Emotionality, exploratory behavior, and locomotion in aging inbred strains of mice.

Two inbred strains of mice, C57BL/6J and DBA/2J, ranging in age from 2 to 38 months, were tested in an open field using the free exploration method. Scores were obtained for locomotor activity, exploratory behavior and emotionality. Strain differences were observed for all three variables. Beginning at late maturity (12 months), locomotor activity decreased with increasing age. Exploratory behavior was at a low level for DBA/2J mice at all ages. For C57BL/6J mice, exploratory behavior decreased significantly between 2 and 6 months and remained stable thereafter. Emotionality remained unchanged with advancing age for both strains of mice.     

The influence of a 2-benzamido-2-(2-oxoindolin-3-iliden) acetic acid derivative on the behavioral activity of rats after traumatic brain injury

We studied the influence of a derivative of 2-benzamido-2-(2-oxoindolin-2-iliden) acetic acid, which is designated as ZNM, on locomotor and orienting–exploratory activity, the state of muscle tonus, and coordination of movements, as well as on the physical stamina of rats after a moderate closed traumatic brain injury. It was revealed that the ZNM derivative promotes a change of the locomotor activity profile with an increase in orienting–exploratory activity and a decrease in the emotionality in animals, an increase in physical stamina in the swimming test with a load, and improved coordination of movements in the rod rotating test. The results of the studies indicate that the pharmacological activity profile of ZNM is similar to that of the reference drug mexidol: cerebroprotective, anxiolytic, and sedative effects.

     

Selection of behavioral test parameters for estimation of typological features of rat behavior

Behavior of 86 rats was examined in three behavioral tests, i.e., open field, forced swimming and emotionality by F. King. The results of statistical analysis of all the indices obtained with application of factor analysis suggest that the three tests characterize four relatively independent behavioral components: emotionality, locomotor-exploratory activity, olfactory performance, and resistance to adverse emotional factors. A contribution of each measured parameter to the above components was estimated. Such an approach makes it possible to reasonably select most important behavioral features when estimating locomotor activity and emotionality of animals.     

Aggressive behavior and radiosensitivity in rats'

This paper aims to present the study of rats' individual radiosensitivity dependence on their individual aggressiveness. On total irradiation in sublethal doses (1.0, 1.5 and 3.5 Gy) and in doses close to LD50/30 (6, 7 and 8 Gy) there was investigated comparative radiosensitivity of non-aggressive and aggressive rats of Wistar line, as well as that of non-aggressive individuals during provoked aggressiveness by means of blocking serotonin synthesis with intraperitoneal (i/p) injection of 400 mg/kg of parachlorphenylalanine (pCPA). Muricidity served as a criterion for aggressiveness and as a criterion of radiosensitivity--cumulative function of survival, the changes of behavior in "Open feald", serotonine and catecholamine content in various brain structures and the dose dependence on the radiation modification of muricidity. It has been found that after 1 Gy total X-irradiation the rats do not lose aggressiveness. Nevertheless the ethalogical parameters change in considerable degree. In the doses of 1.5 and 3.5 Gy muricidity is eluminated in 15-18 and 5-9 days, correspondingly. I/p injection of pCPA after the elimination of aggressiveness provokes transient muricidity in the same terms and duration as it is in case of non-aggressive rats. The elimination of muricidity is associated with changes in content and distribution of biogenic amines in various structures of brain, as well as with reduction of locomotor and reference-research activity, on the one hand and with an increase of emotionality and stereotype activity, on the other hand. After X-irradiation in 6, 7 and 8 Gy the regression coefficients of the dependence of functions type of survival on irradiation dose in aggressive rats is significantly reliable both in comparison with non-aggressive rats and animals with provoked aggressiveness. The change of mortality-rate per unit of changing irradiation dose not depend on blocking of serotonin synthesis, which deficit is one of the distinct determinant of aggressiveness, on the one hand, and higher radiosensitivity, on the other hand. The obtained data allow to suppose that elimination of muricidity after the irradiation of rats in the sublethal doses is conditioned not only by the consequenses of radiation damage of neurobiological structures responsible for the organization of aggressive behavior but the activation of serotonergic system in the process of restitution after radiation trauma. On the other hand, higher radiosensitivity of aggressive rats compared with non-aggressive ones is connected with low serotonin content, thiols and some other biologically active substances which are endogenous radioprotectors determining individual radioresistance.     

Characterization of Kenyan Isolates of Fusarium udum from Pigeonpea [Cajanus cajan (L.) Millsp.] by Cultural Characteristics, Aggressiveness and AFLP Analysis

Isolates of Fusarium udum from pigeonpea (Cajanus cajan) plants with wilt symptoms were collected from various districts in Kenya and were characterized using cultural characteristics, aggressiveness and amplified fragment length polymorphism (AFLP). The 56 isolates of F. udum showed a high level of variability in aerial mycelia growth, pigmentation and radial mycelia growth (colony diameter) on potato dextrose agar. The aggressiveness of 17 isolates of F. udum on seven pigeonpea varieties varied and five aggressive groups were observed in the present study. There were no relationships among cultural characteristics and aggressiveness. AFLP analysis of the 56 isolates was tested for genetic variability using seven primer combinations. A total of 326 fragments was generated of which 121 were polymorphic. Ten AFLP groups were identified among the Kenyan isolates and, although they were not genetically distinct, six AFLP subgroups were genetically distinct. AFLP had no relationship with cultural characteristics, aggressiveness and geographical origin of the isolates. This is the first report on the study of genetic variability of F. udum using DNA analysis.     

Liver-derived IGF-I regulates exploratory activity in old mice

Growth hormone (GH) replacement in hypopituitary patients improves well-being and initiative. Experimental studies indicate that these psychic effects may be reflected in enhanced locomotor activity in mice. It is unknown whether these phenomena are mediated directly by GH or by circulating IGF-I. IGF-I production in the liver was inactivated at 6-10 wk of age (LI-IGF-I-/- mice), resulting in an 80-85% reduction of circulating IGF-I, and, secondary to this, increased GH secretion. Using activity boxes on three different occasions during 1 wk, 6-mo-old LI-IGF-I-/- mice had similar activity levels, and 14-mo-old mice had a moderate but significant decrease in activity level, compared with control mice. At 20 mo of age, the LI-IGF-I-/- mice displayed a more prominent decrease in activity level with decreased horizontal activity throughout the test period, and at day 1, there were several signs of an altered habituation process with different time patterns of locomotor activity and horizontal activity compared with the control mice. At days 3 and 5, rearing activity was lower in the 20-mo-old LI-IGF-I-/- mice. Anxiety level was unaffected in all age groups, as measured using the Montgomery's elevated plus-maze. In conclusion, old LI-IGF-I-/- mice displayed a decrease in both horizontal and rearing (exploratory) activity level and an altered habituation process. These results indicate that liver-derived IGF-I mediates at least part of the effects of GH on exploratory activity in mice.     

Behavioral and adrenal relationships to audiogenic-seizure susceptibility in BALB-cJ mice

This study reports behavioral, biochemical and endocrine differences in audiogenic-seizure susceptible and resistant male mice (BALB/cJ) observed at 6 to 11 weeks of age. The various findings (total leukocyte and adrenal corticosterone) indicated hypoadrenal function in the audiogenic-seizure susceptible mice. The evaluation demonstrated that locomotor activity and emotionality were significantly increased in the audiogenic-seizure susceptible mice with suggestions of increased timidity. The interrelationships of hypoadrenocortical function and audiogenic-seizure susceptibility with locomotor activity, emotionality and timidity in the BALB/cJ mice merit further investigation.     

Antagonism between L-DOPA and apomorphine in their effects on rat behavior

The effect of simultaneous injections of apomorphine and l-DOPA on stereotypy, aggressiveness, on the exploratory motor activity, the threshold of emotional reactivity and aggressiveness elicited by painful electrical stimulation was studied in experiments on male albino rats. When injected separately, in control experiments, both compounds had similar effects on the exploratory-motor activity and the emotional behaviour, but when injected simultaneously in various doses a distinct antagonism between l-DOPA and apomorphine, according to all the behaviour tests, was noted (a decrease of sterotypy, aggressiveness and emotional reactivity). Against the background of l-DOPA apomorphine (5 mg/kg) increased the dopamine content in the forebrain and in the diencephalon even more. It is suggested that the increased level of the functionally active mediator suppressed the activity of postsynaptic receptors sensitive to it.     

Changes in the behavior and EEG of rats administered penicillin and a physiological solution into the amygdalar basal nuclei]

Three weeks after implantation of the electrodes for EEG recording, hyperactivation of the basal nucleus of rat's amygdala was produced by a local injection of penicillin (0.5 mcl, 1% solution). Saline injection of the same volume served as control. The hyperactivation of the amygdala resulted in a long-lasting (at least for 3 weeks) increase in the locomotor activity against the background and deficit in exploratory behavior and rise of the level of anxiety and fear. The behavioral changes were accompanied by a long-term disruption of the hippocampal theta rhythm, appearance and slowing of the immobility-related high-voltage spindles, and increase in the EEG dominant frequency in the state of emotional tension. Saline injection led to a short-time (up to 1 week) decrease in locomotor and exploratory activity and increase in anxiety. These phenomena were accompanied by a short-time disruption of the theta rhythm and appearance of the 10-13-Hz oscillations characteristic for the state of emotional tension.     

Omega-3 fatty acids and rodent behavior

This paper reviews the role of the n-3 fatty acids in the regulation of cognitive functions, locomotor and exploratory activity and emotional status in rodents. There are disparate data on the performance of n-3 fatty acid deficient animals in the open field test and elevated plus maze. Results obtained in our laboratory indicated slower habituation to the open field in deficient mice, which affects total locomotor and exploratory parameters. We also observed no change in plus maze performance of deficient mice under low-stress but elevated anxiety under high-stress conditions. There is some evidence of elevated aggression and increased immobility time in the forced swimming test caused by n-3 fatty acid deficiency in rodents. Effects of n-3 fatty acid deficiency and supplementation on learning in several tests such as the Morris water maze, two odor olfactory discriminations, radial arm maze performance and avoidance tasks are reviewed in detail. There is some evidence of an enhanced vulnerability to stress of n-3 fatty acid deficient animals and this factor can influence performance in a variety of tests. Thus, behavioral tasks that involve a higher level of stress may better differentiate behavioral effects related to brain docosahexaenoic acid (DHA) status. It is suggested that a fruitful area for future investigations of functional alterations related to brain DHA status will be the delineation of the factors underlying changes in performance in behavioral tasks. The possible role of non-cognitive factors like emotionality and attention in the impaired performance of n-3 fatty acid deficient animals also requires further investigation.     

Territorial Behaviour and Social Organization as a Function of the Level of Aggressiveness in Male Mice

Territoriality and social organization were examined in relation to different genetic dispositions for aggressive behaviour. The animals used in the study were male mice of the 51st and 52nd generation of selection for high (Turku Aggressive, TA) and low (Turku Non-Aggressive, TNA) levels of aggressiveness. The level of aggressiveness of the animals was assessed by means of individual tests with non-aggressive standard opponents, after which they were allowed to form individual territories in a 102 times 204 times 90 cm enclosure. TA and TNA males were placed in different enclosures. After 2 wk, when the partitions between individual pens were removed, the behaviour of the animals was observed for a 7-d period. Excessive fighting between the highly aggressive TA males occurred, resulting in the formation of dominant-subordinate relationships. A great number of attacks inflicted were found to be associated with dominance in the colony, and correlated with a high level of aggressiveness when the animals were individually tested for aggression after having been in colony environments. The level of aggressiveness of the TA males that had become subordinates had significantly decreased. The TNA males fought less and were more often found to stay in their original territory for the entire period of observation. The results suggest that different genotypes for aggression arc related to differences in territoriality and social organization in mice.     

The role of behavioral polymorphism in the process of intrapopulation segregation of ecological niches in bream,Abramis brama (Cyprinidae)

The study of feeding and defensive behavior in the two groups of bream (Abramis brama) differing in the peroxidase locus (presented by Po79 and Po100 alleles) has been performed. The A group bream (homozygous by Po79 allele) exhibit higher locomotor activity and aggressiveness, actively feed in the presence of a predator, and adapt quickly to experimental conditions. The B group bream (homozygous by Po100 allele) exhibit lesser locomotor activity and practical absence of aggressiveness. These fish reject food in the presence of a predator, their behavioral characteristics after removal of the predator recover after a long time and they adapt to experimental conditions slowly. Thus, the study revealed that there really exists the intraspecies form of bream that is less reactive but more aggressive and agile in which conditioning responses develop better. Presence in a population of reactive and nonreactive specimens serves as a basis for the mechanism of regulation of acuteness of intrapopulation relations and range expansion. In the present case, this mechanism allows for the efficient use of alternative resources having inconstant availability.     

The effect of raising conditions on behavior of juvenile roach <Emphasis Type="Italic">Rutilus rutilus</Emphasis> (L.) (Cyprinidae)

The behavior of juvenile 4.5-month-old roach Rutilus rutilus (L.) raised (starting on the 12th day after hatching) at different levels of habitat informational diversity (feeding with live and immobilized zooplankton and benthos, the presence of a predator, and a constant water flow in the nursery aquarium) was studied. The fish’s exploratory behavior and locomotor activity were tested in a circular chamber; swimming activity was tested in a hydrodynamic conduit. It was experimentally shown that juvenile roach raised in the presence of a predator differed significantly (p < 0.05) in regards to behavioral characteristics from the fries raised in a water current and in conditions of a high level of environmental deprivation.     

Genetic analysis of various behavioral and physiologic characteristics in hybrids between hypertensive and normotensive rats. Analysis of correlational connections]

Hereditary links between different behavioral and physiological traits were studied in rat strains SHR, WKY and their hybrids F1 and F2 by analysis of correlations in segregating and nonsegregating gene-rations. Genetic correlation of arterial pressure with body mass, intake of KC1 solution and the ability to avoidance learning (directed positively) and with characteristics of exploratory activity (directed negatively) was shown. These traits seemed to be possible genetic markers of arterial hypertension. Genetical correlates of the ability to elaborate active avoidance conditional reaction (arterial pressure and pain sensitivity) testify to relief of active avoidance learning in animals with inherited active-defensive type of behaviour, manifested by predisposition to pressor reactions and by suppressed emotional reactions to pain stimulation. Frequency in intertrial crossings during avoidance training displays positive correlation with characteristics of exploratory behaviour. Positive correlation between different characteristics of exploratory activity was established both in segregating and nonsegregating generations.     

Genetic analysis of some behavioral and physiologic characters in hybrids between hypertensive and normotensive rats. Analysis of the nature of the inheritance]

As a result of crosses between the SHR rats (spontaneously hypertensive strain) and WKY rats (normotensive strain), the F1 and F2 hybrids and the B1 and B2 backcrosses were obtained. Analysis of genetic control nature in these generations revealed that the WKY genes responsible for the level of arterial pressure, sensitivity to the electric current stimulation and salt (sodium and potassium) appetite characteristics were dominant. The heterosis effect was found for the body mass. Analysis of dynamics of different types of exploratory activity (in a shuttle box, in "horizontal plane", in an open field) demonstrated specificity of their genetic formulae and peculiarities of changes in their genetic control during the test.     

Differences in behavior of impulsive and self-controlled rats in the open-field and light-dark tests

The aim of the study was to reveal the relationship between impulsive behavior in rats, on the one hand, and locomotor activity and emotionality on the other hand. Rats were divided into groups according to their preference for reinforcements of different values. Animals that preferred valuable but delayed reinforcement in more than 60% of cases formed a self-controlled group, whereas rats that selected poor but immediate reinforcements in more than 60% of the cases were considered as impulsive. The two groups of animals were subjected to the "open field" and "light-dark" tests. The impulsive animals more quickly adapted to new surroundings and displayed more pronounced research activity as compared to the self-controlled animals. The level of anxiety was higher in the self-controlled group.     

Behavioural studies in different strains of mice and the problem of heterosis

Significant differences between strains were found for open field activity and emotionality, exploratory activity, initial reaction to shock, conditioned avoidance learning, and weight for three inbred strains (Balb/c, C57Bl and C3H), such that the heaviest strain (Balb/c) was the least active and most emotional in the open field, gave the lowest score for exploratory activity and longest reaction to shock times, and was the poorest at conditioned avoidance learning.The hybrids from crosses with C57Bl tended more towards complete dominance and overdominance than did the Balb/c × C3H hybrid, probably because the Balb/c and C3H strains have some common ancestry.Heterosis was most marked for traits involving exploration or learning. Variability of the hybrids for these traits was often lower than the parents, i.e. they showed behavioural homeostasis. For other traits variability of the hybrids tended towards the parent whose genotype was dominant for the trait.Of the non-genetic factors studied, age and litter size were found to have the greatest effect on the behavioural traits. Parity was found only to affect weight. Sex differences were found for weight and emotionality.     

The effect of different stages of the sex cycle on rat behavior in a plus maze

Anxiety and motor activity of female white rats in the elevated plus-maze were studied at different stages of the reproduction cycle (estrus, diestrus, pregnancy and lactation). The level of anxiety was lower, and that of locomotor and exploratory activity was higher during estrus and lactation than during diestrus and pregnancy. Exposure to chronic pain of threshold intensity did not induce behavioral changes in pregnant rats. There was no difference between the control and experimental animals in the level of plasma corticosterone.     

Sex differences in behavioral and corticosterone responses to mild stressors in ICR mice are altered by ovariectomy in peripubertal period

Among rodents, females are generally considered to be highly responsive in terms of emotionality under stressful conditions, and have higher corticosterone levels and activity. In this study, we examined sex differences in mice by evaluating anxiety behaviors and corticosterone responses to mild stressors. In our first experiment, we analyzed the behavioral and corticosterone responses to the elevated plus-maze test and open-field test in male and female mice, and compared sex differences. Principal component analysis (PCA) was used to investigate the correlation of these responses between males and females. The corticosterone level was higher in females under both basal and stressed conditions. In the behavioral response, higher locomotor activity was seen in females in the elevated plus-maze test. PCA showed little association among anxiety behavior, locomotor activity, and corticosterone secretion. In our second experiment, we examined the activational effects of sex steroids on the corticosterone response to the elevated plus-maze test by gonadectomizing male and female mice and using testosterone or estrogen capsules as hormonal replacements. Sex differences at the basal corticosterone level were not altered by the hormonal milieu in adults, however the higher corticosterone level of females in response to stress was diminished by ovariectomy, although replacement with neither testosterone nor estrogen had any effect. These results suggest that the sex difference in novelty exposure observed in the form of a greater hypothalamic-pituitary-adrenal (HPA) axis response in female ICR mice is controlled by ovary-derived factors in adults.     

The Sensitivity of Cognitive Processes to the Inhomogeneity of Natural Magnetic Fields

Three experiments were carried out to study the influence of inhomogeneity of natural magnetic field (MF) on animal cognition. Wistar rats (n = 90) were placed in a complicated problem environment, in which they were to form food-operant behavior under conditions of natural MF (Cond. 1) and MFs produced by iron objects (Cond. 2) or by magnets (Cond. 3). Unlike the control group (Cond. 1), all rats in Cond. 2 and 3 were unable to form operant behavior. Weak MF caused both locomotor and emotional depression, and there was no exploratory activity shown during 6 sessions. Brief external stimulation removed locomotor depression, and animals formed operant behavior similar to latent learning (Cond. 2) or “insight” (Cond. 3). Performance efficiency was lower while the level of stress manifestation was higher in Cond. 2 and 3 than in the control at the stage of stabilization. It has been proposed that MF reduces the activity of brain motivation centers and prevents the development of complicated forms of cognitive activity.