individuals do not function optimally without exogenous morphine. A similar phenomenon--weakening of endogenous regulation combined with clear responsivity to exogenous opiates--occurs in the cerebral dopamine neurons of rats treated chronically with narcotic analgesics.     

The effects of the perinatal treatment with 5-hydroxytryptophan or tranylcypromine on the peripheral and central serotonin homeostasis in adult rats

Serotonin (5HT) is a biologically active amine present in mammals in the brain and the peripheral tissues. Autism is a neurodevelopmental disorder in which 5HT homeostasis is disturbed both centrally and peripherally, but the relationship between the 5HT disturbances in the two compartments is not understood. In an attempt to explore the relationship between the disturbed peripheral 5HT homeostasis and central 5HT functioning, we exposed the developing rat brain to increased 5HT concentrations, by treatment of rats with subcutaneous injections of the immediate 5HT precursor 5-hydroxy-l-tryptophan (5HTP, 25 mg/kg), or the non-selective MAO inhibitor tranylcypromine (TCP, 2 mg/kg), during the period of the most intensive development of 5HT neurons - from gestational day 13 to post-natal day 21. The effects of the mentioned treatments on peripheral and central 5HT levels were then studied in adult rats. Platelet and plasma 5HT concentrations (measured by ELISA), as well as cortical and midbrain 5HT, tryptophan and 5-hydroxyindoleacetic acid levels (measured by HPLC) were determined in twelve 5HTP treated and eight TCP treated rats, and compared with the values measured in 10 control, saline treated rats. Treatment with 5HTP significantly raised peripheral but not central 5HT concentrations. At adult age, peripheral 5HT homeostasis was re-established, while modest decrease in 5HT concentration was observed in frontal cortex, presumably due to hyperserotonemia-induced loss of 5HT terminals during brain development. Treatment with TCP induced significant 5HT elevations in both compartments. At adult age, permanent changes in 5HT homeostasis were observed, both peripherally (as hyperserotonemia) and centrally (as altered 5HT metabolism with decreased 5HT concentrations). Further studies are planned in order to explore the nature of the different disturbances of 5HT homeostasis induced by the two compounds, and their results are expected to shed some light on the role of hyperserotonemia in autism.     

Serotonergic control of prolactin release in male rats.

To further clarify the relationship between the central serotonergic system and the control of prolactin secretion, we studied the effect of dorsal raphe' lesions, electrical stimulation of the midbrain raphe' nucleus and treatment with parachlorophenylalanine (PCPA) on prolactin secretion. Radio frequency destruction of serotonergic cell bodies in the midbrain dorsal raphe' nucleus or PCPA decreased forebrain serotonin (5HT) and 5-hydroxyindoleacetic acid (5HIAA) concentration and prolactin secretion. Electrical stimulation of the raphe' increased forebrain serotonin turnover and prolactin secretion. These observations indicate that serotonergic neurons located in the raphe' nuclei may be involved in regulating prolactin secretion in male rats.     

Incorporation of 18O2 into brain serotonin in vivo as a procedure for estimating turnover: a feasibility study in animals.

Serotonin (5HT) containing ¹⁸0 instead of ¹⁶0 was found in brain after exposing rats to an atmosphere of ¹⁸0₂. The ¹⁸0 incorporation appeared linear with time and 22% of the 5HT in striatum contained ¹⁸0 after one hour of exposure. ¹⁸0 entered 5HT by enzymatic reaction rather than by isotope exchange as treatment with p-chlorophenylalanine, to block tryptophan hydroxylase, prevented incorporation, while more ¹⁸0-5HT than normal was found in brain after treatment with pargyline, to block monoamine oxidase. Our studies suggest that the incorporation of ¹⁸0₂ into brain 5HT might be a feasible approach for evaluating 5HT turnover in animals and with some modification might be applied in man.     

The influence of dehydroepiandrosterone and 8-OH-DPAT on the caloric intake and hypothalamic neurotransmitters of lean and obese Zucker rats

The 5 HT(1A) receptor agonist 8-hydroxy-2-(di-n-propylamino)-tetraline (8-OH-DPAT) increases the food intake of satiated Zucker rats, both lean and obese. Associated with this increased intake are changes in the hypothalamic content of serotonin and its metabolite, 5-HIAA (5-hydroxyindole-3-acetic acid); serotonin is increased while the level of 5-HIAA is decreased. Analysis of individual 5-HIAA/5-hydroxytryptamine (5-HT) ratios, a measure of serotonin turnover indicate that 8-OH DPAT affected serotonin turnover equally and dramatically in both phenotypes. This would be an expected physiological action of an autofeedback mechanism by a 5-HT(1A) receptor agonist. Dehydroepiandrosterone (DHEA) at doses as low as 10 mg/kg blocks the 8-OH-DPAT-induced increase in food intake but does not alter food intake of control satiated Zucker rats. The mechanism of DHEA's action was investigated by monitoring the steroid's effect on hypothalamic neurotransmitters in this satiated model. DHEA by itself induced some change in 5-HIAA in the obese satiated model but not the lean. 8-OH-DPAT, by itself, dramatically decreased serotonin turnover in either lean or obese rats, and DHEA combined with 8-OH-DPAT did not further change serotonin turnover, suggesting DHEA may work through mechanisms other than monoamines to cause its inhibition of 8-OH-DPAT-induced behavioral effects at such low doses.     

Twenty-four-Hour Rhythms of Serum Acth,Prolactin, Growth Hormone,and Thyroid-Stimulating Hormone,and of Median-Eminence Norepinephrine,Dopamine, and Serotonin,in Rats Injected with Freund's Adjuvant

The effect of Freund's adjuvant injection on 24-h variation of circulating ACTH, prolactin, growth hormone (GH), and thyroid-stimulating hormone (TSH) levels, and of norepinephrine (NE) content, and dopamine (DA) and serotonin (5HT) turnover in median eminence, was examined in adult rats kept under light between 0800 and 2000 h daily. Groups of 6–10 animals Freund's complete adjuvant or its vehicle at 1 lOOh 3 days before sacrifice and were killed by decapitation at six different time intervals throughout a 24-h cycle. In rats injected with adjuvant's vehicle, serum ACTH and prolactin exhibited peak values around the light-dark transition (p < 0.0001 and < 0.04, respectively), while the maximum in TSH was found in the late afternoon (p < 0.0001, one-way ANOVA). GH levels did not vary on a 24-h basis. In Freund's adjuvant-injected rats, 24-h variations of TSH levels became blunted, while 24-h variations of prolactin and ACTH persisted. Freund's adjuvant augmented serum ACTH and prolactin levels, and decreased GH and TSH levels (p < 0.0007, factorial ANOVA). Median-eminence NE content, and turnover of DA, assessed by measuring dihydroxyphenylacetic acid, DOPAC/DA ratio, and of 5HT, assessed by measuring 5-hydroxyindoleacetic acid, HIAA/5HT ratio, varied on a 24-h basis in rats receiving adjuvant's vehicle (p < 0.02). Median-eminence NE content attained its maximum at 1600–2000 h, while maxima in DOPA/DA and HIAA/5HT ratios occurred at 0400 h. Injection with Freund's adjuvant reduced the amplitude of the daily variation of NE content, shifted the maximum of DOPAC/DA ratio toward the light-dark transition, and blunted the daily variation in HIAA/5HT ratio in median eminence. The administration at 1200 of the immunosuppressant drug cyclosporine (5 mg/kg, 5 days) restored the augmented ACTH and prolactin levels (p < 0.0001, factorial ANOVA) and depressed GH and TSH levels (p < 0.02) found in Freund's adjuvant-injected rats. Cyclosporine was also effective in restoring 24-h rhythmicity of serum ACTH and TSH, but not of prolactin, levels. Cyclosporine did not modify the effect of Freund's adjuvant on time-of-day changes of median-eminence NE content, but it was effective in counteracting the changes of DA and 5HT turnover found after immunization. The results are compatible with a significant effect of immune-mediated inflammatory response at an early phase after Freund's adjuvant injection on ACTH, GH, prolactin, and TSH release, which is partially sensitive to immunosuppression by cyclosporine. (Chronobiology International, 14(3), 253–265, 1997)     

Effects of serotonin (5HT) and complement C3 on the synthesis of the surface membrane precursors of adult Schistosoma mansoni

The syncytial surface epithelium of Schistosoma mansoni plays an important role in immune evasion. This syncytium is covered by an unusual double-membrane complex consisting of an apical plasma membrane (APM) and an overlying envelope (En) that have been shown to have different rates of synthesis and turnover. It has been suggested that discoid bodies (DBs) and multilamellar bodies (MLBs), the major syncytial inclusion bodies of schistosomes, may be the precursors of the APM and En, respectively. In this ultrastructural study, we examined the effects of serotonin (5HT) and complement C3, which have been shown to stimulate synthesis and turnover of the APM and En, respectively, on the synthesis of DBs and MLBs in vitro. With short-time incubations (20 or 40 min), 5HT stimulated the synthesis of the DBs by 2-fold, whereas C3 accelerated synthesis of the MLBs by 2-fold. Furthermore, when microtubules within the cytoplasmic connections between the syncytium and the underlying cell bodies (the site of membrane synthesis) were disrupted with colchicine, the DBs and MLBs synthesized in response to 5HT or C3 accumulated in the cell bodies. This suggests that the transport of the organelles to the syncytium is dependent upon the microtubules but not the signaling mechanism in response to 5HT or C3. These observations also support the suggestion that the DBs and MLBs are synthesized in subsyncytial cell bodies and serve as precursors of the APM and En, respectively. The rapid synthetic response to 5HT and C3 is also consistent with rapid synthesis and turnover of the APM/En, as suggested by previous studies.     

Effects of β-endorphin on brain serotonin metabolism

Human β-endorphin (15 μg) administered intracisternally increased concentrations of serotonin (5HT) and its metabolite, 5-hydroxyindoleacetic. acid (5-HIAA), in brain stem and hypothalamus and decreased 5-HIAA concentrations in hippocampus. These data are compatible with the hypothesis that β-endorphin increases 5HT turnover in brain stem and hypothalamus and decreases 5HT turnover in hippocampus. β-endorphin increased in brain stem and hypothalamus and decreased in hippocampus the rate of pargyline-induced decline of 5-HIAA. β-endorphin decreased the rate of pargyline-induced accumulation of 5HT in all these brain regions. The probenecid-induced accumulation of 5-HIAA in brain stem was decreased by β-endorphin. These data are compatible with the hypothesis that β-endorphin increases release of 5HT from neurons in brain stem and hypothalamus and decreases release of 5HT from neurons in hippocampus. The data require further a hypothesis that β-endorphin either decreases 5HT reuptake in these three brain regions or increases 5-HIAA egress from brain.     

Nitrogen dioxide air pollution near ambient levels is an atherogenic risk primarily in obese subjects: a brief communication

Ambient exposure to nitrogen dioxide, a critical air pollutant in developed countries, is positively associated with cardiovascular mortality and morbidity. Although its cardiovascular effects are predominantly shown in patients with high risk of atherogenesis, no studies have elucidated whether daily exposure to nitrogen dioxide air pollution enhances atherogenic metabolisms, primarily in obese subjects who are susceptible to atherogenesis and subsequent cardiovascular diseases. We used male Otsuka Long-Evans Tokushima Fatty (OLETF) rats as obese subjects and Long-Evans Tokushima (LETO) rats as nonobese controls. The animals were continuously exposed to nitrogen dioxide at a concentration of 0, 0.16, 0.8, or 4.0 ppm from 8 weeks of age through 32 weeks. At 40 weeks of age, levels of body weight, triglyceride, and total cholesterol were significantly greater in the OLETF rats than in the LETO rats. A ratio of high-density lipoprotein (HDL) to total cholesterol was significantly smaller in the former than in the latter. In the LETO rats, nitrogen dioxide exposure significantly decreased only the levels of HDL as compared with clean air exposure. In the OLETF rats, however, nitrogen dioxide exposure at a concentration of 0.16 ppm significantly elevated triglyceride concentration and decreased the ratio of HDL to total cholesterol as well as the levels of HDL. Nitrogen dioxide air pollution near ambient levels is an atherogenic risk primarily in obese subjects.