Reproduction of "passive" avoidance in rats by administering pharmacologic agents

In experiments on rats learned to passive avoidance reaction in one trial with subsequent administration of electroconvulsive shock (two hours after learning), the influence of different factors on the retrieval of the lost reaction was tested after three days. The greatest restoring capacity was exhibited by a non-specific reminding agent, the bell, gamma-amino-butyric acid (200 mg/kg) and etimizol (1.5 mg/kg). In animals with a preserved reaction, a number of pharmacological agents impaired retrieval of the habit (caffeine 5 mg/kg, carbocholine 0.01 mg/kg and metamizil 0.5 mg/kg). Optimal conditions for the restoration of the lost reaction were formed by etimizol and gamma-aminobutyric acid. Cholinergic mechanisms play a certain role in the functioning of the retrieval apparatus.     

Maze-escape learning and memory during rat ontogeny

With the method of a simple automatic rectangular maze the development of escape reaction was studied in albino rats aged 3 weeks to 3 months as well as memory retrieval within 24 h and then after one month. Learning of escape improves sharply between the 3rd and 4th postnatal week, and then, with the exception of week 8, remains approximately on the same level. Memory retrieval up to 24 h is not significantly influenced by age or sex, but is best immediately after learning interval of 10 min and the poorest after 24 h, except the age of 5 weeks, where it is best in 3 and 6 h after learning. One-month retention of maze escape improves during development except in animals trained at the age of 6 weeks in which the level is lower than in all other investigated groups. One-month memory retrieval in animals taught at the age of 4 weeks is influenced by the time of the first retention test with the best values in animals tested for the first time after 3 h and poorest in animals tested after 24 h after learning. Animals trained at 5 weeks had a marginally better result after the one-month retention test in females, perhaps due to the influence of sexual maturation on memory traces. This was not observed in the other age groups. Attention is drawn to the different development of learning and memory of various types of conditioned reactions stemming from the difference in their complexity.     

Interaction of stereotypic behavior in mice and effects of activation of presynaptic dopaminergic receptors in extinction and amnesia

Using the methods of agonistic confrontations of C57BL/6J mice for formation of aggressive and submissive types of behavior and passive avoidance training we investigated the influence of activation of dopamine presynaptic receptors on retention of a memory trace during extinction and amnesia. Autoreceptor agonist (+)3PPP (2 mg/kg, intraperitoneal injection) impaired learning and retention of a memory trace during extinction and strengthened the amnestic influence of animal detention in a dangerous compartment on the training day only in aggressive mice. In submissive mice, (+) 3PPP improved the retrieval of passive avoidance during extinction but did not change the development of amnesia. This work was the first to demonstrate that the effects of dopamine autoreceptor activation on the passive avoidance retrieval depend on behavioral stereotype (aggressive or submissive). It is suggested that different basic states of the dopaminergic system in aggressive and submissive mice are responsible for different (+) 3PPP effects.     

Influence of activation and blockade of NMDA receptors on extinction of passive avoidance response in mice with different levels of anxiety

Influence of agonist (D-cycloserine) and antagonist (dizocilpine) N-methyl-D-aspartate receptors on learning and extinction of passive avoidance response in medium-, high-, and low-anxious mice was studied. In medium-anxious mice, D-cycloserine (30 mg/kg) although not changing learning accelerated development of extinction, whereas dizocilpine (0.15 mg/kg), while impairing passive avoidance learning, detained the extinction. In high-anxious mice with good retrieval of memory trace and absence of extinction, D-cycloserine was ineffective, whereas dizocilpine reduced learning and promoted retention of memory trace retrieval at the generated level on extinction. In low-anxious mice, D-cycloserine impaired learning and accelerated extinction, whereas dizocilpine completely blocked learning and retention of passive avoidance response.     

Dynorphin1-17 can enhance or impair retention of an inhibitory avoidance response in rats

The possible effects of subcutaneous administration of dynorphin1-17 on retention of an inhibitory avoidance behavior have been studied in rats. Post-training or pre-test administration of dynorphin1-17 in doses of 25 or 50 micrograms/kg facilitated retention performance in rats subjected to a footshock of 0.2 mA n the acquisition trial. However, the same doses of the opioid peptide exerted a deleterious effect on retention performance when a footshock of 0.4 mA was used after either post-training or pre-test administration. Post-training injection of the kappa-receptor antagonist MR-2266 in doses of 0.5, 1 or 2.5 mg/kg failed to affect retention behavior. However, the previous administration of 2.5 mg/kg of MR-2266 prevented the facilitatory effect exerted by dynorphin1-17 after post-training, as well as after pre-test administration. Our results suggest that dynorphin1-17 may be involved in modulating the consolidation, as well as the retrieval, of recently acquired information.     

Effect of drugs of the nootropic class on rat behavior after deprivation of the paradoxical stage of sleep

Pharmacological analysis was used for studying the influence of 24-hour deprivation of paradoxical sleep by Jouvet method on retention of conditioned reaction of passive avoidance in rats. Psychotropic substances of different action were used for the analysis: nootropes as anti-amnestic--pyracetam (400 mg/kg), kleregil (100 mg/kg), centrofenoxin (50 mg/kg) and watersoluble salt of 3-oxypiridin derivative (3-OP) (50 mg/kg) and tranquilizer of bensodiazepine series phenazepam (1 mg/kg) as antistress and antiphobic. It was established that 24-hour deprivation disturbed the elaborated reaction but did not change the rate of emotionality and orienting-investigating behaviour of rats in the open field. Nootropes effectively restored the conditioned passive avoidance reaction while phenazepam had no effect. This allows to suggest that Jouvet method of paradoxical sleep deprivation elicits amnesia and its cause is not only stress but deficit of paradoxical sleep.     

Is "scopolamine-induced amnesia" in rats the result of state-dependent learning?

The effects of a single and repetitive administration of m-cholinoblocker scopolamine (Sc) to male rats on retention of step-through passive avoidance (PA) or active avoidance (AA) in a shuttle-box were compared. In case of PA Sc (1 mg/kg) was injected i.p. only 30 min before training, only 30 min before testing, or both before training and before testing. In case of AA Sc (0.5 mg/kg/day) was injected i.p. only 15 min before each training session or both before training and before testing (44 days after achievement of learning criterion). The PA and AA retention were impaired only in the experiments, where the drug was administered before training, but did not differ from control, when Sc was injected twice. The Sc-induced amnesia (like many other cases of memory deficits) is suggested to be a manifestation of state-dependent learning. Similarity between the brain state during memory consolidation and during the retention test is necessary for recollection.     

NGF,BDNF and Arc mRNA Expression in the Hippocampus of Rats After Administration of Morphine

Morphine can influence immediate early genes (IEG) of activity-regulated cytoskeletal-associated protein (Arc) and brain-derived neurotrophic factor (BDNF) which are activated in response to physiological stimuli during learning, as well as the nerve growth factor (NGF) gene which increases the expression of several IEGs for memory formation. The purpose of the current study was first to evaluate the effect of acute (1-day) and subchronic (15-days) morphine administration on memory retrieval of rats and second to determine the hippocampal expression of NGF, BDNF and Arc genes as potential contributors in the observed effects in each setting. The effects of morphine (intraperitoneal, 10, 15 and 20 mg/kg) on memory function and gene expression were assessed using inhibitory avoidance test and real-time polymerase chain reaction, respectively. We found that a single dose of morphine at the highest dose of 20 mg/kg decreases the post-training step-through-latency, while repeated administration of the same dose for 15 successive days increases this indicator of memory retrieval. We did not detect a significant change in the hippocampal expression of Arc, BDNF or NGF genes after a single episode of morphine treatment. However, subchronic morphine administration (15 and 20 mg/kg) increased the expression of Arc and BDNF genes in a dose dependent manner. A higher mRNA expression for the NGF was observed at the higher dose of 20 mg/kg. We hypothesize that the subchronic effects were morphine-induced behavioral sensitization which may have been enhanced through increased hippocampal Arc expression.

     

MSH/ACTH4-10: a tool to differentiate between the role of vasopressin in memory consolidation or retrieval processes

MSH/ACTH4-10 induces a dose dependent increase of latency scores during retention of a passive avoidance response, when injected SC prior to retention but not when administered immediately after the learning trial. Intracerebroventricular administration of anti-vasopressin serum immediately after the learning trial or 1 hr prior to retention induces marked deficits in passive avoidance behavior as indicated by low latencies during retention. SC injection of MSH/ACTH4-10 increased latency scores in animals which received anti-vasopressin serum prior to retention, but did not alter latencies in animals, which received anti-vasopressin serum after the learning trial. These results suggest that MSH/ACTH4-10 is involved in retrieval processes and is able to differentiate between the effects of vasopressin on memory consolidation and on retrieval.     

Effects of haloperidol on rat behavior and density of dopaminergic D2-like receptors

The present work shows the effects of a typical neuroleptic drug (haloperidol, HAL) on rat behavior (catalepsy and locomotor activity) and dopaminergic D2-like receptor densities in the hippocampus and striatum. Male Wistar rats (2-3 months old) were treated daily for 30 days with HAL (0.2 or 1mg/kg, intraperitoneally (i.p.)). At the end of treatment and 1h or 1, 3, 7 and 15 days after drug withdrawal, animals were subjected to behavioral tests and sacrificed afterwards for binding assays. The results showed that behavioral effects with both doses were significant only 1h and 1 day after withdrawal, and similar to controls at the third day. An up-regulation of D2 receptors was observed in the striatum (28% increase) but not in the hippocampus after 24h HAL (1mg/kg) withdrawal. However, an up-regulation was seen in both areas (1mg/kg) 3 days after drug withdrawal (58 and 42% increases in the hippocampus and striatum, respectively), and continued after 7 days of withdrawal only in the striatum (43 and 49% for the doses of 0.2 and 1mg/kg, respectively), suggesting the influence of dose, age, and time of drug withdrawal on these parameters. The up-regulation disappeared after 15 days of haloperidol withdrawal. Increases (72 and 140%) in constant dissociation values (K(d)) values were also observed 7 days after withdrawal. Results show differences on a time-basis between behavioral alterations and dopaminergic D2 receptors up-regulation.     

Effects of bromocriptine and alpha-flupenthixol on sleep in REM sleep deprived rats.

Administration of bromocriptine mesylate (5 mg/kg, i.p.), a dopamine receptor stimulant, to rats which were deprived of REM sleep for 24 hours resulted in a significant increase in wakefulness as well as significant reduction of REM sleep during the first 5 hours of EEG recording. These effects were completely abolished by pretreatment with α-flupenthixol (0.2 mg/kg, i.p.), a dopamine receptor blocker. The loss of REM sleep has not been regained during the next 25 hours of EEG recording suggesting that the stimulation of dopamine receptors reduced REM sleep without causing subsequent REM rebound. These data raise questions on the negative dopamine control of REM sleep and on the potential use of dopamine stimulants in clinical situations characterized by excessive REM or by REM sleep dysfunction (narcolepsy).     

Positive impact of levetiracetam on emotional learning and memory in naive mice

AimsThe effect of an antiepileptic drug on cognitive function is of primary importance with respect to the patient's quality of life. Levetiracetam (LEV) is a novel antiepileptic drug used to treat epilepsy, but its effects on spatial and emotional learning and memory are not yet well understood. The goal of our study was to establish the effects of LEV (17 and 54 mg/kg, intraperitoneally (IP)) on spatial memory retrieval in the Morris water maze test and on acquisition and memory formation in the passive avoidance (PA) test in naive mice.Main methodsThe subjects were adult male BALB/c mice. Spatial learning and memory was established with the Morris water maze (MWM) test. The ‘time spent in escape platforms quadrant’ and the ‘distance to platform’ analyses were measured using a video tracking system to determine spatial memory function. Emotional learning and memory were determined with a one-trial, step-through passive avoidance test.Key findingsIn the MWM test, LEV (17 and 54 mg/kg) neither affected the time spent in the target quadrant nor altered the distance to platform. Moreover, LEV had no effect on swim speed. In the PA task, LEV (17 and 54 mg/kg) significantly prolonged retention latency.SignificanceOur results indicate that LEV did not alter spatial memory retrieval in the MWM test, but it did show some ameliorating effects on acquisition and memory formation in the PA test in naive mice.     

Dexrazoxane provided moderate protection in a catecholamine model of severe cardiotoxicity

Positive effects of dexrazoxane (DEX) in anthracycline cardiotoxicity have been mostly assumed to be associated with its iron-chelating properties. However, this explanation has been recently questioned. Iron plays also an important role in the catecholamine cardiotoxicity. Hence in this study, the influence of DEX on a catecholamine model of acute myocardial infarction (100?mg/kg of isoprenaline by subcutaneous injection) was assessed: (i) the effects of an intravenous dose of 20.4?mg/kg were analyzed after 24?h, (ii) the effects were monitored continuously during the first two hours after drug(s) administration to examine the mechanism(s) of cardioprotection. Additional in vitro experiments on iron chelation/reduction and influence on the Fenton chemistry were performed both with isoprenaline/DEX separately and in their combination. DEX partly decreased the mortality, reduced myocardial calcium overload, histological impairment, and peripheral haemodynamic disturbances 24?h after isoprenaline administration. Continuous 2?h experiments showed that DEX did not influence isoprenaline induced atrioventricular blocks and had little effect on the measured haemodynamic parameters. Its protective effects are probably mediated by inhibition of late myocardial impairment and ventricular fibrillation likely due to inhibition of myocardial calcium overload. Complementary in vitro experiments suggested that iron chelation properties of DEX apparently did not play the major role.     

Controlled trial of chlorpromazine as antisecretory agent in patients with cholera hydrated intravenously.

A randomised controlled trial was conducted to investigate the ability of chlorpromazine to reduce intestinal secretion in cholera. Chlorpromazine had reduced loss of intestinal fluid in animals with diarrhoea induced by cholera toxin, and in a preliminary study the drug had reduced purging in patients with cholera. Forty-six adults with cholera were included in the randomised trial. Of these, 34 were treated with chlorpromazine (1 mg/kg or 4 mg/kg either by mouth or intramuscularly) and 12 served as controls. After treatment with the drug there was a significantly greater reduction in the rate of fluid loss in the treated patients than in the controls during the first (p less than 0.005), second (p less than 0.05), and fourth (p less than 0.01) eight-hour periods, but not during the third eight-hour period; the dose of 4 mg/kg was only marginally more effective than 1 mg/kg. The effect of chlorpromazine was strikingly biphasic, with one peak during the first eight hours and another 24-32 hours after administration. Chlorpromazine also significantly reduced the duration of diarrhoea, frequency of vomiting, and amount of intravenous fluid required. The drug induced mild sedation and no hypotension in these well-hydrated patients. These findings confirm the effectiveness of chlorpromazine in reducing fluid loss in cholera. A sedative effect, however, especially in children, may limit its usefulness and requires further study.     

Pharmacological analysis of the antiinflammatory effects of low-intensity extremely-high-frequency electromagnetic radiation

The antiinflammatory effect of low-intensity extremely-high-frequency electromagnetic radiation (EHF EMR, 42.0 GHz, 0.1 mW/cm²) was studied in comparison to the effects of the antiinflammatory drug sodium diclofenac and the antihistamine clemastine in acute inflammatory reaction in mice of NMRI outbred stock. The local inflammatory reaction was induced by intraplantar injection of zymosan to the left hind paw. Intraperitoneal injections of 2, 3, 5, 10, and 20 mg/kg of sodium diclofenac or 0.02, 0.1, 0.2, 0.4, and 0.6 mg/kg of clemastine were made 30 min after the initiation of inflammation. An hour after the initiation of inflammation, animals were whole-body exposed to EHF EMR for 20 min. The inflammatory reaction was assessed 3–8 h after initiation by measuring the footpad edema and hyperthermia of the inflamed paw. Sodium diclofenac (5–20 mg/kg) reduced the exudative edema by ～26% compared to the control. Hyperthermia of the inflamed paw decreased by 60% with an increase in the diclofenac dose to 20 mg/kg. EHF EMR reduced both the footpad edema and hyperthermia by ～20%. This was comparable to the effect of a single therapeutic dose of diclofenac (3–5 mg/kg). The combination of diclofenac and exposure to EHF EMR produced a partial additive effect. Clemastine (0.02–0.4 mg/kg) did not affect the exudative edema, but at a dose of 0.6 mg/kg, edema was reduced by 14–22% five to eight hours after zymosan injection. Clemastine caused a dose-dependent increase in hyperthermia of inflamed paw at doses 0.02–0.2 mg/kg and did not affect the hyperthermia at doses 0.4 and 0.6 mg/kg. A combination of clemastine and EHF EMR exposure resulted in a dose-dependent abolishment of the antiinflammatory effect of EHF EMR. Our results suggest that both arachidonic acid metabolites and histamine are involved in the achievement of the antiinflammatory effects of low-intensity EHF EMR.     

Effects of anisomycin on brain protein synthesis and passive avoidance learning in newborn chicks

The effects of anisomycin (ANM) on newborn chicks have been studied with respect to brain protein synthesis, growth, EEG, toxicity, and several passive avoidance learning tasks. It was found that intracerebral ANM (80 nmol) gave a maximum inhibition of brain protein synthesis of 30%, while a combination of subcutaneous (10 μmol; 53 mg/kg) plus intracerebral (80 nmol; 21 μg) ANM, inhibited by 91% in the first 2 hr and by 75% in the subsequent 2 hr period. Cycloheximide (CXM) also in combined injections at the same doses as ANM, inhibited by 97% in the 4 hr that followed injection. However, all the CXM-injected chicks were dead by 18 hr, while the lethality of ANM did not differ from that of saline. ANM also did not affect EEG measured at 1, 3, 5, or 24 hr following the subcutaneous plus intracerebral injections, nor did ANM affect body or brain growth curves or brain protein accretion. In the learning experiments, animals were initially trained to peck at water-coated metal spheres (type A learning) or at water-imbibed birdseed (types B and C learning) in less than 1 sec, and were exposed to the same lures treated with the aversant methylanthranilate (MeA) one day later on one occasion (types A and B learning) or exposed twice (type C learning) and tested for learning retention one day later. Learning criterion was set as failure to peck at the lure during the first 20 sec of presentation. If ANM was injected 1 hr prior to MeA exposure, large and highly significant memory deficits were found during the retention test, as compared with saline injected controls. No effect of ANM was seen, however, if it was injected one day after learning, indicating that it did not interfere with retrieval mechanisms. ANM also decreased the external manifestations of fear or displeasure that chicks express during retention testing. Such manifestations have a high correlation with pecking suppression (r = 0.88, P < 0.001).     

Effects of anisomycin on brain protein synthesis and passive avoidance learning in newborn chicks.

The effects of anisomycin (ANM) on newborn chicks have been studied with respect to brain protein synthesis, growth, EEG, toxicity, and several passive avoidance learning tasks. It was found that intracerebral ANM (80 nmol) gave a maximum inhibition of brain protein synthesis of 30%, while a combination of subcutaneous (10 mumol; 53 mg/kg) plus intracerebral (80 nmol; 21 mug) ANM inhibited by 91% in the first 2 hr and by 75% in the subsequent 2 hr period. Cycloheximide (CXM) also in combined injections at the same doses as ANM, inhibited by 97% in the 4 hr that followed injection. However, all the CXM-injected chicks were dead by 18 hr, while the lethality of ANM did not differ from that of saline. ANM also did not affect EEG measured at 1, 3, 5, or 24 hr following the subcutaneous plus intracerebral injections, nor did ANM affect body or brain growth curves or brain protein accretion. In the learning experiments, animals were initially trained to peck at water-coated metal spheres (type A learning) or at water imbibed birdseed (types B and C learning) in less than 1 sec, and were exposed to the same lures treated with the aversant methylanthranilate (MeA) one day later on one occasion (types A and B learning) or exposed twice (type C learning) and tested for learning retention one day later. Learning criterion was set as failure to peck at the lure during the first 20 sec of presentation. If ANM was injected 1 hr prior to MeA exposure, large and highly significant memory deficits were found during the retention test, as compared with saline injected controls. No effect of ANM was seen, however, if it was injected one day after learning, indicating that it did not interfere with retrieval mechanisms. ANM also decreased the external manifestations of fear or displeasure that chicks express during retention testing. Such manifestations have a high correlation with pecking suppression (r = 0.88, P less than 0.001).     

Plasma concentrations of monoethylglycinexylidide during and after breast augmentation

MEGX (monoethylglycinexylidide) is the main metabolite of lidocaine and is 83 percent as potent as an antiarrhythmic drug and with the same toxicity as lidocaine. In this study, plasma levels of MEGX were measured in 10 other wise healthy women during and after breast augmentation. A total dose of 825 to 1,280 mg of lidocaine of 0.2% and 0.5% lidocaine with epinephrine corresponding to 16.3 to 21.8 mg/kg (mean, 18.2 mg/kg) was injected in the spatium between the pectoralis muscle and the mammary gland. The peak plasma concentrations of MEGX varied between 0.40 and 0.99 microg/ml (mean, 0.49 microg/ml) and occurred between 8 and 12 hours (mean, 9.1 hours), postoperatively. In three patients, the concentration of MEGX was still increasing after 12 hours. In comparison, the peak plasma concentrations of lidocaine varied between 0.96 and 3.12 microg/ml (mean, 1.49 microg/ml) and occurred between 4 and 12 hours (mean, 7.3 hours) after the end of the injection. The peak lidocaine + MEGX concentrations varied between 1.45 and 3.58 microg/ml (mean, 2.02 microg/ml) and occurred between 5 and 12 hours (mean, 8.5 hours), postoperatively. These data suggest that MEGX might contribute to lidocaine toxicity when high doses of lidocaine are injected. The substantial interindividual variation strongly indicates that recommendations about maximum safe doses of lidocaine should be made with caution.     

Divided dose intramuscular regimen and single dose subcutaneous regimen for chloroquine: plasma concentrations and toxicity in patients with malaria.

Adults with malaria in Sri Lanka were treated with parenteral chloroquine diphosphate, either 2.5 mg base/kg intramuscularly at 0, 1, 12, 13, 24, and 25 hours or 5 mg base/kg subcutaneously at 0, 12, and 24 hours. Both regimens were completed with oral chloroquine phosphate, 5 mg base/kg, at 36 and 48 hours. Mean peak chloroquine concentrations in the first 12 hours, which were 0.5 (range 0.3-0.6) mg/l (1.4 (0.9-1.7) mu mol/l) [corrected] with the intramuscular regimen and 0.3 (0.2-0.4) mg/l (1.0 (0.7-1.3) mu mol/l) [corrected] with the subcutaneous regimen (p less than 0.05), were reached in median times of 90 (65-90) minutes and 30 (30-60) minutes respectively (p less than 0.05) after the start of treatment. The mean area under the plasma concentration curve for the first 12 hours was 1.4 (0.9-2.1) mg/l.h (4.5 (2.8-6.4) mu mol/l.h) [corrected] after intramuscular administration and 1.8 (0.8-2.3) mg/l.h (5.7 (2.7-7.2) mu mol/l.h) [corrected] after subcutaneous administration (p greater than 0.1). Mean maximum plasma concentrations were higher after intramuscular administration (0.6 (0.4-0.8) mg/l (1.7 (1.3-2.5) mu mol/l)) [corrected] than after subcutaneous administration (0.4 (0.4-0.5) mg/l (1.3 (1.3-1.5) mu mol/l)) [corrected] (p less than 0.05), but both regimens produced satisfactory plasma profiles. Chloroquine resistance was found in the only case of Plasmodium falciparum malaria. Chloroquine is absorbed rapidly after divided dose intramuscular injection and single dose subcutaneous injection and does not cause hypotension or neurotoxicity in adults. Similar regimens should be evaluated in children before the parenteral use of this drug is abandoned.