Caffeine promotes an ethanol-induced conditioned taste aversion: A dose-dependent interaction.

The present study examined whether caffeine administered within a dose range previously shown to promote ethanol drinking would also alter an ethanol-induced conditioned taste aversion (CTA). The results revealed a dose-dependent interaction between caffeine and ethanol where caffeine (2.5 and 10 mg/kg) promoted an ethanol-induced CTA at a low ethanol dose (1.0 g/kg) but had no effect in blocking CTA at the higher ethanol dose (1.5 g1kg). These results were found to be unrelated to an alteration in ethanol metabolism, as caffeine had no effect in altering blood ethanol levels at the doses tested. In agreement with the reward comparison hypothesis, the present results suggest that rather than attenuate ethanol's "aversive" effects, caffeine may have promoted an ethanol-induced CTA by increasing the reinforcing efficacy of ethanol. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Acute behavioral effects of triazolam and caffeine, alone and in combination, in humans.

The acute behavioral effects of triazolam (0, 0.375, and 0.75 mg/70 kg) and caffeine (0, 250, and 500 mg/70 kg), alone and in combination, were assessed in 9 male volunteers. Ss received all possible dose combinations according to a Latin square design. Triazolam administered alone dose dependently disrupted learning and performance on the Repeated Acquisition and Performance procedure and the Digit Symbol Substitution Test and increased S ratings of sedation. Caffeine administered alone did not significantly affect learning or performance measures, but it did dose dependently increase S ratings of drug strength. Caffeine significantly attenuated triazolam-induced decrements in learning and performance. Consistent with effects on learning and performance, caffeine offset triazolam-induced increases in S ratings of sedation. Combining caffeine and triazolam did not significantly alter increases in S ratings of drug strength observed with caffeine alone. These effects are qualitatively similar to those observed with other benzodiazepines (e.g., lorazepam) and document a high degree of consistency in the behavioral pharmacology of benzodiazepine-caffeine combinations in humans. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Common quantitative trait loci for alcohol-related behaviors and central nervous system neurotensin measures: locomotor activation

We have analyzed LSXSS recumbinant inbred for ethanol-induced activity using 2.0 g/kg ethanol and a new method we call ethanol activation slope. The ethanol activation slope provides a robust dose-response measure of ethanol activation, independent of both activity after saline and the inhibitory effects of ethanol on locomotor activity. These behavioral data were used in a quantitative trait locus analysis to map chromosomal loci involved in ethanol-induced locomotor activity. We tentatively identified seven loci that mediate the low-dose stimulatory effect of ethanol and six loci involved in locomotion after 2.0 g/kg ethanol. Only one of the loci are in common between the two behaviors. We also compared the behavioral quantitative trait locus to those previously identified that are involved in regulating central nervous system neurotensin levels and neurotensin receptor densities. Six chromosomal regions were identified that regulate at least one central nervous system neurotensin measure and an ethanol-induced locomotor behavior. The identification of loci controlling both central nervous system neurotensin levels or neurotensin receptor densities and ethanol-induced locomotor activity strengthens the proposal that neurotensin regulates, in part, ethanol-induced behaviors and central nervous system sensitivity to ethanol.     

Benzodiazepine receptor antagonists modulate the actions of ethanol in alcohol-preferring and -nonpreferring rats

The pyrazoloquinoline CGS 8216 (2-phenylpyrazolo-[4,3-c]-quinolin-3 (5H)-one, 0.05-2 mg/kg) and the beta-carboline ZK 93426 (ethyl-5-isopropyl-4-methyl-beta-carboline-3-carboxylate, 1-10 mg/kg) benzodiazepine receptor antagonists were evaluated for their capacity to modulate the behavioral actions of ethanol in alcohol preferring and -nonpreferring rats. When alcohol-preferring rats were presented with a two-bottle choice test between ethanol (10% v/v) and a saccharin (0.0125% g/v) solution, both antagonists dose-dependently reduced intake of ethanol by 35-92% of control levels on day 1 at the initial 15 min interval of the 4 h limited access. Saccharin drinking was suppressed only with the highest doses. CGS 8216 (0.25 mg/kg) and ZK 93426 (4 mg/kg) unmasked the anxiolytic effects of a hypnotic ethanol dose (1.5 g/kg ethanol) on the plus maze test in alcohol-preferring rats, but potentiated the ethanol-induced suppression in alcohol-nonpreferring rats. CGS 8216 (0.25 mg/kg) and ZK 93426 (4 mg/kg) attenuated the ethanol (0.5 and 1.5 g/kg)-induced suppression in the open field in alcohol-nonpreferring rats; however, CGS 8216 potentiated the depressant effects of the lower ethanol dose (0.5 g/kg) in alcohol-preferring rats. These findings provide evidence that benzodiazepine receptor antagonists may differentially modulate the behavioral actions of ethanol in alcohol-preferring and-nonpreferring rats. It is possible that the qualitative pharmacodynamic differences seen in the present study may be related to selective breeding for alcohol preference. The findings indicate the potential for development of receptor specific ligands devoid of toxic effects which may be useful in the treatment of alcohol abuse and alcoholism.     

Effects of caffeine on anxiety and depression.

Administered the Multiple Affect Adjective Check List to 157 Ss (mean age, 24.88 yrs) both before and 1 hr after double-blind administrations of 0, 150, or 300 mg of caffeine per 45.36 kg and after controlling for caffeine tolerance. Caffeine increased anxiety, depression, and hostility. (15 ref) (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Effects of ethanol on nonspatial working memory and attention in rats.

Investigation into the neural basis for ethanol-induced cognitive dysfunction requires the use of valid animal models. An operant signal detection procedure was developed to assess simultaneously the processes of sustained attention and working memory in rats, and to determine the effects of ethanol on these cognitive functions. Ethanol, at 0.75 g/kg intraperitoneal/ly (ip), produced delay- and stimulus length-dependent decreases in choice accuracy, effects that are consistent with deficits in both working memory and sustained attention. Local infusion of ethanol directly into the medial septal area resulted in a selective loss of choice accuracy at the long delay. The impairment by intraseptal ethanol did not interact with stimulus length. Thus, the working memory impairment, but not the decrement in sustained attention, was mimicked by intraseptal ethanol. The current model provides a foundation for studying the neural basis of ethanol's cognitive effects. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

The protective effect of moderate alcohol consumption on ischemic stroke

Experiments were designed to investigate the influence of estrous cycle and gender of the rat on the effects of a gamma-aminobutyric acid type A (GABA(A)) receptor active neurosteroid, 3alpha-hydroxy-5alpha-pregnan-20-one (allopregnanolone), the benzodiazepine, triazolam, and a GABA(A) receptor antagonistic neurosteroid, delta5-androsten-3beta-ol-17-one sulfate (dehydroepiandrosterone sulfate), on food intake and elevated plus-maze learning behaviors. Allopregnanolone (0.25 mg/kg, s.c.) and triazolam (0.25 mg/kg, i.p.) produced a hyperphagic effect, while dehydroepiandrosterone sulfate (5 mg/kg, s.c.) elicited an anorectic effect. However, allopregnanolone was more potent in diestrous females, whereas triazolam exhibited significantly higher hyperphagic potency in estrus females. The extent of anorexia following dehydroepiandrosterone sulfate was alike in male and female rats. The triazolam- and allopregnanolone-induced hyperphagic effect was blocked by bicuculline (1 mg/kg, i.p.), a selective GABA(A) receptor antagonist. In contrast to triazolam, the hyperphagic effect of allopregnanolone was insensitive to flumazenil (5 mg/kg, i.p.), a benzodiazepine antagonist. Vehicle-treated diestrous rats displayed moderately higher latencies in the elevated plus-maze learning task than estrus or proestrus females. Although allopregnanolone and triazolam elicited equipotent learning deficits in plus-maze learning in male and female rats, the magnitude of impairment-induced by triazolam was significantly higher in diestrous females than proestrus females. Dehydroepiandrosterone sulfate enhanced memory performance only in male rats. Although the use of the elevated plus-maze as a learning paradigm with benzodiazepines and neurosteroids may be sensitive to changes in anxiety, the differential data suggest that neurosteroid-induced effects are at least partly specific to learning behavior. These results confirm the role of estrous cycle and sex of rats in modifying the potency of neurosteroids and benzodiazepines on food consumption and learning and memory processes.     

Anxiogenic effect of phenylethylamine and amphetamine in the elevated plus-maze in mice and its attenuation by ethanol

In previous experiments beta-phenylethylamine (PEA), like the standard anxiogens caffeine, pentylenetetrazole, and yohimbine, has exhibited an anxiogenic effect in the two animal models of anxiety: the social interaction test and the conflict situation test. In the present study, PEA acts as an anxiogen in an elevated plus-maze, diminishing (compared to controls) the ratio of entries into open arms over the total number of entries and shortening the time spent in the open arms. DL-Amphetamine sulfate (AMPH) also had a similar action. These data support the previous suggestion that PEA may belong to the group of endogenous anxiety-inducing compounds. Pretreatment with ethanol prevented the effects of both PEA and AMPH.     

Ethanol inhibits single-unit responses in the nucleus accumbens evoked by stimulation of the basolateral nucleus of the amygdala

We studied the actions of intoxicating doses of ethanol on excitatory inputs from the basolateral nucleus of the amygdala, a major afferent system projecting to the nucleus accumbens (NAcc). In view of the hypothesized role of opioid receptors on the effects of ethanol on NAcc physiology, we also explored whether naloxone modulates ethanol-induced suppression of NAcc excitability in halothane anesthetized and freely moving unanesthetized rats. Intraperitoneal administration of ethanol (1.2-1.4 g/kg) markedly suppressed a subgroup of amygdala-activated NAcc neurons. The ethanol-induced reduction in amygdala-activated NAcc neurons was not reversed by naloxone (5.0 mg/kg, intraperitoneally). Moreover, naloxone had no effect on the suppressive effects of ethanol on NAcc spontaneous activity in either halothane-anesthetized or unanesthetized freely moving preparations. These findings suggest that opiate mechanisms either are not participating or are not solely responsible for the inhibitory effects of acute intoxicating doses of ethanol on NAcc physiology.     

Enhancement of hepatic tryptophan pyrrolase activity and decreases of open field locomotion following single and repeated administration of high doses of caffeine in rats

In view of a possible role of kynurenine in caffeine-induced anxiety syndrome, the effects of single and repeated administration of caffeine on hepatic tryptophan (T)-pyrrolase activity are investigated. Single administration of caffeine at doses of 80 mg/kg decreased open field locomotion and increased hepatic T-pyrrolase activity. Locomotor stimulating effects of 80 mg/kg caffeine, monitored in the home cages of rats, were attenuated following daily administration of caffeine for 5 days. Open field locomotor activity of rats and its caffeine-induced decrement were also attenuated following 5 daily administrations of caffeine on the 6th day. Basal levels of hepatic T-pyrrolase activity increased after 5 daily administrations of caffeine on the 6th day. Acute administration of caffeine did not further elevate hepatic T-pyrrolase activity in 5 day caffeine injected rats. Drug adjuvants decreasing hepatic T-pyrrolase activity may prove valuable for extending the clinical utility of caffeine.     

Effect of caffeine on mucus secretion and agonist-dependent Ca2+ mobilization in human gastric mucus secreting cells

Caffeine is known to stimulate gastric acid secretion, but, the effects of caffeine on gastric mucus secretion have not been clarified. To elucidate the action of caffeine on gastric mucin-producing cells and its underlying mechanism, the effects of caffeine on mucus glycoprotein secretion and agonist-induced [Ca2+]i mobilization were examined in human gastric mucin secreting cells (JR-I cells). The measurement of [Ca2+]i using Indo-1 and the whole cell voltage clamp technique were applied. Mucus glycoprotein secretion was assessed by release of [3H]glucosamine. Caffeine by itself failed to increase [Ca2+]i and affect membrane currents, while it dose-dependently inhibited agonist (acetylcholine (ACh) or histamine)-induced [Ca2+]i rise, resulting in inhibiting activation of Ca2+-dependent K+ current (I(K.Ca)) evoked by agonists. The effect of caffeine was reversible, and the half maximal inhibitory concentration was about 0.5 mM. But, caffeine did not suppress [Ca2+]i rise and activation of I(K.Ca) induced by A23187 or inositol trisphosphate (IP3). Theophylline or 3-isobutyl-1-methyl-xanthine (IBMX) did not mimic the effect of caffeine. Caffeine failed to stimulate mucus secretion, while it significantly decreased ACh-induced mucus secretion. These results indicate that caffeine selectively inhibits agonist-mediated [Ca2+]i rise in human gastric epithelial cells, probably through the blockade of receptor-IP3 signaling pathway, which may affect the mucin secretion.     

Hazardous materials and work safety in veterinary practice. 1: Hazardous material definition and characterization, practice documentation and general rules for handling

The role of the nicotinic acetylcholine receptor (nAChR) in the discriminative and aversive stimulus effects of ethanol was studied in rats. In the operant drug discrimination procedure the rats were trained to discriminate between 1.0 g/kg ethanol and saline under the FR10 schedule of sweetened milk reinforcement. Neither the nAChR agonist, nicotine (0.1-0.6 mg/kg) nor the nAChR antagonist, mecamylamine (3.0-6.0 mg/kg) substituted for the ethanol stimulus. Moreover, mecamylamine (0.5-6.0 mg/kg) did not antagonise the ethanol stimulus. The cross-familiarisation conditioned taste aversion procedure was used as an alternative method to study stimulus resemblance between ethanol and nicotine. Six daily injections of nicotine (0.6 mg/kg) significantly decreased a subsequent ethanol-induced taste aversion conditioning. The aversive stimulus effects of ethanol were investigated with the conditioned taste aversion (CTA) paradigm. Mecamylamine (1.0-3.0 mg/kg) did not attenuate an ethanol-induced CTA. These results suggest that: (1) nAChRs are not primarily involved in the discriminative stimulus effects of ethanol when studied with the operant drug discrimination test; (2) nAChRs are not critically involved in the ethanol-induced CTA.     

Human sperm motility-enhancing agents have detrimental effects on mouse oocytes and embryos

OBJECTIVES: To test the artificial activating properties of the human sperm motility-enhancing agents pentoxifylline, caffeine, 2-deoxyadenosine, and cyclic adenosine 3':5' monophosphate (cAMP) on mouse oocytes and determine if the agents exhibit an inhibitory effect on in vitro development of mouse embryos. DESIGN: CD-1 mouse oocytes were exposed to 1, 2.5, 5, or 10 mM pentoxifylline, caffeine, 2-deoxyadenosine, or cAMP for 10, 30, or 60 minutes and their activation and development was scored over 96 hours of culture. A 10% ethanol solution and aging unstimulated oocytes served as controls. Pronuclear embryos from CD-1, CF-1, and B6C3 F1 hybrid mice were cultured in 0.16, 0.33, 0.66, 1.25, 2.5, 5.0, or 10 mM of pentoxifylline, caffeine, 2-deoxyadenosine, or cAMP and development was scored over 96 hours of culture. RESULTS: Exposure to pentoxifylline, caffeine, and 2-deoxyadenosine, but not cAMP, artificially activated mouse oocytes in a concentration- and exposure time-dependent manner. The level of activation was significantly greater than that associated with oocyte aging but less than ethanol-induced activation. Agent-activated oocytes had limited developmental capacity compared with the ethanol-activated oocytes. Pentoxifylline and 2-deoxyadenosine were more toxic than caffeine, especially at the higher concentrations and after prolonged exposure. All of the agents affected embryo development in a dose-dependent manner with developmental inhibition and embryotoxicity that was often not evident until after one to three cell cycles. CONCLUSIONS: Pentoxifylline, caffeine, 2-deoxyadenosine, and cAMP have adverse effects on mouse oocytes or embryos at concentrations commonly used to activate sperm in human IVF. Therefore, care should be taken to minimize the exposure of human oocytes and embryos to these agents until their direct effects have been investigated more fully.     

Dopaminergic modulation of kappa opioid-mediated ultrasonic vocalization, antinociception, and locomotor activity in the preweanling rat.

The purpose of this study was to determine whether dopamine (DA) systems modulate kappa opioid-mediated ultrasonic vocalizations (USVs), antinociception, and locomotion in young rats. Seventeen-day-old rats were injected with the kappa agonist U-50,488 (0.0-7.5 mg/kg) and saline, the D?-like receptor agonist R(-)-propylnorapomorphine (NPA; 0. 1 or 1.0 mg/kg), the indirect DA agonist cocaine (10 or 20 mg/kg), or the DA antagonist flupenthixol (0.25 or 0.5 mg/kg). USVs and locomotion were measured for 6 min, with antinociception being assessed with a tail-flick test. Kappa receptor stimulation produced analgesia and increased USVs and locomotion. U-50,488-induced analgesia was potentiated by NPA, whereas U-50,488-induced USVs were attenuated by both DA agonists. NPA and flupenthixol depressed U-50,488's locomotor effects. These results show that DA systems interact with kappa opioid systems to modulate USVs, antinociception, and locomotion in preweanling rats. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Naloxone facilitates extinction but does not affect acquisition or expression of ethanol-induced conditioned place preference.

Mice (DBA/2J) received a Pavlovian procedure in which a distinctive floor stimulus was paired 4 times with ethanol (2 g/kg). A different floor stimulus was paired with saline. Naloxone (0.0, 1.5, or 10.0 mg/kg, intraperitoneal) given before each ethanol trial did not interfere with acquisition of conditioned preference, although naloxone alone produced conditioned aversion. When naloxone (0.0, 0.15, 1.5, 3.0, or 10.0 mg/kg) was given for the first time during testing, mice showed conditioned preference during the first 10 min. However, preference subsequently decreased dose-dependently over time. Control studies eliminated alternative interpretations based on pharmacokinetics or presence of an aversive state. The overall pattern of results suggests that naloxone facilitated extinction of conditioned place preference and supports the hypothesis that ethanol-induced conditioned reinforcement is mediated by the endogenous opioid system. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Immunohistochemical localization of caffeine-induced c-Fos protein expression in the rat brain

Although caffeine is the most widely used central nervous system stimulant, the neuronal populations and pathways mediating its stimulant effects are not well understood. Using c-Fos protein as a marker for neuronal activation, the present study investigated the pattern of c-Fos induction at 2 hours after low locomotor-stimulant doses (1, 5, 10, and 30 mg/kg, i.p.) of caffeine and compared them with those after a higher dose (75 mg/kg, i.p.) or saline injection in adult male rats. Fos-immunoreactive neurons were counted in selected nuclei across the entire brain. Caffeine induced an increase in locomotor activity in a dose-dependent manner up to doses of 30 mg/kg and a decline at 75 mg/kg. Quantitative analysis of Fos-immunoreactive neurons indicated that no structures showed significant Fos expression at doses below 75 mg/kg or a biphasic pattern of Fos expression, as in locomotion. In contrast, caffeine at 75 mg/kg induced a significant increase compared with the saline condition in the number of Fos-immunoreactive neurons in the majority of structures examined. The structures included the striatum, nucleus accumbens, globus pallidus, and substantia nigra pars reticulata and autonomic and limbic structures including the basolateral and central nuclei of the amygdala, paraventricular and supraoptic hypothalamic nuclei, periventricular hypothalamus, paraventricular thalamic nuclei, parabrachial nuclei, locus coeruleus, and nucleus of the solitary tract. The locomotor-enhancing effects of low doses of caffeine did not appear to be associated with significant Fos expression in the rat brain.     

Antagonism of kynurenic acid to anxiogens in mice

In a dark-light chamber in mice, kynurenic acid (KYNA, 200 mg/kg, i.p.), an endogenous neuroactive metabolite of tryptophan, attenuated the most stable effect of anxiogens in this model of anxiety--a decrease in the rate of leanings-out of the dark compartment --induced by caffeine, pentylenetetrazole and yohimbine, but not by beta-phenylethylamine (PEA). KYNA by itself did not alter behavior of mice in the chamber, in contrast to what has been observed in an elevated plus-maze, another model of anxiety, where KYNA had an anxiolytic pharmacological profile.     

Discriminative effects of CGS 15943, a competitive adenosine receptor antagonist, in monkeys: comparison to methylxanthines

Caffeine and related methylxanthines are competitive antagonists at A1- and A2-adenosine receptors, but have other actions at the cellular level that contribute to their effects on behavior. As an approach toward determining the role of adenosine receptors in the behavioural effects of drugs, four squirrel monkeys were trained to discriminate between injections of CGS 15943 (1.0 mg/kg i.m.), a nonxanthine adenosine receptor antagonist that does not inhibit phosphodiesterase, and its vehicle. All monkeys generalized dose-dependently and completely to six of seven methylxanthines: 3-isobutyl-1-methylxanthine (0.1-1.75 mg/kg), theophylline (0.03-3.0 mg/kg), paraxanthine (0.3-30 mg/kg), 8-cyclopentyltheophylline (0.3-30 mg/kg), theobromine (0.3-30 mg/kg) and caffeine (1.0-30 mg/kg). Three of four monkeys did not generalize to 8-p-sulfophenyl-theophylline (1.0-30 mg/kg), which does not cross the blood-brain barrier. When the training dose of CGS 15943 was administered concurrently with adenosine-receptor agonists, its effects were blocked dose-dependently and completely by CGS 21680 (A2 selective), only partially by cyclohexyladenosine (A1 selective), but were not blocked by 5'-N-ethylcarboxamidoadenosine (nonselective). CGS 21680 did not block responding on the CGS 15943-appropriate lever occasioned by 30 mg/kg of caffeine or 3.0 mg/kg of theophylline. These results suggest that stimulus control of behavior by CGS 15943 derives, in part, from blockade of A2-adenosine receptors located in the central nervous system. However, the potency order of methylxanthines as CGS 15943-like discriminative stimuli did not correlate with their relative affinities at either A2- or A1-adenosine receptors or their potencies for other known effects at the cellular level. Therefore, a novel mechanism of action might account for the CGS 15943-like discriminative effects of some or all of these drugs.     

Diazepam alters caffeine-induced effects on beta-endorphin levels in specific rat brain regions

The present study was conducted to evaluate the effects of caffeine and the benzodiazepine agonist diazepam, and a combination of both on beta-endorphin (beta-EN) levels in specific rat brain regions. Male Sprague-Dawley rats (150-200 g) adapted to a 12-hour light: 12-hour dark illumination cycle were used in this study. Caffeine (10 mg/kg), diazepam (2 mg/kg) or a combination of caffeine (10 mg/kg) and diazepam (2 mg/kg) were administered intraperitoneally to rats at 11:00 hr. Control animals were injected with saline. Animals were sacrificed by decapitation 1 h after injection, the brains were immediately removed; the cortex, hippocampus, hypothalamus and midbrain were dissected and their B-EN levels measured by radioimmunoassay. Caffeine administration significantly increased B-EN levels in the cortex. Similarly, administration of diazepam alone resulted in a significant increase of B-EN levels in cortex. However, concurrent administration of diazepam and caffeine resulted in higher increase of B-EN levels in cortex. No significant changes in B-EN levels were detected in hippocampus and midbrain after administration of either caffeine or diazepam alone. On the other hand, when diazepam and caffeine were concurrently administered a significant increase of B-EN levels were observed in the midbrain. Moreover, administration of diazepam alone resulted in a significant increase of B-EN levels in hypothalamus. This increase was still observed following concurrent administration of diazepam and caffeine. These results clearly indicate that diazepam alters caffeine-induced effects on B-EN in specific rat brain regions.     

Acute effects of caffeine on several operant behaviors in rhesus monkeys

The acute effects of 1,3-trimethylxanthine (caffeine) were assessed using an operant test battery (OTB) of complex food-reinforced tasks that are thought to depend upon relatively specific brain functions, such as motivation to work for food (progressive ratio, PR), learning (incremental repeated acquisition, IRA), color and position discrimination (conditioned position responding, CPR), time estimation (temporal response differentiation, TRD), and short-term memory and attention (delayed matching-to-sample, DMTS). Endpoints included response rates (RR), accuracies (ACC), and percent task completed (PTC). Caffeine sulfate (0.175-20.0 mg/kg, IV), given 15 min pretesting, produced significant dose-dependent decreases in TRD percent task completed and accuracy at doses > or = 5.6 mg/kg. Caffeine produced no systematic effects on either DMTS or PR responding, but low doses tended to enhance performance in both IRA and CPR tasks. Thus, in monkeys, performance of an operant task designed to model time estimation is more sensitive to the disruptive effects of caffeine than is performance of the other tasks in the OTB.