Plasma corticoids and brain tryptophan after acute and tolerance dosage of LSD.

The effect of acute and tolerance dosage schedules of LSD on plasma corticoids and brain tryptophan in normal, adrenalectomized and hypophysectomized rats was examined. Plasma corticoids increased 20-fold after one dose of LSD and the time course of this effect paralleled the increase in brain tryptophan. Both effects of LSD were abolished in adrenalectomized animals; after hypophysectomy the drug-induced tryptophan increase did occur but only after a significant delay. After multiple daily injections of LSD there was a significant degree of tolerance both to the plasma corticoid and brain trytophan response.     

Development of selective tolerance to the serotonin behavioral syndrome and suppression of locomotor activity after repeated administration of either 5-MeODMT or mCPP

Repeated administration to rats of the 5-HT -selective agonist 5-methoxy-N, N-dimethyltryptamine (5-MeODMT)^1A produced tolerance to the ability of a test dose of 5-MeODMT to produce the serotonin behavioral syndrome, but not to the ability of a test dose of the 5-HT_1B -selective agonist m-chlorophenylpiperazine (mCPP) to decrease locomotor activity. Conversely, repeated administration of mCPP produced tolerance to the ability of a test dose of mCPP to decrease locomotor activity, but not to the ability of a test dose of 5-MeODMT to elicit the serotonin behavioral syndrome. The lack of cross-tolerance between these two selective agonists is consistent with the idea that the serotonin behavioral syndrome and suppression of locomotor activity are mediated by different subtypes of the 5-HT₁ receptor.     

Local Cerebral Glucose Utilisation Following Indoleamine- and Piperazine-Containing 5-Hydroxytryptamine Agonists

Substances with varying structural components have been shown to have 5-hydroxytryptamine (5-HT)-like properties in the CNS. In this study, putative 5-HT agonists with indoleamine moeities--lysergic acid diethylamide (LSD) and 5-methoxy-N,N-dimethyltryptamine (5-MeODMT)--and with piperazine moieties--quipazine (Quip) and 6-chloro-2-(1-piperazinyl)pyrazine (6-CPP) were administered to rats. Local cerebral glucose utilisation was measured using the [14C]2-deoxyglucose autoradiographic technique. It was found that in most cerebral structures, these substances produced dose-dependent reductions in glucose utilisation. However, Quip and 6-CPP increased glucose utilisation in specific areas of the diencephalon (e.g., nucleus reuniens) and produced a biphasic effect in some but not all extrapyramidal structures (e.g., ventromedial caudate nucleus). No such increases in local cerebral glucose utilisation were measured following LSD or 5-MeODMT administration. These results indicate that although similarities exist between the effects of indoleamine- and piperazine-containing 5-HT agonists on local cerebral glucose utilisation there are also significant differences in the overall patterns of response produced.     

THE PREVENTION BY INHIBITORS OF BRAIN PROTEIN SYNTHESIS OF THE HYPERACTIVITY AND HYPERPYREXIA PRODUCED IN RATS BY MONOAMINE OXIDASE INHIBITION AND THE ADMINISTRATION OF L-TRYPTOPHAN OR 5-METHOXY-N,N-DIMETHYLTRYPTAMINE

Abstract— In rats treated with a monoamine oxidase inhibitor, (tranylcypromine), L- tryptophan produces a stereotyped syndrome of hyperactivity and hyperpyrexia due to an increased rate of brain serotonin (5-hydroxytryptamine) synthesis. Pretreatment of rats with intraperitoneal injections of cycloheximide, acetoxycycloheximide, emetine and dehydroemetine and of mice with puromycin inhibited this syndrome. Cycloheximide also inhibited the hyperactivity caused by tranylcypromine and DL-15-hydroxtryptophan and did not affect the increased rate of brain serotonin ‘synthes’ is produced by tryptophan thus excluding a primary effect on tryptophan-5-hydroxylase. Inhibition of hyperactivity did not occur until brain protein synthesis was inhibited by greater than 65 per cent as measured by the incorporation of L-[U-¹⁴C]tyrosine into brain protein in vivo. Emetine, which has been shown to inhibit brain protein synthesis inhibited hyperactivity whereas isoemetine which did not inhibit brain protein synthesis, did not inhibit hyperactivity. Under conditions where cycloheximide inhibited hyperactivity produced by tranylcypromine and L-tryptophan, a large dose of 5-methoxy-N,N-dimethyltryptamine(5-MeODMT) still produced hyperactivity showing that the rats were still capable of the same pattern of hyperactivity. However, cycloheximide did inhibit hyperactivity due to 5-MeODMT, the degree of this inhibition being dependent upon a balance between the doses of cycloheximide and 5-MeODMT. 5-MeODMT probably acts directly within the brain to cause behavioural excitation and it seems likely that the inhibitors of brain protein synthesis interfere with the mechanism of action of brain 5HT and administered 5-MeODMT rather than upon any aspect of synthesis, storage or release of brain 5HT. It is suggested that the behaviourally excitant effects of brain 5HT and 5-MeODMT are mediated in some way by a brain protein with a short biological half-life. Such a protein may act either as a factor specifically mediating the central effects of brain 5HT or as a factor regulating the neuronal response to excitation by 5HT and 5-MeODMT.     

Dissociations between the behavioral effects of LSD and tolerance development during ontogeny in cats: a novel approach to the study of tolerance mechanisms

The characteristic behavioral effects of d-lysergic acid diethylamide (LSD) in cats first appeared at approximately 25 days of age and increased rapidly in magnitude over the next 10 days. However, 25 day old kittens showed no tolerance to the repeated administration of the drug. While the behavioral response to the initial dose of LSD remained relatively constant between 35 and 112 days of age, the tolerance gradually became more pronounced throughout this time period, reaching an adult level of virtually complete tolerance at 112 days. These findings provide new insight into the nature of the relationship between the primary drug action and the development of tolerance, and suggest a new strategy for investigating the neural bases of tolerance, i.e., examining the neurochemical effects of repeated LSD administration in kittens during various stages of tolerance development.     

Chronic antidepressant treatment enhances alpha-adrenergic and serotonergic responses in the facial nucleus

In addition to their well recognized activity in blocking uptake of biogenic amines, tricyclic antidepressants have recently been shown, with chronic treatment, to alter neurotransmitter receptor sensitivity. In this study, the responsiveness of facial motoneurons to norepinephrine (NE) and serotonin (5-HT) was assessed with single unit recording and microiontophoretic techniques. Treatment of rats with daily intraperitoneal injections of several clinically effective tricyclics for 14–20 days was found to enhance responses to NE, 5-HT, and to an intravenously administered 5-HT agonist, 5-MeODMT. These changes in sensitivity were not seen in animals chronically treated with saline, chlorpromazine, or fluoxetine, and thus appear specific to antidepressants. Acute effects of tricyclics on NE and 5-HT responses were variable, dependent on the specific drug tested, and appear to have no necessary relation to the pronounced sensitization produced by chronic treatment.     

Electrophysiological evidence for a dopaminergic action of LSD: depression of unit activity in the substantia nigra of the rat.

LSD (25–50 μg/kg, i.v.) significantly decreased the firing rate of 78% of the dopamine-containing neurons in the substantia nigra of chloral hydrate anesthetized rats. In a subgroup of neurons (22%), LSD either had no clear effect or caused a slight excitation. On the other hand, brom-LSD (100 μg/kg, i.v.), a non-hallucinogenic congener of LSD, had no effect on 71% of dopaminergic cells and slightly reduced the firing rate with 29% of the units. Pretreatment with haloperidol (0.1 mg/kg) blocked the inhibitory effects of LSD, and haloperidol injected following LSD reversed its depressive effects. Non-dopaminergic neurons in the region of the substantia nigra typically showed large increases in firing rate in response to LSD administration. The inhibitory effects of LSD on dopamine-containing neurons are probably not attributable to the serotonergic properties of LSD, since 5-methoxy N,N dimethyltryptamine (25–100 μg/kg), which has central serotonergic properties similar to those of LSD, produced exclusively excitatory effects on the firing rate of dopaminergic cells. These electrophysiological results are consistent with recent behavioral and neurochemical data which suggest that LSD can act as a dopamine agonist in the CNS.     

Inhibitton of prolactin release by stimulation of presynaptic serotonin autoreceptors

The effects of 5-methoxy-N, N-dimethyltryptamine (5-MeODMT), a serotonin agonist with a preferential action on presynaptic autoreceptors, on prolactin release in male rats was determined. Basal serum prolactin levels were not altered after administration of 1.0, 2.0, 5.0, 10.0 or 20.0 mg/kg of 5-MeODMT.Pretreatment with 5-MeODMT reduced prolactin release by agents that depend on serotonergic neurotransmission for part of their prolactin release stimulation. Prolactin release in response to L-5-hydroxytryptophan (5-HTP) or morphine was significantly reduced by pretreatment of the rats with 5-MeODMT.The results of this experiment indicate that 5-MeODMT act as a presynaptic serotonin autoreceptor stimulant and not as a postsynaptic serotonin agonist on the neuronal systems that control prolactin release.     

Anticonvulsant effects of magnesium sulfate in hippocampal-kindled rats

The objective of the present study was to determine whether magnesium sulfate has anticonvulsant actions in the hippocampal-kindled rat model of epilepsy. Fully kindled rats received acute intraperitoneal injections of magnesium sulfate (270 mg/kg), phenytoin (20 mg/kg) or saline in random order. Electrical seizure duration, behavioral seizure stage and duration of postictal EEG depression were examined 15, 30 and 60 min after injection. In an additional group of rats, kindled seizures were measured before and after chronic (2 h) intraperitoneal injections of magnesium sulfate versus saline. There was a significant decrease in electrical seizure duration (p<0.01) and behavioral seizure stage (p<0.01) with acute magnesium sulfate injections compared to saline injections. Phenytoin had no statistically significant effects on hippocampal-kindled seizures. Chronic magnesium sulfate treatment significantly reduced behavioral seizure stage at 2, 24, and 48 h postinjection (p<0.05), but did not affect seizure duration. There was a significant time by treatment effect for magnesium sulfate on postictal EEG depression (p<0.01). We conclude that in this model of hippocampal epilepsy-induced (kindled) rats, magnesium sulfate has significant anticonvulsant effects.     

Comparative discriminative stimulus effects of 5-methoxy-N,Ndimethyltryptamine and LSD

Rats were trained to discriminate injections of either 5-OMe DMT (1.5 mg/kg) or LSD (0.096 mg/kg) from saline in a two-lever drug discrimination task. After stable discrimination performances were attained (> 85%) in each group, dose-response generalizations between the two groups of animals were examined. The results revealed that the 5-OMe DMT-stimulus response generalized to LSD and that the LSD-stimulus response generalized to 5-OMe DMT. Furthermore, both the 5-OMe DMT-stimulus and the LSD-stimulus could be significantly attenuated by the serotonin antagonist BC-105. However, the pattern of the doserelated antagonism by BC-105 was different between the drug stimuli. It was concluded that while the discriminative stimulus effects of 5-OMe DMT and LSD may be mediated via a common serotonergic system, the receptor interaction of these agents within that pharmacological system may be somewhat different.     

曲马朵与二氢埃托啡协同镇痛并推迟大鼠急性耐受

本文旨在研究曲马朵（tramadol,TRA）和二氢埃托啡（dihydroetorphine,DHE）联合用药是否可产生协同镇痛并延缓耐受的发生。TRA（mg,腹腔注射）与DHE（ng,皮下注射）按固定比率给药（1：6．25,1：12．5,1：25,1：50,l：100,1：200）,用热辐射甩尾法评价镇痛效应,采用等高线法评估药物的协同作用。在急性耐受实验中,连续6次注射TRA（20mg／kg）、DHE（1000ng／kg）或两药的组合（TRA20mg／kg＋DHE250ng／kg）。结果显示：（1）除1mg：6．25ng和1mg：50ng两个比例外,其他所有比例用药均产生显著的协同镇痛效应;（2）TRA与DHE联合用药的疗效在连续给药中持续时间明显延长,提示二者联合使用可延缓耐受。以上结果提示：TRA与DHE在一定剂量比范围内可产生协同镇痛效应,并可推迟耐受的形成。     

Interaction of circadian rhythm and opiate-induced thermic and kinetic responses: a biotelemetric investigation

The thermic and kinetic effects of a low dose of morphine sulphate (5mg/kg) were monitored using a remote biotelemetric procedure. Drug and control (saline) injections were administered at two times of day, during the high and low phases of the circadian temperature/activity cycle respectively. Standard measures of the responses revealed that the effect of a dose of morphine differs significantly according to the phase of the circadian rhythm in which it is administered. In contrast to previous studies employing standard stress-inducing rectal probing techniques of temperature measurement, the direction and time-course of thermic and kinetic responses were uncorrelated. The implications for research on physiological and behavioral drug effects and for theories of drug tolerance/dependence are considered.     

Effect of psychotomimetics and haloperidol on head twitching following alcohol withdrawal in mice

After ethanol withdrawal dependent mice exhibited head twitching. The frequency of head-twitches was decreased by LSD and mescaline in a dose-dependent manner and increased by small doses of haloperidol and physostigmine. LSD antagonized the potentiating effects of haloperidol and physostigmine. The incidence of head-twitches after intracerebral injections of 5-HT in naive mice was lessened by LSD. The involvement of dopaminergic, serotoninergic, and cholinergic transmission systems in the action of psychotomimetics is discussed.     

Chronic administration of fluoxetine alters locomotor behavior, but does not potentiate the locomotor stimulating effects of CRH in juvenile Chinook salmon (Oncorhynchus tshawytscha)

The present study investigated: 1) the behavioral effects of chronic administration of a serotonin uptake inhibitor (fluoxetine) in juvenile Chinook salmon, Oncorhynchus tshawytscha and, 2) whether chronic administration of fluoxetine alters the behavioral effects of corticotropin-releasing hormone (CRH). Chronic (20 day) treatment with fluoxetine decreased locomotor activity when compared to fish given long-term injections of saline. An intracerebroventricular (i.c.v.) injection of CRH had no effect on locomotor activity following a 20 day intraperitoneal treatment with either saline or fluoxetine. Chronic treatment with fluoxetine also increased the amount of time fish spent near the center of the tank. A similar increase was seen in fish given a chronic intraperitoneal (i.p.) series of saline followed by an acute i.c.v. injection of CRH. However, the effect was not additive when fish were given chronic i.p. injections of fluoxetine followed by an acute i.c.v. injection of CRH. These results provide evidence to support the hypothesis that the serotonergic system is involved in mediating locomotor activity and habitat choice in teleosts.     

Hallucinogens recruit specific cortical 5-HT(2A) receptor-mediated signaling pathways to affect behavior

Hallucinogens, including mescaline, psilocybin, and lysergic acid diethylamide (LSD), profoundly affect perception, cognition, and mood. All known drugs of this class are 5-HT(2A) receptor (2AR) agonists, yet closely related 2AR agonists such as lisuride lack comparable psychoactive properties. Why only certain 2AR agonists are hallucinogens and which neural circuits mediate their effects are poorly understood. By genetically expressing 2AR only in cortex, we show that 2AR-regulated pathways on cortical neurons are sufficient to mediate the signaling pattern and behavioral response to hallucinogens. Hallucinogenic and nonhallucinogenic 2AR agonists both regulate signaling in the same 2AR-expressing cortical neurons. However, the signaling and behavioral responses to the hallucinogens are distinct. While lisuride and LSD both act at 2AR expressed by cortex neurons to regulate phospholipase C, LSD responses also involve pertussis toxin-sensitive heterotrimeric G(i/o) proteins and Src. These studies identify the long-elusive neural and signaling mechanisms responsible for the unique effects of hallucinogens.     

Tricyclic antidepressant drugs: Attenuation of excitatory effects of d-lysergic acid diethylamide (LSD) on acoustic startle response

At a dose of 5 mg/kg, the tricyclic antidepressant drugs chlorimipramine (CIMI), desipramine (DMI), imipramine (IMI), and chlordesipramine (C-DMI) all blocked the excitatory effects of a low dose (30 μg/kg) of LSD on the acoustic startle response in the rat. Over a dose range from 1–5 mg/kg, CIMI and DMI were about equally potent in blocking the LSD effect, despite the fact that both drugs actually increased brain levels of LSD. In contrast, α-methyl-p-tyrosine did not block the effect of LSD on startle. By themselves, DMI, IMI and C-DMI increased startle amplitude 20–30% whereas CIMI alone had no effect on startle. The ability of CIMI and IMI to block the excitatory effect of LSD on startle is consistent with the hypothesis that prior cessation of raphe cell firing caused indirectly by these drugs with no resultant change in 5-HT availability should pre-empt the ability of LSD to increase startle by directly inhibiting raphe cell firing and decreasing 5-HT availability. The finding that the other tricyclics also block the effect of LSD is not explained by that hypothesis. Results are discussed in terms of the serotonin hypothesis of the action of hallucinogenic drugs on behavior.     

The late stage following continuous amphetamine administration to rats is correlated with altered dopamine but not serotonin metabolism

In previous experiments rats pretreated with slow-release d-amphetamine (d-Amp) pellets for $\text{4}\text{1}\text{2}$ days, given a 12-hr drug-free period, and then injected with d-Amp have been found to show a behavioral syndrome which has similarities to that induced by acute injections of the hallucinogens LSD and mescaline. The present results indicate that rats administered this same drug regimen have large decreases in Dopamine (DA), dihydroxyphenyl acetic acid (Dopac), and homovanillic acid (HVA) in caudate nucleus, smaller decreases in DA with no changes in Dopac and HVA levels in nucleus accumbens, but no alterations in 5-hydroxytryptamine (5HT) and 5-hydroxyindole acetic acid (5HIAA) levels in caudate, accumbens, brainstem and hippocampus. Increased 5HIAA levels are found in rats sacrificed with pellets intact following 3 days of continuous d-Amp administration, while sleep deprived and in motor stereotypies. The late and hallucinatory stage following continuous d-amp is correlated more closely with alterations in dopamine than of 5HT.     

产前轻微应激易化由围产期注射引起的行为改变并弱化奥氮平的作用

产前母体处于应激状态下,可以削弱子代的神经系统对外界不良刺激影响的抵抗能力．但产前应激状态是否可以影响抗精神疾病药物对动物行为的增益作用,目前还没有明确的结论．此外,在动物实验中,动物需要经常接受注射操作,注射操作本身是否会影响动物行为,尚未有相关研究．在本实验中,探索了产前轻微应激状态、围产期注射操作和抗精神疾病药物对动物行为可能的交互影响．母鼠在经历产前轻微应激状态后生产子代,雄性仔鼠在围产期(日龄第7, 9, 11天)不接受注射或接受盐水或奥氮平注射(2 mg/kg,腹腔注射)．在其亚成年期(日龄第35天)和成年期(日龄第60天),观察其社交和嗅觉辨识行为,分析了总探索时间和对新旧刺激的偏好程度两个参数．我们发现,围产期重复注射操作可以改变产前应激组大鼠在社交和嗅觉辨识实验中的偏好程度,对无应激组大鼠没有影响．奥氮平注射可以增长无应激组大鼠在社交活动中的总探索时间,对应激组大鼠没有影响．研究表明,产前轻微应激状态可以易化诸如围产期注射操作等不良环境刺激导致的行为异常,并减弱抗精神疾病药物的对神经系统的影响．     

New Insights into the Microvascular Mechanisms of Drag Reducing Polymers: Effect on the Cell-Free Layer

Drag-reducing polymers (DRPs) significantly increase blood flow, tissue perfusion, and tissue oxygenation in various animal models. In rectangular channel microfluidic systems, DRPs were found to significantly reduce the near-wall cell-free layer (CFL) as well as modify traffic of red blood cells (RBC) into microchannel branches. In the current study we further investigated the mechanism by which DRP enhances microvascular perfusion. We studied the effect of various concentrations of DRP on RBC distribution in more relevant round microchannels and the effect of DRP on CFL in the rat cremaster muscle in vivo. In round microchannels hematocrit was measured in parent and daughter branch at baseline and after addition of DRP. At DRP concentrations of 5 and 10 ppm, the plasma skimming effect in the daughter branch was eliminated, as parent and daughter branch hematocrit were equivalent, compared to a significantly lowered hematocrit in the daughter branch without DRPs. In anesthetized rats (N=11) CFL was measured in the cremaster muscle tissue in arterioles with a diameter of 32.6 ± 1.7 µm. In the control group (saline, N=6) there was a significant increase in CFL in time compared to corresponding baseline. Addition of DRP at 1 ppm (N=5) reduced CFL significantly compared to corresponding baseline and the control group. After DRP administration the CFL reduced to about 85% of baseline at 5, 15, 25 and 35 minutes after DRP infusion was complete. These in vivo and in vitro findings demonstrate that DRPs induce a reduction in CFL width and plasma skimming in the microvasculature. This may lead to an increase of RBC flux into the capillary bed, and thus explain previous observations of a DRP mediated enhancement of capillary perfusion.     

RGS mRNA expression in rat striatum: modulation by dopamine receptors and effects of repeated amphetamine administration

Single injections of cocaine, amphetamine, or methamphetamine increased RGS2 mRNA levels in rat striatum by two- to fourfold. The D1 dopamine receptor-selective antagonist SCH-23390 had no effect by itself but strongly attenuated RGS2 mRNA induction by amphetamine. In contrast, the D2 receptor-selective antagonist raclopride induced RGS2 mRNA when administered alone and greatly enhanced stimulation by amphetamine. To examine the effects of repeated amphetamine on RGS2 expression, rats were treated with escalating doses of amphetamine (1.0-7.5 mg/kg) for 4 days, followed by 8 days of multiple daily injections (7.5 mg/kg/2 h x four injections). Twenty hours after the last injection the animals were challenged with amphetamine (7.5 mg/kg) or vehicle and killed 1 h later. In drug-naive animals, acute amphetamine induced the expression of RGS2, 3, and 5 and the immediate early genes c-fos and zif/268. RGS4 mRNA levels were not affected. Prior repeated treatment with amphetamine strongly suppressed induction of immediate early genes and RGS5 to a challenge dose of amphetamine. In sharp contrast, prior exposure to amphetamine did not reduce the induction of RGS2 and RGS3 mRNAs to a challenge dose of amphetamine, indicating that control of these genes is resistant to amphetamine-induced tolerance. These data establish a role for dopamine receptors in the regulation of RGS2 expression and suggest that RGS2 and 3 might mediate some aspects of amphetamine-induced tolerance.