Heat shock induces rapid dephosphorylation of tau in both female and male rats followed by hyperphosphorylation only in female rats: implications for Alzheimer's disease

Female and male 2-3-month-old Sprague-Dawley rats were heat shocked at 42 degrees C for 15 min. At 0, 3, 6, 12 and 24 h after heat shock, qualitative and quantitative immunoblot analysis of cerebral extracts and immunohistochemistry were performed using monoclonal anti-tau antibodies that recognize nonphosphorylated (Tau-1), phosphorylated (PHF-1), and phosphate-independent (Tau-5 and Tau-46) epitopes. At 0 h after heat shock, there was dephosphorylation of tau in both female and male rats as evidenced by (1) accentuation and attenuation of tau isoforms recognized by Tau-1 and PHF-1, respectively, and recognition of additional tau polypeptides by Tau-1, Tau-5, and Tau-46 but not PHF-1; (2) significant increase in the nonphosphorylated Tau-1 epitope with resultant decrease in the ratio of total (phosphorylated plus nonphosphorylated) tau to nonphosphorylated tau; and (3) dephosphorylation of the Tau-1 epitope in the somatodendritic compartment. By 6 h after heat shock, there was progressive hyperphosphorylation of tau in female but not male rats exemplified by (1) upward gel mobility shift recognized by PHF-1, Tau-5, and Tau-46, and by Tau-1 after dephosphorylation; (2) significant increase in the ratio of total tau to nonphosphorylated tau; and (3) rephosphorylation of the Tau-1 epitope in the somatodendritic compartment. Two-dimensional electrophoresis showed shifts to basic and acidic tau polypeptides at 0 and 6 h after heat shock, respectively. Hyperphosphorylation of tau also occurred after multiple heat-shock episodes. Microtubules were present at 6 h after heat shock. There were no differences between control and heat-shocked rats in extracts from peripheral nerves. Thus, we now have a simple rat model to study within 6 h the processes of dephosphorylation and hyperphosphorylation of tau, which are altered in Alzheimer's disease.     

Effect of quinidine on the interconversion kinetics between haloperidol and reduced haloperidol in humans: implications for the involvement of cytochrome P450IID6

Unequal metabolic responses to trauma by women and men have been suggested, but an explicit investigation demonstrating this conjecture has not been made. The responses of resting energy expenditure (REE) and nitrogen balance for 3 days before and 7 days after skeletal trauma were determined for female and male rats. Food intake and body weight were recorded daily, and 24-h urine samples were collected. Baseline REE and nitrogen balance were obtained for 3 consecutive days before induction of trauma. Then rats were divided into female trauma (n = 8), male trauma (n = 7), female control (n = 8), and male control (n = 7) groups. Trauma was produced by bilateral femoral fracture to anesthetized rats. Control rats were anesthetized without skeletal trauma. Traumatized rats were fed ad libitum for 7 days, and control rats were pair fed with the traumatized rats. The results showed that REE increased and nitrogen balance decreased in traumatized male rats relative to their controls. Traumatized female rats had increased REE and unchanged nitrogen balance compared with their controls. Traumatized female rats had a larger percentage increase in REE on days 5 through 7 than did traumatized male rats. These findings demonstrate a difference between female and male rats in response to trauma. Female rats use more energy and lose less nitrogen after trauma than do male rats. The results suggest that recommendations for increased energy and protein needs after trauma should consider the sex of the subject intended to be fed.     

Laparoscopic vs conventional appendectomy--a meta-analysis of randomised controlled trials

A comparison was made of the dynamics of sympathoadrenal activity in 11 age-matched male and female rats, under basal conditions and after exposure to footshock. Rats were prepared with indwelling catheters in the tail artery 24 h before the experiment. Measurements were made of plasma corticosterone (COR), norepinephrine (NE), epinephrine (EPI), dihydroxyphenylalanine (DOPA), dihydroxyphenylglycol (DHPG) and dihydroxyphenylacetic acid (DOPAC) under resting conditions, after transfer to the shock box (novelty) and at various times after footshock. Under basal conditions, males have significantly higher blood pressure and plasma DHPG/NE ratios but lower plasma levels of COR, NE and DOPAC than females. Three min after exposure to the shock chamber (novelty stress) there were significant increases in COR, EPI, NE and DHPG in both sexes, while DOPA increased only in females and DOPAC remained unchanged in both sexes. Footshock produced a further increase in EPI, NE and DOPAC within 2 min, which lasted about 15 min. There were significant sex differences in the extent and duration of the response of COR, EPI and DHPG. The data show that the female sympathoadrenal system is more reactive than that of the male to the stresses of a novel environment and footshock. The smaller DHPG/NE ratios in females at rest and after stress suggest that neuronal uptake of NE is lower in females than in males. The finding that stress produces larger increments of plasma DOPA and DOPAC in female rats indicates that tyrosine hydroxylase in the sympathetic nerve terminals and adrenal medulla may also be higher than in males.     

Regulation of sulfotransferase mRNA expression in male and female rats of various ages

Sulfotransferases (SULTs) are Phase II drug-metabolizing enzymes that catalyze the addition of a sulfuryl moiety to both endogenous compounds, including steroids and neurotransmitters, and certain xenobiotics, including N-hydroxy-2-acetylaminoflourine and phenolic compounds, like alpha-naphthol. In contrast to certain Phase I drug-metabolizing enzymes, little is known about the regulation of the sulfotransferases. These series of studies were designed to analyze SULT mRNA expression and hormonal regulation in male and female rats. The hepatic expression of six different SULT isoforms was examined including three phenol SULTs and three hydroxysteroid SULTs. SULT mRNA expression was examined in adult and developing rats, as well as, in hypophysectomized (HX) and growth hormone-supplemented HX animals. SULT1A1 is thought to be important for the sulfation of simple phenols and its mRNA expression is about twice as high in adult male as in female rats. This difference in SULT1A1 mRNA levels is largely due to a greater decrease in mRNA levels after puberty in female than in male rats. Hypophysectomy resulted in a decrease in expression of SULT1A1 mRNA in both male and female rats. Replacement of growth hormone (GH) by either intermittent injection (male pattern) or infusion (female pattern) failed to restore SULT1A1 expression. Sulfotransferase SULT1C1 has been implicated in activation of N-hydroxyacetylaminoflourine. In contrast to SULT1A1, SULT1C1 mRNA expression is about 10-fold higher in adult males than in adult female rats. This male-dominant expression pattern emerges at 40-50 days of age and is due to an increase in SULT1C1 mRNA in males. Hypophysectomy abolished SULT1C1 expression in male rats. Interestingly, replacement of GH by injection (male pattern) restored SULT1C1 mRNA expression in males and enhanced SULT1C1 expression in female rats to levels observed in adult male rats. GH infusion (female pattern) did not affect SULT1C1 mRNA expression in either male or female rats. Estrogen sulfotransferase (SULT1E2) may play a role in estrogen homeostasis. Adult male rats express SULTIE2 mRNA at levels 10-fold higher than those observed in adult females and similar to SULT1C1, this is due to an increase in SULT1E2 mRNA occurring during puberty in the male rat. Hypophysectomy did not appreciably affect SULT1E2 expression in male rats, however in contrast to males, hypophysectomy markedly enhanced SULT1E2 expression in female rats. GH infusion suppressed SULT1E2 levels in HX male rats. The expression of hydroxysteroid sulfotransferases was also examined. The SULT-20/21 isoform was expressed in both male and female rats. Male expression of this isoform peaked at 30 days of age and then declined to approximately 30% of the level observed in adult females. SULT-20/21 mRNA expression increased sharply at 45 days of age in female rats and remained elevated. Expression of SULT-20/21 mRNA was decreased markedly by hypophysectomy in both male and female rats. GH injection did not affect SULT-20/21 mRNA expression in HX males, however this treatment resulted in a 4-fold increase in SULT-20/21 mRNA in HX females. GH infusion restored SULT-20/21 expression in HX-male rats. GH infusion did elevate SULT-20/21 mRNA expression in female-HX rats, but not to the level observed in intact females. Hydroxysteroid SULT isoform SULT-40/41 was expressed in adult female but not adult male rats. SULT-40/41 expression peaked at 15 days of age in both male and female rats and decreased thereafter. The decrease in expression was more pronounced in male rats. SULT-60 mRNA, like SULT-40/41, was expressed only in adult female rats. Male rats express SULT-60 at 30 days of age, but SULT-60 mRNA is undetectable at 60 days. SULT-60 mRNA was expressed in females only after day 30 and female SULT-60 mRNA expression remains high thereafter. SULT-40/41 and SULT-60 mRNA expression was increased by HX in male rats and decreased by HX in female rats. (ABSTRACT TRUNCATED)     

Prenatal stress and prepuberal social rearing conditions interact to determine sexual behavior in male rats.

The possible interaction between relative amounts of androgen present during specific stages of development and adequate prepuberal social stimulation was evaluated by characterizing the ejaculatory and lordotic behavior potentials of 20 prenatally stressed and 23 control male Sprague-Dawley rats that had been weaned at 16 days of age and raised either in total social isolation or with a same-age female, a control male, or a prenatally stressed male. The decrement in male sexual behavior produced by prenatal stress was attenuated by raising the male with either a female or a control male. Social isolation alone or in combination with stress resulted in severely deficient male behavior. Peripheral skin shock promoted ejaculatory behavior in many previously noncopulating, prenatally stressed males raised with other stressed males, but it was ineffective in most isolated Ss. The high lordosis potential characteristic of prenatally stressed male rats was slightly lower in the group with a female cagemate and was markedly decreased by social isolation. Results support and extend the finding by J. L. Dunlap et al (see record 1980-11465-001) that prenatal hormonal events and prepuberal rearing conditions can interact to attenuate or accentuate the effects that either treatment alone has on the development of adult sexual behavior potentials. (27 ref) (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Current clinical issues in the management of herpes simplex virus infections in patients with HIV

The effect of the Ca2+ blocker verapamil on amnesia induced by electroconvulsive shock (ECS) or by the alpha-adrenoceptor agonist clonidine was studied in male Wistar rats trained in passive avoidance task ("step down"). Clonidine (0.1 mg/kg, i.p.) and ECS induced a pronounced amnesia, significantly reducing the percentage of rats that had acquired the task upon retention tests, given 3 h, 24 h and 7 days after training. Verapamil (10 mg/kg) administered orally for 12 days (5 days before and 7 days after training) completely abolished the ECS- or clonidine-induced amnesia. These data suggest that calcium channel blocker verapamil has a protective effect against experimentally provoked memory deficit and might be useful for the treatment of cognitive disorders.     

Infarct topography and hemiparesis profiles with cerebral convexity infarction: the Stroke Data Bank

The development of natural killer (NK) cell activity was assessed in Fischer 344 (F344) rats sympathectomized as neonates with the neurotoxin, 6-hydroxydopamine (6-OHDA). No NK cell activity was detected in sympathectomized or vehicle-injected control animals at 7 days of age. At 10 and 14 days of age, NK cell activity was reduced in spleens from sympathectomized male and female rats. At 21 days of age, a reduction in NK cell activity was detected only in sympathectomized male rats. Sympathectomy did not alter NK cell activity at 28 and 42 days of age in either gender. At 56 days of age, NK cell activity was increased in neonatally sympathectomized females; rats of both genders acutely sympathectomized at 56 days of age also showed enhanced NK cell activity. No differences were observed at 90 days of age in neonatally or acutely sympathectomized males of females. Prior treatment with desipramine, which blocks uptake of 6-OHDA into nerve terminals and prevents the destruction of sympathetic nerve terminals, prevented these 6-OHDA-induced effects, suggesting that sympathectomy, and not direct toxic effects of 6-OHDA treatment of NK cells, accounted for the alterations in NK cell activity. Together, these results indicate that the sympathetic nervous system is an integral component of the developing lymphoid and hematopoietic microenvironment.     

Switching of chemoattractant receptors programs development and morphogenesis in Dictyostelium: receptor subtypes activate common responses at different agonist concentrations

Although uranium (U) is a classic experimental nephrotoxin, there are few data on its potential long-term chemical toxicity. These studies were undertaken to derive a no-observed-adverse-effect level (NOAEL) in male and female Sprague-Dawley rats following 91-day exposure to uranium (as uranyl nitrate hexahydrate, UN) in drinking water. Following a 28-day range-finding study, five groups of 15 male and 15 female weanling rats were exposed for 91 days to UN in drinking water (0.96, 4.8, 24, 120, or 600 mg UN/L). A control group was given tap water (< 0.001 mg U/L). Daily clinical observations were recorded. Following the study, animals were euthanized and exsanguinated, and multiple hematological and biochemical parameters were determined. Necropsies were conducted, and multiple tissues were sampled for histopathological examination. The hematological and biochemical parameters were not affected in a significant exposure-related manner. Although there were qualitative and slight quantitative differences between males and females, histopathological lesions were observed in the kidney and liver, in both males and females, in all groups including the lowest exposure groups. Renal lesions of tubules (apical nuclear displacement and vesiculation, cytoplasmic vacuolation, and dilation), glomeruli (capsular sclerosis), and interstitium (reticulin sclerosis and lymphoid cuffing) were observed in the lowest exposure groups. A NOAEL was not achieved in this study, since adverse renal lesions were seen in the lowest exposed groups. A lowest-observed-adverse-effect level of 0.96 mg UN/L drinking water can be reported for both the male and the female rats (average dose equivalent 0.06 and 0.09 mg U/kg body wt/day, respectively).     

Biological warfare. A historical perspective

Several modifications of the 3H-tetracycline bone labeling method for measuring whole skeleton bone resorption were tested. Under steady state conditions of whole skeleton resorptive activity, bone labeling for intervals longer than 2 weeks prior to experimentation did not significantly alter the urinary 3H-tetracycline loss curve. The utilization of nonlinear regression analysis showed that the urinary loss of 3H-tetracycline was best described by double exponential equations, indicating the loss of label from two distinct and independent exchangeable bone compartments. This conclusion was supported by the finding that soft tissues were effectively depleted of 3H-tetracycline by 24 hours after the final injection of label. Hence, it was concluded that approximately 40% of the 3H-tetracycline loss from skeletal bone is associated with a "fast" compartment which is depleted within 6 or 7 days after label loading. The size and rate of 3H-tetracycline loss from the fast compartment decreased (40%) with age such that the depletion time remained constant between 8 and 24 weeks of age in both male and female rats. The remaining 60% of 3H-tetracycline loss from a "slow" compartment which was depleted in about 70 days in young (8 week) rats. This compartment, which is believed to reflect cell-mediated resorption of calcified bone; decreased in size with age in both male (50%) and female (30%) rats. The rate of label loss from this compartment, however, remained relatively high so that the depletion time decreased (approximately 35%) between 8 and 24 weeks of age. By determining whole skeletal mass and calculating these parameters on the basis of skeletal mass, we were further able to demonstrate significantly higher resorptive activity in female than in male rats by 24 weeks of age.     

The alcohol deprivation effect in the alcohol-preferring P rat under free-drinking and operant access conditions

The alcohol-deprivation effect (ADE) was examined under 4-hr operant and 24-hr free-choice alcohol access in the alcohol-preferring (P) rat after deprivation intervals from 2 to 4 weeks. Results indicated that adult male P rats responding for 6 weeks on a concurrent FR-5/FR-1 schedule of reinforcement for alcohol and water, respectively, and then deprived of alcohol for 2 weeks, demonstrated a 40% increase in alcohol responding during the first 60 min of alcohol reinstatement. The alcohol deprivation effect was temporary, however, as responding did not differ from baseline levels on the second day of reinstatement. In a second experiment, weanling male and female P rats received 7 weeks of continuous access to alcohol, beginning at 21 days of age, and were then deprived of alcohol for 4 weeks. On the first day of alcohol reinstatement, P rats exhibited a 40% to 45% increase from baseline alcohol drinking levels, with alcohol intake returning to baseline levels by the 3rd day of reinstatement. Although alcohol intake was higher in females than in males when adjustment was made for body weight, there were no gender differences in the magnitude of the alcohol deprivation effect. Taken together, these results indicate that the ADE is a long-lasting phenomenon that occurs under both operant and continuous access conditions in the P rat, and thus these rats may be useful models for the study of factors involved in relapse of alcohol drinking.     

Failure to obtain sex differences in development of obesity following ventromedial hypothalamic lesions in rats.

Gave 24 male and 24 female albino Charles River rats either a high-fat or a ground-food diet following ventromedial hypothalamic or sham lesions. After 63 days on 1 diet, diets were reversed for 27 days. Over 63 days (a) lesioned Ss of both sexes showed a significant increase in weight over their controls, (b) Ss on high fat gained more weight than those on ground food, and (c) there was no difference between the sexes in weight gain. When diets were reversed, lesioned Ss now on ground food maintained about the same weight as before reversal, while Ss switched to the high-fat diet rapidly increased their body weight to a point near that of Ss originally on the high-fat diet. Data indicate that there is no sex difference in weight gain following ventromedial lesions. It is suggested that previously reported differences result from (a) insufficient periods of observation, (b) offering unpalatable diets, or (c) the use of random-bred strains which increases variability of animal size and lesion placement. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Developmental differences in the suppressive effects of punishment.

Used 3 levels of shock intensity (1, 2, or 3 ma.), 3 test delay periods (0, 5, or 25 days), and 25- and 100-day-old male Long-Evans hooded rats (N = 104) in a study of developmental differences in recovery from the suppressive effects of punishment. The apparatus was a Y maze with 3 discriminably different arms. After 10-14 sessions of positive reinforcement, Ss were shocked for 2 sessions each time they responded in 1 arm. Following these shock sessions, a delay was given prior to the recovery sessions. Results from the shock days indicate that the number of shocks to suppression was a function of age, intensity, and shock days. The recovery data showed that (a) recovery was an inverse function of intensity, (b) the suppressive effects of punishment were much greater for the adults than the infants at all intensities, and (c) recovery was not a function of delay periods. Results support the hypothesis that younger organisms have greater difficulty than older ones in inhibiting a response. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Chronic toxicity, oncogenicity, and mutagenicity studies with chlorotetrafluoroethane (HCFC-124)

The chronic toxicity, oncogenicity, and mutagenicity of chlorotetrafluoroethane (HCFC-124) were evaluated. In the chronic toxicity/oncogenicity study, male and female rats were exposed to 0, 2000, 10,000, or 50,000 ppm HCFC-124 for 6 hr/day, 5 days/week, for 2 years. Body weights were obtained weekly during the first three months of the study and every other week for the remainder of the study. Food consumption was determined weekly. Clinical signs of toxicity were monitored throughout the study. An ophthalmological examination was performed on all animals prior to study start, and all surviving rats were examined at approximately 3, 12, and 24 months after study start. Clinical pathology was evaluated at 3, 6, 12, 18, and 24 months. An interim termination was conducted at 12 months. All surviving rats were necropsied at 24 months. A complete set of tissues was collected for microscopic examination, and selected tissues were weighed. There were no compound-related, adverse effects on body weight, food consumption, survival, clinical signs of toxicity, ophthalmoscopically observable ocular lesions, serum hormone concentrations, or clinical pathology parameters at any exposure concentration in either male or female rats. Compared to controls, urine fluoride was increased in males and females at all exposure concentrations, and plasma fluoride was increased in females at all exposure concentrations. Excretion of fluoride represents conversion of the parent molecule, and as such is not considered to be an adverse effect. There were no toxicologically significant, compound-related organ weight changes or gross or microscopic findings in male or female rats at any of the exposure concentrations tested. HCFC-124 was not toxic or carcinogenic in rats of either sex after inhalation exposure at concentrations of up to 50,000 ppm in this two-year chronic toxicity/oncogenicity study. After exposure to HCFC-124 for six hours per day, five days per week, for 24 months, the no-observed-adverse-effect level for male and female rats was 50,000 ppm. HCFC-124 was not mutagenic in Salmonella typhimurium strains TA1535, TA97, TA98, and TA100 with and without activation when evaluated at concentrations up to 60% HCFC-124 for 48 hours. No evidence of clastogenic activity was observed in cultured human lymphocytes at atmospheric concentrations up to 100% HCFC-124 for 3 hours, with and without metabolic activation. In vivo, no micronuclei were induced in mouse bone marrow cells following exposure of mice to concentrations of 99,000 ppm HCFC-124 6 hours/day for 2 days.     

Sampling methods for potential epidemic vectors of eastern equine encephalomyelitis virus in Massachusetts

The neurotoxic effect of monosodium L-glutamate (MSG) on the morphologies in the darkly stained sexually dimorphic nucleus of the preoptic area (SDN-POA) and the lighter-staining surrounding area (non-SDN-POA) within the medial preoptic nucleus (MPN) was evaluated. Male and female Long-Evans rats were used. MSG (4 mg/g of body weight) was administered subcutaneously to pups on days 1 and 3 postnatally. Normal saline was used as the vehicle. At the age of 6 months, the rats were sacrificed and the brain tissues were fixed for histological examination. The morphological changes, i.e., total volume, density, total neuron number, neuronal nuclear volume (NNV) and ratio of pyknosis, of the SDN-POA and non-SDN-POA within the MPN, were estimated using the AMS VIDS III semiautomatic image-analytic system. The results indicate that neonatal MSG treatment caused significant neuronal loss and decreases in total volume of the SDN-POA and non-SDN-POA of male and female rats. However, only the SDN-POA of MSG-treated male rats showed a significant increase of pyknosis and decrease of neuronal density. A significant enlargement of NNV in the SDN-POA and non-SDN-POA was observed in the MSG-treated male rats. These results indicate that the MPN shows sex-specific and area-specific changes after neonatal neurotoxicity due to MSG.     

The disposition of allyl isothiocyanate in the rat and mouse

The urine was the major route of excretion of radioactivity (50-80% of dose) following the oral administration (2.5 and 25 mg/kg body weight) of allyl[14C]isothiocyanate (AITC) to male and female Fischer 344 rats and B6C3F1 mice. Smaller amounts were found in the faeces (6-12%) and expired air (3-7%). The major difference between the two species was the greater retention of radioactivity after 4 days within rats (18-24% of dose) when compared with mice (2-5% of dose). Three radioactive components were found in the urine of mice and two in rats. The three components were inorganic thiocyanate, allylthiocarbamoylmercapturic acid and allylthiocarbamoylcysteine in mice, but no cysteine conjugate was found in rat urine. In the mouse, approximately 80% of the 14C was present in the urine as the thiocyanate ion whereas in the rat some 75% was as the mercapturate. This indicates that in the mouse, hydrolysis of AITC was the major metabolic pathway whereas in the rat glutathione conjugation was the major route. A species difference was seen in the amount of [14C]AITC-derived radioactivity present in the whole blood of rats and mice; measurable levels of radioactivity remained within rat blood for a longer time period (up to 240 hr) when compared with mice (96 hr). Examination of the urinary bladders of male and female rats following oral dosing with [14C]AITC showed a sex difference with greater amounts of [14C]AITC and/or its metabolites within the bladder tissue of male rats. This data is discussed in terms of the known species- and sex-specificity of the urinary bladder tumours, which occurred after long-term administration to male rats, but not to female rats or mice of either sex, in a carcinogenicity study conducted by the National Toxicology Program in the USA.     

Effect of estradiol-17 beta on preprolactin messenger ribonucleic acid activity in the rat pituitary gland

Rat pituitary RNA was translated in the wheat germ system. Preprolactin messenger RNA activity was estimated by adsorption of cell-free products to solid phase antiprolactin. When male rats were injected for 4 days with estradiol-17beta, pituitary preprolactin mRNA activity was increased 2.5- to 3.0-fold over controls. This increase was evident when either total RNA, poly(adenylic acid) RNA, or polysomal RNA was translated in the cell-free system. In male rats receiving daily injections of estradiol-17beta, preprolactin mRNA activity was increased to an apparent maximum of 300% of controls after 7 days of treatment. Our data also indicate that estradiol increases preprolactin mRNA activity per microgram of RNA as well as the pituitary content of RNA. After estradiol treatment was discontinued, preprolactin mRNA activity declined to 50% of the maximum stimulation after approximately 2 days. In ovariectomized retired breeder female rats, a 5-fold increase in preprolactin activity over ovariectomized controls was obtained. In other studies, a 2-fold increase in preprolactin mRNA activity was obtained in male rats 24 h after a single injection of pimozide, a dopamine blocking drug.     

A risk characterization for atrazine: oncogenicity profile

An extensive safety database has been developed for the chlorotriazine herbicide, atrazine. The results from five oncogenicity studies conducted in the Sprague-Dawley rat, two studies in the Fischer 344 rat, and two studies in the CD-1 mouse were reviewed. No increase in the incidence of tumors of any type was observed in male or female Fischer 344 rats, male or female CD-1 mice, or male Sprague-Dawley rats fed atrazine at a maximum tolerated level in their diet for 24 mo. Female Sprague-Dawley rats fed atrazine at levels of 400, 500, and 1000 ppm developed mammary tumors earlier than did the control group. The incidence of female Sprague-Dawley rats with mammary tumors after 24 mo of treatment was statistically increased at feeding levels of > or = 70 ppm in 1 study and at 400 ppm in a second study, whereas there were no significant differences between the treated and the control group in 3 other studies. No increase in tumors of any type was observed in ovariectomized female Sprague-Dawley rats after 24 mo of atrazine treatment at the highest level tested, 400 ppm. Therefore, the mammary tumor response in female Sprague-Dawley rats following the administration of high levels of atrazine appears to be due to an acceleration of the normal reproductive aging process resulting in increased exposure to endogenous estrogen and prolactin. The Sprague-Dawley rat differs from the Fischer 344 rat, the CD-1 mouse, and humans in the endocrine control mechanisms affecting reproductive senescence and the development of the mammary tumors during aging. These data indicate that the carcinogenic effect of high doses of atrazine observed in the female Sprague-Dawley is a strain-, sex-, and tissue-specific response that does not have biological relevance to humans.     

Isopropanol vapor inhalation oncogenicity study in Fischer 344 rats and CD-1 mice

The potential oncogenic effects of isopropanol, a widely used solvent, were investigated. Four groups of animals, each consisting of 75 CD-1 mice/sex and 75 Fischer 344 rats/sex, were exposed to isopropanol vapor (CAS No. 67-63-0) at target concentrations of 0 (filtered air control), 500, 2500, or 5000 ppm. Animals assigned to the core group (55 mice/sex/group and 65 rats/sex/group) were exposed for 6 hr/day, 5 consecutive days/week for at least 78 weeks for the mice or 104 weeks for the rats. Ten mice/sex/group and 10 rats/sex/group were assigned to an interim euthanasia group and were terminated during Weeks 54 and 73, respectively. In addition, 10 mice/sex/group were assigned to a recovery group and did not receive any further exposure following Week 53 but were retained until the core group of animals was euthanized. Transient signs of narcosis were observed for both mice and rats during exposure to 2500 and 5000 ppm and following exposure for mice from the 5000-ppm group. Increased mortality (100% versus 82% for controls) and a decreased mean survival time (577 days versus 631 days for controls) were noted for male rats from the 5000-ppm group. Increases in body weight and/or body weight gain were typically observed for both sexes of mice and rats from the 2500- and 5000-ppm groups throughout the study. Urinalysis and urine chemistry changes indicative of impaired kidney function (i.e., decreased osmolality and increased total protein, volume, and glucose) were noted for male rats from the 2500-ppm group as well as for male and female rats from the 5000-ppm group. At the interim euthanasia, a concentration-related increase in testes weight (absolute and relative as a percentage of body and brain weight) was observed for male rats. Concentration-related increases in absolute and relative liver weight (as a percentage of body weight) were observed for male and female mice. In addition, increased absolute and/or relative (as a percentage of body and brain weight) liver and kidney weights were observed for male and/or female rats from the 2500- and 5000-ppm groups. At necropsy, an increased incidence of seminal vesicle enlargement was observed grossly for male mice from the 2500- and 5000-ppm groups. Microscopically, some of the nonneoplastic lesions noted for mice included an increased incidence of ectasia of the seminal vesicles for male mice from the 2500- and 5000-ppm groups, minimal renal tubular proteinosis for male and female mice from all isopropanol groups, and renal tubular dilation for female mice from the 5000-ppm group. A number of nonneoplastic lesions were observed for male and female rats from the 2500- and 5000-ppm groups, with the most significant lesions being observed in the kidney and associated with chronic renal disease. The lesions noted with increased severity and/or frequency included mineralization, tubular dilation, glomerulosclerosis, interstitial nephritis, interstitial fibrosis, hydronephrosis, and transitional cell hyperplasia. The only tumor type increased in incidence during the study was interstitial cell adenomas of the testes in male rats. However, the increase in these adenomas was not believed to be exposure-related due to an unusually low incidence observed for the control group. There were no increased frequencies of neoplastic lesions noted for male or female mice or for female rats from any isopropanol exposure group. Chronic renal disease was attributed to be the main cause of death for male and female rats from the 5000-ppm group and was also considered to account for much of the mortality observed for male rats from the 2500-ppm group. In conclusion, the no-observed-effect level (NOEL) for toxic effects for both rats and mice was 500 ppm. The NOEL for oncogenicity effects for both mice and rats was determined to be greater than 5000 ppm.     

Environmentally induced analgesia: Age-related decline in a neurally mediated, nonopioid system.

Two experiments examined the function of an endogenous system of pain inhibition during aging. In Exp I, 80 male Sprague-Dawley rats (aged 3, 14, and 24 mo) were exposed to 90 sec of hindpaw shock. To investigate the pharmacology and anatomy involved in the production of hindpaw shock-induced analgesia, the effects of naltrexone (7 mg/kg), scopolamine (5 mg/kg), and adrenalectomy were examined. Results show that there was an age-related reduction in the degree of analgesia produced by hindpaw shock. Naltrexone and adrenalectomy did not alter the analgesia elicited by hindpaw shock. Scopolamine reduced the analgesia produced by hindpaw shock, and the effectiveness of scopolamine blockage declined with age. Exp II, with 18 3-mo-old and 13 23-mo-old male Sprague-Dawley rats, demonstrated that the effect of scopolamine was specific to the analgesia induced by hindpaw shock because scopolamine was ineffective in modifying the analgesia produced by a different stressor (cold water). It is suggested that the decline in hindpaw shock-induced analgesia is the result of an alteration in the function of the cholinergic system. (33 ref) (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Learned helplessness in the rat: Time course, immunization, and reversibility.

Previous research has shown that rats, like dogs, fail to escape following exposure to inescapable shock. 3 experiments were conducted with a total of 121 male Sprague-Dawley rats to further explore parallels between rat and dog helplessness. The failure to escape did not dissipate in time; Ss failed to escape 5 min, 1 hr, 4 hrs, 24 hrs, and 1 wk after receiving inescapable shock. Ss that first learned to jump up to escape were not retarded later at barpressing to escape following inescapable shock. Failure to escape could be broken up by forcibly exposing the S to an escape contingency. Therefore, the effects of inescapable shock in the rat parallel learned helplessness effects in the dog. (23 ref) (PsycINFO Database Record (c) 2010 APA, all rights reserved)