Your search keyword '"Dose JM"' showing total 13 results

1. An analysis of the rewarding and aversive associative properties of nicotine in the neonatal quinpirole model: Effects on glial cell line-derived neurotrophic factor (GDNF).

Author

Brown RW, Kirby SL, Denton AR, Dose JM, Cummins ED, Drew Gill W, and Burgess KC

Subjects

Animals, Animals, Newborn, Antipsychotic Agents pharmacology, Clozapine pharmacology, Conditioning, Psychological drug effects, Conditioning, Psychological physiology, Haloperidol pharmacology, Male, Nicotine pharmacology, Nicotinic Agonists pharmacology, Nucleus Accumbens drug effects, Nucleus Accumbens metabolism, Nucleus Accumbens pathology, Quinpirole, Spatial Behavior drug effects, Spatial Behavior physiology, Tobacco Use Disorder pathology, Association, Avoidance Learning drug effects, Glial Cell Line-Derived Neurotrophic Factor metabolism, Reward, Tobacco Use Disorder metabolism, Tobacco Use Disorder psychology

Abstract

This study analyzed the associative properties of nicotine in a conditioned place preference (CPP) paradigm in adolescent rats neonatally treated with quinpirole (NQ) or saline (NS). NQ produces dopamine D 2 receptor supersensitivity that persists throughout the animal's lifetime, and therefore has relevance towards schizophrenia. In two experiments, rats were ip administered quinpirole (1mg/kg) or saline from postnatal day (P)1-21. After an initial preference test at P42-43, animals were conditioned for eight consecutive days with saline or nicotine (0.6mg/kg free base) in Experiment 1 or saline or nicotine (1.8mg/kg free base) in Experiment 2. In addition, there were NQ and NS groups in each experiment given the antipsychotic haloperidol (0.05mg/kg) or clozapine (2.5mg/kg) before nicotine conditioning. A drug free post-conditioning test was administered at P52. At P53, the nucleus accumbens (NAc) was analyzed for glial cell-line derived neurotrophic factor (GDNF). Results revealed that NQ enhanced nicotine CPP, but blunted the aversive properties of nicotine. Haloperidol was more effective than clozapine at blocking nicotine CPP in Experiment 1, but neither antipsychotic affected nicotine conditioned place aversion in Experiment 2. NQ increased accumbal GDNF which was sensitized in NQ rats conditioned to nicotine in Experiment 1, but the aversive dose of nicotine reduced GDNF in NQ animals in Experiment 2. Both antipsychotics in combination with the aversive dose of nicotine decreased accumbal GDNF. In sum, increased D 2 receptor sensitivity influenced the associative properties and GDNF response to nicotine which has implications towards pharmacological targets for smoking cessation in schizophrenia., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2018

2. The effects of nicotine in the neonatal quinpirole rodent model of psychosis: Neural plasticity mechanisms and nicotinic receptor changes.

Author

Peterson DJ, Gill WD, Dose JM, Hoover DB, Pauly JR, Cummins ED, Burgess KC, and Brown RW

Subjects

Animals, Brain-Derived Neurotrophic Factor metabolism, Corpus Striatum metabolism, Disease Models, Animal, Female, Male, Motor Activity drug effects, Nucleus Accumbens metabolism, Rats, Sprague-Dawley, Neuronal Plasticity drug effects, Nicotine administration & dosage, Nicotinic Agonists administration & dosage, Psychotic Disorders metabolism, Quinpirole administration & dosage, Receptors, Nicotinic metabolism, alpha7 Nicotinic Acetylcholine Receptor metabolism

Abstract

Neonatal quinpirole (NQ) treatment to rats increases dopamine D2 receptor sensitivity persistent throughout the animal's lifetime. In Experiment 1, we analyzed the role of α7 and α4β2 nicotinic receptors (nAChRs) in nicotine behavioral sensitization and on the brain-derived neurotrophic factor (BDNF) response to nicotine in NQ- and neonatally saline (NS)-treated rats. In Experiment 2, we analyzed changes in α7 and α4β2 nAChR density in the nucleus accumbens (NAcc) and dorsal striatum in NQ and NS animals sensitized to nicotine. Male and female Sprague-Dawley rats were neonatally treated with quinpirole (1mg/kg) or saline from postnatal days (P)1-21. Animals were given ip injections of either saline or nicotine (0.5mg/kg free base) every second day from P33 to P49 and tested on behavioral sensitization. Before each injection, animals were ip administered the α7 nAChR antagonist methyllycaconitine (MLA; 2 or 4mg/kg) or the α4β2 nAChR antagonist dihydro beta erythroidine (DhβE; 1 or 3mg/kg). Results revealed NQ enhanced nicotine sensitization that was blocked by DhβE. MLA blocked the enhanced nicotine sensitization in NQ animals, but did not block nicotine sensitization. NQ enhanced the NAcc BDNF response to nicotine which was blocked by both antagonists. In Experiment 2, NQ enhanced nicotine sensitization and enhanced α4β2, but not α7, nAChR upregulation in the NAcc. These results suggest a relationship between accumbal BDNF and α4β2 nAChRs and their role in the behavioral response to nicotine in the NQ model which has relevance to schizophrenia, a behavioral disorder with high rates of tobacco smoking., (Copyright © 2017. Published by Elsevier B.V.)

Published

2017

3. The effects of adolescent methylphenidate exposure on the behavioral and brain-derived neurotrophic factor response to nicotine.

Author

Cummins ED, Leedy KK, Dose JM, Peterson DJ, Kirby SL, Hernandez LJ, and Brown RW

Subjects

Age Factors, Animals, Female, Hippocampus drug effects, Hippocampus metabolism, Male, Nucleus Accumbens drug effects, Nucleus Accumbens metabolism, Pregnancy, Rats, Rats, Sprague-Dawley, Sex Characteristics, Behavior, Animal drug effects, Brain-Derived Neurotrophic Factor metabolism, Methylphenidate pharmacology, Nicotine pharmacology

Abstract

This study analyzed the interaction of adolescent methylphenidate on the behavioral response to nicotine and the effects of these drug treatments on brain-derived neurotrophic factor in the nucleus accumbens and hippocampus in male and female Sprague-Dawley rats. Animals were intraperitoneal administered 1 mg/kg methylphenidate or saline using a "school day" regimen (five days on, two days off) beginning on postnatal day (P)28 and throughout behavioral testing. In Experiment 1, animals were intraperitoneal administered 0.5 mg/kg (free base) nicotine or saline every second day for 10 days from P45-P63 and tested after a three-day drug washout on the forced swim stress task on P67-P68. Results revealed that adolescent methylphenidate blunted nicotine behavioral sensitization. However, methylphenidate-treated rats given saline during sensitization demonstrated decreased latency to immobility and increased immobility time on the forced swim stress task in males that was reduced by nicotine. In Experiment 2, a different set of animals were conditioned to nicotine (0.6 mg/kg free base) or saline using the conditioned place preference behavioral paradigm from P44-P51, and given a preference test on P52. On P53, the nucleus accumbens and hippocampus were analyzed for brain-derived neurotrophic factor. Methylphenidate enhanced nicotine-conditioned place preference in females and nicotine produced conditioned place preference in males and females pre-exposed to saline in adolescence. In addition, methylphenidate and nicotine increased nucleus accumbens brain-derived neurotrophic factor in females and methylphenidate enhanced hippocampus brain-derived neurotrophic factor in males and females. Methylphenidate adolescent exposure using a clinically relevant dose and regimen results in changes in the behavioral and brain-derived neurotrophic factor responses to nicotine in adolescence that are sex-dependent.

Published

2017

4. Amphetamine administration improves neurochemical outcome of lateral fluid percussion brain injury in the rat.

Author

Dhillon HS, Dose JM, and Prasad RM

Subjects

Animals, Brain Chemistry drug effects, Fatty Acids, Nonesterified blood, Freezing, Lactic Acid blood, Male, Rats, Rats, Sprague-Dawley, Brain Chemistry physiology, Brain Injuries drug therapy, Brain Injuries metabolism, Central Nervous System Stimulants therapeutic use, Dextroamphetamine therapeutic use

Abstract

This study examined the effects of the administration of D-amphetamine on the regional accumulation of lactate and free fatty acids (FFAs) after lateral fluid percussion (FP) brain injury in the rat. Rats were subjected to either FP brain injury of moderate severity (1.9 to 2.0 atm) or sham operation. At 5 min after injury, rats were treated with either d-amphetamine (4 mg/kg, i.p.) or saline. At 30 min and 60 min after brain injury, brains were frozen in situ, and cortices and hippocampi were excised at 0 degrees C. In the saline-treated brain injured rats, levels of lactate were increased in the ipsilateral left cortex and hippocampus at 30 min and 60 min after injury. These increases were attenuated by the administration of D-amphetamine at 5 min after lateral FP brain injury. At 30 and 60 min after FP brain injury, increases in the levels of all individual FFAs (palmitic, stearic, oleic and arachidonic acids) and of total FFAs were also observed in the ipsilateral cortex of the saline-treated injured rats. These increases in the ipsilateral cortex and hippocampus were also attenuated by the administration of d-amphetamine. Neither levels of lactate nor levels of FFAs were increased in the contralateral cortex in the saline-treated injured rats at 30 min or 60 min after FP brain injury. The levels of lactate and FFAs in the contralateral cortex were also unaffected by the administration of D-amphetamine. These results suggest that the attenuation of increases in the levels of lactate and FFAs in the ipsilateral cortex and hippocampus may be involved in the amphetamine-induced improvement in behavioral outcome after lateral FP brain injury., (Copyright 1998 Published by Elsevier Science B.V.)

Published

1998

5. Intradimensional transfer of duration matching-to-sample in pigeons with signals differing in color and location.

Author

Dose JM and Kraemer PJ

Abstract

Duration matching-to-sample (MTS) was used to study the influence of signal attributes on temporal transfer in pigeons. Each of two groups was trained on two problems that involved 2 and 10 s duration samples that varied with respect to color and-or spatial location. For Group Color, signals were either a red or white light projected from the front wall. For Group Location, signals were a white light from either the front wall or the ceiling. Within each group, each combination of signal type (color or location) and duration was associated with a different choice stimulus, and one set of color choices always followed one signal type and a different set of color choices always followed the other signal type. Transfer tests involved a set of choices that had not previously been associated with the type of signal presented on that trial. Accuracy on transfer trials was very high in Group Color but at a chance level in Group Location, which indicates that temporal transfer occurs when signals emanate from the same location but not when signals emanate from different locations. These results are discussed in terms of other evidence of transfer of duration-MTS.

Published

1998

6. Impact of d-amphetamine on temporal estimation in pigeons tested with a production procedure.

Author

Kraemer PJ, Randall CK, Dose JM, and Brown RW

Subjects

Animals, Behavior, Animal drug effects, Columbidae, Dose-Response Relationship, Drug, Central Nervous System Stimulants pharmacology, Dextroamphetamine pharmacology, Time Perception drug effects

Abstract

The influence of d-amphetamine on timing in pigeons was examined with a production procedure. Birds were trained with a fixed time schedule in which food reinforcement was contingent on the first response made after a duration signal had appeared for 30 s. Probe tests involved trials in which the duration signal was extended to 90 s and reinforcement was omitted. In Experiment 1, 2.0 mg/kg d-amphetamine shifted peak responding to a duration shorter than that found with saline. In Experiment 2, the dose-response function for this drug effect was examined. A 0.3-mg/kg dose of d-amphetamine had no impact on performance, but a 1.0-mg/kg dose shifted the peak duration significantly relative to saline; a 2.0-mg/kg dose shifted the function even more. These results complement previous findings with rats tested with the peak procedure and pigeons tested with a discrimination procedure.

Published

1997

7. Time course of changes in lactate and free fatty acids after experimental brain injury and relationship to morphologic damage.

Author

Dhillon HS, Dose JM, Scheff SW, and Prasad MR

Subjects

Animals, Arachidonic Acid metabolism, Cerebral Cortex pathology, Functional Laterality, Hippocampus pathology, Male, Neurons metabolism, Neurons pathology, Oleic Acid metabolism, Palmitic Acid metabolism, Pyramidal Cells pathology, Rats, Rats, Sprague-Dawley, Stearic Acids metabolism, Time Factors, Brain Injuries metabolism, Brain Injuries pathology, Cerebral Cortex metabolism, Fatty Acids, Nonesterified metabolism, Hippocampus metabolism, Lactates metabolism

Abstract

Regional levels of lactate and free fatty acids (FFA) were measured after lateral fluid percussion (FP) brain injury in rats. At 5 min after injury, tissue concentrations of lactate were elevated in the cortices and hippocampi of both ipsilateral and contralateral hemispheres. Whereas lactate levels had returned to normal by about 20 min after injury in the penumbra and contralateral cortices, their elevation persisted in the ipsilateral injured cortex and hippocampus for 24 h after injury. Increases in the levels of FFA (particularly stearic and arachidonic acids) were observed in the cortices and hippocampi of both ipsilateral and contralateral hemispheres at 5 min after injury; these levels returned to normal in only the penumbra and contralateral cortices by 20 min after injury. Increased amounts of palmitic and oleic acids were also found only in the injured left cortex and ipsilateral hippocampus at 20 min or later after injury. In general, these elevations persisted for as long as 6 to 24 h in the injured cortex and for 2.5 to 24 h after injury in the ipsilateral hippocampus. Histologic studies revealed a similar extent of damage in the cortex between 5 min and 24 h after injury, whereas damage in the CA3 region of the ipsilateral hippocampus increased during that period. These findings suggest a role for lactic acid and FFA, two secondary injury factors, in neuronal cell loss after brain injury.

Published

1997

8. Lack of delayed effects of amphetamine, methoxamine, and prazosin (adrenergic drugs) on behavioral outcome after lateral fluid percussion brain injury in the rat.

Author

Dose JM, Dhillon HS, Maki A, Kraemer PJ, and Prasad RM

Subjects

Animals, Male, Rats, Rats, Sprague-Dawley, Amphetamine therapeutic use, Behavior, Animal drug effects, Brain Injuries drug therapy, Methoxamine therapeutic use, Prazosin therapeutic use

Abstract

This study examined the delayed effects of the administration of d-amphetamine, methoxamine (an alpha1-adrenergic receptor agonist), and prazosin (an alpha1-adrenergic receptor antagonist) on the behavioral outcome of lateral fluid-percussion (FP) brain injury. Rats trained to perform a beam-walking task were subjected to brain injury of moderate severity (2.1 to 2.2 atm). Twenty-four hours after injury, rats were treated with amphetamine, methoxamine, or prazosin at two or three different dose levels. Amphetamine-treated animals displayed no significant improvement in beam-walking ability either during or after drug intoxication (from days 3 to 5 after brain injury). Similarly, neither methoxamine nor prazosin significantly affected beam-walking ability during or after drug intoxication. Neither amphetamine treatment at three different doses nor treatment with methoxamine or prazosin at two different doses affected the spatial learning disabilities of brain-injured animals. These results suggest that (1) unlike amphetamine administration after sensorimotor cortex (SMC) ablation or contusion brain injury models, amphetamine administration at 24 h after concussive FP brain injury does not improve beam-walking performance; (2) unlike amphetamine administration 10 min after concussive FP brain injury amphetamine administration 24 h after injury does not improve cognitive function; and (3) unlike prazosin administration after SMC ablation brain injury, prazosin administration 24 h after concussive FP brain injury does not effect beam-walking performance.

Published

1997

9. Regional generation of leukotriene C4 after experimental brain injury in anesthetized rats.

Author

Dhillon HS, Dose JM, and Prasad MR

Subjects

Animals, Blood-Brain Barrier, Evans Blue, Female, Rats, Rats, Sprague-Dawley, Time Factors, Tissue Distribution, Brain Injuries metabolism, Leukotriene C4 biosynthesis, Wounds, Nonpenetrating metabolism

Abstract

Regional concentrations of leukotriene C4 and extravasation of Evans blue were measured after lateral fluid-percussion brain injury in rats. Tissue levels of LTC4 were elevated in the injured cortex at 10 min, 30 min, and 1 h after injury; these levels returned to normal by 2 h after injury. Increases in the levels of LTC4 were also observed in the ipsilateral hippocampus after brain injury, and these elevations persisted for 2 h after injury. No significant increase in levels of LTC4 was observed in the contralateral cortex at any time after injury. A substantial extravasation of Evans blue was observed only in the ipsilateral cortex and hippocampus at 3 h and 6 h after brain injury. Although a temporal association between LTC4 and blood-brain barrier (BBB) breakdown is suggested by these data, no cause-and-effect relationship has been addressed in this study. However, it is possible that, as is true for cerebral ischemia, LTC4 may play a role as a mediator in the BBB breakdown associated with fluid-percussion brain injury in rats.

Published

1996

10. Physiological and behavioral effects of early embryonic exposure to ethanol and cocaine in the young chick.

Author

Dose JM, Caton IB, and Zolman JF

Subjects

Animals, Apomorphine pharmacology, Body Temperature Regulation drug effects, Body Weight drug effects, Conditioning, Operant drug effects, Drug Interactions, Extinction, Psychological drug effects, Behavior, Animal drug effects, Chick Embryo drug effects, Chickens physiology, Cocaine toxicity, Ethanol toxicity

Abstract

The physiological and behavioral effects of embryonic exposure to ethanol and cocaine, given during active neurogenesis (embryonic days E3 and E4), were studied in 1- and 2-day-old chicks. Broiler chicks (n = 131) from five embryonic treatment conditions were tested: incubative controls (n = 28), vehicle (saline plus 50 micrograms/ml bacitracin; n = 27), 10 mg ethanol (n = 20), 150 micrograms cocaine (n = 25), or co-drug (10 mg ethanol and 150 micrograms cocaine; n = 31). Compared with controls, embryo mortality for the cocaine alone embryos was significantly increased. No significant embryonic treatment effects among chicks were found for hatching times, body weights at hatch and testing, and temperature regulation when cold stressed. Behaviorally, chicks were first trained to key-peck for heat/light reward (autoshaping). Chicks in all groups increased responding from autoshape session 1 to session 2 (24 trials/session). In an acquisition-extinction session (12 trials/phase), chicks in all groups except those in the co-drug group decreased responding from acquisition to extinction. In a second acquisition-extinction session following a drug challenge of 0.5 mg/kg apomorphine, chicks in all embryonic treatment groups showed enhanced responding. Hence, in those chicks that survived, the selected doses of ethanol and cocaine produced minimal physiological and behavioral effects individually, but when given together did produce a significant deficit in extinction responding.

Published

1995

11. Amphetamine affects the behavioral outcome of lateral fluid percussion brain injury in the rat.

Author

Prasad RM, Dose JM, Dhillon HS, Carbary T, and Kraemer PJ

Abstract

This study examined the effects of (D)-amphetamine, methoxamine (an al-adrenergic receptor agonist), and prazosin (an al-adrenergic receptor antagonist) on the behavioral outcome of lateral fluid percussion brain injury. Rats trained to perform a beam walking task were subjected to brain injury of moderate severity (2.1-2.2 atm). At 10 min after injury, rats were treated with amphetamine, methoxamine or prazosin at two different dose levels. Amphetamine-treated animals displayed significantly lower impairment in beam walking ability from days 1 to 5 after brain injury. Neither methoxamine nor prazosin significantly affected the impairment in beam walking ability from day 1 to day 7 after injury. However, prazosin treatment at both dose levels increased the post-injury mortality and the incidences of failure to recovery from hemiplegia. Amphetamine-treatment at 4 mg/kg, but not at 2 mg/kg, improved the spatial learning abilities of the injured animals. Neither methoxamine nor prazosin affected the spatial learning abilities. These results indicate that amphetamine facilitated beam walking recovery and improved cognitive function after concussive fluid percussion injury. Although the methoxamine experiments suggest that the norepinephrine-α1-adrenergic receptor system may not be involved in the pathophysiology of fluid percussion brain injury, our results with amphetamine (beneficial effects) and prazosin (deleterious effects) and the results observed in other models of brain injury point out that further investigations are necessary to understand the role of a1-adrenergic receptors in brain injury.

Published

1995

12. Separate and combined effects of dopamine D1 and D2 receptor agonists on key pecking in the developing chick.

Author

Dose JM and Zolman JF

Subjects

2,3,4,5-Tetrahydro-7,8-dihydroxy-1-phenyl-1H-3-benzazepine pharmacology, Aging physiology, Animals, Chickens, Ergolines pharmacology, Quinpirole, Reserpine pharmacology, Species Specificity, Conditioning, Operant drug effects, Dopamine Agonists pharmacology, Receptors, Dopamine D1 drug effects, Receptors, Dopamine D2 drug effects

Abstract

The separate and combined effects of dopamine D1 and D2 agonists on key-peck responding of young chicks for heat reinforcement were determined. In the first experiment, 1- and 4-day-old chicks (n = 96) were injected SC with either distilled water or 5 mg/kg reserpine 18 h before testing. Twenty minutes before a 24-trial autoshaping session, chicks were injected IP with either distilled water or 10 mg/kg SKF 38393 and 2 mg/kg quinpirole. Chicks receiving both dopamine agonists had enhanced key-peck responding in both pretreatment conditions. In Experiment 2, 1- and 4-day-old chicks (n = 192) of two strains received 5 mg/kg reserpine SC 18 h before testing. Twenty minutes before their autoshaping session these chicks were injected IP with either distilled water, 10 mg/kg SKF 38393, 2 mg/kg quinpirole, or 10 mg/kg SKF 38393 and 2 mg/kg quinpirole. After reserpine pretreatment, chicks of both strains responded on more trials when given both dopamine agonists compared with controls given either distilled water or single agonist treatment. No age or strain differences in key pecking were produced by the combined administration of these dopamine agonists. Therefore, functional coupling of the dopamine D1 and D2 receptors is found within 1 day after hatching in the domestic chick.

Published

1994

13. The biphasic effect of morphine on odor conditioning in neonatal rats.

Author

Randall CK, Kraemer PJ, Dose JM, Carbary TJ, and Bardo MT

Subjects

Aging psychology, Animals, Animals, Newborn, Association Learning drug effects, Avoidance Learning drug effects, Dose-Response Relationship, Drug, Rats, Rats, Inbred Strains, Aging drug effects, Conditioning, Classical drug effects, Morphine pharmacology, Smell drug effects

Abstract

Three experiments examined the dose-dependent biphasic effect of morphine on odor conditioning in neonatal rats. In Experiment 1, a single pairing of an odor and a low dose of morphine (0.5 mg/kg) in 5-day-old rats produced an odor preference, relative to an unpaired control group. In Experiment 2, pairing an odor with a high dose of morphine (2.0 mg/kg) produced an odor aversion, relative to an unpaired control group. A third experiment compared performance of a group given odor and morphine (2.0 mg/kg) paired to that of two unpaired groups: one given morphine 24 hr prior to and the other 24 hr after odor exposure. The paired group showed an odor aversion relative to both of the unpaired groups, which did not differ. The latter finding suggests that even if morphine metabolism is incomplete after 24 hr, behavior is unaffected. These results are discussed in reference to the functional development of the opioid system in rats.

Published

1992