Effect of hormones of the neurohypophysis on different types of behavioral responses in the rat

In experiments on male rats arginyl-vasopressin (AVP), lysyl-vasopressin (LVP) and vasotocin (VT) in doses of 0.005-0.010 mg/kg decreased motor activity and emotional behaviour in the open field test. In a dose of 0.001 mg/kg AVP significantly accelerated the elaboration of active avoidance; oxytocin delayed it, but LVP and VT had no significant influence. AVP also somewhat attenuated the elaboration of passive avoidance. None of the four studied peptides significantly affected the rate of elaboration of conditioned food-rewarded reaction to place.     

Study on the optimum number of trials and intensity of unconditioned stimulants and strain difference in the two-way shuttle-box avoidance test using rats

In order to determine the optimun conditions suitable for a number of trials and the intensity of unconditioned stimulant (US) in the two-way shuttle-box avoidance test in Sprague-Dawley strain rats, which are used most frequently in reproduction studies, conditioned avoidance response was observed under various conditions for 30 and 60 trials and the low and high US levels. Investigation was also conducted in Wistar rats under a high US level with 30 and 60 trials. Latency time of the escape response in Sprague-Dawley rats was shortened with increasing trials. Body weight gains of both strains of rats in the high US level with the 60-trial group decreased during the observation period. These findings suggest that the high US level with the 60-trial group is not suitable for the two-way shuttle-box avoidance test. The rate and latency time of the avoidance response were lower in Wistar rats than in Sprague-Dawley rats, although those of the escape response were higher. Significant changes in the following were observed, mainly from first to third sessions: the avoidance rate of all groups in strains of rats, escape rate of 60-trial group in Sprague-Dawley rats, avoidance and escape latency time of the 60-trial groups in both strains of rats and escape latency time of the 30-trial group in Sprague-Dawley strain rats.     

The neuroteratogenicity of procarbazine in the rat: behavioral, morphological, and neurochemical aspects

Pregnant female Sprague-Dawley rats were treated from day 12 through day 15 of gestation with procarbazine, an antineoplastic drug, and their offspring were subjected to tests of locomotor development and behavior. Treatment levels ranged from 0.5 mg/kg/day, a dose that produced no abnormalities, to 10 mg/kg/day, a dose that caused a marked micrencephaly in the absence of other teratological changes. Despite marked morphological brain changes, preweaning locomotor development, as assessed by open-field swimming activity and vertical grid climbing, was normal in all offspring. Post-weaning passive avoidance learning and retention were also normal. Groups that had been treated prenatally with teratogenic doses (5.0 and 10.0 mg/kg/day) displayed less rearing behavior in the open field, while ambulation in the periphery of the open field arena was unaffected. Groups treated with subteratogenic doses (0.5 and 1.0 mg/kg/day) did not differ from control. In addition to the behavioral studies, sodium-dependent high-affinity choline uptake and choline acetyltransferase activity (CAT) were measured (per mg protein) in the cortex and hippocampus of animals that had been exposed prenatally to either teratogenic or subteratogenic doses of procarbazine. In spite of a substantial reduction in size of both brain structures in the group receiving a teratogenic dose, choline uptake and CAT did not differ from control.     

Developmental immunotoxicity investigations in the SD rat following pre- and post-natal exposure to cyclosporin

BACKGROUND: The development and function of the immune system was assessed in juvenile SD rats following pre- or post-natal exposure to cyclosporin. The main objective was to assess the feasibility of the methods available for the detection of adverse effects on the development of the immune system for use in the safety assessment of medicines. METHODS: In a pre-natal experiment, 15 pregnant rats were given 10 mg/kg/day of cyclosporin by gavage from day 6 of gestation until 4 days after parturition. A control group received olive oil. In a post-natal experiment, the pups from 35 litters were given 10 mg/kg/day of cyclosporin by gavage from 4 to 28 days of age. Half of the pups in each litter were given water and acted as controls. Immune endpoints were determined in the pups in both experiments from two to 10 weeks of age, including: lymphocyte subsets, serum immunoglobulin titres, serum autoantibodies, primary antibody response to sheep red blood cells (SRBC), delayed-type hypersensitivity response, humoral response to keyhole limpet haemocyanin, spleen cellularity, immune organ weights, and histopathology. RESULTS: Pre-natal exposure caused no effects on immune function. Post-natal exposure caused immune depression during the treatment period and a persistent impairment of the immune system characterised by lymphoid hyperplasia in the spleen and a reduced primary antibody response to SRBC at 10 weeks of age. CONCLUSIONS: These results demonstrate the importance of a post-treatment follow-up period in developmental immunotoxicity studies, in order to distinguish between the transient effects of immune modulation and the persistent consequences of developmental toxicity.     

Effect of prenatal diazepam, phenobarbital, haloperidol and fluoxetine exposure on foot shock induced aggression in rats.

Different groups of pregnant rats were treated with diazepam (10 mg/kg), phenobarbital (10 mg/kg), haloperidol (0.1 mg/kg), fluoxetine (10 mg/kg) and vehicle (normal saline) intraperitoneally once a day during gestation days 13 to 21. After birth these pups were culled to 8 pups/dam and foster-nursed by lactating mothers for 3 weeks and were reared in colony cages thereafter. Sex and weight matched pairs of rat offsprings were subjected to foot shock induced aggression test at 8 weeks of age. Two parameters of aggressive behaviour were recorded namely, the latency to fight and total number of fighting bouts. The results indicate that prenatal exposure to diazepam, phenobarbital, haloperidol and fluoxetine caused significantly enhanced aggression in terms of number of fighting bouts.     

Effects of early malnutrition on Swiss white mice: avoidance learning after rearing in large litters

Mice were undernourished by rearing in litters of 20 pups per mother, weaned onto stock diet and their shuttle-box avoidance performance measured at 2 months of age. The mice from these large litters learned the avoidance response more slowly than controls (mice reared in litters of 5). In a second experiment, avoidance performance was measured after nutritional rehabilitation until 2, 4 or 6 months old. No significant improvement was observed in the previously malnourished mice. In the controls, performance was high at 2 and 4 months but by 6 months had fallen almost to the same level as the test group.     

A Single Neonatal Injection of Ethinyl Estradiol Impairs Passive Avoidance Learning and Reduces Expression of Estrogen Receptor α in the Hippocampus and Cortex of Adult Female Rats

Although perinatal exposure of female rats to estrogenic compounds produces irreversible changes in brain function, it is still unclear how the amount and timing of exposure to those substances affect learning function, or if exposure alters estrogen receptor α (ERα) expression in the hippocampus and cortex. In adult female rats, we investigated the effects of neonatal exposure to a model estrogenic compound, ethinyl estradiol (EE), on passive avoidance learning and ERα expression. Female Wistar-Imamichi rats were subcutaneously injected with oil, 0.02 mg/kg EE, 2 mg/kg EE, or 20 mg/kg 17β-estradiol within 24 h after birth. All females were tested for passive avoidance learning at the age of 6 weeks. Neonatal 0.02 mg/kg EE administration significantly disrupted passive avoidance compared with oil treatment in gonadally intact females. In a second experiment, another set of experimental females, treated as described above, was ovariectomized under pentobarbital anesthesia at 10 weeks of age. At 15–17 weeks of age, half of each group received a subcutaneous injection of 5 μg estradiol benzoate a day before the passive avoidance learning test. Passive avoidance learning behavior was impaired by the 0.02 mg/kg EE dose, but notably only in the estradiol benzoate-injected group. At 17–19 weeks of age, hippocampal and cortical samples were collected from rats with or without the 5 μg estradiol benzoate injection, and western blots used to determine ERα expression. A significant decrease in ERα expression was observed in the hippocampus of the estradiol-injected, neonatal EE-treated females. The results demonstrated that exposure to EE immediately after birth decreased learning ability in adult female rats, and that this may be at least partly mediated by the decreased expression of ERα in the hippocampus.     

Pituitary-adrenal influences on avoidance behavior of pigs

Pigs submitted to extinction of a signaled conditioned avoidance response were injected daily with various doses of dexamethasone (DX) or ACTH. Pigs treated with 0.2 mg/kg of DX showed a higher number of intertrial crosses, but the extinction rate was not modified by either treatment. The effects of ACTH and DX were further studied on the reaction to a Pavlovian conditioned fear signal presented to pigs having learned a continuous avoidance response in a shuttle-box. DX treatment before both the fear conditioning and the test sessions enhanced the reaction to the fear signal at intermediate doses (0.2 mg/kg) but had little effect at lower (0.1 mg/kg) and higher doses (0.5 and 1 mg/kg). ACTH 1–24 treatment induced the same behavioral changes as intermediate doses of DX. A behaviorally active ACTH 4–9 analog, Org 2766, did not modify behavioral reaction to fear signal presentations when administered before fear conditioning and/or test sessions. These results demonstrate that, in pigs, avoidance performance changes under fear signal presentations are modulated by corticosteroids.     

In utero morphological effects of hydroxyurea on the fetal development in Sprague-Dawley rats

In order to investigate in utero morphological effect of hydroxyurea (HU) in Sprague-Dawley rats, HU was intraperitoneally injected to pregnant Sprague-Dawley rats at a dose of 100 or 200 mg/kg/day during the organogenetic period (days 9-12 of gestation). A dose of 200 mg/kg/day induced growth retardation, high mortality and high incidence of malformations, although a dose of 100 mg/kg/day produced no adverse effects in the next generation. In the HU 200 mg/kg/day group the incidence of malformations in pups at 4 days of age was low as compared with that in fetuses and pups at 21 days of age. Increasing perinatal mortality in fetuses and pups due to severe central nervous system (CNS) malformations and disappearance of some cases of ventricular septal defect after delivery were considered as the possible causes to induce difference in malformation rate in various stage of development. Latent effect on the development of CNS malformations was observed between 4 and 21 days of age. There was no sex difference in teratogenic effect. These findings were compared with those in Wistar rats exposed to HU 200 mg/kg/day. The incidence of perinatal malformations and the stillbirths were significantly higher in the Wistar rats as compared with those in the Sprague-Dawley rats. In addition, such morphological effects of HU as the exencephaly, dilatation of lateral ventricle, anophthalmia, cleft palate and micrognathia are less severe in Sprague-Dawley rat fetuses than in Wistar rat fetuses.     

Long-lasting behavioral effects of chronic neonatal treatment with ACTH (4-10) analogue semax in white rat pups

It is well known that ACTH/MSH-like peptides (melanocortins) have neurotrophic and neuroprotective effects on the central and peripheral nervous systems in the early postnatal life. The aim of present work was to study consequences of the ACTH (4-10) analogue Semax influence on the developing brain. The work was carried out in white rat pups. The peptide (0.05 mg/kg, i/p) was injected daily on the 8th-21st postnatal days. Delayed long-lasting effects of such treatment on animal behavior were revealed. At the age of four to eight weeks, Semax-treated rats displayed elevated exploratory activity, decreased anxiety level and improved passive avoidance conditioning. The results suggest that neonatal Semax administration modulates the development of the central nervous system.     

不同剂量鱼藤酮对拟帕金森病模型大鼠行为学及纹状体多巴胺含量的影响

目的观察不同剂量鱼藤酮皮下注射对大鼠行为学及脑纹状体多巴胺含量的影响,探讨鱼藤酮拟帕金森病大鼠模型的适宜造模条件。方法Lewis大鼠分别给予鱼藤酮不同剂量（1．0、1．5和2．0ms／ks／d）皮下注射共28d。应用旷场实验和斜板实验分别测定大鼠的运动功能和协调性,高效液相色谱一电化学法检测大鼠纹状体内多巴胺含量。结果模型组大鼠存活率随鱼藤酮注射剂量的升高呈逐渐下降趋势。鱼藤酮2．0mg／kg组大鼠体重最先明显降低,随着注射时间的延长,各模型组大鼠均出现显著的体重降低。旷场实验结果显示,各剂量鱼藤酮组大鼠跨格次数和站立次数均明显下降。斜板实验结果显示,鱼藤酮1．5mg／kg组大鼠在斜板的停留角度较对照组显著减小。鱼藤酮I．5ms／kg组大鼠脑纹状体内多巴胺含量显著降低。结论鱼藤酮1．5ms／kg皮下注射28d,大鼠出现明显的运动功能障碍和脑内多巴胺含量减少,而死亡率相对较低,因此是建立帕金森病大鼠模型的适宜剂量。     

Influence of rat prenatal and postnatal exposure to a non-steroidal anti-inflammatory agent (flunoxaprofen) on cardiovascular function in the progeny

The present experiments evaluated in rats the effects of prenatal and postnatal exposure to a non-steroidal antiinflammatory agent, flunoxaprofen (5-10 and 20 mg/kg/day by the oral route), on cardiovascular function in the pups. In both conscious and anaesthetized rats pre- and postnatal flunoxaprofen exposure at the 30th and 60th day of age, significantly (P less than .05) induced a decrease of pressor response to carotid-sinus baroreceptor stimulation and to L-noradrenaline (0.1-1 and 5 micrograms/kg iv), and an increase of the hypotensive responses to L-isoprenaline (0.01-0.1 and 1 microgram/kg iv) and acetylcholine (0.01-0.1 and 1 microgram/kg iv). These effects were not observed in rats on the 90th day of age. Moreover, pre- and postnatal flunoxaprofen exposure did not modify systolic arterial blood pressure of plasma levels of catecholamines and acetylcholinesterases. Our results also show that in normotensive rats flunoxaprofen exposure during pregnancy did not affect the body weight, systolic or diastolic blood pressure or heart rate of pregnant rats. It did not affect the length of gestation, number of pups per litter or pup body weight. No macroscopic teratogenic effects were observed.     

Developmental alterations in offspring of female rats orally intoxicated by aluminum lactate at different gestation periods

Pregnant rats were treated orally with aluminum lactate (400 mg Al/kg/day) during three periods of gestation to determine the treatment's influence on mortality, weight gain, neuromotor maturation, and learning abilities of their pups. No effect of treatment on litter size, mortality rate, and weight gain of pups was detected. In the negative geotaxis test, the scores of pups from females treated during the second and third weeks of gestation were diminished. In the locomotor coordination and the operant conditioning tests, significant differences in the comparison of controls vs. the three treated groups were found, indicating long-term effects of early intoxication upon the central nervous system.     

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.     

Effect of dietary linoleate/alpha-linolenate balance on the brain lipid composition, reproductive outcome and behavior of rats during their prenatal and postnatal development

The effect of the dietary linoleate (LA)/alpha-linolenate (LNA) balance during development on the brain lipid composition, reproductive outcome and behavior of rats was studied. Female rats were fed on experimental diets during pregnancy and the resulting pups for 16 weeks. The dietary LA/LNA ratios were 1.07 (LA1), 2.64 (LA2), 4.45 (LA3), 7.68 (LA4) and 10.35 (LA5). The relative content of docosahexaenoate (DHA) in the brain of pups tended to increase with decreasing LA/LNA ratio at 0 and 3 weeks, while the level of DHA was maintained constant at 16 weeks regardless of the dietary LA/LNA ratio. The learning ability was measured at 12 weeks of age, and there was no difference among the groups. In an open field test, the exploratory index was significantly lower in the LA1 group than in the LA2 group. The LA1 group had a smaller litter size and lower survival rate than the other groups. We conclude that if the diet contained appropriate amounts and balance of LA and LNA, it was possible for rats to synthesize an appropriate amount of DHA and have normal behavioral activity without DHA supplementation.     

Effect of Dietary Linoleate/alpha-Linolenate Balance on the Brain Lipid Composition,Reproductive Outcome and Behavior of Rats during Their Prenatal and Postnatal Development

The effect of the dietary linoleate (LA)/alpha-linolenate (LNA) balance during development on the brain lipid composition, reproductive outcome and behavior of rats was studied. Female rats were fed on experimental diets during pregnancy and the resulting pups for 16 weeks. The dietary LA/LNA ratios were 1.07 (LA1), 2.64 (LA2), 4.45 (LA3), 7.68 (LA4) and 10.35 (LA5). The relative content of docosahexaenoate (DHA) in the brain of pups tended to increase with decreasing LA/LNA ratio at 0 and 3 weeks, while the level of DHA was maintained constant at 16 weeks regardless of the dietary LA/LNA ratio. The learning ability was measured at 12 weeks of age, and there was no difference among the groups. In an open field test, the exploratory index was significantly lower in the LA1 group than in the LA2 group. The LA1 group had a smaller litter size and lower survival rate than the other groups. We conclude that if the diet contained appropriate amounts and balance of LA and LNA, it was possible for rats to synthesize an appropriate amount of DHA and have normal behavioral activity without DHA supplementation.     

Poster Sessions CP02: Aging. Combination of NGF treatment and enrichment environment in old rats: biochemical and behavioral consequences

Brain glutathione system (Glut‐Syst) exhibits functional changes with age as well as during neurodegenerative diseases. After NGF treatment, cognitive functions and Glut‐Syst activity are favorably modified in aged rats. also, the environmental enrichment (E‐E) activates molecular mechanisms linked to cognition and sensorimotor coordination. We evaluate the functional repercussion of the combination of both factors. Old cognitively impaired rats received intracerebroventricular infusion of NGF (ICV, 22 mg/mL) or intraparenquimal (IP‐nbM, 5.5 mg/mL) during 14 days using ALZET osmotic minipumps. Simultaneously, these animals received a passive training in an E‐E during 4 weeks. A control group received training + saline infusion. Animals were assessed in the water maze task, avoidance passive test, open field test and transverse bridges test. At the end of the week 4, glutathione content and Choline Acetyltransferase (ChAT) activity were measured in brain areas of interest. E‐E or NGF treatments, particularly the IP route, improve the rat's overall behavioral performance but a synergic effect was observed when NGF and E‐E were applied simultaneously. A trend to hyperactivity was detected in the ICV group. Glutathione content and ChAT activity exhibited significant changes according to the group and brain area. It's well known that activity/levels of antioxidant enzymes and ChAT activity are related to age, brain region and neurotrophins activity. Results point out the possibilities of neurotrophic therapy if an adequate route of delivery is used as well as the benefit of combining a neurorehabilitation program on both, behavioural and protection from oxidative stress.     

Behavioral effects of bovine lactoferrin administration during postnatal development of rats

We tested the hypothesis that rats consuming bovine lactoferrin (bLf) during postnatal development would show better performance of stressful tasks during adolescence. In the first study, we orally administered bLf (750 mg/kg) once daily between postnatal days 16–34. Rats then underwent a battery of behavioral tests: open field (forced exploration of risky environment), light–dark emergence (voluntary exploration of risky environment), baited holeboard (working and reference memory), food neophobia (preference for familiar versus novel food), forced swim (test for antidepressant efficacy), and shuttle-box escape (learning to escape footshock). bLf-supplemented rats showed less exploration of the risky environment, greater preference for the familiar food odor, and faster escape responses. The effect of bLf on forced-swim behavior depended on sex: immobility increased for males and decreased for females. In the next study, we replaced the forced-swim test with an escape-swim test in which rats learned to use a visual cue to locate an escape platform, and we tested the dose response of bLf on this and the shuttle-box escape test, with subjects receiving vehicle or bLf at 500, 1,000, or 2,000 mg/kg. Under this modified testing battery, improvement of escape from footshock was not observed at any dose. However, males, but not females, showed a significant dose-dependent effect of bLf on acquisition of the water-escape task. On average, males receiving a higher dose mastered the task 20–25 % sooner than rats receiving a lower dose or vehicle. These results offer preliminary evidence that bLf supplementation during development can improve subsequent cognitive performance during stress.     

Effects of omeprazole on cell kinetics of carcinogen-induced colon tumours in rats

This study was designed to evaluate the effects of hypergastrinaemia induced via suppression of gastric acid by omeprazole on carcinogen-induced colon cancer in rats. The carcinogen methylazoxymethanol (MAM), 30 mg/kg, was administered intraperitoneally at 6-weekly intervals to Sprague-Dawley rats. Four weeks after the last MAM injection, the first daily dose of omeprazole, 40 mg/kg, was given by gastric gavage to one group of rats, and the rest were given buffered methylcellulose vehicle. After 10 weeks of daily omeprazole or vehicle, the rats were anaesthetized with ether, blood samples obtained, and animals sacrificed. Gastrin levels in serum from omeprazole-treated rats were elevated nearly six-fold. DNA and RNA levels in gastric mucosa were unchanged by omeprazole, but protein content was somewhat reduced. No biochemical or histological changes related to omeprazole treatment were observed in normal colon. The number of tumours, tumour volumes, and total tumour burden were not significantly different in colons of vehicle- or omeprazole-treated rats. Analysis by flow cytometry revealed that the S phase fraction was lower in tumour cells from omeprazole-treated animals; and that the frequency of DNA aneuploidy was also reduced. The results indicate that while omeprazole-induced suppression of stomach acid in rats elevates levels of gastrin in serum, it does not substantially alter the biochemical or cellular characteristics of carcinogen-induced colon tumours.     

The effect of administering corticoliberin into the striatum on the open-field and shuttle-box behaviors of KHA and KLA strain rats]

The effects of corticotropin-releasing hormone (CRH) injected into the dorsal neostriatum on the open-field and shuttle-box behavior were studied in rats with high (Koltushi high avoidance, KHA) and low (Koltushi low avoidance, KLA) capability for avoidance learning. The effects of this hormone on the behavior of these rat strains were different. In KLA rats with passive strategy of behavior the CRH injection led to a rapid locomotor activation in the open field, while the rats with active behavioral strategy (KHA) reacted to the injection by a significant decrease in locomotion and change for the passive mode of behavior. The same CRH effects on locomotion were obtained in the shuttle-box experiments. Moreover, in the KLA rats the neurohormone injection resulted in an improvement of avoidance learning in contrast to the KHA rats, in which CRH substantially impaired avoidance learning. The obtained evidence is discussed in terms of the important role of striatal CRH in the choice of behavioral strategy in stress.