Postweaning environmental and social factors influencing the onset and expression of agonistic behavior in Norway rats

Two studies were conducted to determine the importance of the postweaning environment and social milieu in regulating the expression of intraspecific aggression in Norway rats. In Experiment 1, male rats were housed either individually or in pairs at 21 days of age. In addition, one-half of the singly housed and paired animals were given experiences with intruders during maturation. At 85 days of age, all animals were given a brief intruder test and then removed from their postweaning environment and provided individually with homecages for a two week period until tested for aggression toward intruders. Results of intruder tests given during maturation indicated agonistic exchanges appeared earlier and more frequently in cages housing a single resident than cages with cohabiting males. However, agonistic exchanges between singly reared residents and intruders had detrimental consequences in adulthood especially under long-term combat situations. That is, although individually reared animals, with early fighting experiences, were capable of initiating intraspecific aggression, such individuals were unable to defend their homecage over a long period of time as evidenced by the high number of wounds and tendency to lose body weight during adult fighting.In Experiment 2, male Norway rats were reared in pairs from 21 days of age and identified as dominant or subordinate on the basis of intracolony social interactions shown during maturation. At 80 days of age, animals were paired with individually reared males in an unfamiliar cage for a 20 day period and examined for agonistic behavior toward intruders at 100 days of age. Group-reared subordinate males exhibited defensive behavior during confrontations with individually reared animals and incurred more wounds and lost more body weight than their cohabiting partner. In addition, subordinate males showed significantly fewer offensive postures toward intruders than individually reared cohabitants. In contrast, group-reared dominant animals did not differ from individually reared males in display of agonistic patterns, in number of wounds, and body weight changes during the period of cohabitation. These findings demonstrate that early rearing factors have pronounced effects on agonistic behavior. Animals experiencing defeat during development are more likely to lose agonistic confrontations in unfamiliar territory than either animals dominant in their early social interactions or animals without the experience of winning or losing agonistic encounters. These results have implications for the understanding of agonistic behavior and predicting outcomes of animal contests, and reveal important differences in agonistic experiences among animals reared in groups.     

The effects of enriching laboratory cages using various physical structures on multiple measures of welfare in singly-housed rats

The single housing of laboratory rats may be recommended in some situations such as hypothesis-driven or test-specific studies, during electroencephalogram recording of phases of sleep and after surgical procedures. However, as single housing of laboratory rats has been shown to be stressful, modification of the housing environment is needed to improve the welfare of these animals. This experiment was carried out to investigate the long-term effects of environmental enrichment on some behavioural, physiological, pathological and psychological measures of welfare. With two batches of animals, 24 rats were housed singly in either enriched cages (EC) (n = 12 cages) or unenriched cages (UC) (n = 12 cages). Behaviour was sampled every week and so was body weight and weight gain over a six-week observation period. Behaviours of the rats in the elevated plus-maze were recorded on the seventh week, whereas organ weights were recorded postmortem. The results revealed that long-term single housing of rats in super-enriched cages increased levels of indicators of good welfare including sleep, exploration, movement and feeding behaviour, body weights, weight gains and the relative weights of the thymus gland and spleen, and decreased levels of indicators of poor welfare such as stationary behaviour and the relative weight of adrenal glands. Thus, enrichment of conventional cages of newly weaned singly-housed laboratory rats with multiple physical structures appeared to improve their ability to control the environment and to promote their species-specific behaviour; changes that can ultimately result in good welfare.     

Repeated alcohol administration during adolescence causes changes in the mesolimbic dopaminergic and glutamatergic systems and promotes alcohol intake in the adult rat

Adolescence is a developmental period which the risk of drug and alcohol abuse increases. Since mesolimbic dopaminergic system undergoes developmental changes during adolescence, and this system is involved in rewarding effects of drugs of abuse, we addressed the hypothesis that ethanol exposure during juvenile/adolescent period over-activates mesolimbic dopaminergic system inducing adaptations which can trigger long-term enduring behavioural effects of alcohol abuse. We treated juvenile/adolescent or adult rats with ethanol (3 g/kg) for two-consecutive days at 48-h intervals over 14-day period. Here we show that intermittent ethanol treatment during the juvenile/adolescence period alters subsequent ethanol intake. In vivo microdialysis demonstrates that ethanol elicits a similar prolonged dopamine response in the nucleus accumbens of both adolescent and adult animals pre-treated with multiple doses of ethanol, although the basal dopamine levels were higher in ethanol-treated adolescents than in adult-treated animals. Repeated ethanol administration also down-regulates the expression of DRD2 and NMDAR2B phosphorylation in prefrontal cortex of adolescent animals, but not of adult rats. Finally, ethanol treatment during adolescence changes the acetylation of histones H3 and H4 in frontal cortex, nucleus accumbens and striatum, suggesting chromatin remodelling changes. In summary, our findings demonstrate the sensitivity of adolescent brain to ethanol effects on dopaminergic and glutamatergic neurotransmission, and suggest that abnormal plasticity in reward-related processes and epigenetic mechanisms could contribute to the vulnerability of adolescents to alcohol addiction.     

Effects of water dilution, housing, and food on rat urine collected from the metabolism cage

The objective of the study reported here was to investigate three factors that may affect the amounts of water consumed and urine excreted by a rat in the metabolism cage: water dilution, housing, and food. Young F344/N rats (eight per group) were used for all experiments. Food was withheld from rats before each 16-h urine collection, then rats were transferred into a metabolism cage. For trial A (water dilution), urine was collected from rats supplied with dyed water (0.05%, vol/vol). This was repeated three times over a 2-week period. Dye in water or urine was quantified, using a spectrophotometer. For trial B (housing), rats were individually housed in wire cages for 3 weeks before the first urine collection. Then they were group housed in the solid-bottom cage (four per cage). After 2 weeks of acclimation, urine collection was repeated. For trial C (food), one group of rats was provided with food, the other was not, during urine collection. About 8% of urine samples of small volume (< or = 3 ml) from trial A were contaminated with drinking water up to 13% of volume. The average urine volume associated with individual housing was approximately twice as large as that associated with group housing. When food was provided during urine collection, rats consumed similar amounts of water but excreted significantly smaller amounts of urine than did rats without food. It was concluded that water dilution of a urine sample from a sipper bottle is relatively small; rats individually housed in wire caging before urine collection can consume and excrete a larger quantity of water, compared with rats group housed in solid-bottom cages; and highly variable urine volumes are, in part, associated with lack of access to food during urine collection.     

Enriched environment increases neurogenesis in the adult rat dentate gyrus and improves spatial memory.

The fetal and even the young brain possesses a considerable degree of plasticity. The plasticity and rate of neurogenesis in the adult brain is much less pronounced. The present study was conducted to investigate whether housing conditions affect neurogenesis, learning, and memory in adult rats. Three-month-old rats housed either in isolation or in an enriched environment were injected intraperitoneally with bromodeoxyuridine (BrdU) to detect proliferation among progenitor cells and to follow their fate in the dentate gyrus. The rats were sacrificed either 1 day or 4 weeks after BrdU injections. This experimental paradigm allows for discrimination between proliferative effects and survival effects on the newborn progenitors elicited by different housing conditions. The number of newborn cells in the dentate gyrus was not altered 1 day after BrdU injections. In contrast, the number of surviving progenitors 1 month after BrdU injections was markedly increased in animals housed in an enriched environment. The relative ratio of neurogenesis and gliogenesis was not affected by environmental conditions, as estimated by double-labeling immunofluorescence staining with antibodies against BrdU and either the neuronal marker calbindin D28k or the glial marker GFAp, resulting in a net increase in neurogenesis in animals housed in an enriched environment. Furthermore, we show that adult rats housed in an enriched environment show improved performance in a spatial learning test. The results suggest that environmental cues can enhance neurogenesis in the adult hippocampal region, which is associated with improved spatial memory.     

Prolactin-dependent seasonal changes in pelage: role of the pineal gland and dopamine.

The Siberian hamster displays seasonal changes in pelage that are dependent upon fluctuations in circulating prolactin levels. Pinealectomy prevented the decrease in serum prolactin and molt to the winter pelage displayed by castrated males housed under a short-day photoperiod. A dopaminergic antagonist, pimozide, enhanced prolactin levels in both pinealectomized and sham-operated animals under both long and short photoperiods. In the short-day animals, this effect of pimozide was associated with a prevention of the development of winter pelage. These results indicate that seasonal prolactin levels and related pelage changes are dependent upon the integrity of the pineal gland. However, basal prolactin levels under different photoperiod conditions appear to be only partly regulated by the actions of the dopaminergic system.     

Responses to the change in the environment in pairs of male rats genetically selected for activity level

Laboratory Wistar strain rats were genetically selected for high (+A) and low (-A) activity level. In thirteen pairs of adult males of the 23rd filial generation reactions to changes in the external environment were studied. The animals were housed in breeding cages four each. Two parallel studies were conducted: in pairs simultaneously placed into a novel environment (NOV), empty cages of the same dimensions as the home cage (HC), in the second, behaviour of the second pair that remained in the HC, after removal of two cage-mates, was tested. Once a minute, for a period of one hour, the type of activity was recorded and noted whether it was an element effected in contact with the partner or without any contact. The animals +A and -A differed in the frequency of various types of activity and immobility, in the ratio between behavioural manifestations shown in or without contact as well as in the response to the type of modified environment. To changes in the situation, whether removed cage-mates from the HC or placed into NOV +A animals reacted with a high wave of environment exploration which gradually habituated. -A rats equally responded with exploration but on a lower level. In +rats we recorded more frequently exploration without contact with the partner in HC and NOV in comparison with -A, more frequent grooming, less immobility in contact and with no contact. Between +A partners there was a greater number of contacts in NOV than in HC whereas in the -A group the incidence of contact did not differ between HC and NOV. ANOVA revealed the influence of factors of genetics and environment and interaction in several behavioural categories. The simple and in time economical method demonstrated the possibility of use for the detection of differences between +A and -A lines even at relatively small changes in the external stimulatory situation.     

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.     

The rat model of tardive dyskinesia: Relationship between vacuous chewing movements and gross motor activity during acute and long-term haloperidol treatment

Tardive dyskinesia (TD) is a serious side-effect of neuroleptic treatment. In order to describe and analyse more thoroughly the rat model of TD, the behavior of the rats during cage testing was studied after acute and during long-term haloperidol (HAL) treatment. Rats were injected with HAL IP in an acute experiment, and in a long-term experiment, rats were treated for 4 –12 months with HAL decanoate IM. Control rats received saline or sesame oil. The behavior was videotaped one h after the IP injection in the acute experiment, and at intervals during the long-term experiment. The putative TD analogue vacuous chewing movements (VCM), the general behavior and the type of behavior occurring simultaneously with VCM, were scored. Long-term (> 4 months) HAL treatment increased VCM but did not change the general behavior. The single IP injection of HAL markedly reduced locomotion in addition to increasing VCM. Both in the acute and in the long-term experiment, VCM appeared more frequently when the gross motor activity was low, indicating an intrinsic incompatibility between gross motor activity and VCM. However, in the long-term experiment, the distribution of VCM in the different categories of behavior was the same in OIL and HAL treated rats. This shows that cage-observed VCM in rats induced by long-term HAL treatment cannot be an artifact due to reduced locomotion. Thereby, an important argument against cage-observed VCM as a rat model of TD seems to be disproved.     

Close Proximity of the Heterosexual Partner Reduces the Physiological and Behavioral Consequences of Novel-Cage Housing in Black Tufted-Ear Marmosets (Callithrix kuhli)

The present studies assessed the extent to which heterosexual pairmates could buffer marmosets (Wied's black tufted-ear marmoset,Callithrix kuhli)against stress. Six male and six female marmosets from established groups were exposed to two experimental manipulations together with a control condition. Each condition lasted a total of 4 days. For the two experimental conditions, animals were removed from the family group and housed in a novel cage for 48 h in either the presence or the absence of the heterosexual pairmate. During the 48-h novel-cage housing period and for 48 h upon reunion of the subjects with the family group, concentrations of urinary cortisol were measured in the first void sample of the day and behavioral observations were conducted. When animals were housed alone in a novel cage they exhibited significant elevations in levels of urinary cortisol after 24 and 48 h of novel-cage exposure. In contrast, when marmosets were housed in the novel cage in the presence of the pairmate, levels of urinary cortisol did not change across the 4-day period. The presence of the social partner also reduced the behavioral manifestations of exposure to novelty. Upon reunion with the family group, animals that had been housed in the novel cage alone spent significantly more time in close proximity to the pairmate than animals that had been housed with the partner. A second experiment was conducted to determine the effect that separation from the pairmate, only (independent of any effects of novelty), had on levels of cortisol. Concentrations of urinary cortisol were measured in subjects housed in the familiar home cage, but in the absence of the pairmate, over a 48-h period and compared to concentrations of excreted cortisol immediately prior to separation. Separation from the pairmate did not elevate cortisol levels when the subject was housed in the home cage, suggesting that elevated cortisol levels in animals housed alone in the novel cage were in response to novelty exposure rather than to separation from the pairmate. Since the physical presence of the heterosexual partner reduced the physiological and behavioral effects of novel-cage housing, social attachments might function as homeostatic regulators of HPA function in marmosets.     

Influence of juvenile housing conditions on the ventilatory, thermoregulatory, and endocrine responses to hypoxia of adult male rats

"Extreme" housing conditions, such as isolation (single housing) or crowding, are stressful for rats, and their deleterious impact on behavior is well documented. To determine whether more subtle variations in housing can affect animal physiology, the present study tested the hypothesis that the hypoxic ventilatory response (HVR) of adult male rats housed in pairs during the juvenile period (postnatal day 21 to adulthood) does not differ from that of animals housed in triads. Because neonatal stress augments the neuroendocrine responsiveness to stress and HVR, experiments were performed both on "control" (undisturbed) animals and rats subjected to neonatal maternal separation (NMS; 3 h/day, postnatal days 3-12). At adulthood, ventilatory activity was measured by whole body plethysmography under normoxic and hypoxic conditions (inspired fraction of O(2) = 0.12; 20 min). The ventilatory and body temperature responses to hypoxia of rats raised in triads were less than those of rats housed in pairs. For the HVR, however, the attenuation induced by triad housing was more important in NMS rats. Triad housing decreased "basal" plasma corticosterone, but increased estradiol and testosterone levels. Much like the HVR, housing-related decrease in corticosterone level was greater in NMS than control rats. We conclude that modest changes in housing conditions (pairs vs. triads) during the juvenile period can influence basic homeostatic functions, such as temperature, endocrine, and respiratory regulation. Housing conditions can influence (even eliminate) the manifestations of respiratory plasticity subsequent to deleterious neonatal treatments. Differences in neuroendocrine function likely contribute to these effects.     

Enriched environment increases neurogenesis in the adult rat dentate gyrus and improves spatial memory

The fetal and even the young brain possesses a considerable degree of plasticity. The plasticity and rate of neurogenesis in the adult brain is much less pronounced. The present study was conducted to investigate whether housing conditions affect neurogenesis, learning, and memory in adult rats. Three‐month‐old rats housed either in isolation or in an enriched environment were injected intraperitoneally with bromodeoxyuridine (BrdU) to detect proliferation among progenitor cells and to follow their fate in the dentate gyrus. The rats were sacrificed either 1 day or 4 weeks after BrdU injections. This experimental paradigm allows for discrimination between proliferative effects and survival effects on the newborn progenitors elicited by different housing conditions. The number of newborn cells in the dentate gyrus was not altered 1 day after BrdU injections. In contrast, the number of surviving progenitors 1 month after BrdU injections was markedly increased in animals housed in an enriched environment. The relative ratio of neurogenesis and gliogenesis was not affected by environmental conditions, as estimated by double‐labeling immunofluorescence staining with antibodies against BrdU and either the neuronal marker calbindin D28k or the glial marker GFAp, resulting in a net increase in neurogenesis in animals housed in an enriched environment. Furthermore, we show that adult rats housed in an enriched environment show improved performance in a spatial learning test. The results suggest that environmental cues can enhance neurogenesis in the adult hippocampal region, which is associated with improved spatial memory. © 1999 John Wiley & Sons, Inc. J Neurobiol 39: 569–578, 1999     

Effects of Metabolic Cage Housing on Rat Behavior and Performance in the Social Interaction Test

Although the metabolic cage is commonly used for housing nonhuman animals in the laboratory, it has been recognized as constituting a unique stressor. Such an environment would be expected to affect behavioral change in animals housed therein. However, few studies have specifically addressed the nature or magnitude of this change. The current study sought to characterize the behavioral time budget of rats in metabolic cage housing in comparison to that of individually housed animals in standard open-top cages. Rats in metabolic cages spent less time moving, manipulating enrichment, and carrying out rearing behaviors, and there was a corresponding shift toward inactivity. In an applied Social Interaction Test, behavioral scoring implied that metabolic cage housing had an anxiogenic effect. In conclusion, metabolic cage housing produces measurable effects on spontaneous and evoked behavior in rats in the laboratory. These behavioral changes may lead to a negative emotional state in these animals, which could have negative welfare consequences. Further research is needed to quantify the existence and magnitude of such an effect on rat well being.     

不同等级环境对大、小鼠及其应用的影响

目的了解不同等级环境（屏障环境和普通环境）对实验大小鼠的一般生理表现和抗应激能力以及对药物反应的影响,初步判定严格的微生物控制是否影响实验动物的人类模型作用。方法将40只SPF级Wistar大鼠和200只SPF级BALB／c小鼠分别饲养于屏障环境和普通环境内,通过以下实验对比观察不同等级环境对实验大、小鼠及其应用的影响：每周测量动物的体重增长情况;饲养35d后,测定大鼠15项血液学指标、14项血液生化指标和9个脏器的相对重量;以抗缺氧实验和游泳实验判断对小鼠体质和抗应激能力的影响;以5．氟尿嘧啶急性毒性实验和戊巴比妥钠麻醉实验测试其对药物作用的异同。结果在5周观察期内,屏障环境饲养小鼠和大鼠的体重增长均明显快于普通环境的对照动物（P〈0．05）;普通环境饲养大鼠的血液RBC、WBC、PCT、PLT、GOT、GGT、GPT、CK、TB值高于屏障环境大鼠（P〈0．05）,而CHO、LDL-C和HDL-C值低于屏障环境大鼠（P〈0．05）;不同微生物环境条件饲养小鼠的游泳耐力和抗缺氧实验结果接近,但是屏障环境组动物所获数据的变异较小;不同等级环境条件饲养小鼠的戊巴比妥钠麻醉反应和5-氟尿嘧啶中毒反应相似,而屏障环境组动物的麻醉维持时间较短,LD50较低,95％可信限狭窄。结论饲养于屏障环境和普通环境的实验大、小鼠在一般生理表现上出现部分差异,动物的抗应激能力和对药物的反应未发生显著变化;在屏障环境条件中,动物的药物反应更敏感、所获数据更稳定,因此,初步认为严格微生物控制条件下的SPF级动物可以作为生活在自然环境中的人类的模型动物。     

Influence of housing conditions from weaning to adulthood on the ventilatory, thermoregulatory, and endocrine responses to hypoxia of adult female rats

Housing conditions affect animal physiology. We previously showed that the hypoxic ventilatory and thermoregulatory responses to hypoxia of adult male rats housed in triads during the juvenile period (postnatal day 21 to adulthood) were significantly reduced compared with animals housed in pairs. Because sex hormones influence development and responsiveness to environmental stressors, this study investigated the impact of housing on the respiratory and thermoregulatory physiology of female rats. Since neonatal stress attenuates the hypoxic ventilatory response (HVR) of female rats at adulthood, experiments were performed both on "control" (undisturbed) animals and rats subjected to neonatal maternal separation (NMS; 3 h/day, postnatal days 3-12). At adulthood, ventilatory activity was measured by whole body plethysmography under normoxic and hypoxic conditions [fraction of inspired oxygen (Fi(O(2))) = 0.12; 20 min]. The ventilatory and body temperature responses to hypoxia of female rats raised in triads were reduced compared with rats housed in pairs. Housing female rats in triads did not affect basal or hypoxic plasma corticosterone levels but did increase levels of estradiol significantly. We conclude that modest changes in housing conditions (pairs vs. triads) from weaning to adulthood does influence basic homeostatic functions such as temperature and respiratory regulation. Triad housing can reverse the manifestations of respiratory instability at adulthood induced by stressful neonatal treatments. This should raise awareness of the benefits of increasing social interactions in clinical settings but also caution researchers of the potential impact of such subtle changes on experimental protocols and interpretation of results.     

Developmental effects of intraperitoneal saline injections in neonatal rats

The response to neonatal intraperitonal (IP) saline injections was investigated in neonatal male and female rats from split- and whole-litters. The results demonstrate that male or female rats housed under split-litter conditions and subjected to daily IP injections during the early neonatal period have the same body weight and plasma corticosteroid and testosterone (males only) levels as littermate controls. On the other hand, treated male and female animals from whole-litters weigh significantly less than controls. Additionally, plasma testosterone and cortisteroids from treated males did not differ from controls at any age tested, but treated females from whole-litters had significantly elevated corticoids at days 100 and 150 when compared to controls. These results suggest that when doing developmental studies involving IP injections, it would be advisable to house animals under split-litter conditions.     

The effects of zingerone against vancomycin‐induced lung,liver, kidney and testis toxicity in rats: The behavior of some metabolic enzymes

In this study, it was demonstrated the ameliorative effect of zingerone (ZO) (25 and 50 mg/kg body weight) against vancomycin (VCM) (200 mg/kg body weight) administered to rats on some metabolic enzymes’ activities in the lung, liver, kidney, and testis tissues of rats. Forty‐two rats were divided into six groups as follows: control, ZO‐25, ZO‐50, VCM, VCM + ZO‐25, and VCM + ZO‐50. α‐Glycosidase, butyrylcholinesterase, aldose reductase, acetylcholinesterase, paraoxonase‐1, and carbonic anhydrase enzyme activities were significantly (P < .05) decreased in VCM group when compared with the control group. ZO, supplied with VCM, significantly activated some of these enzyme in all tissues. The results of this study showed that ZO regulates abnormal increases and decreases in VCM‐induced metabolic enzyme activities in all tissues.     

The protective effect of erdosteine on vancomycin-induced pancreatic damage in rats

Objective The goal of this study was to investigate whether vancomycin (VCM) has a negative effect on pancreatic tissue and to elucidate the role of erdosteine (ERD), an expectorant and an antioxidant agent, on possible VCM-induced pancreas impairment in rats. Materials and methods A total of 21 male Wistar albino rats were included in this study. All animals were equally divided into three groups as follows: Controls (n = 7), VCM treated group (200 mg/kg twice daily for 7 days intraperitoneally, n = 7) and VCM (200 mg/kg) + ERD treated group (10 mg/kg day orally ERD, n = 7). The first dose of ERD administration was performed 24 h prior to VCM injection and the study was continued for 7 days. At the end of the study, all animals were sacrificed. Blood and pancreas tissue samples were collected. For biochemical analysis, serum amylase, lipase, alkaline phosphatase (ALP), and gamma glutamyl transferase (GGT) activities were measured. For histopathological examination, pancreas tissue samples were investigated under the light microscope. Results VCM administration has significantly increased the serum amylase, lipase, ALP, and GGT activities, when compared with the controls. VCM + ERD administration significantly decreased the serum lipase, amylase, and GGT activities. There was no statistically significant difference between the VCM + ERD treated group and only VCM treated group by means of serum ALP levels. It has been observed that there was a prominent pancreatic tissue damage in only VCM given group. However, ERD exhibited structural protection against VCM-induced pancreatic damage and this effect was statistically significant. ERD has also obtained a marked reduction in the extent of pancreatic damage. Conclusion Erdosteine may play an important role in the VCM-induced pancreatic damage and may reduce the pancreatic damage both in biochemical and histopathological aspects.     

Maternal hyperglycemia leads to gender-dependent deficits in learning and memory in offspring

Pregnancy in the diabetic woman has long been associated with an increased risk of congenital malformation in the offspring. However, little is known about the effects of maternal diabetes on development of the central nervous system. To begin to gain an understanding of this problem, diabetes was induced in adult female Sprague-Dawley rats by injection with streptozotocin. Only animals with serum glucose levels greater than 200 mg/dl were used. Diabetic and control females were bred, and all newborn pups were cross-fostered to nondiabetic mothers. At 60 days of age, pups were tested in an elevated plus-maze to assess differences in emotionality and anxiety. There were no significant differences between offspring of diabetic dams and controls on this measure. All pups were then housed individually, put on food restriction, and maintained at 85% of their ad libitum weight. They were then trained in a Lashley III maze, which assesses learning and retention capability. The female offspring of diabetic dams performed poorer than controls, a finding that was supported by inhibitory avoidance data from a separate group of animals. All animals were then trained in a radial-arm maze. Results failed to find differences between experimental and control animals. It was concluded that the diabetic intrauterine environment has gender-specific effects on central nervous system development.     

The Effect of Exposure to Atrazine on Dopaminergic Development in Pubertal Male SD Rats

Atrazine (ATR, 2‐chloro‐4‐ethylamino‐6‐isopropylamino‐s‐triazine) is used worldwide as a herbicide, and its presence in the environment has resulted in documented human exposure. A lack of strong evidence for genetic heritability of idiopathic Parkinson's disease has focused attention on environmental toxicants in the disease etiology, particularly agrichemicals. Parkinson's disease is associated with advanced age and is characterized by the degeneration of dopaminergic neurons, but it is unclear whether specific neuronal damage could result from insults during development. The juvenile period is particularly vulnerable to environmental agent, therefore, we evaluated the effects of a 28‐day exposure to ATR on the dopaminergic system in pubertal rats. Sprague–Dawley rats were treated orally with ATR at 50, 100, and 200 mg/kg bw, daily from postnatal days 27 to 54. In this study, we examined the hypothesis that pubertal exposure to ATR would disrupt the development of the nigrostriatal dopamine (DA) system. The content of DA and levodopa (L‐DA) were examined in striatum samples by HPLC‐FL, and the mRNA and protein expression of tyrosine hydroxylase, orphan nuclear hormone receptor (Nurr1), Nurr1 interacting protein (NuIP), and cyclin‐dependent kinase inhibitors of the Cip?Kip family (p57kip2) were examined in samples of the nigrostriatum by use of fluorescence Real‐Time quantitative polymerase chain reaction (PCR). Exposure of juvenile rats to the high dose of ATR led to reduced levels of DA and L‐DA, genes expression of NuIP, Nurr1, and p57kip2 in animals