Changes in predatory and intraspecific aggressiveness of the male rat during food deprivation

A significant intensification of intraspecies aggression of mice-killing male rats was manifest under the influence of food deprivation, judging by two aggressive reactions of rats-residents towards intruders and by the number of rats performing such reactions. In conditions of free access to food, the mice-killing and not mice-killing rats did not differ by their intraspecies aggression.     

Gestational and early postnatal dietary NaCl levels affect NaCl intake, but not stimulated water intake, by adult rats

We examined body fluid regulation by weanling (21-25 days) and adult (>60 days) male rats that were offspring of dams fed chow containing either 0.1, 1, or 3% NaCl throughout gestation and lactation. Weanling rats were maintained on the test diets until postnatal day 30 and on standard 1% NaCl chow thereafter. Ad libitum water intake by weanlings was highest in those fed 3% NaCl and lowest in those fed 0.1% NaCl. Adult rats maintained on standard NaCl chow consumed similar amounts of water after overnight water deprivation or intravenous hypertonic NaCl (HS) infusion regardless of early NaCl condition. Moreover, baseline and HS-stimulated plasma Na(+) concentrations also were similar for the three groups. Nonetheless, adult rats in the early 3% NaCl group consumed more of 0.5 M NaCl after 10 days of dietary Na(+) deprivation than did rats in either the 1% or 0.1% NaCl group. Interestingly, whether NaCl was consumed in a concentrated solution in short-term, two-bottle tests after dietary Na(+) deprivation or in chow during ad libitum feeding, adult rats in the 3% NaCl group drank less water for each unit of NaCl consumed, whereas rats in the 0.1% NaCl group drank more water for each unit of NaCl consumed. Thus gestational and early postnatal dietary NaCl levels do not affect stimulated water intake or long-term body fluid regulation. Together with our previous studies, these results suggest that persistent changes in NaCl intake and in water intake associated with NaCl ingestion reflect short-term behavioral effects that may be attributable to differences in NaCl taste processing.     

疏肝补肾法对疲劳大鼠的学习和记忆力之影响

目的:探讨疏肝补肾法对疲劳大鼠学习和记忆力及对海马CA1区神经颗粒素(Neurogranin,Ng)的mRNA表达变化的影响。方法:成年雄性Spargue-Dawley大鼠36只,随机分为模型组(MG)、对照组(CG)、和疏肝补肾组(LK)。采用复合模型:运动疲劳模型与睡眠剥夺法造疲劳大鼠模型。运用Y迷宫进行学习和记忆力的测试。以Real-timePCR技术分析海马CA1区神经颗粒素的mRNA表达。结果:Y迷宫实验显示用药后大鼠的学习和记忆能力优于模型组,而疏肝补肾组大鼠在正确反应率、错误反应次数、达标所需训练次数和总反应时间皆与模型组有差异(分别为P<0.01、P<0.01、P<0.05和P<0.05),其NgmRNA在海马CA1区的表达也显着高于模型组(P<0.01)。结论:复合模型会造成大鼠学习和记忆能力受损。疏肝补肾法能显着影响疲劳大鼠的学习记忆能力及海马CA1区Ng的mRNA表达。     

Dopaminergic system in the telencephalic and diencephalic brain regions in vertebrates in the sleep-wakefulness cycle organisation

The aim of our study was to investigate the role of dopaminergic system in telencephalic and diencephalic brain regions of vertebrates in sleep-wakefulness cycle. The level of thyrosine-hydroxylase--the main enzyme in dopamine synthesis--was measured in striatum, zona inserta supraoptic and arcuate nuclea of hypothalamus in fish (Acipenceridae) and in mammals (rats) in ontogenesis (14-, 30-day old rats and adult animals) under tactile and sleep deprivation stresses. The thyrosine-hydroxylase-immunoreactive cells were revealed in all brain regions of fishes after a short-term stress. In the group after longtime stress, the thyrosine-hydroxylase-immunoreactive cells and fibers were almost absent in anterior brain but were found in hypothalamic nuclea. At 14-day old rats, 2-hour sleep deprivation caused increasing of thyrosine-hydroxylase-immunoreactivity both in fibers of caudate nucleus as well as in cells of the zona inserta. A 6-hour deprivation caused increasing of thyrosine-hydroxylase-immunoreactive material level in cells of zona inserta and decreasing it in fibers of 30-day old rats. In adult rats, the level of thyrosine-hydroxylase-immunoreactive material decreased in nucleus arcuatus and zona inserta after sleep deprivation and increased after sleep. Data obtained are discussed in terms ofphylo- and ontogenetic development of neurosecretory and neurotransmitter functions of dopaminergic system in evolutionary old diencephalic and evolutionary young telencephalic brain regions of vertebrates, which are the important systems of starting and maintenance of some functional conditions of the organism in sleep-wakefulness cycle.     

Antidiuretic hormone content in the neurohypophysis of adult white rats after hydrocortisone administration in the early postnatal period

The age-related time-course of changes in arginine-vasopressin (AVP) content in the pituitary gland was studied in adult intact Wistar rats. In 60-day-old rats, the hormone content was measured before and after 24 h of water deprivation. In adult rats treated with a single injection of hydrocortisone at different times after birth, the content of AVP remained high in rats injected with hydrocortisone on day 2 or day 5 after birth, exceeding significantly the content of AVP in intact rats. The animals injected with hydrocortisone on day 9 or 15 manifested a more noticeable reduction in the hormone content, as was the case in intact rats. It is suggested that the first five days after birth is a critical period in the formation of the central regulation of AVP secretion with high sensitivity to short-term changes in corticosteroid balance.     

Social isolation improves working memory at reversal but not primary radial-arm maze learning in rats

Social isolation starting from the 21st day of birth affected neither a short-term nor a long-term memory in male rats at primary acquisition learning in an 8-arm radial maze. A number of the short-term and long-term memory errors were substantially decreased during primary learning but the difference between groups was not significant. Isolates were faster to start a search in an individual trial and took less time to finish offa trial. During the reversal learning, when baited and non-baited arms were reversed, the isolates outperformed of socially reared rats on working but not reference memory task. In overall they made twice less working memory errors than socially reared animals. During the reversal learning the isolates were also faster than non-isolates in initiation and completion of a trial. Maternal separation of rat's pups on the postnatal days 1-21 for 4 hr per day did not affect either working or reference memory on both primary and reversal learning. The data obtained are discussed on basis of influence of stress in early postnatal life on hypothalamo-pituitary axis and its effects on behavior of adult animals.     

The role of testicular hormones and luteinizing hormone in spatial memory in adult male rats

Attempts to determine the influence of testicular hormones on learning and memory in males have yielded contradictory results. The present studies examined whether testicular hormones are important for maximal levels of spatial memory in young adult male rats. To minimize any effect of stress, we used the Object Location Task which is a spatial working memory task that does not involve food or water deprivation or aversive stimuli for motivation. In Experiment 1 sham gonadectomized male rats demonstrated robust spatial memory, but gonadectomized males showed diminished spatial memory. In Experiment 2 subcutaneous testosterone (T) capsules restored spatial memory performance in gonadectomized male rats, while rats with blank capsules demonstrated compromised spatial memory. In Experiment 3, gonadectomized male rats implanted with blank capsules again showed compromised spatial memory, while those with T, dihydrotestosterone (DHT), or estradiol (E) capsules demonstrated robust spatial memory, indicating that T's effects may be mediated by its conversion to E or to DHT. Gonadectomized male rats injected with Antide, a gonadotropin-releasing hormone receptor antagonist which lowers luteinizing hormone levels, also demonstrated spatial memory, comparable to that shown by T-, E-, or DHT-treated males. These data indicate that testicular androgens are important for maximal levels of spatial working memory in male rats, that testosterone may be converted to E and/or DHT to exert its effects, and that some of the effects of these steroid hormones may occur via negative feedback effects on LH.     

Characteristics of the intraspecies interaction of rats with differing zoosocial experience

It has been found that among white outbred rats with different experience of intraspecies contact four types of reaction to the partner are singled out in the "stranger-resident" test: active, neutral passive, highly-aggressive. Belonging to one or another type is determined by the level and correlation of aggression and intraspecies sociability. Among animals isolated in an adult age, all four types of reaction to the partner are represented while in rats kept in isolation since 13--14th day of life only one type is presented--the active one. For animals of the control group the first three types of reaction are typical. It is revealed that only "late" isolation leads to a pathological increase of aggressivity in a part of the animals; an increase of aggression in "early" isolants may be considered as a consequence of sharp rise of intraspecies sociability. Conclusion is made about principal difference in mechanisms of aggression increase in "early" and "late" isolants.     

The effects of two types of sleep deprivation on visual working memory capacity and filtering efficiency

Sleep deprivation has adverse consequences for a variety of cognitive functions. The exact effects of sleep deprivation, though, are dependent upon the cognitive process examined. Within working memory, for example, some component processes are more vulnerable to sleep deprivation than others. Additionally, the differential impacts on cognition of different types of sleep deprivation have not been well studied. The aim of this study was to examine the effects of one night of total sleep deprivation and 4 nights of partial sleep deprivation (4 hours in bed/night) on two components of visual working memory: capacity and filtering efficiency. Forty-four healthy young adults were randomly assigned to one of the two sleep deprivation conditions. All participants were studied: 1) in a well-rested condition (following 6 nights of 9 hours in bed/night); and 2) following sleep deprivation, in a counter-balanced order. Visual working memory testing consisted of two related tasks. The first measured visual working memory capacity and the second measured the ability to ignore distractor stimuli in a visual scene (filtering efficiency). Results showed neither type of sleep deprivation reduced visual working memory capacity. Partial sleep deprivation also generally did not change filtering efficiency. Total sleep deprivation, on the other hand, did impair performance in the filtering task. These results suggest components of visual working memory are differentially vulnerable to the effects of sleep deprivation, and different types of sleep deprivation impact visual working memory to different degrees. Such findings have implications for operational settings where individuals may need to perform with inadequate sleep and whose jobs involve receiving an array of visual information and discriminating the relevant from the irrelevant prior to making decisions or taking actions (e.g., baggage screeners, air traffic controllers, military personnel, health care providers).     

Sleep deprivation effect upon spatial memory consolidation in rats after one-day learning in a Morris water maze

The effect of sleep deprivation by 'carousel' method on spatial memory consolidation in a Morris water maze was studied in Wistar male rats after one-day learning (in accordance to a protocol by Frick et al., 2000). It was found that after fast 3-hr learning the memory trace retains during 24-hr. Twenty four hour sleep deprivation followed learning impaired consolidation of spatial memory. So the rat model of a one-day learning is suitable for the studying of neurophysiological mechanisms of sleep deprivation effects on spatial memory consolidation.     

The capacity for competition in rats raised in isolation]

It is shown, that rats, bred in conditions of intraspecies isolation are able to competition for water in the kin group, having usual experience of intraspecies intercourse. At the same level of drinking motivation in conditions of competition for water the intraspecies activity is significantly higher in rats, bred in isolation in comparison with grouped animals. Rats-isolants significantly more often than the grouped animals use extraordinary tactics of intraspecies behaviour, which increase their competitive ability in conditions of limited access to water.     

Short-term social memory in the laboratory rat: its susceptibility to disturbance

Adult rats presented with a juvenile conspecific for 5 min on two occasions, separated by a 15-min inter-exposure interval (IEI), investigated the reintroduced juvenile significantly less in the second encounter. It is suggested that this was because the adult rats remembered the identity of the juvenile, because when a novel juvenile was introduced for the second encounter, no such reduction in investigation was observed. When the rats were either handled, placed in a smaller, novel, cage, or introduced to a new juvenile midway through the IEI, investigation of the reintroduced juvenile did not decrease. This indicated that memory of that juvenile had been disrupted. However, a simple change of cage during the IEI had no disruptive effect on memory. These results suggest that routine husbandry procedures can disrupt short-term social memory, which may lead to an increase in aggression due to a failure of recognition. This has implications for the welfare of captive social animals.     

Dose dependent effects of oxytocin on cognitive defects and anxiety disorders in adult rats following acute infantile maternal deprivation stress

ABSTRACT

Maternal deprivation at an early age is a powerful stressor that causes permanent alterations in cognitive and behavioral functions during the later stages of life. We investigated the effects of oxytocin on cognitive defects and anxiety disorders caused by acute infantile maternal deprivation in adult rats. We used 18-day-old Wistar albino rats of both sexes. The experimental groups included control (C), maternally deprived (MD), maternally deprived and treated with 0.02 μg/kg oxytocin (MD-0.02 µg/kg oxy), maternally deprived and treated with 2 μg/kg oxytocin (MD-2 µg/kg oxy). When the rats were 60 days old, the open field (OF) and elevated plus maze (EPM) behavioral tests, and the Morris water maze (MWM) test for spatial learning and memory were performed. In addition, the number of neurons in the hippocampus, prefrontal cortex (PFC) and amygdala were determined using quantitative histology. We also measured vascular endothelial growth factor (VEGF) and brain-derived neurotrophic factor (BDNF) levels in the PFC. In both sexes, the MD group failed the learning test and the MD-2 μg/kg oxy group failed in the memory test. The MD-0.02 μg/kg oxy group spent more time in the open arm of the EPM device and their locomotor activities were greater in the OF test. The VEGF and BDNF levels in the PFC were higher in the MD-0.02 μg/kg oxy groups than the other maternally deprived groups (oxytocin ±). The number of PFC neurons was low in all male maternally deprived (oxytocin ±) groups, while the number of amygdala neurons was low in both female and male maternally deprived (oxytocin ±) groups. Male rats were more affected by maternal deprivation; administration of oxytocin had dose-dependent biphasic effects on learning, memory and anxiety.     

"Sensitive periods" in the systemogenesis of intraspecific aggression in rats

As a result of experiments conducted on male outbred white rats, approximate limits were established of two sensitive periods for the formation of intraspecies aggression of rats under the influence of contacts with the animals of the same age: sensitive period from 12th to 21st postnatal day for changing from playing behaviour into the aggressive one; and 40-60 days for differentiation of the aggressivity against the males and females. It was shown, that despite considerable change in the spectrum of aggressive reactions of early isolated rats towards intruders and low effect of these reactions, judging by response behaviour of intruders, these reactions were based on the emotionally-motivational state, typical for the formed aggressive behaviour. It was also found, that disturbances of the aggression formation in rats isolated in early age, were caused by deprivation of contacts with rats of the same age and not by general informational impoverishment of the environment where rat pups were bred.     

Role for brain-derived neurotrophic factor in learning and memory

In addition to its actions on neuronal survival and differentiation, brain-derived neurotrophic factor (BDNF) has a role in the regulation of synaptic strength. Long-term potentiation, a form of synaptic plasticity, is markedly impaired in BDNF mutant mice, but the changes were restored by the re-expression of BDNF. BDNF also influences the development of patterned connections and the growth and complexity of dendrites in the cerebral cortex. These results suggest a role for BDNF in learning and memory processes, since memory acquisition is considered to involve both short-term changes in electrical properties and long-term structural alterations in synapses. Memory acquisition is associated with an increase in BDNF mRNA and TrkB receptor activation in specific brain areas. Moreover, the pharmacologic and genetic deprivation of BDNF or its receptor TrkB results in severe impairment of learning and memory in mice, rats and chicks. The effect of BDNF on learning and memory may be linked to the modulation of NMDA and non-NMDA receptor functions as well as the expression of synaptic proteins required for exocytosis. Activation of the mitogen-associated protein kinase and/or phosphatidylinositol 3-kinase signaling pathways may be involved in BDNF-dependent learning and memory formation. It is concluded that BDNF/TrkB signaling plays an important role in learning and memory.     

Peptide correction of memory disrupted by food deprivation in the rat

Food deprivation worsens elaboration of conditioned active avoidance in white rats. Arginil-vasopressin positively influences their conditioned memory disturbed by food deprivation. Changes of specific content of hybrid-bound and general RNA occur in the neocortex and cerebellum under influences different by their functional specificity, such as elaboration of active avoidance, food deprivation, administration of vasopressin and their combinations.     

Effects of prenatal irradiation on behaviour and hippocampal neurogenesis in adult rats

Prenatal irradiation is known to have aversive effects on the brain development, manifested in changes in some behavioural parameters in adult individuals. The aim of our work was to assess the effect of prenatal irradiation on different forms of behaviour and on hippocampal neurogenesis in rats. Pregnant female rats were irradiated with a dose of 1 Gy of gamma rays on the 16th day of gravidity. The progeny of irradiated and control animals aged 3 months were tested in Morris water maze (MWM), open field (OF) and in elevated plus maze test (PM). The prenatal irradiation negatively influenced the short-term spatial memory in MWM in female rats, although the long-term memory was not impaired. A statistically significant increase of basic locomotor activity in OF was observed in irradiated rats. The comfort behaviour was not altered. The results of PM showed an increase of anxiety in irradiated females. The level of hippocampal neurogenesis, assessed as the number of cells labelled with 5-bromo-2-deoxyuridine in the area of gyrus dentatus, was not statistically different in irradiated rats. Our results indicate, that prenatal irradiation with a low dose of gamma-rays can affect some innate and learned forms of behaviour in adult rats. We did not confirm a relation of behavioural changes to the changes of hippocampal neurogenesis.     

Partial sleep deprivation reduces phase advances to light in humans

Partial sleep deprivation is increasingly common in modern society. This study examined for the first time if partial sleep deprivation alters circadian phase shifts to bright light in humans. Thirteen young healthy subjects participated in a repeated-measures counterbalanced design with 2 conditions. Each condition had baseline sleep, a dim-light circadian phase assessment, a 3-day phase-advancing protocol with morning bright light, then another phase assessment. In one condition (no sleep deprivation), subjects had an 8-h sleep opportunity per night during the advancing protocol. In the other condition (partial sleep deprivation), subjects were kept awake for 4 h in near darkness (<0.25 lux), immediately followed by a 4-h sleep opportunity per night during the advancing protocol. The morning bright light stimulus was four 30-min pulses of bright light (~5000 lux), separated by 30-min intervals of room light. The light always began at the same circadian phase, 8 h after the baseline dim-light melatonin onset (DLMO). The average phase advance without sleep deprivation was 1.8 ± 0.6 (SD) h, which reduced to 1.4 ± 0.6 h with partial sleep deprivation (p < 0.05). Ten of the 13 subjects showed reductions in phase advances with partial sleep deprivation, ranging from 0.2 to 1.2 h. These results indicate that short-term partial sleep deprivation can moderately reduce circadian phase shifts to bright light in humans. This may have significant implications for the sleep-deprived general population and for the bright light treatment of circadian rhythm sleep disorders such as delayed sleep phase disorder.     

The features of sleep homeostasis in pregnant rats

To investigate the effects of short-term sleep deprivation on the sleep pattern during pregnancy, cortical and hippocampal EEG and locomotor activity were recorded within 24-hours in a "disk-over-water" paradigm in 18 Wistar rats. Rats were adapted to experimental situation and were able to move across the rotating disk without falling in water. Then a polysomnogram was recorded for 3 sequential days in the control group 1 (n = 12) without disk rotation. On the next day non-pregnant rats (experimental group 1, n = 6) were subjected to the sleep deprivation procedure with a pre-set program of disk rotation from 11:00 to 14:00 during 3 sequential days. Other 6 rats (experimental group 2) were subjected to sleep deprivation on the 5-7th day of pregnancy. EEG and locomotor activity were also constantly recorded during the sleep deprivation procedure. In control group 2 (n = 6, without sleep deprivation), a polysomnogram was recorded on the 5-7th day of pregnancy. As compared to non-pregnant rats, sleep intensity of pregnant rats increased during the first hours after the deprivation, and a considerable rebound of REM sleep took place. Sleep pattern during the off-light 12 hours remained unchanged. The results suggest that homeostatic compensation of sleep deprivation effects in rats on the first week of pregnancy is more efficient than in control non-pregnant animals.     

Comet assay to determine DNA damage induced by food deprivation in rats

The aim of this work was to evaluate, by comet assay, the possible inducing of DNA lesions in peripheral blood mononuclear cells of rats subjected to acute or chronic food deprivation. Wistar male rats were subjected to 72 h of partial (50%), or total acute food deprivation, and then allowed to recover for different time periods (24, 48 and 72 h). In other experiments, comet scores were determined in peripheral blood mononuclear cells of rats subjected to chronic food deprivation (25% and 50%) for 50 days. Blood aliquots were obtained before, during and after food deprivation. Comet assay was carried out, the comet units photographed and scored (class 0 up to 3). Acute and chronic food-deprived rats presented peripheral blood mononuclear cells with DNA lesions (comet classes 1, 2 and 3) and a significant increase (p<0.05) in the number of comet units compared with its basal level. The increase was proportional to acute food deprivation time, but after being taken off, it progressively returned to basal level after 48 h (partial group) or 72 h (total group). Chronic food-deprived rats presented a progressive increase of comet score up to 5 days, and a decrease thereafter to reach a basal level. Possible mechanisms of DNA lesions are discussed.