The effect of motor training on evoked sensorimotor cortex potentials in rats during ontogenesis]

Investigation into the influence of motor training on the functional activity of the rat sensorimotor cortex in ontogenesis has shown that three to four-month training, starting at the age of four weeks, leads to a statistically significant enhancement of sensorimotor cortex activity both by latencies and recovery cycles durations. A similar six to seven-month locomotor training produces the same statistically significant results. The differences in the shifts of functional activity after motor training observed between two age groups are not statistically significant. The probability of changes in the average definitive electrophysiological parameters of functional activity after motor training observed between two age groups are not statistically significant. The probability of changes in the average definitive electrophysiological parameters of functional activity of the sensorimotor cortex is suggested in rats aged more than a month, as a result of individual experience.     

Environmental enrichment reduces the response to stress of the cholinergic system in the prefrontal cortex during aging

The present study was designed to evaluate the release of acetylcholine in the prefrontal cortex (PFC) induced by handling stress during aging and also to investigate whether this response changed as a result of the animals living in an enriched environment. Male Wistar rats of 3 months of age were housed in control and enriched conditions during the entire period of their adult life and experiments were performed at 6, 15 and 24 months of age. Spontaneous motor activity was first monitored in an open field arena. Then, rats were stereotaxically implanted with guide cannula to perform microdialysis experiments in the PFC and to evaluate the effects of stress on extracellular concentrations of acetylcholine. Handling stress increased the extracellular concentrations of acetylcholine in the PFC of control and enriched rats. These increases were not modified by aging in control rats. However, environmental enrichment (EE) reduced the effects of stress on acetylcholine concentrations in all groups of age. Spontaneous motor activity in the open field was reduced by aging. EE also decreased motor activity in all groups of age. These results suggest that EE reduces the reactivity to stress of the cholinergic system in the prefrontal cortex during aging.     

Regional Mapping of Neostriatal Neurotransmitter Systems as a Function of Aging

The purpose of the present investigation was to map chemically the distribution of certain neurotransmitter systems in the neostriatum of rats aged 6, 16, and 26 months. This mapping was carried out by microdissection of discrete striatal regions coupled with radiometric assays for choline acetyltransferase (ChAT), glutamate decarboxylase (GAD), dopamine (DA), and norepinephrine (NA). In all age groups, ChAT, DA, and NA were highest in the rostral relative to the caudal neostriatum. Additionally, ChAT was higher in the lateral than in the medial region, whereas GAD was more homogeneously distributed within the striatum. ChAT activity was decreased significantly primarily in the caudal regions in rats aged 16 and 26 months. DA levels were decreased in the caudal striatum in rats aged 26 months. NA levels were found to be significantly decreased primarily in the rostral neostriatal regions of the oldest rats. GAD activity remained unchanged in all age groups. These regional changes in selected neurotransmitter systems may underlie specific motor and cognitive deficits that often occur during aging.     

The effect of sex steroid hormones on interhemispheric asymmetry in rats]

The effect of gonadectomy and sex-steroid hormones treatment on functional interhemispheric asymmetry to the reaction of pain cry avoidance of another species (emotional reactions) and motor and exploratory activity of open-field behavior in Wistar rats of 3 months old has been investigated. A spreading depression technique for hemisphere inactivation has been used. The hemispheric asymmetry of the reactions in intact rats was characterized by sex dimorphism; the left hemisphere dominated to a great extent in males than in females under the control of emotional reactions; in motor and exploratory activity in open-field behavior of rats the left hemisphere dominated in males and the right one--in female. In both sexes the neonatal gonadectomy levelled the interhemispheric differences in reactions under investigation. The following treatment of females with estradiol and males with testosterone didn't restore the asymmetry. After the castration at the age of 3 months the correlation between the size and direction of interhemispheric differences became reverse. The treatment of females with testosterone and males with estradiol both castrated in adulthood restored the interhemispheric asymmetry in males and had no effect in females. The treatment of intact rats with hormones of opposite sex led to the enhancement of left hemisphere dominance in motor and exploratory activity in males and levelled the asymmetry in females. It has been shown that in adult rats sex-steroids effect predominantly the right hemisphere.     

Age-related changes in activity of cerebellum Purkinje cells,shape of the complex spike,and locomotion of Wistar rats under effect of ethanol

The work deals with study of peculiarities of effect of ethanol upon the Purkinje cell activity, shape of the complex spike, and locomotion of rats at different stages of ontogenesis, such as the stage of the morphofunctional maturation of the cerebellar cortex, the mature stage, and in the process of aging. The experiments were carried out on three age groups of Wistar rats: rat pups (2 weeks), adult rats (3–6 months), and senile animals (22–26 months). The administration of ethanol has been established to produce an increase in frequency of simple spikes, a decrease in frequency of complex spikes, a shortening of duration of depression of simple spikes, a decrease in the total duration of the complex spike, the number and frequency of its impulses as well as reduction of the motor activity of animals of all age groups. The change of the majority of the studied parameters occurred by the common temporal scheme. The earliest responding were the rat pups, later-the adult rats, and the last-the animals of the senior group. The stronger effect of ethanol was observed in adult rats. Their differences of all studied parameters, as compared with rat pups and senile animals, were characterized on the whole by the longer period of time and by the higher percent of changes relative to the initial values. Analysis of the obtained results has shown that the most pronounced changes in parameters of the cerebellum Purkinje cell activity and of the complex spike shape corresponded to the more significant decrease in the locomotion level, i.e., were recorded in adult rats. Thus, the work has demonstrated different sensitivity to administration of ethanol in the Wistar rats at different stages of ontogenetic development.     

Ontogenetic development of convulsant action of Ro 5-3663 in the rat

Motor seizures were induced by Ro 5-3663 in 156 male albino rats aged 7,12,18,25, and 90 days. Both minimal and maximal seizures could be elicited in 18-day-old and older animals, whereas only maximal seizures were induced in the two youngest groups. ECoG changes were studied in other 21 young rats. First changes induced by Ro 5-3663 were formed by isolated sharp waves in 7- and 12-day-old rats and by episodes of rhythmic activity in older animals. An imperfect form of this rhythmic activity could be seen even in 12-day-old rats. Ictal ECoG activity exhibited an increase in frequency of individual graphoelements, in generalization and in synchronization of activity among different cortical regions with maturation. Correlation between motor and ECoG phenomena was poor in 7-day-old rats and ameliorated with age but it never reached perfection. The actions of Ro 5-3663 are identical with those induced by metrazol but they differ from those elicited by bicuculline or 3-mercaptopropionic acid.     

Incidence and development of rhythmic episodic activity in the electroencephalogram of a large rat population under chronic conditions

689 long-term electroencephalographic recordings from 88 rats with chronically implanted electrodes were evaluated with reference to the onset and development of rhythmic spike episodes of 8-9 Hz frequency characteristic of quiet wakefulness. Episodes occurred in the recordings of 88% of the test animals. Recordings completely devoid of episodes came from selected rats highly sensitive to an acoustic epileptogenic stimulus and from 50% of rats of a Wistar-Velaz barrier breed. These two groups differed from the other animals in respect of their greater aggressiveness and restlessness in the chronic experiment. The episodes were not evoked by the surgical procedure--implantation of a cobalt-gelatin pin in the brain--or to the actual implantation of chronic electrodes in the brain. The shortest recorded latent period for the appearance of episodes was one week after the implantation of electrodes and the longest was 6 months. The animals' mean age at the time of the onset of episodes was 3.8 months and the lowest age was 2.5 months (i.e. immediately after implantation of the electrodes). The electrodes were not implanted before the age of 2.5 months. In repeated chronic recordings during the animals' life, both the number and the duration of the episodes increased. In most of the rats, the spike frequency in the episode was 8-9 Hz and was maintained at a stable value characteristic for each rat. Episodic rhythmic activity can thus occur in a state of quiet wakefulness in the electroencephalogram of all the given groups of rats (except highly sensitive animals) from early adulthood up to the age regarded in the rat as senility. The results to date indicate that the main condition for its appearance is the attainment of an optimum state of vigilance--quiet immobile wakefulness. The mechanisms leading to this stage of vigilance display both individual and group differences and are evidently related to the ability to become habituated to the experimental environment.     

Reproductive function and viability of progeny in female rats under unfavourable influences in run up to puberty

Wistar female rats were subjected to a 3.5-day water deprivation once a week in the period of 1.5 to 3 months of age. Their progeny was subjected to the same influences during the same period of life. A week later, reproductive function of female rats was evaluated by mating them with normal males. In the experimental groups of both generations, no significant changes were found in number of neonates and their body mass, in maternal behaviour during the lactation period, in postnatal mortality of pups, in their growth and development, in motor activity, physical endurance and behaviour.     

Serotonin in brain regions of rats differing in their inborn locomotor activity

Serotonin contents in the paraventricular hypothalamic nucleus (PVN) and dorsal hippocampus of rats with different levels of inborn motor activity were studied by microdialysis in basal and stimulated conditions. Rats were exposed to elevated platform and forced swimming stress. In basal conditions, differences in serotonin contents between rats with different levels of inborn motor activity were found neither in hippocampus nor in PVN. In both kinds of stress conditions, serotonin content in hippocampus increased only in rats with higher level of inborn motor activity. Serotonin content in PVN dramatically increased during forced swimming in both rat groups. This increase was significantly more pronounced in rats with low activity. The data suggest that serotonin release in stress depends on inborn motor activity, brain area dialyzed, and the stressor the animals were exposed to.     

Individual characteristics of spontaneous locomotor activity and adaptive behavior in the rat

Spontaneous locomotor activity (SLA) of the male rats possesses significant individual differences. The daily volume of this activity is sufficiently stable for each separate individual. Animals with high and low SLA also differ in daily dynamics of this parameter. The behaviour of the rats with low SLA was characterized by lesser orienting activity and greater emotional reactivity in comparison to the rats with high SLA. By means of factor analysis it was established that, along with searching activity, emotional reactivity and alimentary motivation, the need in motor activity is one of the main inner factors, determining various manifestations of adaptive behaviour.     

Actigraphic motor activity during sleep from infancy to adulthood

A secondary analysis of longitudinal and cohort studies was carried out to quantitatively investigate the motor activity pattern, recorded through actigraphy, during the first six hours of nocturnal sleep. The first study was of longitudinal nature. Ten healthy participants (four females) were monitored three times, at baseline (T1) when they were infants (mean age 7.10 ± 0.32 months), at the first follow-up examination (T2) around 4 months later (mean age 11.20 ± 0.63 months) and at the second follow-up (T3) around three years later, when they were preschoolers (mean age 4.68 ± 0.14 years). At T1, T2 and T3 each participant wore the actigraph Basic Mini-Motionlogger (Ambulatory Monitoring, Inc., Ardsley, NY, USA) over at least two consecutive nycthemeral cycles, with the aim to measure the mean hourly motor activity count. Seven- and 11-month-old infants had a higher level of motor activity over the night compared to preschoolers. Furthermore, motor activity increased as the night progressed, with a pronounced increment at both T1 and T2, while at T3 such an increase was less marked. The second study was cross-sectional and aimed to explore the motor activity pattern, using actigraphy, during the first six hours of nocturnal sleep in multiple-age healthy groups, from infancy to adulthood. We assigned participants to eight groups according to age: 20 (five females) aged around 10 months old (mean age 10.65 ± 0.67 months); 13 (nine females) aged around 4 years (mean age 4.38 ± 0.51 years); 21 (10 females) aged around 10 years (mean age 9.67 ± 0.91 years); 21 (nine females) aged around 20 years (mean age 19.33 ± 2.44 years); 20 (10 females) aged around 30 years (mean age 29.80 ± 1.99 years); 20 (15 females) aged around 40 years (mean age 40.70 ± 1.26 years); 20 (11 females) aged around 50 years (mean age 50.15 ± 2.80 years) and 20 (nine females) aged around 60 years (mean age 59.25 ± 3.23 years). The participants aged between 10 and 60 years wore the actigraph Basic Mini-Motionlogger over seven consecutive nycthemeral cycles (infants and preschoolers wore the actigraph over at least two consecutive nycthemeral cycles), with the aim to measure the mean hourly motor activity count. The results indicated a significantly higher motor activity count in 10-month-old infants compared to all the remaining age groups. Moreover, the pattern of motor activity of 10-month-old infants was different from that of all other groups, with the highest motor activity counts from the second to the sixth hour of sleep. Considered as a whole, the results of both studies converge regarding the high motor activity detected among infants, which could be explained by the presence of a maturational process that has not yet been fully completed at this stage of life. In both studies, only the motor activity of infants was above the cutoff level established for normal adults, highlighting the need to establish a specific cutoff value for infants.     

Assessment of Motor Function,Sensory Motor Gating and Recognition Memory in a Novel BACHD Transgenic Rat Model for Huntington Disease

Rationale

Huntington disease (HD) is frequently first diagnosed by the appearance of motor symptoms; the diagnosis is subsequently confirmed by the presence of expanded CAG repeats (> 35) in the HUNTINGTIN (HTT) gene. A BACHD rat model for HD carrying the human full length mutated HTT with 97 CAG-CAA repeats has been established recently. Behavioral phenotyping of BACHD rats will help to determine the validity of this model and its potential use in preclinical drug discovery studies.

Objectives

The present study seeks to characterize the progressive emergence of motor, sensorimotor and cognitive deficits in BACHD rats.

Materials and Methods

Wild type and transgenic rats were tested from 1 till 12 months of age. Motor tests were selected to measure spontaneous locomotor activity (open field) and gait coordination. Sensorimotor gating was assessed in acoustic startle response paradigms and recognition memory was evaluated in an object recognition test.

Results

Transgenic rats showed hyperactivity at 1 month and hypoactivity starting at 4 months of age. Motor coordination imbalance in a Rotarod test was present at 2 months and gait abnormalities were seen in a Catwalk test at 12 months. Subtle sensorimotor changes were observed, whereas object recognition was unimpaired in BACHD rats up to 12 months of age.

Conclusion

The current BACHD rat model recapitulates certain symptoms from HD patients, especially the marked motor deficits. A subtle neuropsychological phenotype was found and further studies are needed to fully address the sensorimotor phenotype and the potential use of BACHD rats for drug discovery purposes.     

Age-related changes in antioxidant defence mechanisms and peroxidation in isolated hepatocytes from spontaneously hypertensive and normotensive rats

The effects of age and hypertension on the antioxidant defence systems and the lipid peroxidation in rat isolated hepatocytes were studied. Four different age groups (1,3,6 and 12 months) were considered in spontaneously hypertensive rats (SHR) and normotensive Wistar-Kyoto (WKY) rats. Age-associated changes were observed on vitamin E status, glutathione (GSH) level, MDA formation and glutathione peroxidase (GSH-Px) activity in both strains. Maximal levels or activities of these parameters were found at 3 and 6 months, except for MDA which was low at 3 months. Then, a fall was observed at 12-month-old compared to 6-month values. In addition, GSH-Px activity was significantly lower in SHR than in WKY rats, except at the age of one month. The decrease of this enzyme activity could induce an increased cellular generation of radical species and lipid peroxidation, which might be link to hypertension.     

The kinetic basis for age-associated changes in quercetin and genistein glucuronidation by rat liver microsomes

The dietary bioavailability of the isoflavone genistein is decreased in older rats compared to young adults. Since flavonoids are metabolized extensively by the UDP-glucuronosyltransferases (UGTs), we hypothesized that UGT flavonoid conjugating activity changes with age. The effect of age on flavonoid glucuronidation was determined using hepatic microsomes from male F344 rats. Kinetic models of UGT activity toward the flavonol quercetin and the isoflavone genistein were established using pooled hepatic microsomal fractions of rats at different ages, and glucuronidation rates were determined using individual samples. Intrinsic clearance (V_max/K_m) values in 4-, 18- and 28-month-old rats were 0.100, 0.078 and 0.087 ml/min/mg for quercetin-7-O-glucuronide; 0.138, 0.133 and 0.088 for quercetin-3′-O-glucuronide; and 0.075, 0.077 and 0.057 for quercetin-4′-O-glucuronide, respectively. While there were no differences in formation rates of total quercetin glucuronides in individual samples, the production of the primary metabolite, quercetin-7-O-glucuronide, at 30 μM quercetin concentration was increased from 3.4 and 3.1 nmol/min/mg at 4 and 18 months to 3.8 nmol/min/mg at 28 months, while quercetin-3′-O-glucuronide formation at 28 months declined by a similar degree (P≤.05). At 30 and 300 μM quercetin concentration, the rate of quercetin-4′-O-glucuronide formation peaked at 18 months at 0.9 nmol/min/mg. Intrinsic clearance values of genistein 7-O-glucuronide increased with age, in contrast to quercetin glucuronidation. Thus, the capacity for flavonoid glucuronidation by rat liver microsomes is dependent on age, UGT isoenzymes and flavonoid structure.     

Age dependent changes in androgen metabolism in the rat prostate

Oxidation and reduction of androstenedione, testosterone, dihydrotestosterone (DHT), 5 alpha-androstan-3 alpha,17 beta-diol and 5 alpha-androstane-3 beta,17 beta-diol (3 alpha- and 3 beta-A'diol) were measured in homogenates from the ventral prostate (VP), dorsal prostate (DP), lateral prostate (LP), the coagulating gland (CG) and seminal vesicles (SV) in intact rats of different ages from young mature (3-6 months) to senescent rats (20-30 months). Some very old intact rats (30-32 months) were treated with testosterone in order to rule out the effect of this hormone on androgen metabolism. The enzymatic activities for young mature rats were significantly altered by increasing age, both with regard to differences between the various organs as well as differences in cofactor requirement. With increasing age, the specific activity of most enzymes gradually decreased. With testosterone as substrate, 5 alpha-reductase activity was significantly reduced in the old rats in all tissues studied and was undetectable in the oldest animals in the VP and the SV. On the other hand, 5 alpha-reductase could not be recorded in any tissue in any tissue in old rats when androstenedione was the substrate. 3 alpha-Hydroxysteroid oxidoreductase (3 alpha-HSOR) in the VP was the only enzyme which did not decrease in activity by increasing age. In the other lobes this enzyme activity decreased similar to 3 beta-hydroxysteroid oxidoreductase (3 beta-HSOR) and the 17 beta-hydroxysteroid oxidoreductase (17 beta-HSOR) activity. Administration of testosterone to old rats increased the specific activity of most of the enzymes studied.     

Effects of diet and age on lipoprotein lipase and hepatic triglyceride lipase activities in the rat

Plasma clearance of triglyceride-rich lipoproteins appears decreased in aged humans and rats and may be due to lowered activities of the lipases responsible for lipid degradation. This study was designed to examine differential effects of age and diet on lipoprotein lipase (LPL) activity of adipose and heart tissue and hepatic triglyceride lipase (HTGL) activity. LPL and HTGL activities were examined in 3- and 13-month-old Sprague-Dawley rats after they had consumed either a high-carbohydrate or a high-fat diet for 14 days. The data were analyzed for age and diet differences by two-way analysis of variance. Although animals in the two age groups consumed diets of equal caloric content, the older rats gained less weight. Rats on the high-carbohydrate diet consumed less calories and gained less weight than the fat fed rats in both age groups. Neither heart nor adipose tissue LPL activity differed when examined for age or diet. HTGL activity levels, while not affected by age, were higher in the carbohydrate fed rats (P = 0.014). Regardless of age group, fasting plasma cholesterol levels were significantly higher in the carbohydrate-fed rats than fat-fed rats (P = 0.002). Thus, the diet effect was much stronger than the age effect for HTGL and plasma cholesterol levels.     

Shifts in rat plantaris motor unit characteristics with aging and compensatory overload.

Contractile characteristics of single motor units from plantaris muscles of young (6 mo), middle-aged (14 mo), and older (20 mo) rats were examined. Some of the muscles were subjected to a short-term (30 days) compensatory overload. After overload, the absolute increase in muscle weight was less for the 20-mo-old rats (38%) than the other groups (62%). However, when muscle weight per unit body weight was examined, the ratio was increased to a similar extent for all age groups. Aging was associated with an increase in slow (6 mo, 12.5%; 14 mo, 17.7%; 20 mo, 30.2%) and transitional (6 mo, 2.5%; 14 mo, 15.2%; 20 mo, 12.7%) motor unit proportions. This increase initially occurred at the expense of fast-fatigable motor units (6 mo, 36.3%; 14 mo, 13.9%; 20 mo, 20.7%) and then fast-intermediate units (6 mo, 40%; 14 mo, 39.2%; 20 mo, 26.7%). In addition, the maximal tension of individual motor units tended to increase with age. In younger rats compensatory overload produced changes in the motor unit profile similar to those that occurred with aging. In contrast, overload of the plantaris from 20-mo-old rats resulted in an increase in the force contribution from fast motor units. These results demonstrate that aging is accompanied by a gradual reorganization of the skeletal muscle motor unit pool, such that there is a loss of fast motor units and an increase in the proportion of slow motor units. While compensatory overload initially appears to mimic the aging effect, in older animals it may delay or reverse some of the age-related changes.     

Growth,reproductive function,and tolerance to load tests in rats under repetitive adverse conditions

Wistar rats were subjected to a 3.5-day water deprivation once a month in the period of 1 to 10 months of age. The rats' adaptive abilities proved sufficient for compensation of adverse effects, the rats preserved their normal motor activity, emotionality, and orienting behaviour in the intervals between the effects. In the reproductive period, the males manifested a normal sexual behaviour and fertilizing capacity of their spermatozoids. In the end of the experiment, the experimental animals did not differ from the control animals.     

Distributions of retinoids, retinoid-binding proteins and related parameters in different types of liver cells isolated from young and old rats

The levels of retinoids, retinol-binding protein, cellular retinol-binding protein, cellular retinoic-acid-binding protein, transthyretin and the activities of retinyl palmitate hydrolase and cholesteryl oleate hydrolase were determined in purified parenchymal, fat-storing, endothelial and Kupffer cell preparations, and in liver homogenates from young adult (6-month-old) and old (36-month-old) rats. Retinoid levels were also determined in the plasma from young and old rats. Retinoid contents were determined by HPLC. The binding proteins and transthyretin were measured by specific radioimmunoassays; retinyl palmitate and cholesterol oleate hydrolases were measured by sensitive microassays. The retinoid content of both the liver homogenates and of the fat-storing, and parenchymal cell preparations increased between 6 months and 36 months of age. The cellular distribution of retinoids was similar for the two age groups analyzed with the fat-storing cells being the main retinoid storage sites in the rat liver. Concentrations of retinol-binding protein and transthyretin were high in parenchymal cell preparations. Cellular retinol-binding protein was enriched both in parenchymal and in fat-storing cell preparations; the highest concentrations of cellular retinoic-acid-binding protein were present in fat-storing cell preparations. No major differences were observed between the two age groups in the cellular concentrations and distributions of any of these binding proteins. High activity of cholesterol oleate hydrolase was measured in parenchymal and in Kupffer cell preparations; endothelial cell preparations also contained considerable activities. The distribution of this activity over the various cell types reflects their role in lipoprotein metabolism. Retinyl palmitate hydrolase activity was specifically enriched in parenchymal and in fat-storing cell preparations, consistent with the roles of these cells in retinoid metabolism. No major differences were observed between the two age groups in the cellular distributions of the two hydrolase activities. This study indicates that no major changes occur in the retinoid-related parameters analyzed with age, suggesting that rat liver retinoid metabolism does not change dramatically with age and that retinoid homeostasis is maintained.