Your search keyword '"Rat"' showing total 846 results

1. Restraint stress-induced antinociceptive effects in acute pain: Involvement of orexinergic system in the nucleus accumbens.

Author

Farmani, Danial, Moteshakereh, Seyed Mohammadmisagh, Nikoohemmat, Mohammad, Askari, Reyhaneh, Salehi, Sakineh, and Haghparast, Abbas

Subjects

*NUCLEUS accumbens, *IMMOBILIZATION stress, *PHYSIOLOGICAL stress, *LABORATORY rats, *NEUROPEPTIDES

Abstract

The complicated relevance between stress and pain has been identified. Neurotransmitters and neuropeptides of various brain areas play a role in this communication. Pain inhibitory response is known as stress-induced analgesia (SIA). The studies demonstrated that the nucleus accumbens (NAc) is critical in modulating pain. As a neuropeptide, orexin is crucially involved in initiating behavioral and physiological responses to threatening and unfeeling stimuli. However, the role of the orexin receptors of the NAc area after exposure to restraint stress (RS) as acute physical stress in the modulation of acute pain is unclear. One hundered twenty adult male albino Wistar rats (230–250 g) were used. Animals were unilaterally implanted with cannulae above the NAc. The SB334867 and TCS OX2 29 were used as antagonists for OX1r and OX2r, respectively. Different doses of the antagonists (1, 3, 10, and 30 nmol/0.5 µl DMSO) were microinjected intra-NAc five minutes before exposure to RS (3 hours). Then, the tail-flick test as a model of acute pain was performed, and the nociceptive threshold (Tail-flick latency; TFL) was measured in 60-minute time set intervals. According to this study's findings, the antinociceptive effects of RS in the tail-flick test were blocked during intra-NAc administration of SB334867 or TCS OX2 29. The RS as acute stress increased TFL and deceased pain-like behavior responses. The 50 % effective dose values of the OX1r and OX2r antagonists were 12.82 and 21.64 nmol, respectively. The result demonstrated contribution of the OX1r into the NAc was more remarkable than that of the OX2r on antinociceptive responses induced by the RS. Besides, in the absence of RS, the TFL was attenuated. The current study's data indicated that OX1r and OX2r into the NAc induced pain modulation responses during RS in acute pain. In conclusion, the findings revealed the involvement of intra-NAc orexin receptors in improving SIA. • Acute stress suppresses antinociceptive effects in the animal model of acute pain. • Blockade of OX1r in the NAc diminished the antinociceptive responses induced by RS. • Blockade of OX2r in the NAc diminished the antinociceptive responses induced by RS. • The contribution of OX1r in the NAc is more prominent than OX2r in modulating SIA. [ABSTRACT FROM AUTHOR]

Published

2024

2. Nanocurcumin prevents memory impairment, hippocampal apoptosis, Akt and CaMKII-α signaling disruption in the central STZ model of Alzheimer's disease in rat.

Author

Moosavi, Maryam, soukhaklari, Roksana, Bagheri-Mohammadi, Saeid, Firouzan, Bita, Javadpour, Pegah, and Ghasemi, Rasoul

Subjects

*LABORATORY rats, *ALZHEIMER'S disease, *MEMORY disorders, *RAT diseases, *INSULIN resistance

Abstract

The central route of streptozotocin (STZ) administration has been introduced as a rat model of sporadic Alzheimer's disease (AD). Curcumin was suggested to possess possible neuroprotective effects, which may be profitable in AD. However, the low bioavailability of curcumin hinders its beneficial effects in clinical studies. Earlier studies suggested that a bovine serum albumin-based nanocurcumin, produces superior neuroprotective effects compared to natural curcumin. In the present study, the protective effect of nanocurcumin in rat model of central STZ induced memory impairment was assessed. In addition, due to the importance of the hippocampus in memory, the amounts of hippocampal active caspase-3, Akt, and CaMKII-α were evaluated. Adult male Wistar rats weighing 250–300 g were used. STZ (icv) was injected during days 1 and 3 (3 mg/kg in divided), and nanocurcumin or curcumin 50 mg/kg/oral gavage was administered daily during days 4–14. Morris water maze training was performed on days 15–17, and the retention memory test was achieved on the 18th day. Following memory assessment, the rats were sacrificed and the hippocampi were used to assess caspase-3 cleavage, Akt, and CaMKII-α signaling. The findings revealed that nanocurcumin ingestion (but not natural curcumin) in the dose of 50 mg/kg was capable to prevent the impairment of water maze learning and memory induced by central STZ. Molecular assessments indicated that STZ treatment increased the caspase-3 cleavage in the hippocampus while deactivating Akt and CaMKII-α. Nanocurcumin reduced caspase-3 cleavage to a non-significant level compared to control group and restored Akt and CaMKII-α within the hippocampus while natural curcumin exerted no significant effect. These findings might suggest that nanocurcumin can restore memory deficit, hippocampal apoptosis as well as Akt and CaMKII-α signaling disruption associated with brain insulin resistance. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

3. Characterisation of behaviours relevant to apathy syndrome in the aged male rat.

Author

Jackson, Megan G., Lightman, Stafford L., and Robinson, Emma S.J.

Subjects

*APATHY, *REWARD (Psychology), *COGNITIVE flexibility, *RATS, *PRESBYCUSIS, *NEUROLOGICAL disorders, *SYNDROMES

Abstract

Apathy is a complex psychiatric syndrome characterised by motivational deficit, emotional blunting and cognitive changes. It occurs alongside a broad range of neurological disorders, but also occurs in otherwise healthy ageing. Despite its clinical prevalence, apathy does not yet have a designated treatment strategy. Generation of a translational animal model of apathy syndrome would facilitate the development of novel treatments. Given the multidimensional nature of apathy, a model cannot be achieved with a single behavioural test. Using a battery of behavioural tests we investigated whether aged rats exhibit behavioural deficits across different domains relevant to apathy. Using the effort for reward and progressive ratio tasks we found that aged male rats (21–27 months) show intact reward motivation. Using the novelty supressed feeding test and position-based object exploration we found aged rats showed increased anxiety-like behaviour inconsistent with emotional blunting. The sucrose preference test and reward learning assay showed intact reward sensitivity and reward-related cognition in aged rats. However, using a bowl-digging version of the probabilistic reversal learning task, we found a deficit in cognitive flexibility in aged rats that did not translate across to a touchscreen version of the task. While these data reveal important changes in cognitive flexibility and anxiety associated with ageing, aged rats do not show deficits across other behavioural domains relevant to apathy. This suggests that aged rats are not a suitable model for age-related apathy syndrome. These findings contrast with previous work in mice, revealing important species differences in behaviours relevant to apathy syndrome in ageing. • Aged rats show impaired cognitive flexibility in a probabilistic reversal task. • A novel exploration task reveals increased anxiety-like behaviour in aged rats. • Aged rats do not show a behavioural profile consistent with apathy syndrome. • The aged rat behavioural profile contrasts with that of the aged mouse. [ABSTRACT FROM AUTHOR]

Published

2024

4. Tongue and laryngeal exercises improve tongue strength and vocal function outcomes in a Pink1-/- rat model of early Parkinson disease.

Author

Broadfoot, Courtney K., Hoffmeister, Jesse D., Lechner, Sarah A., Krasko, Maryann N., Lambert, Emily, Russell, John A., Szot, John C., Glass, Tiffany J., Connor, Nadine P., Kelm-Nelson, Cynthia A., and Ciucci, Michelle R.

Subjects

*PARKINSON'S disease, *TONGUE, *ANIMAL disease models, *TYROSINE hydroxylase, *EXERCISE therapy

Abstract

Parkinson disease (PD) causes voice and swallow dysfunction even in early stages of the disease. Treatment of this dysfunction is limited, and the neuropathology underlying this dysfunction is poorly defined. Targeted exercise provides the greatest benefit for offsetting voice and swallow dysfunction, and previous data suggest the hypoglossal nucleus and noradrenergic-locus coeruleus (LC) may be involved in its early pathology. To investigate relationships between targeted exercise and neuropathology of voice and swallow dysfunction, we implemented a combined exercise paradigm that included tongue force and vocalization exercises early in the Pink1-/- rat model. We tested the hypotheses that (1) tongue and vocal exercise improves tongue force and timing behaviors and vocalization outcomes, and (2) exercise increases optical density of serotonin (5-HT) in the hypoglossal nucleus, and tyrosine hydroxylase immunoreactive (Th-ir) cell counts in the LC. At two months of age Pink1-/- rats were randomized to exercise or non-exercise treatment. Age-matched wildtype (WT) control rats were assigned to non-exercise treatment. Tongue force and timing behaviors and ultrasonic vocalizations were measured at baseline (two months) and final (four months) timepoints. Optical density of 5-HT in the hypoglossal nucleus and TH-ir cell counts in the LC were obtained. Pink1-/- rats produced greater tongue forces, faster tongue contraction, and higher-intensity vocalization following exercise. There were no differences in LC TH-ir. The non-exercised Pink1-/- group had reduced density of 5-HT in the hypoglossal nucleus compared to the WT control group. The changes to tongue function and vocalization after targeted exercise suggests exercise intervention may be beneficial in early PD. • Lingual and vocal exercise increased vocal intensity in Pink1-/- rats. • Pink1-/- rats had greater tongue forces after exercise. • Exercise improved tongue muscle contraction time in Pink1-/- rats. • Serotonin density in hypoglossal nucleus reduced in non-exercised Pink1-/- rats. [ABSTRACT FROM AUTHOR]

Published

2024

5. Orexin receptors in the hippocampal dentate gyrus modulated the restraint stress-induced analgesia in the animal model of chronic pain.

Author

Baghani, Matin, Bolouri-Roudsari, Arad, Askari, Reyhaneh, and Haghparast, Abbas

Subjects

*DENTATE gyrus, *CHRONIC pain, *ANIMAL models in research, *HIPPOCAMPUS (Brain), *IMMOBILIZATION stress, *PAIN medicine

Abstract

Previous studies have shown that stressful stimuli induced an adaptive response of reduced nociception, known as stress-induced analgesia (SIA). Since orexin neuropeptides are involved in pain modulation, and orexin neurons, primarily located in the lateral hypothalamus (LH), project to various hippocampal regions, such as the dentate gyrus (DG), the current study aimed to examine the role of orexin receptors within the DG region in the restraint SIA in the animal model of chronic pain. One hundred-thirty adult male Wistar rats (230–250 g) were unilaterally implanted with a cannula above the DG region. Animals were given SB334867 or TCS OX2 29 (1, 3, 10, and 30 nmol, 0.5 µl/rat) into the DG region as orexin-1 receptor (OX1r) and orexin-2 receptor (OX2r) antagonists, respectively, five min before exposure to a 3-hour restraint stress (RS) period. Animals were then undergone the formalin test to assess pain-related behaviors as the animal model of chronic pain. The results showed that RS produces an analgesic response during the early and late phases of the formalin test. However, intra-DG microinjection of OX1r and OX2r antagonists attenuated the restraint SIA. OX2r antagonist was more potent than OX1r antagonist in the early phase of the formalin test, while OX1r antagonist was little more effective in the late phase. Predominantly, it could be concluded that the orexinergic system in the DG region might act as a potential endogenous pain control system and a novel target for treating stress-related disorders. • Restraint stress (RS) exposure, induced analgesic responses in both phases of formalin test. • Intra-DG injection of OX1 and OX2 receptors antagonists attenuated stress-induced analgesia in the formalin test. • Blockade of OX1 receptors by SB334867 was more effective in decrement of the SIA during the late phase. • TCS OX2 29 was more potent in attenuating the SIA than SB334867 in the early phase of the formalin test. [ABSTRACT FROM AUTHOR]

Published

2024

6. A sensitizing regimen of methamphetamine causes impairments in a novelty preference task of object recognition

Author

Belcher, Annabelle M, O'Dell, Steven J, and Marshall, John F

Subjects

rat, sensitization, DAT, SERT

Abstract

A neurotoxic regimen of methamphetamine impairs object recognition (OR) in rats. The present study investigated whether neurotoxicity is a necessary component of methamphetamine's effect on OR. Animals were exposed to a sensitizing regimen of methamphetamine, and were tested for OR one week, and locomotor behavior two weeks, later. Quantitative autoradiography was used to measure [I-125]RTI-55 binding to forebrain dopaminergic and serotonergic transporters. Methamphetamine treatment produced significant OR impairments (and increased locomotion), without reducing dopamine or serotonin transporter binding. This study supports the conclusion that factors other than monoamine terminal injury contribute to the methamphetamine-induced cognitive impairments. (c) 2006 Elsevier B.V. All rights reserved.

Published

2006

7. Kinetic deterioration of short memory in rat with acute hepatic encephalopathy: Involvement of astroglial and neuronal dysfunctions.

Author

El Khiat, Abdelaati, Tamegart, Lahcen, Draoui, Ahmed, El Fari, Radouane, Sellami, Souad, Rais, Hanane, El Hiba, Omar, and Gamrani, Halima

Subjects

*HEPATIC encephalopathy, *GLIAL fibrillary acidic protein, *RAPHE nuclei, *MEMORY loss, *MEMORY, *LIVER failure, *ACUTE stress disorder

Abstract

Abstract Hepatic encephalopathy (HE) is a complex neuropsychiatric syndrome resulting from acute or chronic hepatic impairments. The clinical features of HE include attention as well as a mild cognitive deficits associated with impaired attentional and executive networks in patients as well as in animal models of HE. The underlining pathomechanism of memory impairment in HE patients is still not fully understood; however, it may involve a possible gliopathy as well as neuropathy. The aim of the present investigation is to assess progression of short working memory deterioration in acute HE and to delineate the glial and the neuronal alteration which may underlie such cognitive impairment. The study was carried out in male Sprague-Dawley rats with acute liver failure induced by thioacetamide (TAA). The study was performed on different stages of acute HE; 12 h, 24 h and 36 h following administration of TAA. The liver functions were assessed via different biochemical markers (ALT, AST, bilirubin, urea and creatinine) and an histopathological examination of the liver tissue. While for the behavioral study, we used T-Maze test to assess short working memory using the percentage of alternation behavior, together with an immunohistochemical analysis of the Glial Fibrillary Acidic Protein (GFAP) as the key marker of astrocytes in the hippocampus, as well as serotonin (5-HT) for 5-HTergic neurons within the dorsal Raphe nucleus (DRN). Our data revealed a progressive loss of liver tissue integrity with inflammation and hepatocytes degeneration which was associated to obvious loss of the liver function. In parallel, we observed a gradual alteration of the alternation behavior, as a sign of altered short working memory in the acute HE rats. At the central level, the immunohistochemical study showed a time dependent region-specific changes of GFAP-immunoreactive astrocytes within the hippocampus. While within the DRN, serotonin levels declined progressively in a time-dependant manner. Our data revealed for the first time, a gradual loss of short memory function in acute HE, resulting from liver dysfunction. Such cognitive deterioration may involve a possible gliopathy as well as a 5-HTergic dysfunction which could be considered as a new key element for understanding the basis of memory and attention loss in HE patients. [ABSTRACT FROM AUTHOR]

Published

2019

8. Sex effects on behavioral markers of emergence from propofol and isoflurane anesthesia in rats.

Author

Mansouri, Mohammed Taghi, Fidler, Jonathan A., Meng, Qing Cheng, Eckenhoff, Roderic G., and García, Paul S.

Subjects

*PHARMACOLOGY, *BLINKING (Physiology), *SEXUAL dimorphism, *ANESTHESIA, *RATS

Abstract

Abstract Clinical studies have demonstrated sex-related differences in recovery from surgical anesthesia. This study aimed to characterize the emergence pattern following two anesthesia regimens in both sexes of rats. We considered six different markers of emergence from anesthesia: sigh, eye blinking, forelimb movement, mastication, neck extension, and recovery of the righting reflex (RORR). Spontaneous motor activity 24 h after the anesthesia induction was also examined. Our results showed that the rank order of the emergence latency after intraperitoneal propofol, PRO, exposure was forelimb movement < sigh < blink < mastication < neck extension < RORR, while after inhaled isoflurane, ISO, anesthesia the sequence was changed as sigh < blink < mastication < forelimb movement < neck extension < RORR in both male and female rats. Moreover, the latency to emergence after PRO in female rats was significantly higher than male rats, although following ISO there was no difference between the sexes (P < 0.001; P > 0.05, respectively). Open-field testing revealed no difference in PRO and ISO spontaneous locomotor activity due to drug administration (P > 0.05). These two anesthetics presented different emergence sequences. Although clinical data suggests that females arouse faster than males from anesthesia with propofol, our intraperitoneal technique in a rodent model had the opposite effect. Pharmacokinetic analysis demonstrated increased absorption of injected propofol for the female rats in our study, emphasizing the role of sexual dimorphism in drug distribution in rodents. Despite these pharmacokinetic differences, the pharmacodynamic effects of the drugs were remarkably consistent among both sexes through emergence. [ABSTRACT FROM AUTHOR]

Published

2019

9. Group I metabotropic glutamate receptor antagonists impair discriminability of reinforcer magnitude, but not risky choice, in a probability-discounting task.

Author

Yates, Justin R., Chitwood, Marissa R., Evans, Karson E., Kappesser, Joy L., Murray, Christopher P., Paradella-Bradley, Tatiana A., and Torline, Brett T.

Subjects

*DELAY discounting (Psychology), *LONG-term synaptic depression, *EXCITATORY amino acid antagonists, *SPRAGUE Dawley rats

Abstract

Abstract The glutamatergic system has been identified as an important mediator of risky choice. However, previous studies have focused primarily on ionotropic glutamate receptors (e.g., NMDA receptors). Little research has examined the contribution of metabotropic glutamate receptors (mGluRs) on risky choice. The goal of the current experiment was to determine the effects of mGluR 1 and mGluR 5 antagonism on risky choice as assessed in probability discounting (PD). Male Sprague Dawley rats (n = 24) were trained in PD, in which consistently choosing a large, probabilistic reward (LR) reflects risky choice. For half of the rats, the odds against (OA) receiving the LR increased across blocks of trials, whereas the OA decreased across the session for half of the rats. Following training, rats received injections of the mGluR 1 antagonist JNJ 16,259,685 (JNJ; 0, 0.1, 0.3, or 1.0 mg/kg; i.p) and the mGluR 5 antagonist MTEP (0, 1.0, 3.0, or 10.0 mg/kg; i.p.). Regardless of which schedule was used, JNJ and MTEP decreased preference for the LR when its delivery was guaranteed. In contrast to delay discounting, in which blocking the mGluR 1 has been shown to alter impulsive choice, these results show that the Group I mGluR family does not selectively alter risky choice. Instead, blocking these receptors appears to impair discriminability of reinforcers of varying magnitudes in PD. [ABSTRACT FROM AUTHOR]

Published

2019

10. Is hippocampal theta frequency related to individual and sex differences in anxiety-like behaviour? An analysis in male and female Long-Evans rats.

Author

Ou, Christina, Dringenberg, Hans C., and Soutar, Chloe N.

Subjects

*MAZE tests, *INDIVIDUAL differences, *BEHAVIOR, *RATS

Abstract

Highlights • Anxiety-related behaviour in rats was assessed using the elevated plus maze. • Female rats exhibited less anxiety-like behaviour than male rats. • There were no sex differences in the frequency of reticular-elicited hippocampal theta. • Anxiety in individual animals was not related to hippocampal theta frequency. • The frequency of reticular-elicited theta may not predict behavioural anxiety in rodents. Abstract Hippocampal theta activity is a prominent slow (4–12 Hz) oscillatory activity pattern generated in the mammalian hippocampal formation. Based on evidence that anxiolytic drugs consistently decrease the frequency of hippocampal theta activity in rodents, hippocampal theta has been linked to anxiety states, leading to the influential theta suppression model of anxiolysis. Surprisingly, very few studies have examined whether hippocampal theta frequency relates to individual or sex differences in anxiety-like behaviour. Here, male and female rats were tested on the elevated plus maze (EPM) to quantify levels of defensive, anxiety-like behaviours. Females exhibited higher levels of open arm exploration (open arm entries and open arm time) compared to males, suggestive of reduced anxiety in females. Subsequently, reticular-elicited hippocampal theta activity was characterized in the same rats under deep urethane anesthesia. There was no sex difference in theta frequency over a range of stimulation intensities. Further, there were no significant correlations between behavioural measures of anxiety in the EPM and theta frequency among individual animals. Theta frequency did, however, decrease following systemic administration of the clinically-used anxiolytic agent buspirone (10 mg/kg). Together, these results suggest that theta frequency does not relate to levels of anxiety-like behaviours in the EPM in male and female rats, challenging the predictive validity of hippocampal theta activity as an index of anxiety in rodents. [ABSTRACT FROM AUTHOR]

Published

2019

11. Serotonin type 6 receptor antagonist attenuates the impairment of long-term potentiation and memory induced by Abeta.

Author

Shahidi, Siamak, Hashemi-Firouzi, Nasrin, Asl, Sara Soleimani, and Komaki, Alireza

Subjects

*MEMORY, *LONG-term synaptic depression, *LONG-term potentiation, *LONG-term memory

Abstract

Highlights • Aβ induction weakened long-term potentiation, cognition, and memory. • Chronic local treatment with SB-258585 improved the impairment of long-term potentiation, cognition, and memory in Aβ injected rat. • SB-258585 can prevent the progression of AD. Abstract Alzheimer's disease (AD) is the most common cause of dementia, characterized by memory impairment and synaptic loss. Long-term potentiation (LTP), a type of synaptic plasticity, is impaired during AD. Serotonin type 6 receptor (5-HT6R) inactivation is proposed as a therapeutic target for AD. This study examined the effects of chronic administration of the 5-HT6R antagonist, SB-258585, on cognitive, memory, and hippocampal plasticity in a rat model of AD. Abeta neurotoxicity was induced in rats using Aβ (1.35 pmol intracerebroventricular [ICV] injection). The following groups were formed: control sustained surgery and saline-treated, Aβ+saline (1 μL ICV for 30 days), and Aβ+SB-258585 (0.024 mg/kg, ICV for 30 days). The learning and memory were tested using the novel object recognition and passive avoidance tests. Next, anesthetized rats were placed in a stereotaxic apparatus. The population spike (PS) amplitude and the slope of the excitatory postsynaptic potentials (fEPSPs) of the LTP were measured following high-frequency stimulation in the dentate gyrus. The Aβ injection reduced step-through latency in the passive avoidance test and decreased the discrimination index in the novel object test. Aβ diminished both the amplitude of hippocampal neuron population spikes and the slope of excitatory postsynaptic potentials, compared to the control group. The administration of SB-258585 in rats receiving Aβ attenuated the Aβ-induced deficits in cognition, memory, and LTP in comparison with the Aβ group. It can be concluded that chronic treatment with SB-258585 antagonist can prevent Aβ-related deficiencies in learning and memory performance by improving neuronal plasticity. SB-258585 can prevent the progression of AD. [ABSTRACT FROM AUTHOR]

Published

2019

12. Glucose metabolic alterations in hippocampus of diabetes mellitus rats and the regulation of aerobic exercise.

Author

Li, Jingjing, Liu, Beibei, Cai, Ming, Lin, Xiaojing, and Lou, Shujie

Subjects

*AEROBIC exercises, *DIABETES

Abstract

Highlights • High fat diet in combination with STZ intraperitoneal injection could induce type 2 diabetes mellitus. • Type 2 diabetes mellitus could lead to abnormal glucose metabolism in the hippocampus. • Aerobic exercise improves type 2 diabetes related glucose metabolism disorders in the hippocampus. Abstract Diabetes could negatively affect the structures and functions of the brain, especially could cause the hippocampal dysfunction, however, the potential metabolic mechanism is unclear. The aim of this study was to investigate the changes of glucose metabolism in hippocampus of diabetes mellitus rats and the regulation of aerobic exercise, and to analyze the possible mechanisms. A rat model of type 2 diabetes mellitus was established by high-fat diet feeding in combination with STZ intraperitoneal injection, then 4 weeks of aerobic exercise was conducted. The glucose metabolites and key enzymes involved in glucose metabolism in hippocampus were respectively detected by GC/MS based metabolomics and western blot. Metabolomics results showed that compared with control rats, the level of citric acid was significantly decreased, while the levels of lactic acid, ribose 5-phosphate, xylulose 5-phosphate and glucitol were significantly increased in the diabetic rat. Compared with diabetic rats, the level of citric acid was significantly increased, while the lactic acid, ribose 5-phosphate and xylulose 5-phosphate were significantly decreased in the diabetic exercise rats. Western blot results showed that lower level of citrate synthase and oxoglutarate dehydrogenase, higher level of aldose reductase and glucose 6-phosphatedehydrogenase were found in the diabetic rats when compared to control rats. After 4 weeks of aerobic exercise, citrate synthase was upregulated and glucose 6-phosphatedehydrogenase was downregulated in the diabetic rats. These results suggest that diabetes could cause abnormal glucose metabolism, and aerobic exercise plays an important role in regulating diabetes-induced disorder of glucose metabolism in the hippocampus. [ABSTRACT FROM AUTHOR]

Published

2019

13. Stress and Ketamine, Bimodal Influence on Cognitive Functions.

Author

Trofimiuk, Emil, Wielgat, Przemysław, Braszko, Jan J., and Car, Halina

Subjects

*MAZE tests, *KETAMINE abuse, *METHYL aspartate receptors, *KETAMINE, *GLUTAMATE receptors, *COGNITIVE ability, *RAT control

Abstract

Abstract The glutamate N-methyl-D-aspartate receptor (NMDAR) non-selective antagonist, ketamine, has been recently repurposed as a rapidly acting antidepressant, catalyzing the vigorous investigation of glutamate-signaling modulators as novel therapeutic agents for depressive disorders. Beneficial effects of this drug in the quick-acting treatment of depression are recognized. The long-term effects of ketamine have not been known, including the cognitive sphere. It is well acknowledged that prolonged exposure to stress induces depression and cognitive impairment. It seemed reasonable to ask how the long-term ketamine administration would affect stressed animals in the aspect of cognitive functions. In the current study we tested whether it is possible for ketamine, used in prolonged-regimen in rats, to alleviate stress-evoked memory deficits? Stressed (restraint 2 h daily for 21 days) and non-stressed rats (6-weeks-old) were treated with ketamine for 21 days and next subjected to a battery of behavioral tests: for the assessment of working and reference spatial memory (Morris water maze (MWM) and Barnes maze (BM)), stereotypy (stereotypy test - ST), locomotor functions (Open field - OF) and anxiety behavior (Elevated plus maze - EPM). Ketamine administration resulted in a significant stereotype behaviour in rats tested in ST. Stressed rats displayed a significant decline in the spatial working and reference memory. The effect of chronic ketamine administration depended on the type of test and differed between control rats and animals simultaneously exposed to chronic stress. However, in the MWM the impact was quite unequivocal, as we observed an improvement in spatial memory in stressed animals and a deterioration in non-stressed animals after ketamine administration. In the BM, the effect of ketamine changed in successive attempts, from favorable in the initial period to negative at the end of the test in the group of stressed animals and without a significant impact on control animals. We found no significant effects of ketamine on locomotor performance and on the level of anxiety. Taken together, these findings demonstrate that ketamine potently abolishes or prevents some kinds of stress-induced memory impairments and cognitive decline in rats, although in some circumstances, it could even increase damage to memory, especially in unstressed animals. It seems that the prolonged use of ketamine in the prevention of stress-induced memory declines can fulfill its role. [ABSTRACT FROM AUTHOR]

Published

2019

14. Effects of cognitive judgement bias and acute antidepressant treatment on sensitivity to feedback and cognitive flexibility in the rat version of the probabilistic reversal-learning test.

Author

Drozd, Robert, Rychlik, Michal, Fijalkowska, Agata, and Rygula, Rafal

Abstract

Highlights • We tested the effects of antidepressants and biased judgement on feedback sensitivity. • Biased judgement modulated the effects of agomelatine on feedback sensitivity. • Mirtazapine influenced sensitivity to positive feedback and cognitive flexibility. Abstract Depressive disorders are often associated with cognitive biases. In this study, we investigated, in an animal model, whether cognitive judgement bias, measured as a stable and enduring behavioural trait, could modulate the effects of antidepressant drugs on other cognitive processes associated with depression. For this purpose, we identified rats displaying 'pessimistic' and 'optimistic' traits in a series of ambiguous-cue interpretation (ACI) tests. Subsequently, in the preclinical version of the probabilistic reversal-learning (PRL) test, allowing multiple reversals within a test session, we compared the effects of acute administration of 5 different antidepressant (AD) drugs (agomelatine, escitalopram, clomipramine, mirtazapine and venlafaxine) on cognitive flexibility and sensitivity to positive/negative feedback in optimistic and pessimistic animals. We report that, following acute treatment with agomelatine, the proportion of lose-shift behaviours in the PRL test was significantly reduced in pessimistic animals compared to optimists. We also demonstrate that acute treatment with another antidepressant drug, mirtazapine, significantly increased the sensitivity of rats to positive feedback, as indexed by the increased proportion of win-stay behaviour following probabilistic reward. This effect was independent of cognitive bias and was associated with a reduced number of reversals made by the animals. Three other tested drugs had no significant effects on behavioural measures assessed in our study. [ABSTRACT FROM AUTHOR]

Published

2019

15. Persistent inflammatory pain alters sexually-motivated behavior in male rats.

Author

Pitcher, Mark Henry, Tarum, Farid, Lehmann, Michael, and Bushnell, M. Catherine

Subjects

*LIBIDO, *CHRONIC pain, *PSYCHOLOGICAL stress, *WEIGHT-bearing (Orthopedics), *INTRA-articular injections, *LABORATORY rats

Abstract

Highlights • Uninjured male rats show robust and sustained preference for urine scent marking near a pro-œstrus female urine spot. • Persistent inflammatory pain produces a delayed reduction of scent marking behavior in male rats. • Basal scent marking behavior is predictive of post-injury stress-related outcomes and sexually-motivated behavior, but not pain. • Heterogeneity in persistent pain-evoked outcomes in rodents reflects heterogeneity of outcomes in humans with chronic pain. • Sexually-motivated behavior in rodents may be an effective translational tool for predicting impacts of persistent pain. Abstract Urine from pro-œstrus female rodents evokes increased levels of sexually-motivated behaviors in males, including sniffing and scent marking of the urine spot as well as activation of brain reward regions. Stressors such as social defeat can adversely impact urine scent marking behavior in male rodents, an effect that can be mitigated with anti-depressant drugs. Persistent pain is also known to be a potent stressor, producing elevated levels of plasma corticosterone as well as reduced sucrose preference and reduced social interaction. However, the effect of persistent pain on sexually-motivated behavior is unknown. Here, we compared urine scent marking behavior in male rats for up to 3 weeks following intra-articular injection of Complete Freund's Adjuvant (CFA) or sham injection. CFA-injected rats exhibited profound and ongoing deficits in static weight bearing capacity. CFA-induced persistent inflammatory pain increased plasma corticosterone levels and reduced urine scent marking behavior in male rats. Moreover, while the vast majority of injured rats showed decreased urine scent marking preference for the pro-œstrus female urine spot, male rats with higher baseline scent marking preference also exhibited higher post-injury scent marking preference, more sniffing behavior and lower levels of plasma corticosterone, compared to those with lower baseline scent marking preference. Overall, scent marking behavior may be an ethologically relevant behavioral predictor of persistent pain-induced stress in rats, representing a novel translational approach to understanding chronic pain comorbidities. [ABSTRACT FROM AUTHOR]

Published

2019

16. Information transmission in HPC-PFC network for spatial working memory in rat.

Author

Xia, Mi, Liu, Tiaotiao, Bai, Wenwen, Zheng, Xuyuan, and Tian, Xin

Subjects

*SHORT-term memory, *PREFRONTAL cortex, *HIPPOCAMPUS (Brain), *TASK performance, *NEURAL transmission, *LABORATORY rats

Abstract

Highlights • Synchronous recording from rat vHPC and mPFC during a spatial working memory task. • Estimation of causal connectivity and information flow using maximum likelihood estimation. • Increased bidirectional information flow in vHPC-mPFC network during spatial working memory. • Information transmission from vHPC to mPFC may be predominant for spatial working memory. Abstract Spatial working memory is a short-term system for the temporary holding and manipulation of spatial information. Evidence shows that the hippocampus (HPC) and prefrontal cortex (PFC) play important roles in spatial working memory. Though the communication between HPC and PFC is recognized as essential for successful execution of spatial working memory tasks, the directional information transmission in the HPC-PFC network is largely unclear. Therefore, in the present study, neuronal activity was recorded from rat ventral hippocampus (vHPC) and medial prefrontal cortex (mPFC) while the rats performed a spatial working memory task in Y-maze. Then the causality connectivity among the spikes from recorded neurons was estimated using the maximum likelihood estimation and the information flow in the vHPC-mPFC network was calculated to investigate the functional dynamics of the vHPC-mPFC information transmission. Our results showed the increased bidirectional information flow in the vHPC-mPFC network during the spatial working memory task. Both directions of information flow were observed only on trials in which the animal subsequently made the correct response, indicating that the increase in information flow predicted memory accuracy. Furthermore, the information flow from vHPC to mPFC was remarkably higher and preceded that from mPFC to vHPC. These findings suggest that the direct vHPC-mPFC information transmission may be predominant for spatial working memory in rat. [ABSTRACT FROM AUTHOR]

Published

2019

17. Involvement of orexinergic receptors in the nucleus accumbens, in the effect of forced swim stress on the reinstatement of morphine seeking behaviors.

Author

Farzinpour, Zahra, Taslimi, Zahra, Azizbeigi, Ronak, Karimi-Haghighi, Saeideh, and Haghparast, Abbas

Subjects

*NUCLEUS accumbens, *MORPHINE abuse, *OREXINS, *PSYCHOLOGICAL stress, *DRUG administration

Abstract

Highlights • Force swimming stress (FSS) facilitated the reinstatement of morphine seeking behaviors in the rats. • Blockade of orexin-1 receptor in the NAc significantly attenuates the effect of FSS on the reinstatement of morphine seeking. • Intra-accumbal injection of the OXR2 antagonist reduced the effect of FSS on the reinstatement in morphine extinguished rats. • Blockade of OX-1 and -2 receptors in the NAc decreased the morphine priming-induced reinstatement. Abstract Orexinergic system is involved in primary rewards; the neural circuit of the ventral tegmental area (VTA), nucleus accumbens (NAc), prefrontal cortex and amygdala represents overlapping elements mediating the rewarding effects of drugs and stressful experiences. The NAc integrates reward-related information from the VTA. Also, it has been indicated that orexinergic system activates the mesolimbic dopamine projecting neurons to the NAc and promotes the development of reward in rodents. Therefore, in the present study, the conditioned place preference (CPP) paradigm was used to determine the role of the two types of orexin receptors (OXR) in the NAc in forced swim stress (FSS), as physical stress, and/or priming-induced reinstatement of morphine. The CPP was induced by injecting morphine (5 mg/kg, SC for 3 days) and lasted for eight free-morphine days; the reinstatement was induced by administration of effective priming dose of morphine (1 mg/kg; sc). The extinguished rats received intra-NAc injection of SB334867 as OX1R antagonist or TCSOX229 as OX2R antagonist before effective priming dose injection of morphine (1 mg/kg; sc). In others, the extinguished rats were given intra-NAc injection of SB334867 or TCSOX229 and then, they underwent FSS before injection of ineffective priming dose of morphine (0.5 mg/kg; sc). Our results showed that intra-accumbal administration of SB334867 or TCSOX229 could inhibit morphine priming- and FSS-induced reinstatement of extinguished morphine-seeking in the rats. It seems that OXR in the NAc may be involved in reward and could play an important role in the effect of stress on reinstatement of morphine-seeking behaviors in this area. [ABSTRACT FROM AUTHOR]

Published

2019

18. Mesolimbic dopamine system and its modulation by vitamin D in a chronic mild stress model of depression in the rat.

Author

Sedaghat, Katayoun, Yousefian, Zahra, Vafaei, Abbas Ali, Rashidy-Pour, Ali, Parsaei, Houman, Khaleghian, Ali, and Choobdar, Sara

Subjects

*MENTAL depression, *DOPAMINERGIC neurons, *THERAPEUTIC use of vitamin D, *NUCLEUS accumbens, *LABORATORY rats

Abstract

Highlights • Active form of vitamin D selectively reduced anhedonic effect of chronic mild stress (CMS) induced-depression-like behavior dose dependently in rat. • Vitamin D did not affect the anxiety-like behavior in CMS rats. • Vitamin D restored the Dopamine transporter, DAT, protein expression after significant decline following the CMS in rat. This effect was similar to or higher than anti-depressant fluoxetine. Abstract Depression, a common mood disorder, involves anhedonia and defects in reward circuits and mesolimbic dopamine transmission in the striatum and nucleus accumbens (NAc). Active vitamin-D, (1,25-(OH) 2 vitamin-D3), exerts protective and regulatory effects on the brain dopamine system. In this study, key depression-like symptoms were induced in rats by chronic mild-stress (CMS) and the comparative effect of treatment with 1,25-(OH) 2 vitamin-D3 (5, 10 μg/kg, or vehicle; i.p., twice weekly) or fluoxetine (5 mg/kg or vehicle, i.p., daily) on anhedonic behavior, locomotor activity and anxiety-like behavior was examined using sucrose preference test (SPT), open field test (OFT) and novel object exploration test (NOT), respectively. We also measured serum corticosterone levels and dopamine transporter-immunoreactivity (DAT-ir) levels in NAc shell and core. CMS exposure for 3 weeks was followed by a SPT and thereafter CMS was continued for 5 weeks, along with vitamin-D or fluoxetine treatment and further testing, which was concluded with another SPT. Vitamin-D treatment enhanced sucrose preference (P < 0.01; an hedonic effect) and increased object exploration (P < 0.01) in CMS rats. CMS significantly reduced the level of DAT-ir in NAc (P < 0.0001). Vitamin-D treatment restored/increased DAT-ir levels (P < 0.0001) in CMS rat NAc (core/ shell), compared to levels in fluoxetine treated and non-treated CMS rats. Vitamin-D did not alter locomotor activity or produce an anxiolytic effect in the OFT. These data suggest that similar to the antidepressant, fluoxetine, regular vitamin-D treatment can improve 'anhedonia-like symptoms' in rats subjected to CMS, probably by regulating the effect of dopamine-related actions in the NAc. [ABSTRACT FROM AUTHOR]

Published

2019

19. Rats have low motivation to self-administer oral methamphetamine across increasing response requirements.

Author

Yates, Justin R., Berling, Kevin L., Broderick, Maria R., Bako, Rayah E., and Dillon, Sadie L.

Subjects

*SPRAGUE Dawley rats, *METHAMPHETAMINE, *RATS, *MOTIVATION (Psychology)

Abstract

Methamphetamine (METH) is a psychostimulant drug that has become increasingly popular in recent years, with overdose deaths more than doubling during the second half of the 2010s. As methamphetamine use disorder rates continue to increase, finding effective treatment strategies to decrease METH dependence is important. Animal studies are well-suited for studying the neurobiological mechanisms underlying addiction-like behaviors. Although individuals can ingest METH orally, few studies have examined oral METH self-administration in animals. Mice show decreased responding for oral METH as the response requirement increases across sessions. The purpose of the current study was to determine if rats show a similar decrease in motivation to earn oral METH across increasing response requirements. Sixteen Sprague Dawley rats were trained to emit a response in an aperture to receive a 0.1-ml METH solution (40 mg/l) according to an FR 1 schedule. The FR requirement increased across sessions to a terminal FR 10. Responses for METH decreased significantly when an FR 10 schedule was used. These results suggest that rats, similarly to mice, have low motivation to self-administer oral METH. • Responses for oral METH decrease when an FR 10 schedule is used. • Females earn more METH (40 mg/l) but also respond more on inactive aperture. • Sex differences disappear when METH (0.01 mg/kg/infusion) is used. [ABSTRACT FROM AUTHOR]

Published

2023

20. Dietary choline supplementation in adult rats improves performance on a test of recognition memory.

Author

Moreno, Hayarelis, Hall, Geoffrey, Gallo, Milagros, and de Brugada, Isabel

Subjects

*CHOLINE, *BIOGENIC amines, *OBJECT recognition (Computer vision), *DIETARY supplements, *MEMORY

Abstract

In two experiments adult rats (aged at least 6 months at the start of the procedure) received a diet enriched with added choline for a period of 10 weeks; control subjects were maintained on a standard diet during this time. All rats then underwent the spontaneous object recognition (SOR) procedure in which they were exposed to a pair of objects and then tested, after a retention interval, to a display with one object changed. Exploration of the changed object indicates retention and use of information acquired during the exposure phase. All subjects showed retention with a 24-h interval (Experiments 1 and 2) and when retested after a further 24 h (Experiment 1). But when tested for the first time after a 48-h interval (Experiment 2), control subjects showed no evidence of retention, exploring both objects equally, whereas those given the dietary supplement continued to show a preference for the changed object. This supports the conclusion that dietary choline supplementation can enhance performance on a task regarded as a test of declarative memory, and will do so even when the supplementations is given in adulthood. [ABSTRACT FROM AUTHOR]

Published

2018

21. Assessment of sexual behavior in rats: The potentials and pitfalls.

Author

Heijkoop, Roy, Huijgens, Patty T., and Snoeren, Eelke M.S.

Subjects

*ANIMAL sexual behavior, *LIBIDO, *BEHAVIORAL neuroscience, *NEUROSCIENCES, *ANIMAL models in research

Abstract

In the field of behavioral neuroscience, it is essential to use the appropriate animal models for the topic of investigation. Using the wrong model can result in false interpretation of the results. In this review we will discuss the animal models used to study sexual behavior, with a focus on rats. We will discuss the potentials and pitfalls of the different paradigms and try to make recommendations on how research in this field could be optimized. Both male and female sexual behavior are discussed, in addition to sexual motivation. [ABSTRACT FROM AUTHOR]

Published

2018

22. Fluoxetine and stress inversely modify lateral septal nucleus-mpfc neuronal responsivity.

Author

Contreras, Carlos M., Gutiérrez-García, Ana G., and Sánchez-Salcedo, José A.

Subjects

*FLUOXETINE, *PSYCHOLOGICAL stress, *PREFRONTAL cortex, *MENTAL depression, *CINGULATE cortex

Abstract

Several clinically effective antidepressants increase the neuronal firing rate in the lateral septal nucleus (LSN), a forebrain structure that is anatomically related to medial prefrontal cortex (mPFC) regions. mPFC function is related to depression and the regulation of fear. However, unknown is whether antidepressant treatment or chronic stress modifies the responsivity of neuronal LSN-mPFC connections. We performed single-unit extracellular recordings in the anterior cingulate cortex (ACC) and prelimbic (PL) and infralimbic (IL) regions of the mPFC during stimulation of the LSN in anesthetized male Wistar rats that received fluoxetine (1 mg/kg, 21 days) or were subjected to chronic mild stress (5 weeks). The results were compared with a control group (saline treatment, devoid of behavioral manipulations). Stimulation of the LSN produced an initial excitatory paucisynaptic response, followed by an afterdischarge, characterized by an increase in the neuronal firing rate. Opposite changes were induced by fluoxetine treatment and chronic stress exposure. Peristimulus histograms and unit-activity ratio analyses indicated that LSN-mPFC responsivity differed between fluoxetine treatment and chronic stress exposure. Fluoxetine reduced neuronal responsivity in the LSN-PL and LSN-IL, and stress increased neuronal responsivity in the same regions. In both cases, the changes were more pronounced in the IL region. The lower responsivity of LSN-PL and LSN-IL connections that was produced by fluoxetine may reflect a higher threshold for fear, and lower responsivity of this connection may be related to states of fear. The LSN and mPFC comprise a portion of a limbic-cortical circuit where neuronal responses depend on specific conditions. [ABSTRACT FROM AUTHOR]

Published

2018

23. Effects of N-methyl-d-aspartate receptor (NMDAr) uncompetitive antagonists in a delay discounting paradigm using a concurrent-chains procedure.

Author

Yates, Justin R., Gunkel, Benjamin T., Rogers, Katherine K., Breitenstein, Kerry A., Hughes, Mallory N., Johnson, Anthony B., and Sharpe, Sara M.

Subjects

*METHYL aspartate receptors, *GLUTAMATE receptors, *DELAY discounting (Psychology), *KETAMINE, *AMINES

Abstract

Impulsive choice is often assessed in rodents using a delay discounting (DD) paradigm in which the delay to a large reinforcer (LR) increases across the session. This procedure allows one to test the effects of pharmacological manipulations within a single session. Because discounting is influenced by sensitivity to reinforcer magnitude (SRM) and sensitivity to delayed reinforcement (SDR), applying quantitative analyses (e.g., fitting hyperbolic function) is important for determining the precise behavioral mechanisms being altered following drug administration. One caveat to this approach is that observing increases in SMR/SDR can be difficult (e.g., most rats choose the LR when its delivery is immediate, whereas some rats may show exclusive preference for the small reinforcer [SR] when a delay on the LR is imposed). We utilized a variant of a concurrent-chains procedure in which rats (n = 8) could not show exclusive preference for either reinforcer, thus allowing one to observe increases/decreases in responding at each delay. The NMDAr antagonists MK-801 (0, 0.003, 0.01, 0.03 mg/kg), ketamine (0, 1.0, 5.0, 10.0 mg/kg), and memantine (0, 2.5, 5.0, 7.5 mg/kg) were administered following baseline training because this receptor has recently been implicated in DD. MK-801 (0.03 mg/kg) decreased SRM and SDR. Memantine (7.5 mg/kg) decreased SRM only. These results show that this variant of the concurrent-chains procedure can be used to study the effects of pharmacological manipulations on distinct aspects of DD. [ABSTRACT FROM AUTHOR]

Published

2018

24. Glucocorticoid receptors in the basolateral amygdala mediated the restraint stress-induced reinstatement of methamphetamine-seeking behaviors in rats.

Author

Taslimi, Zahra, Sarihi, Abdolrahman, and Haghparast, Abbas

Subjects

*GLUCOCORTICOID receptors, *METHAMPHETAMINE, *DRUG addiction, *AMYGDALOID body, *PSYCHOLOGICAL stress, *LABORATORY rats, *PSYCHOLOGY

Abstract

Methamphetamine (METH) addiction is a growing epidemic worldwide. It is a common psychiatric disease and stress has an important role in the drug seeking and relapse behaviors. The involvement of the basolateral amygdala (BLA) in effects of stress on the reward pathway has been discussed in several studies. In this study, we tried to find out the involvement of glucocorticoid receptors (GRs) in the BLA in stress-induced reinstatement of the extinguished METH-induced conditioned place preference (CPP) in rats. The CPP paradigm was done in eighty-one adult male Wistar rats weighing 220–250 g. The animals received a daily injection of methamphetamine (0.5 mg/kg), during the conditioning phase. In extinction phase, the rats were put in the CPP box for 30 min per day for 8 days. After the extinction, the animals were exposed to acute restraint stress (ARS), 3 h before subcutaneous administration of sub-threshold dose of methamphetamine (0.125 mg/kg), based on our previous study, in reinstatement phase. In separated groups, the rats were exposed to chronic restraint stress (CRS) for 1 h each day during the extinction phase. To block the GRs in BLA, the animals unilaterally received RU38486 as GRs antagonist (10, 30 and 90 ng/0.3 μl DMSO) in all ARS groups on reinstatement day. In separated experiments, RU38486 (3, 10 and 30 ng/0.3 μl DMSO) was microinjected into the BLA in CRS groups prior to exposure to stress every day in extinction phase. The results revealed that intra-BLA RU38486 in ARS (90 ng) and CRS (10 and 30 ng) groups significantly prevented the stress-induced reinstatement. It can be proposed that stress partially exerts its effect on the reward pathway via GRs in the BLA. This effect was not quite similar in acute and chronic stress conditions. [ABSTRACT FROM AUTHOR]

Published

2018

25. Effects of the NMDA receptor antagonists dizocilpine and Ro 63-1908 on delay-discounting and risky decision-making in a gambling task.

Author

Higgins, Guy A., Silenieks, Leo B., MacMillan, Cam, Zeeb, Fiona D., and Thevarkunnel, Sandy

Subjects

*METHYL aspartate receptors, *DIZOCILPINE, *GAMBLING & psychology, *IMPULSE (Psychology), *DECISION making

Abstract

Previous studies demonstrated that NMDA receptor antagonists such as dizocilpine (MK801) and the GluN2B NMDA antagonist Ro 63–1908 promote impulsive action (motor impulsivity). The effects of these treatments on impulsive choice and decision-making is less well characterized. Two experiments were undertaken. In the first experiment, given evidence for delay order as a factor in choice selection, the effect of dizocilpine was examined in a delay discounting task with separate groups of male Long-Evans rats trained to a schedule of either ascending (i.e. 0–40 s), or descending delays (i.e. 40–0 s). Under the ascending-delay schedule, dizocilpine (0.03–0.06 mg/kg SC) reduced discounting, yet on the descending-delay schedule discounting was increased. Subgrouping rats according to discounting rate under vehicle pretreatment were consistent with a treatment-induced choice perseveration. In a second experiment, male Long-Evans rats were trained to a gambling task (rGT). Neither dizocilpine (0.01–0.06 mg/kg SC) nor Ro 63–1908 (0.1–1 mg/kg SC) shifted choice from the advantageous to the disadvantageous options. However dizocilpine, and marginally Ro 63–1908, increased choice of the least risky, but suboptimal option. This effect was most evident in rats that initially preferred the disadvantageous options. Consistent with previous studies, both treatments increased measures of motor impulsivity. These results demonstrate that dizocilpine has effects on discounting dependent on delay order and likely reflective of perseveration. On the rGT task, neither dizocilpine nor Ro 63–1908 promoted risky choice, yet both NMDA receptor antagonists increased impulsive action. [ABSTRACT FROM AUTHOR]

Published

2018

26. Role of angiotensin system modulation on progression of cognitive impairment and brain MRI changes in aged hypertensive animals – A randomized double- blind pre-clinical study.

Author

Ahmed, Heba A., Ishrat, Tauheed, Pillai, Bindu, Bunting, Kristopher M., Patel, Ashni, Vazdarjanova, Almira, Waller, Jennifer L., Arbab, Ali S., Ergul, Adviye, and Fagan, Susan C.

Subjects

*RENIN-angiotensin system, *MILD cognitive impairment, *DISEASE progression, *MAGNETIC resonance imaging of the brain, *HYPERTENSION, *ANIMAL models in research

Abstract

Growing evidence suggests that renin angiotensin system (RAS) modulators support cognitive function in various animal models. However, little is known about their long-term effects on the brain structure in aged hypertensive animals with chronic cerebral hypoperfusion as well as which specific domains of cognition are most affected. Therefore, in the current study we examined the effects of Candesartan and Compound 21 (C21) (RAS modulators) on aspects of cognition known to diminish with advanced age and accelerate with hypertension and vascular disease. Outcome measures for sensorimotor and cognitive function were performed using a sequence of tests, all blindly conducted and assessed at baseline and after 4 and 8 weeks of chronic hypoxic hypoperfusion and treatment. Magnetic resonance imaging (MRI) was performed at the end of the 8 week study period followed by animal sacrifice and tissue collection. Both Candesartan and C21 effectively preserved cognitive function and prevented progression of vascular cognitive impairment (VCI) but only candesartan prevented loss of brain volume in aged hypertensive animals. Collectively, our findings demonstrate that delayed administration of RAS modulators effectively preserve cognitive function and prevent the development / progression of VCI in aged hypertensive animals with chronic cerebral hypoperfusion. [ABSTRACT FROM AUTHOR]

Published

2018

27. The role of intraamygdaloid neurotensin and dopamine interaction in conditioned place preference.

Author

László, K., Péczely, L., Kovács, A., Zagoracz, O., Ollmann, T., Kertes, E., Kállai, V., Csetényi, B., Karádi, Z., and Lénárd, L.

Subjects

*NEUROTENSIN, *AMYGDALOID body, *DOPAMINE receptors, *CLASSICAL conditioning, *ANIMAL psychology

Abstract

Tridecapeptide Neurotensin (NT) is widely distributed in the central nervous system where it acts as a neurotransmitter and neuromodulator. The central nucleus of amygdala (CeA), part of the limbic system, plays an important role in learning, memory, anxiety and reinforcing mechanisms. Our previous data showed that NT microinjected into the CeA has positive reinforcing properties. We supposed that these effects might be due to modulations of the mesolimbic dopamine system. The aim of our study was to examine in the CeA the possible effects of NT and dopamine interaction on reinforcement by conditioned place preference test. Male Wistar rats were microinjected bilaterally with 100 ng NT or 2 μg D1 dopamine receptor antagonist alone, or D1 dopamine antagonist 15 min before 100 ng NT treatment or vehicle solution into the CeA. Other animals received 4 μg D2 dopamine receptor antagonist Sulpiride alone, or administration of D2 dopamine receptor antagonist 15 min before 100 ng NT treatment or vehicle solution into the CeA. Rats that received 100 ng NT spent significantly more time in the treatment quadrant during the test session. Pre-treatment with the D1 dopamine antagonist, blocked the effects of NT. D2 dopamine receptor antagonist pretreatment could prevent the positive reinforcing effects of NT as well. Antagonists themselves did not influence the place preference. Our results show that the rewarding effect of NT can be due to the modulation of DA system, since its effects could be blocked by either D1 dopamine or D2 dopamine antagonist preteatment. [ABSTRACT FROM AUTHOR]

Published

2018

28. Development of novel tasks for studying view-invariant object recognition in rodents: Sensitivity to scopolamine.

Author

Mitchnick, Krista A., Wideman, Cassidy E., Huff, Andrew E., Palmer, Daniel, McNaughton, Bruce L., and Winters, Boyer D.

Subjects

*RECOGNITION (Psychology), *DIFFERENTIATION (Cognition), *SCOPOLAMINE, *NEUROBIOLOGY, *RODENT behavior

Abstract

The capacity to recognize objects from different view-points or angles, referred to as view-invariance, is an essential process that humans engage in daily. Currently, the ability to investigate the neurobiological underpinnings of this phenomenon is limited, as few ethologically valid view-invariant object recognition tasks exist for rodents. Here, we report two complementary, novel view-invariant object recognition tasks in which rodents physically interact with three-dimensional objects. Prior to experimentation, rats and mice were given extensive experience with a set of ‘pre-exposure’ objects. In a variant of the spontaneous object recognition task, novelty preference for pre-exposed or new objects was assessed at various angles of rotation (45°, 90° or 180°); unlike control rodents, for whom the objects were novel, rats and mice tested with pre-exposed objects did not discriminate between rotated and un-rotated objects in the choice phase, indicating substantial view-invariant object recognition. Secondly, using automated operant touchscreen chambers, rats were tested on pre-exposed or novel objects in a pairwise discrimination task, where the rewarded stimulus (S+) was rotated (180°) once rats had reached acquisition criterion; rats tested with pre-exposed objects re-acquired the pairwise discrimination following S+ rotation more effectively than those tested with new objects. Systemic scopolamine impaired performance on both tasks, suggesting involvement of acetylcholine at muscarinic receptors in view-invariant object processing. These tasks present novel means of studying the behavioral and neural bases of view-invariant object recognition in rodents. [ABSTRACT FROM AUTHOR]

Published

2018

29. Destruction of noradrenergic terminals increases dopamine concentration and reduces dopamine metabolism in the medial prefrontal cortex.

Author

Gálosi, Rita, Petykó, Zoltán, Kállai, Veronika, Tóth, Attila, Ollmann, Tamás, Péczely, László, Kovács, Anita, Berta, Beáta, and Lénárd, László

Subjects

*NORADRENERGIC mechanisms, *DOPAMINE, *METABOLISM, *PREFRONTAL cortex, *MICRODIALYSIS

Abstract

Effects of destroyed noradrenergic (NE) innervation in the medial prefrontal cortex (mPFC) were examined on dopamine (DA) content and metabolism. Six-hydroxy-DOPA (6-OHDOPA) or 6-hydroxy-dopamine (6-OHDA) in combination with a potent DA reuptake inhibitor GBR 12935 or 6-OHDA were injected bilaterally into the mPFC in separate groups of animals. In addition, GBR 12935 or vehicle was injected into the mPFC in two other groups of animals as control experiments. NE and DA concentrations from postmortem tissue of the mPFC were measured using HPLC with electrochemical detection. In addition, extracellular NE, DA and DOPAC levels were determined using in vivo microdialysis after the 6-OHDA lesion in combination with GBR 12935 pretreatment in the mPFC. Using reverse microdialysis of alpha-2-adrenoreceptor antagonist yohimbine, we tested the remaining activity of NE innervation and the extracellular concentration of DA and DOPAC. NE and DA concentrations from postmortem tissue of the mPFC showed that 6-OHDOPA lesion reduced NE concentration to 76%, which was a non-significant alteration, however it enhanced significantly DA concentration to 186% compared to vehicle. After 6-OHDA lesion with GBR 12935 pretreatment, concentration of NE significantly decreased to 51% and DA level increased to 180%. 6-OHDA lesion without GBR 12635 pretreatment decreased NE concentration to 23% and DA concentration to 67%. In the microdialysis experiment, after 6-OHDA lesion with GBR 12935 pretreatment, extracellular NE levels were not detectable, whereas extracellular DA levels were increased and DOPAC levels were decreased compared to controls. Reverse microdialysis of yohimbine demonstrated that the residual NE innervation was able to increase NE level and DA levels, but DOPAC concentration remained low after lesion of the NE terminals. These findings suggest that the damage of NE innervation in the mPFC may alter extracellular DA level due to a reduced DA clearance. [ABSTRACT FROM AUTHOR]

Published

2018

30. Sex differences in rat decision-making: The confounding role of extraneous feeder sampling between trials.

Author

Donovan, Clifford H., Wong, Scott A., Randolph, Sienna H., Stark, Rachel A., Gibb, Robbin L., and Gruber, Aaron J.

Subjects

*REINFORCEMENT learning, *LABORATORY rats, *HIPPOCAMPUS (Brain), *NEUROSCIENCES, *SEXUAL dimorphism, *MAMMALS

Abstract

Although male and female rats appear to perform differently in some tasks, a clear picture of sex differences in decision-making has yet to develop. This is in part due to significant variability arising from differences in strains and tasks. The aim of this study was to characterize the effects of sex on specific response elements in a reinforcement learning task so as to help identify potential explanations for this variability. We found that the primary difference between sexes was the propensity to approach feeders out of the task context. This extraneous feeder sampling affects choice on subsequent trials in both sexes by promoting a lose-shift response away from the last feeder sampled. Female rats, however, were more likely to engage in this extraneous feeder sampling, and therefore exhibited a greater rate of this effect. Once trials following extraneous sampling were removed, there were no significant sex differences in any of the tested measures. These data suggest that feeder approach outside of the task context, which is often not recorded, could produce a confound in sex-based differences of reinforcement sensitivity in some tasks. [ABSTRACT FROM AUTHOR]

Published

2018

31. Antagonism of the D1- and D2-like dopamine receptors in the nucleus accumbens attenuates forced swim stress- and morphine priming-induced reinstatement of extinguished rats.

Author

Farzinpour, Zahra, Mousavi, Zahra, Karimi-Haghighi, Saeideh, and Haghparast, Abbas

Subjects

*DOPAMINE receptors, *DOPAMINE antagonists, *NUCLEUS accumbens, *DRUG-seeking behavior, *PHYSIOLOGICAL stress, *MORPHINE

Abstract

Dopaminergic pathways from the ventral tegmental area (VTA) to the nucleus accumbens (NAc) play a critical role in reward-related phenomena as well as in the reinstatement of drug-seeking behavior. Stress is a major trigger for inducing reinstatement, however, the interaction between stress and the dopaminergic system is not well known. The present study was undertaken to investigate the effect of D1- and D2-like dopamine receptors within the NAc in forced swim stress (FSS)- and priming-induced reinstatement of morphine-seeking behaviors. The conditioned place preference (CPP) was induced by injecting morphine (5 mg/kg, SC for 3 days) and lasted for eight days after cessation of the morphine treatment. The FSS (6 min) and effective priming dose of morphine (1 mg/kg, sc) reinstated the extinguished morphine-induced CPP. In order to investigate the effect of intra-accumbal injection of SCH23390 as a D1-like receptor antagonist, or Sulpiride as a D2-like receptor antagonist on the FSS-induced reinstatement of morphine extinguished rats, animals received bilaterally intra-NAc injection of SCH23390 or Sulpiride (0.25, 1 and 4 μg/side) before application of FSS, and then, they were tested in the reinstatement day. Our results showed that the intra-accumbal administration of D1- and D2-like receptors antagonists dose-dependently blocked the effect of FSS on the reinstatement and significantly modulated morphine priming-induced reinstatement as well. These findings suggested that the D1- and D2-like dopamine receptors in the NAc involve in morphine-seeking behaviors and antagonism of these receptors can reduce the effect of stress on rewarding properties of morphine. [ABSTRACT FROM AUTHOR]

Published

2018

32. Ventral tegmental area D2 receptor knockdown enhances choice impulsivity in a delay-discounting task in rats.

Author

Bernosky-Smith, Kimberly A., Qiu, Yan-Yan, Feja, Malte, Lee, Yun Beom, Loughlin, Brian, Li, Jun-Xu, and Bass, Caroline E.

Subjects

*DOPAMINE receptors, *IMPULSE control disorders, *CHOICE (Psychology), *REWARD (Psychology), *DELAY discounting (Psychology), *NON-coding RNA, *ADENO-associated virus

Abstract

Impulsivity associated with abnormal dopamine (DA) function has been observed in several disorders, including addiction. Choice impulsivity is the preference for small, immediate rewards over larger rewards after a delay, caused by excessive discounting of future rewards. Addicts have abnormally high discount rates and prefer the smaller rewards sooner. While impulsivity has been inversely correlated with DA D2 receptor (D2R) availability in the midbrain and striatum, it is difficult to mechanistically link the two, due to the diverse neuroanatomical localization of D2Rs, which are found throughout the brain, in many types of neurons and neuronal subcompartments. To determine if ventral tegmental area (VTA) D2R hypofunction is linked to impulsivity, we knocked down D2 receptors from the VTA, using an adeno-associated viral (AAV) vector that delivers short hairpin RNAs (shRNA) targeted against the D2R. The D2R knockdown is restricted to neurons whose cell bodies reside in the VTA, leaving postsynaptic D2Rs intact in the striatum, prefrontal cortex, and other mesocorticolimbic structures. Rats were trained in a delay-discounting task to assess impulsive choice until a stable discounting curve was obtained, and then received bilateral VTA infusions of the D2R shRNA or a scrambled control virus. Over the next six weeks, the discounting curve of the VTA D2R knockdown rats shifted to the left, indicating a preference for the smaller, immediate reward, whereas the curve for control rats remained stable and unchanged. Together these results demonstrate that a decrease in VTA D2Rs enhances choice impulsivity. [ABSTRACT FROM AUTHOR]

Published

2018

33. Chronic post-traumatic stress disorder-related traits in a rat model of low-level blast exposure.

Author

Perez-Garcia, Georgina, Gama Sosa, Miguel A., De Gasperi, Rita, Lashof-Sullivan, Margaret, Maudlin-Jeronimo, Eric, Stone, James R., Haghighi, Fatemeh, Ahlers, Stephen T., and Elder, Gregory A.

Subjects

*POST-traumatic stress disorder, *BLAST injuries, *CHRONIC diseases, *POSTCONCUSSION syndrome, *LABORATORY rats

Abstract

The postconcussion syndrome following mild traumatic brain injuries (mTBI) has been regarded as a mostly benign syndrome that typically resolves in the immediate months following injury. However, in some individuals, symptoms become chronic and persistent. This has been a striking feature of the mostly blast-related mTBIs that have been seen in veterans returning from the recent conflicts in Iraq and Afghanistan. In these veterans a chronic syndrome with features of both the postconcussion syndrome and post-traumatic stress disorder has been prominent. Animal modeling of blast-related TBI has developed rapidly over the last decade leading to advances in the understanding of blast pathophysiology. However, most studies have focused on acute to subacute effects of blast on the nervous system and have typically studied higher intensity blast exposures with energies more comparable to that involved in human moderate to severe TBI. Fewer animal studies have addressed the chronic effects of lower level blast exposures that are more comparable to those involved in human mTBI or subclinical blast. Here we describe a rat model of repetitive low-level blast exposure that induces a variety of anxiety and PTSD-related behavioral traits including exaggerated fear responses that were present when animals were tested between 28 and 35 weeks after the last blast exposure. These animals provide a model to study the chronic and persistent behavioral effects of blast including the relationship of PTSD to mTBI in dual diagnosis veterans. [ABSTRACT FROM AUTHOR]

Published

2018

34. Characterization of oromotor and limb motor dysfunction in the DJ1 -/- model of Parkinson disease.

Author

Yang, Katie M., Ciucci, Michelle R., Blue, Katherine V., Mulholland, Haleigh M., Kurup, Meghna P., and Kelm-Nelson, Cynthia A.

Subjects

*MOVEMENT disorders, *PARKINSON'S disease, *TONGUE, *PERCEPTUAL disorders, *TYROSINE hydroxylase

Abstract

Parkinson disease (PD) is devastating to sensorimotor function that includes cranial/oromotor and limb motor deficits. However, the onset, progression, and neural correlates of PD-related dysfunctions are poorly understood. To address this gap, we used a genetic rat model of PD, DJ1 -/-, and hypothesized that motor deficits would manifest early in the disease process, be progressive in nature, and be related to pathologies in brainstem structures associated with sensorimotor function. The present study compares homozygous DJ1 -/- male rats to age-matched wild type controls. Progressive cranial sensorimotor function (ultrasonic vocalizations and tongue motor performance) and limb motor function (tapered balance beam) was analyzed at 2, 4, 6, and 8 months of age. Additionally, tyrosine hydroxylase cell counts were performed in the locus coeruleus and correlated to behavioral measures. We found that compared to wild type controls, DJ1 -/- show deficits in ultrasonic vocalizations as well as oromotor (tongue) deficits that were progressive. Overtime, DJ1 -/- rats cross a tapered balance beam with significantly decreased speed of traversal. Additionally, in the DJ1 -/-, tyrosine hydroxylase positive cells in the locus coeruleus are significantly reduced and are negatively correlated to oromotor behaviors. Characterizing the DJ1 -/- model of PD provides important foundational work necessary to define behavioral and early-onset biomarkers that parallels early-stage PD pathology in humans. [ABSTRACT FROM AUTHOR]

Published

2018

35. Lesions within the head direction system reduce retrosplenial c-fos expression but do not impair performance on a radial-arm maze task.

Author

Vann, Seralynne D.

Subjects

*PROTO-oncogenes, *GENE expression, *MAZE tests, *CELL nuclei, *NEUROTOXICOLOGY, *SHORT-term memory, *TISSUE wounds

Abstract

The lateral mammillary nuclei are a central structure within the head direction system yet there is still relatively little known about how these nuclei contribute to spatial performance. In the present study, rats with selective neurotoxic lesions of the lateral mammillary nuclei were tested on a working memory task in a radial-arm maze. This task requires animals to distinguish between eight radially-oriented arms and remember which arms they have entered within a session. Even though it might have been predicted that this task would heavily tax the head direction system, the lesion rats performed equivalently to their surgical controls on this task; no deficit emerged even when the task was made more difficult by rotating the maze mid-way through testing in order to reduce reliance on intramaze cues. Rats were subsequently tested in the dark to increase the use of internally generated direction cues but the lesion rats remained unimpaired. In contrast, the lateral mammillary nuclei lesions were found to decrease retrosplenial c-Fos levels. These results would suggest that the head direction system is not required for the acquisition of the standard radial-arm maze task. It would also suggest that small decreases in retrosplenial c-Fos are not sufficient to produce behavioural impairments. [ABSTRACT FROM AUTHOR]

Published

2018

36. Directional hippocampal-prefrontal interactions during working memory.

Author

Liu, Tiaotiao, Bai, Wenwen, Xia, Mi, and Tian, Xin

Subjects

*SHORT-term memory, *HIPPOCAMPUS (Brain), *COGNITIVE ability, *PREFRONTAL cortex, *EVOKED potentials (Electrophysiology)

Abstract

Working memory refers to a system that is essential for performing complex cognitive tasks such as reasoning, comprehension and learning. Evidence shows that hippocampus (HPC) and prefrontal cortex (PFC) play important roles in working memory. The HPC-PFC interaction via theta-band oscillatory synchronization is critical for successful execution of working memory. However, whether one brain region is leading or lagging relative to another is still unclear. Therefore, in the present study, we simultaneously recorded local field potentials (LFPs) from rat ventral hippocampus (vHPC) and medial prefrontal cortex (mPFC) and while the rats performed a Y-maze working memory task. We then applied instantaneous amplitudes cross-correlation method to calculate the time lag between PFC and vHPC to explore the functional dynamics of the HPC-PFC interaction. Our results showed a strong lead from vHPC to mPFC preceded an animal’s correct choice during the working memory task. These findings suggest the vHPC-leading interaction contributes to the successful execution of working memory. [ABSTRACT FROM AUTHOR]

Published

2018

37. The effects of betulinic acid on neurobehavioral activity, electrophysiology and histological changes in an animal model of the Alzheimer’s disease.

Author

Navabi, Seyedeh Parisa, Sarkaki, Alireza, Mansouri, Esrafil, Badavi, Mohammad, Ghadiri, Ata, and Farbood, Yaghoob

Subjects

*BETULIN, *NEUROBEHAVIORAL disorders, *ELECTROPHYSIOLOGY, *ALZHEIMER'S disease, *AMYLOID beta-protein

Abstract

Alzheimer's disease (AD) is a common disorder characterized by aggregation and conversion of amyloid beta (Aβ) monomers to fibrils. Betulinic acid (BA) strongly accelerated this pathway through circumventing the oligomeric intermediate state. BA at doses of 0.2 and 0.4 μM/10 μl/rat (intra-hippocampal or i.h injection, vehicle: DMSO) was bilaterally administrated 180 and 10 min before co-administration of Aβ (0.1 μM/5 μl/rat, i.h injection, vehicle: PBS) and Streptozotocin (STZ, 1.5 mg/kg/10 μl/rat, intracerebroventricular or i.c.v. injection, vehicle: aCSF). The behavioral assessments (spatial and passive avoidance memory, anxiety, locomotion, depression, and motor coordination), electrophysiological evaluations (hippocampal long- term potentiation (LTP)) as well as histological changes were evaluated 30 days after injections. The indices of spatial and passive avoidance memory, anxiety/depression and LTP records were significantly impaired in AD rats in comparison with the sham. Pretreatment of BA (0.4 μM) showed a more significant effect on memory, anxiety, all LTP parameters, and histological damage compared to a low dose in contrast to the AD group. Overall, BA pretreatment was able to prevent AD-induced neurobehavioral and LTP deficits in rats and the best effect was observed in molar ratio of 1:4 (Aβ to BA). [ABSTRACT FROM AUTHOR]

Published

2018

38. Involvement of cannabinoid system in the nucleus accumbens on delay-based decision making in the rat.

Author

Fatahi, Zahra, Sadeghi, Bahman, and Haghparast, Abbas

Subjects

*CANNABINOIDS, *NUCLEUS accumbens, *NARCOTIC agonists, *SHORT-term memory, *MILD cognitive impairment

Abstract

The nucleus accumbens (NAc) plays a fundamental role in decision making and anticipation of reward. In addition, exogenous cannabinoids affect the behavior of humans and animals including disruption of short-term memory and cognitive impairments. Therefore, in this study, cannabinoid agonist and antagonist were administrated into the NAc to determine the effect of cannabinoid activation in the entire NAc on delay-based decision making. Rats were trained on a cost-benefit T-maze decision making task in which the animals were well-trained to choose between a small/immediate reward and a large/delay reward. After training, the animals were implanted with guide cannulae in the NAc. On test day, they received cannabinoid agonist (Win 55,212-2; 10, 50 and 100 μM) and/or antagonist (AM251; 45 μM) into the NAc. Percentage of high reward choice and latency of reward achievement were evaluated. Results showed that cannabinoid agonist administration caused a decrease in high reward choice such that rats selected small/immediate reward instead of large/delay reward. Moreover, in agonist-treated animals latency of reward achievement increased. Effects of cannabinoid activation on delay-based decision making with equivalent delays demonstrated that if the delay was equated on both arm goals, animals still had a preference for the high/delay reward, showing the results was not caused by an impairment of spatial preference or memory. These finding clarified that cannabinoid system activation in the entire NAc plays a critical role in the regulation of delay-based decision making. [ABSTRACT FROM AUTHOR]

Published

2018

39. High dose administration of DREADD agonist JHU37160 produces increases in anxiety-like behavior in male rats.

Author

Van Savage, Jacqueline and Avegno, Elizabeth M.

Subjects

*ANXIETY, *RATS, *LABORATORY rats, *DESIGNER drugs, *NEURAL circuitry

Abstract

Designer receptors exclusively activated by designer drugs (DREADDs) are a promising tool for analyzing neural circuitry, and improved DREADD-selective ligands continue to be developed. Relative to clozapine-N-oxide (CNO), JHU37160 is a selective DREADD agonist recently shown to exhibit higher blood brain barrier penetrance and DREADD selectivity in vivo ; however, relatively few studies have characterized the behavioral effects of systemic JHU37160 administration in animals. Here, we report a dose-dependent anxiogenic effect of systemic JHU37160 in male Wistar and Long-Evans rats, regardless of DREADD expression, with no impact on locomotor behavior. These results suggest that high dose (1 mg/kg) JHU37160 should be avoided when performing chemogenetic experiments designed to evaluate circuit manipulation on anxiety-like behavior in rats. • JHU37160 produces anxiogenic effects in male rats, regardless of DREADD expression. • JHU37160 increases Fos expression in brain of otherwise experimentally naïve rats. • Systemic JHU37160 administration does not alter locomotor activity in male rats. [ABSTRACT FROM AUTHOR]

Published

2023

40. Testosterone ameliorated the behavioural deficits of gonadectomised rats and counteracted free radicals in a dosage-dependent manner.

Author

Kang, Jie, Yan, Jixing, and Yan, Wensheng

Subjects

*LIPID peroxidation (Biology), *FREE radicals, *TESTOSTERONE, *RATS, *OXIDATIVE stress, *SUBSTANTIA nigra

Abstract

Testosterone deficiency may induce behavioural changes in individuals. Oxidative stress resulting from a redox imbalance may be implicated in the initiation and progression of neurobehavioural disorders. However, whether exogenous testosterone intervention in male gonadectomised (GDX) rats ameliorates oxidative stress and plays a neuroprotective role remains unknown. Therefore, we examined this hypothesis by performing sham or gonadectomy surgeries on Sprague–Dawley rats with or without supplementation with different doses of testosterone propionate (TP). Open field and Morris water maze tests were performed, the serum and brain testosterone levels, and oxidative stress markers were analysed. GDX and lower TP doses (0.5 mg/kg) induced reduced exploratory and motor behaviours, but impaired spatial learning and memory compared to Sham rats. Administration of physiological TP levels (0.75–1.25 mg/kg) to the GDX rats restored the behaviour observed in the intact rats. However, higher TP doses (1.5–3.0 mg/kg) induced increased exploratory and motor behaviours but impaired spatial learning and memory. These behavioural impairments were accompanied by a marked decrease in levels of antioxidant enzymes (superoxide dismutase and catalase) and an increase in lipid peroxidation levels in the substantia nigra and hippocampus. These findings indicate that TP administration can alter behavioural performance and induce memory and learning impairment, which may result from changes in redox homeostasis in male GDX animals. • Testosterone ameliorates behavioural deficits in a dosage-dependent manner. • Lower and higher testosterone doses have a negative impact on memory and learning. • Testosterone ameliorates oxidative stress parameters in a dose-dependent manner. [ABSTRACT FROM AUTHOR]

Published

2023

41. Dual orexin/hypocretin receptor antagonism attenuates NMDA receptor hypofunction-induced attentional impairments in a rat model of schizophrenia.

Author

Maness, Eden B., Blumenthal, Sarah A., and Burk, Joshua A.

Subjects

*METHYL aspartate receptors, *ANIMAL disease models, *SCHIZOPHRENIA, *INTRAPERITONEAL injections, *TASK performance

Abstract

Schizophrenia is a neuropsychiatric condition that is associated with impaired attentional processing and performance. Failure to support increasing attentional load may result, in part, from inhibitory failure in attention-relevant cortical regions, and available antipsychotics often fail to address this issue. Orexin/hypocretin receptors are found throughout the brain and are expressed on neurons relevant to both attention and schizophrenia, highlighting them as a potential target to treat schizophrenia-associated attentional dysfunction. In the present experiment, rats (N = 14) trained in a visual sustained attention task that required discrimination of trials which presented a visual signal from trials during which no signal was presented. Once trained, rats were then co-administered the psychotomimetic N-methyl- D -aspartate (NMDA) receptor antagonist dizocilpine (MK-801: 0 or 0.1 mg/kg, intraperitoneal injections) and the dual orexin receptor antagonist filorexant (MK-6096: 0, 0.1, or 1 mM, intracerebroventricular infusions) prior to task performance across six sessions. Dizocilpine impaired overall accuracy during signal trials, slowed reaction times for correctly-responded trials, and increased the number of omitted trials throughout the task. Dizocilpine-induced increases in signal trial deficits, correct response latencies, and errors of omission were reduced following infusions of the 0.1 mM, but not 1 mM, dose of filorexant. As such, orexin receptor blockade may improve attentional deficits in a state of NMDA receptor hypofunction. • Schizophrenia is associated with attentional deficits caused by excitatory-inhibitory imbalances in the cortex. • Emergent research is elucidating the antipsychotic potential of orexin receptor antagonists. • The dual orexin receptor antagonist filorexant alleviated attentional impairments in a rodent model of schizophrenia. [ABSTRACT FROM AUTHOR]

Published

2023

42. Evaluations of memory, anxiety, and the growth factor IGF-1R after post-surgical menopause treatment with a highly selective progestin.

Author

Bernaud, Victoria E., Koebele, Stephanie V., Northup-Smith, Steven N., Willeman, Mari N., Barker, Charlotte, Schatzki-Lumpkin, Alex, Sanchez, Maria Valenzuela, and Bimonte-Nelson, Heather A.

Subjects

*SHORT-term memory, *COGNITIVE ability, *SPATIAL memory, *MEMORY, *ENTORHINAL cortex

Abstract

Progestogens are a key component of menopausal hormone therapies. While some progestogens can be detrimental to cognition, there is preclinical evidence that progestogens with a strong progesterone-receptor affinity benefit some molecular mechanisms believed to underlie cognitive function. Thus, a progestin that maximizes progesterone-receptor affinity and minimizes affinities to other receptors may be cognitively beneficial. We evaluated segesterone-acetate (SGA), a 19-norprogesterone derivative with a strong progesterone-receptor affinity and no androgenic or estrogenic-receptor activity, hypothesizing that it would enhance cognition. Middle-aged rats underwent Sham or Ovariectomy (Ovx) surgery followed by administration of medroxyprogesterone-acetate (MPA; used as a positive control as we have previously shown MPA-induced cognitive deficits), SGA (low or high dose), or vehicle (one Sham and one Ovx group). Spatial working and reference memory, delayed retention, and anxiety-like behavior were assessed, as were memory- and hormone- related protein assays within the frontal cortex, dorsal hippocampus, and entorhinal cortex. Low-dose SGA impaired spatial working memory, while high-dose SGA had a more extensive detrimental impact, negatively affecting spatial reference memory and delayed retention. Replicating previous findings, MPA impaired spatial reference memory and delayed retention. SGA, but not MPA, alleviated Ovx-induced anxiety-like behaviors. On two working memory measures, IGF-1R expression correlated with better working memory only in rats without hormone manipulation; any hormone manipulation or combination of hormone manipulations used herein altered this relationship. These findings suggest that SGA impairs spatial cognition after surgical menopause, and that surgical menopause with or without progestin administration disrupts relationships between a growth factor critical to neuroplasticity. ● Progestins, used in menopausal hormone therapies, can impact the brain, cognition, and anxiety. ● Progestins with a strong progesterone receptor (PR) affinity have benefitted molecular mechanisms related to cognition. ● Segesterone acetate, a progestin with a strong PR affinity, impaired memory and improved anxiety profiles in a rat menopause model. ● Brain tissue assays revealed higher IGF-1R expression correlated with better working memory only in rats without hormone manipulation. [ABSTRACT FROM AUTHOR]

Published

2023

43. The trait ‘pessimism’ does not interact with cognitive flexibility but makes rats more vulnerable to stress-induced motivational deficits: Results from the attentional set-shifting task.

Author

Drozd, Robert, Rojek-Sito, Karolina, and Rygula, Rafal

Subjects

*PESSIMISM, *OPTIMISM, *IMMOBILIZATION stress, *ANIMAL psychology testing, *PREFRONTAL cortex, *LABORATORY rats, *PSYCHOLOGY

Abstract

In the present study, we have investigated the effects of the traits ‘optimism’ and ‘pessimism’ on cognitive flexibility in an animal model of depression based on chronic restraint stress. For this, first, we trained and tested the rats in a series of ambiguous-cue interpretation (ACI) tests, which allowed us to classify them as ‘optimistic’ or ‘pessimistic’. Subsequently, we re-trained and re-tested the animals in the Attentional Set Shifting Task (ASST), which allowed evaluation of the differences between ‘optimists’ and ‘pessimists’ in terms of cognitive flexibility. Finally, we subjected half of the ‘optimistic’ and half of the ‘pessimistic’ rats to chronic (2 weeks) restraint stress and assessed the interaction between cognitive judgement bias and stress in the ASST. Although we did not observe statistically significant effects of the investigated traits and stress on cognitive flexibility, the ‘pessimistic' animals subjected to chronic restraint stress showed significantly longer latencies to approach experimental rewards than their ‘optimistic' conspecifics. This effect may indicate a stress-induced motivational deficit that is specific to ‘pessimistic' animals. The results of the present study, along with our previous reports, indicate that the trait ‘pessimism’ determines animals’ vulnerability to stress. [ABSTRACT FROM AUTHOR]

Published

2017

44. Dynamic feet distance: A new functional assessment during treadmill locomotion in normal and thoracic spinal cord injured rats.

Author

Diogo, Camila Cardoso, Costa, Luís Maltez Da, Pereira, José Eduardo, Filipe, Vítor, Couto, Pedro Alexandre, Magalhães, Luís G., Geuna, Stefano, Armada-Da-Silva, Paulo A., Maurício, Ana Colette, and Varejão, Artur Severo

Subjects

*SPINAL cord injuries, *TREADMILL exercise tests, *SENSORIMOTOR cortex, *POSTOPERATIVE care of animals, *LABORATORY rats, *PHYSIOLOGY, *THERAPEUTICS, GAIT disorder treatment

Abstract

Of all the detrimental effects of spinal cord injury (SCI), one of the most devastating is the disruption of the ability to perform functional movement. Very little is known on the recovery of hindlimb joint kinematics after clinically-relevant contusive thoracic lesion in experimental animal models. A new functional assessment instrument, the dynamic feet distance (DFD) was used to describe the distance between the two feet throughout the gait cycle in normal and affected rodents. The purpose of this investigation was the evaluation and characterization of the DFD during treadmill locomotion in normal and T9 contusion injured rats, using three-dimensional (3D) instrumented gait analysis. Despite that normal and injured rats showed a similar pattern in the fifth metatarsal head joints distance excursion, we found a significantly wider distance between the feet during the entire gait cycle following spinal injury. This is the first study to quantify the distance between the two feet, throughout the gait cycle, and the biomechanical adjustments made between limbs in laboratory rodents after nervous system injury. [ABSTRACT FROM AUTHOR]

Published

2017

45. Effect of acute and subchronic stress on electrical activity of basolateral amygdala neurons in conditioned place preference paradigm: An electrophysiological study.

Author

Fatahi, Zahra, Zibaii, Mohammad Ismail, and Haghparast, Abbas

Subjects

*NEURAL circuitry, *ACUTE stress disorder, *AMYGDALOID body, *GLUCOCORTICOIDS, *NUCLEUS accumbens

Abstract

The basolateral amygdala (BLA) plays a critical role in the neural circuitry of stress and mediates the effects of stress on memory related processes. Moreover, this area has an important role in drug-seeking and relapse of approach behavior to drug-associated cues. Therefore, in the present study, we aimed to investigate the effects of acute and subchronic stress in saline- and/or morphine-treated rats in conditioned place preference paradigm on the neural activity in the BLA. Male Wistar rats were divided into two saline- and morphine-treated supergroups. Each supergroup contained control, acute stress (AS) and subchronic stress (SS) groups. In all of the groups, conditioned place preference paradigm was done and thereinafter the spontaneous firing activity was recorded by in vivo single unit recording for 20 min. Results showed that in saline-and/or morphine-treated animals, both AS and SS increased neural activity of projection neurons and this increase in morphine-treated animals was more considerable than that of saline-treated animals. Besides, firing rate of interneurons in both supergroups decreased during AS and SS. Decrease of interneurons activity after application of SS in morphine-treated animals was more than that of saline-treated animals. These finding revealed that both of AS and SS increased firing rate of projection neurons but decreased neural activity of interneurons in the BLA. However, effect of AS and SS on the firing rate of BLA neurons in morphine-treated animals was more remarkable than that of saline-treated animals. [ABSTRACT FROM AUTHOR]

Published

2017

46. Pavlovian influences on learning differ between rats and mice in a counter-balanced Go/NoGo judgement bias task.

Author

Jones, Samantha, Paul, Elizabeth S., Dayan, Peter, Robinson, Emma S.J., and Mendl, Michael

Subjects

*CLASSICAL conditioning, *JUDGMENT (Psychology), *LEARNING ability, *TASK performance, *STIMULUS & response (Psychology), *ANIMAL models in research

Abstract

Judgement bias tests of animal affect and hence welfare assume that the animal’s responses to ambiguous stimuli, which may herald positive or negative outcomes, are under instrumental control and reflect ‘optimism’ or ‘pessimism’ about what will happen. However, Pavlovian control favours responses (e.g. approach or withdrawal) according to the valence associated with a stimulus, rather than the anticipated response outcomes. Typically, positive contexts promote action and approach whilst negative contexts promote inhibition or withdrawal. The prevalence of Go-for-reward ( Go-pos ) and NoGo-to-avoid-punishment ( NoGo-neg ) judgement bias tasks reflects this Pavlovian influence. A Pavlovian increase or decrease in activity or vigour has also been argued to accompany positive or negative affective states, and this may interfere with instrumental Go or NoGo decisions under ambiguity based on anticipated decision outcomes. One approach to these issues is to develop counter-balanced Go-pos / NoGo-neg and Go-neg / NoGo-pos tasks. Here we implement such tasks in Sprague Dawley rats and C57BL/6J mice using food and air-puff as decision outcomes. We find striking species/strain differences with rats achieving criterion performance on the Go-pos/NoGo-neg task but failing to learn the Go-neg / NoGo-pos task, in line with predictions, whilst mice do exactly the opposite. Pavlovian predispositions may thus differ between species, for example reflecting foraging and predation ecology and/or baseline activity rates. Learning failures are restricted to cues predicting a negative outcome; use of a more powerful air-puff stimulus may thus allow implementation of a fully counter-balanced task. Rats and mice achieve criterion faster than in comparable automated tasks and also show the expected generalisation of responses across ambiguous tones. A fully counter-balanced task thus offers a potentially rapidly implemented and automated method for assessing animal welfare, identifying welfare problems and areas for welfare improvement and 3Rs Refinement , and assessing the effectiveness of refinements. [ABSTRACT FROM AUTHOR]

Published

2017

47. Acute low-level alcohol consumption reduces phase locking of event-related oscillations in rodents.

Author

Amodeo, Leslie R., Wills, Derek N., and Ehlers, Cindy L.

Subjects

*ALCOHOL drinking, *ELECTROENCEPHALOGRAPHY, *PHENOTYPES, *HIPPOCAMPUS (Brain), *AMYGDALOID body

Abstract

Event-related oscillations (EROs) are rhythmic changes that are evoked by a sensory and/or cognitive stimulus that can influence the dynamics of the EEG. EROs are defined by the decomposition of the EEG signal into magnitude (energy) and phase information and can be elicited in both humans and animals. EROs have been linked to several relevant genes associated with ethanol dependence phenotypes in humans and are altered in selectively bred alcohol-preferring rats. However, pharmacological studies are only beginning to emerge investigating the impact low intoxicating doses of ethanol can have on event-related neural oscillations. The main goal of this study was to investigate the effects of low levels of voluntary consumption of ethanol, in rats, on phase locking of EROs in order to give further insight into the acute intoxicating effects of ethanol on the brain. To this end, we allow rats to self-administer unsweetened 20% ethanol over 15 intermittent sessions. This method results in a stable low-dose consumption of ethanol. Using an auditory event-related potential “oddball” paradigm, we investigated the effects of alcohol on the phase variability of EROs from electrodes implanted into the frontal cortex, dorsal hippocampus, and amygdala. We found that intermittent ethanol self-administration was sufficient to produce a significant reduction in overall intraregional synchrony across all targeted regions. These data suggest that phase locking of EROs within brain regions known to be impacted by alcohol may represent a sensitive biomarker of low levels of alcohol intoxication. [ABSTRACT FROM AUTHOR]

Published

2017

48. Effects of social deprivation on social and depressive-like behaviors and the numbers of oxytocin expressing neurons in rats.

Author

Gilles, Yaminah D. and Polston, Eva K.

Subjects

*SOCIAL isolation, *OXYTOCIN, *SPRAGUE Dawley rats, *NEURONS, *PITUITARY hormones

Abstract

Social isolation is a known stressor that negatively impacts the well-being of social species. In rodents, social deprivation experienced either before or after weaning profoundly impacts adult behavioral and neuroendocrine profiles. This study compared the effects of post-natal and post-weaning social deprivation on behavioral profiles and hypothalamic oxytocin (OT) neurons. Male and female Sprague–Dawley rats were assigned to two post-natal groups, maternally separated (MS) or non-MS. MS pups were separated from their mothers for 4 h daily during post-natal days 2–21 while non-MS litters remained undisturbed. Animals were then weaned and assigned to single or group housing conditions (SH/GH). Social behaviors were evaluated two weeks later and at 2–3 months of age, depressive-like behavioral profiles were assessed using the forced swim and sucrose preference tests. Animals were euthanized, and hypothalamic OT neurons were quantified. Post-weaning isolation significantly impacted behavioral profiles, with SH animals displaying more social behaviors than GH animals. SH animals also exhibited more immobility behavior in the forced swim test and a decreased sucrose preference. Effects of sex and MS were relatively limited. Correlation analyses revealed an inverse relationship between the display of antagonistic social behaviors and the numbers of OT cells in the anterior parvicellular division of the paraventricular nucleus (PVNap). There were no correlations between numbers of OT neurons and prosocial or depressive-like behaviors. Our results demonstrate a rapid and persistent disruption of behaviors in SH animals and suggest that some of these effects may be associated with numbers of OT neurons in the PVNap. [ABSTRACT FROM AUTHOR]

Published

2017

49. Effects of acute dopaminergic and serotonergic manipulations in the ACI paradigm depend on the basal valence of cognitive judgement bias in rats.

Author

Golebiowska, Joanna and Rygula, Rafal

Subjects

*DOPAMINERGIC mechanisms, *COGNITIVE ability, *PHARMACOLOGY, *JUDGMENT (Psychology), *SEROTONINERGIC mechanisms, *LABORATORY rats

Abstract

Recent findings have revealed that pharmacological enhancement of dopaminergic (DA) function by the administration of a DA precursor (dihydroxy- l -phenylalanine; L-DOPA), but not the selective serotonin reuptake inhibitor (SSRI) citalopram, increases an optimism bias in humans. To test whether dopamine might play a similar role in non-human animals, in the present study, we evaluated the effects of acute injections of L-DOPA, the D2 receptor antagonist haloperidol, and the SSRI escitalopram on cognitive judgement bias of rats in the ambiguous-cue interpretation (ACI) paradigm. Three different doses of each drug were administered in a fully randomised Latin-square design, along with saline treatment as a control, 30 min before the ACI tests. Initial analysis revealed that only animals treated with L-DOPA were more ‘pessimistic’ than the saline-treated controls. Neither haloperidol nor escitalopram significantly affected the cognitive judgement bias of rats. However, further analysis revealed that the effects of the tested compounds might depend on the basal cognitive judgement bias of the tested animals. When we divided the rats into ‘optimistic’ and ‘pessimistic’ groups based on their cognitive judgement bias in the drug-free state, it turned out that acute administration of L-DOPA caused a ‘pessimistic’ shift in ‘optimistic’ animals while showing no significant effects on ‘pessimists’. Acute administration of haloperidol caused a ‘pessimistic’ shift in ‘optimistic’ animals and an ‘optimistic’ shift in ‘pessimists’. Acute administration of escitalopram caused a ‘pessimistic’ shift in ‘optimistic’ animals and had no significant effects on ‘pessimists’, except that the middle tested dose rendered the rats more ‘optimistic’. [ABSTRACT FROM AUTHOR]

Published

2017

50. Short- and long-term behavioral analysis of social interaction, ultrasonic vocalizations and social motivation in a chronic phencyclidine model.

Author

Peters, Suzanne M., Tuffnell, Joe A., Pinter, Ilona J., van der Harst, Johanneke E., and Spruijt, Berry M.

Subjects

*PHENCYCLIDINE, *DRUG side effects, *SOCIAL interaction, *ULTRASONIC imaging, *DIAGNOSIS of schizophrenia, *MOTIVATION (Psychology)

Abstract

Phencyclidine (PCP) has been suggested to induce symptoms of schizophrenia. However, animal models using PCP administration have produced ambiguous results thus far. It seems that acute effects are similar to symptoms of schizophrenia, however, it is not clear if PCP can induce permanent behavioral changes that reflect schizophrenic-like symptoms. Therefore, we assessed the ability of chronic PCP administration (3 mg/kg, 14 days) to induce short or long lasting behavioral changes in rats. Social behavior, including ultrasonic vocalizations and motivation for social contact were investigated at different time points, up to 29–36 days, after cessation of PCP treatment. During a social separation test, performed at 5 and 36 days, PCP treated rats spent less time near the divider that separates them from their familiar cage mate compared with saline (SAL) treated rats. Further, at short term, PCP was able to induce a decrease in social behavior. In contrast, at long-term, PCP treated animals spent more time in contact when exposed to an unfamiliar partner as compared to SAL treated rats. But, this difference was not observed when exposed to a familiar partner. We did not find any difference in ultrasonic vocalizations at all time points. The results of our study indicate that PCP is unable to induce overt long term deficits in social interaction behavior. Rather, it seems that PCP diminishes motivation for social contact. The long-term consequences of chronic PCP administration on social behavior in rodent models remain complex, and future studies addressing this are still needed. [ABSTRACT FROM AUTHOR]

Published

2017