Caffeine injection raises brain tryptophan level,but does not stimulate the rate of serotonin synthesis in rat brain

Acute caffeine injection (100 mg/kg) elevates brain levels of tryptophan (TRP), serotonin (5HT), and 5-hydroxyindoleacetic acid (5HIAA). Experiments were performed to determine if the increases in 5HT and 5HIAA result from a stimulation of the rate of 5HT synthesis. Both the rate of 5-hydroxytryptophan (5HTP) accumulation following NSD-1015 injection, and the rate of ³H-5-hydroxyindole synthesis from ³H-tryptophan were measured $\text{in vivo}$ following caffeine administration and found to be normal. Tryptophan hydroxylase activity, as measured $\text{in vitro}$ in brain homogenates, was also unaffected by caffeine. The results suggest that the elevations in brain 5HT and 5HIAA levels produced by caffeine do $\text{not}$ reflect enhanced 5HT synthesis, despite significant elevations in brain TRP level. Some other mechanism(s) must therefore be responsible for these elevations in brain 5-hydroxyindole levels.     

Nociceptin differentially affects morphine-induced dopamine release from the nucleus accumbens and nucleus caudate in rats

The effects induced by nociceptin on morphine-induced release of dopamine (DA), 3,4-dihydroxyphenilacetic acid (DOPAC) and homovanillic acid (HVA) in the nucleus accumbens and nucleus caudate were studied in rats by microdialysis with electrochemical detection. Nociceptin administered intracerebroventricularly (i.c.v.) at doses of 2, 5 and 10 nmol/rat changed neither DA nor metabolites release in the shell of the nucleus accumbens or in the nucleus caudate. Morphine administered intraperitoneally (i.p.) (2, 5, and 10 mg/kg) increased DA and metabolites release more in the shell of the nucleus accumbens than in the nucleus caudate. When nociceptin (5 or 10 nmol) was administered 15 min before morphine (5 or 10 mg/kg), it significantly reduced morphine-induced DA and metabolites release in the shell of the nucleus accumbens, whereas only a slight, nonsignificant reduction was observed in the nucleus caudate. Our data indicate that nociceptin may regulate the stimulating action associated with morphine-induced DA release more in the nucleus accumbens than in the nucleus caudate, and are consistent with recent observations that nociceptin reversed ethanol- and morphine-induced conditioned place preference. Therefore, the nociceptin-induced reduction of DA release stimulated by morphine in the nucleus accumbens, and the results obtained with nociceptin in the conditioned place preference procedure suggest a role for nociceptin in the modulation of the behavioral and neurochemical effects of abuse drugs.     

Effects of Chronic Restraint Stress on Feeding Behavior and on Monoamine Levels in Different Brain Structures in Rats

Monoaminergic systems are important modulators of the responses to stress. Stress may influence feeding behavior, and the involvement of monoamines in the control of food intake is well recognized. We investigated the effects induced by chronic-restraint stress, 1 h a day, for 40 days, on eating behavior and on monoamines in distinct brain structures. Increased consumption of sweet pellets, and not of peanuts, was observed. Dopamine (DA), serotonin (5–HT), and their metabolites were measured by HPLC-EC. After chronic restraint, the results observed were decreased 5–HT in hippocampus, with increased 5–HIAA/5–HT; decreased 5–HIAA levels in cortex; reduction in DA in hippocampus, and increased levels in amygdala and hypothalamus; HVA increased in cortex, as well as HVA/DA ratio, while DOPAC/DA decreased. HVA decreased in hypothalamus, as well as HVA/DA, and DOPAC/DA and HVA/DA decreased in the amygdala. These results suggest that restraint stress differentially affects the activity of central dopaminergic and serotonergic neurons, and this may be related to the effects observed in eating behavior.     

Inhibition of MAO-B by (−)-deprenyl alters dopamine metabolism in the macaque (Macaca facicularis) brain

The present study has examined whether MAO-B has a role in DA metabolism in the primate CNS in situ. Eleven macaques (macaca facicularis) were used in this study to examine the effects of (-)-deprenyl (1 mg/kg, i.v., 2 and 24 hours). (-)-Deprenyl administration completely and selectively blocked MAO-B activity and blocked DA metabolism in the caudate nucleus and frontal cortex. DA metabolism in the substantia nigra was not affected by MAO-B inhibition. Changes in DA metabolism were accompanied by changes in 5-hydroxytryptamine (5HT) turnover: 5-hydroxyindole acetic acid (5HIAA) levels increased in the caudate and decreased in the frontal cortex. Levels of 2-phenylethylamine (PE), a putative modulator of dopaminergic transmission, were increased by MAO-B inhibition in all three brain regions examined. It is concluded that in some regions of the primate brain, in contrast to the rat, MAO-B has an important role in DA metabolism.     

Neurotransmitters and their metabolites in the brains of fetal and newborn lambs

We tested the hypothesis that there is an orderly progressive increase in neurotransmitters in the brains of fetal and neonatal sheep. The pregnant ewes or newborns were killed with an intravenous overdose of pentobarbitone. Brains were removed immediately and frozen at -80 degrees C for later dissection and measurement of norepinephrine (NE), dopamine (DA), serotonin (5HT), homovanillic acid (HVA) and hydroxyindole acetic acid (HIAA). Fetuses were studied at 130-135 days gestation (term gestation 147 days), 140-145 days gestation and 1-5 days after birth. The only compound that was significantly different at the three ages was HIAA. Significant regional differences for NE, DA, and HVA, but not for 5HT were demonstrated.     

Effects of acute and subacute cocaine administration on the CNS dopaminergic system in Wistar-Kyoto and spontaneously hypertensive rats: I. Levels of dopamine and metabolites

Effects of acute and subacute cocaine administration on dopamine (DA) and its metabolites in striata and nucleus accumbens of nine week-old Wistar-Kyoto and spontaneously hypertensive rats were studied. Levels of DA,3,4-dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA) were determined by HPLC-EC. There were no differences in DA levels in striata and nucleus accumbens between control WKY and SHR. Levels of DA in two brain regions were unaffected in groups treated acutely with cocaine. Both strains showed a significant increase in striatal HVA 2 hr after cocaine injection. Seven day treatment declined DA levels in striatum of WKY and in nucleus accumbens of SHR. However, only WKY treated subacutely with cocaine showed significantly increased HVA either with or without changes in DOPAC in nucleus accumbens and striatum, respectively. Increased DOPAC/DA and HVA/DA ratios appeared only in striatum of WKY and in nucleus accumbens of SHR following subacute treatment. These results suggest that subacute cocaine administration affects DA levels in striata and nucleus accumbens differently between WKY and SHR.     

Differential effects of d-amphetamine, β-phenylethylamine,cocaine and methylphenidate on the rate of dopamine synthesis in terminals of nigrostriatal and mesolimbic neurons and on the efflux of dopamine metabolites into cerebroventricular perfusates of rats

The $\text{in}$$\text{vivo}$ of four psychomotor stimulants (d-amphetamine, β-phenylethylamine, cocaine and methylphenidate) were determined on: 1) the rate of dopamine (DA) synthesis, as measured by the accumulation of dihydroxyphenylalanine (DOPA) after aromatic L-amino acid decarboxylase inhibition, in the striatum (terminals of nigrostriatal neurons) and in the nucleus accumbens and olfactory tubercle (terminals of mesolimbic neurons) and 2) the efflux of the DA metabolite 3,4-dihydroxyphenylacetic acid (DOPAC) into cerebroventricular perfusates of conscious, freely-moving rats. d-Amphetamine and β-phenylethylamine produced biphasic responses with lower doses of each drug increasing both the efflux of DOPAC and the rate of DA synthesis in the striatum. Higher doses of each drug either had no effect or actually decreased the efflux of DOPAC and also decreased the rate of DA synthesis in the striatum. Higher doses of each drug either had no effect only decreased the efflux of DOPAC and the rate of DA synthesis in the striatum. The effects of the drugs on the rate of DA synthesis in the nucleus accumbens and olfactory tubercle were similar to, but less pronounced than those seen in the striatum. These results are consistent with the following suggestions: 1) low doses of d-amphetamine and β-phenylethylamine facilitate the neuronal release of DA while higher doses of both drugs facilitate release and inhibit neuronal reuptake of the amine, and 2) cocaine and methylphenidate preferentially block the neuronal reuptake of DA.     

The metabolism of dopamine in rat caudate nucleus can be increased by in vivo “dialysis” perfusion cannulae

The development of dialysis cannula techniques coupled with high performance liquid chromatography and electrochemical detection (HPLC-EC) has provided a means to continuously sample extracellular fluid from deep brain structures $\text{in vivo}$. The present studies show that with HPLC-EC analysis of the acid metabolites of dopamine (DA) and 5-hydroxytryptamine (5-HT) in samples from dialysis cannulae implanted in the caudate nucleus of anaesthetized rats, it is possible to determine the time course of the response of dopamine- and 5-HT containing neurones to administration of monoamine oxidase inhibitors and haloperidol. The tissue concentrations of the DA and 5-HT metabolites were also determined at the conclusion of each individual experiment in both the caudate nucleus containing a cannula and in that without a cannula. In perfusion experiments where no drug was administered the content of the DA metabolites, but not that of the 5-HT metabolite, were significantly elevated in the caudate nucleus containing the cannula as compared with the contralateral tissue. These increases occurred whether the cannula was perfused or not, suggesting that the presence of the cannula may have been causing a lesion which altered the activity of the DA neurones. These results emphasize the importance of tissue analysis in conjunction with the dialysis experiments, especially where perfusion sample contents of the monoamine metabolites are being measured as a reflection of the effects of behavioural manipulation or drug treatment on endogenous neuronal activity.     

Effects of the cilioexcitatory neurohumors dopamine and 5-hydroxytryptamine on cyclic AMP levels in the gill of the mussel Mytilus edulis.

Cyclic 3′, 5′-adenosine monophosphate (cAMP) has been identified in the ciliated gill epithelium of the marine mussel $\text{Mytilus}$$\text{edulis}$. In concentrations which stimulate the rate of particle transport by frontal gill cilia, DA and 5HT stimulate levels of cAMP within the gill. The stimulation occurs in as early as 15 sec and is graded from 10^?6M to 10^?4M. DA plus 5HT is not additive at maximal effective concentrations of both amines. ACH does not mimic the DA or 5HT stimulation of cAMP. Theophylline alone has a weak effect on cAMP levels; however, the effect of theophylline is potentiated in the presence of DA or 5HT. Dibutyryl cAMP produces a gradual stimulation in the rate of particle transport. It is suggested that the dopaminergic and serotonergic excitatory control of particle transport by frontal gill cilia of $\text{Mytilus}$$\text{edulis}$ is mediated through a cAMP second messenger system.     

Phencyclidine (PCP) injected in the nucleus accumbens increases extracellular dopamine and serotonin as measured by microdialysis

Phencyclidine (PCP; 20 micrograms in 0.5 microliter) was tested by local brain injection for neurochemical effects in the nucleus accumbens and striatum of rats. Changes in dopamine turnover could not be detected in postmortem tissue assays. In contrast, extracellular levels of dopamine significantly increased as measured by microdialysis in freely moving animals. PCP also increased extracellular levels of serotonin and decreased 3,4-dihydroxyphenylacetic acid (DOPAC), but did not change homovanillic acid (HVA) or 5-hydroxyindoleacetic acid (5HIAA). Microdialysis suggests that PCP acts in some dopamine terminal regions to increase extracellular dopamine and serotonin.     

Dopamine-sensitive adenylate cyclase of the caudate nucleus of rats treated with morphine.

The addition of narcotic analgesics $\text{in vitro}$ to nerve ending preparations from rat caudate nucleus in an assay of adenylate cyclase activity (AC) resulted in an inhibition of basal AC only at drug concentrations of 10−⁴M or higher, and no inhibition of dopamine-stimulated (DA) AC at these drug concentrations. The acute administration of morphine at a moderately high dose (60 mg/kg) produced an increase in striatal cAMP levels, and increases in basal and DA-AC in caudate nerve-endings. In morphine-tolerant rats, striatal cAMP levels and basal AC were similar to control values, while DA-AC was elevated. These results suggest: (1) that opiates do not act directly on DA-AC, the ‘dopamine receptor’, and (2) that the observed behavioural DA sensitivity in tolerant animals may be produced by the DA-AC supersensitivity.     

Blockade of the picrotoxin-induced in vivo release of dopamine in the cat caudate nucleus by diazepam

The effects of picrotoxin and diazepam on the $\text{in}$$\text{vivo}$ release of DA in the caudate nucleus were examined in “encéphale isolé” cats. A push-pull cannula was introduced into the left caudate nucleus and the structure was continuously superfused with L-3, 5-³H-tyrosine. The ³H-DA endogenously synthesized and released in the superfusates was estimated in successive serial fractions. Picrotoxin (2.5 mg/kg) markedly enhanced the release of ³H-DA, as previously shown. Diazepam (10 mg/kg) had no effect on the spontaneous release of the labelled transmitter, but it did prevent the stimulating effect of picrotoxin.     

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)     

Effect of spontaneous ingestion of ethanol on brain dopamine metabolism

The effect of ethanol, either administered by gavage or voluntarily ingested, on brain dopamine (DA) metabolism was studied in alcohol-preferring and alcohol non-preferring rats. In alcohol non-preferring rats ethanol administration (2 g/kg) increased 3,4-dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA) and reduced DA levels in the caudate nucleus and olfactory tubercle but was ineffective in the medial prefrontal cortex. In alcohol-preferring rats ethanol effect was greater than in non-preferring animals and ethanol influenced DA metabolism also in the medial prefrontal cortex. The effect of voluntary ethanol ingestion was studied in alcohol-preferring rats trained to consume their daily fluid intake within 2 hrs. Voluntary ingestion of ethanol (3.1 +/- 0.7 g/kg in 1 hr) increased DA metabolites and reduced DA levels in the caudate nucleus, olfactory tubercle and medial prefrontal cortex. The results suggest that voluntary ethanol ingestion increases the release of DA from nigro-striatal and meso-limbic DA neurons.     

Interrelationships between plasma homovanillic acid and indices of dopamine turnover in multiple brain areas during haloperidol and saline administration

Haloperidol or saline was administered to rats daily for 1, 8, 15 or 22 days. During haloperidol, but not saline administration, changes in plasma homovanillic acid (HVA) concentrations were correlated with changes in nucleus accumbens HVA. Haloperidol administration also had a significant effect on the intercorrelation of dopamine (DA) concentrations and indices of DA turnover across multiple brain areas. In particular, intercorrelations of HVA concentrations among DA terminal brain areas (i.e. striatum, nucleus accumbens, and olfactory tubercle) occurred only during haloperidol treatment.     

Determination of dopamine, homovanillic acid and 3,4-dihydroxyphenylacetic acid in rat brain striatum by high-performance liquid chromatography with electrochemical detection

Two procedures using liquid chromatography with electrochemical detection are described for the determination of dopamine (DA) and its two acidic metabolites, homovanillic acid (HVA) and 3,4-dihydroxyphenylacetic acid (DOPAC), in subregions of rat striatum and nucleus accumbens. A strong cation-exchange column was used for DA analysis and a C₁ reversed-phase column was used for the analysis of the metabolites. Effects of pH, temperature and percentage of methanol on the retention time of HVA and DOPAC were studied. Levels of these compounds in the subregions of rat striatum and nucleus accumbens are reported.     

Effects of African Trypanosomiasis on Brain Levels of Dopamine, Serotonin, 5-Hydroxyindoleacetic Acid, and Homovanillic Acid in the Rabbit

Abstract: Serotonin (5-HT) levels fell by 21% in the mid-brain-thalamus-hypothalamus (MTH) region of the rabbit brain after chronic infection with the protozoan Trypanosoma brucei gambiense. 5-HT did not decrease significantly in the caudate/putamen (CP) or the pons/medulla (PM) region. 5-Hydroxyindoleacetic acid (5-HIAA) levels were unchanged in the MTH and caudate/putamen (CP) but increased by 17% in the pons/medulla (PM) after infection. Dopamine (DA) levels rose by 19% and homovanillic acid (HVA) by 33% in the PM during infection. DA and HVA tended to be lower in the CP of infected rabbits, but the apparent decreases were not statistically significant. DA and HVA levels in the MTH were also unchanged by infection. These neurochemical changes may be involved in the behavioral symptoms that frequently accompany this disease in man and cattle.     

Contribution of plasma homovanillic acid (HVA) to urine and cerebrospinal fluid HVA in the monkey and its pharmacokinetic disposition.

Homovanillic acid (HVA) labelled with two deuterium atoms (d₂-HVA) was used to determine the contribution of HVA in the blood to HVA in the urine and CSF of monkeys. During and after a six-hour intravenous infusion of d₂-HVA at a constant rate, the levels of both d₂-HVA and endogenous HVA (d₀-HVA) in plasma, urine, and CSF were determined by gas chromatography-mass spectrometry, and the relative enrichments of d₂-HVA in each of these fluids calculated. Results indicate that HVA in the urine is derived exclusively from the blood, with no contribution from renal metabolism of dopamine (DA). Furthermore, less than one percent of HVA in either lumbar or ventricular CSF is derived from circulating HVA. The plasma elimination curve of d₂-HVA was biexponential, with a terminal phase half-life ($\text{t}{}_{\mathrm{<mtext>1</mtext><mtext>2</mtext>}}$) of 44 minutes and an apparent volume of distribution of 0.8 liters/kg.     

Amine Metabolites in the Lumbar Cerebrospinal Fluid of Humans with Restricted Flow of Cerebrospinal Fluid

DETERMINATION of homovanillic acid (HVA) and 5-hydroxy-indole acetic acid (5HIAA) in human lumbar cerebrospinal fluid (CSF) is becoming an important tool in the study of the metabolism in the brain of their respective precursors, dopamine and 5-hydroxytryptamine and in the interpretation of the effects of drugs on these substances. The assumption that the concentration of the acidic metabolites HVA and 5HIAA in the lumbar CSF gives a measure of the amount of turnover of the parent amines in the brain is supported by several findings. (1) Amine metabolite concentrations in the lateral ventricular CSF of the dog correlate with their concentrations in adjacent brain areas¹. (2) Peripherally administered HVA only penetrates slightly or not at all to lateral ventricular CSF in the cat² or dog³, similar results being obtained for 5HIAA in the dog⁴. (3) Drugs which alter brain amine turnover in laboratory animals also alter the concentrations of the acidic metabolites in dog³, rabbit⁵ and human⁶ CSF in the appropriate direction. (4) In Parkinsonism and in senile and presenile dementia, conditions in which there is evidence of defective turnover of amines in the brain, low concentrations of HVA and 5HIAA are found in the CSF⁷.     

Drug-induced circling preference in rats

Drugs of abuse, such as phencyclidine (PCP), methamphetamine (METH), and cocaine (COC) are known to affect several behaviors in rats, such as motor activity, stereotypy, and circling. In this study, we evaluated whether these drugs produce circling preferences in the presence or absence of unilateral 6-hydroxydopamine (6-OHDA)-induced lesions of the caudate nucleus. Adult male CD rats were lesioned with 10 μg 6-OHDA/site. Animals were dosed with PCP (15 mg/kg, ip), its congener, (+) MK-801 (0.15 mg/kg, ip), METH (2 mg/kg, ip), COC (60 mg/kg, ip), or apomorphine (0.2 mg/kg, ip). circling preference was recorded in control and lesioned rats for 2 h before animals were sacrificed to determine monoamine levels by HPLC/EC. In control animals, administration of these drugs produced 60–70% left circling. In, lesioned animals, these drugs produced 78–90% ipsilateral (toward the lesion) circling, except apomorphine, which produced 60–80% contralateral (away from the lesion) circling. Dopamine (DA) and its metabolites 3,4-dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA) concentrations significantly decreased ipsilaterally in lesioned caudate nucleus (CN) and substantia nigra (SN). However, no significant changes were observed in nucleus accumbens (NA) and olfactory tubercles (OT). These data demonstrate that drugs of abuse like PCP, its congener (+) MK-801, METH, and COC produce a greater preference to turn toward the left than the right, a finding similar to that found in human psychosis. Since 6-OHDA lesions enhanced the circling bias and depleted DA and its metabolites DOPAC and HVA, it also suggests that the dopaminergic system may be involved in the circling behavior.