Your search keyword '"Ellie-Anna Minogianis"' showing total 8 results

1. Taking rapid and intermittent cocaine infusions enhances both incentive motivation for the drug and cocaine-induced gene regulation in corticostriatal regions

Author

Anne-Noël Samaha and Ellie-Anna Minogianis

Subjects

0301 basic medicine, Drug, Regulation of gene expression, 0303 health sciences, business.industry, General Neuroscience, media_common.quotation_subject, Addiction, Context (language use), Pharmacology, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Incentive, Neuroplasticity, Premovement neuronal activity, Medicine, Progressive ratio, business, Immediate early gene, 030217 neurology & neurosurgery, 030304 developmental biology, media_common

Abstract

A goal in addiction research is to distinguish forms of neuroplasticity that are involved in the transition to addiction from those involved in mere drug taking. Animal models of drug self-administration are essential in this context. Here, we compared in male rats two cocaine self-administration procedures that differ in the extent to which they evoke addiction-like behaviours. We measured both incentive motivation for cocaine using progressive ratio procedures, and cocaine-induced c-fos mRNA expression, a marker of neuronal activity. Rats self-administered intravenous cocaine (0.25 mg/kg/infusion) for seven daily 6-hour sessions. One group had intermittent access (IntA; 6 minutes ON, 26 minutes OFF x 12) to rapid infusions (delivered over 5 seconds). This models the temporal kinetics of human cocaine use and produces robust addiction-like behaviour. The other group had Long access (LgA) to slower infusions (90 seconds). This produces high levels of intake without promoting robust addiction-like behaviour. LgA-90s rats took twice as much cocaine as IntA-5s rats did, but IntA-5s rats showed greater incentive motivation for the drug. Following a final self-administration session, we quantified c-fos mRNA expression in corticostriatal regions. Compared to LgA-90s rats, IntA-5s rats had more cocaine-induced c-fos mRNA in the orbitofrontal and prelimbic cortices and the caudate-putamen. Thus, a cocaine self-administration procedure (intermittent intake of rapid infusions) that promotes increased incentive motivation for the drug also enhances cocaine-induced gene regulation in corticostriatal regions. This suggests that increased drug-induced recruitment of these regions could contribute to the neural and behavioural plasticity underlying the transition to addiction.

Published

2020

2. Varying the rate of intravenous cocaine infusion influences the temporal dynamics of both drug and dopamine concentrations in the striatum

Author

Patrick du Souich, Omar S. Mabrouk, Wayne G. Brake, Jenny Marie T. Wong, Robert T. Kennedy, Anne-Noël Samaha, Waqqas M. Shams, and Ellie-Anna Minogianis

Subjects

Male, Drug, Microdialysis, Dopamine, media_common.quotation_subject, Striatum, Motor Activity, Pharmacology, Article, Cocaine-Related Disorders, 03 medical and health sciences, 0302 clinical medicine, Cocaine, Dopamine Uptake Inhibitors, Pharmacokinetics, Animals, Medicine, Rats, Wistar, Sensitization, 030304 developmental biology, media_common, 0303 health sciences, business.industry, General Neuroscience, Addiction, Brain, Corpus Striatum, Neostriatum, Administration, Intravaginal, medicine.anatomical_structure, Drug delivery, business, Locomotion, 030217 neurology & neurosurgery, medicine.drug

Abstract

The faster drugs of abuse reach the brain, the greater is the risk of addiction. Even small differences in the rate of drug delivery can influence outcome. Infusing cocaine intravenously over 5 versus 90–100 seconds promotes sensitization to the psychomotor and incentive motivational effects of the drug and preferentially recruits mesocorticolimbic regions. It remains unclear whether these effects are due to differences in how fast and/or how much drug reaches the brain. Here, we predicted that varying the rate of intravenous cocaine infusion between 5–90 seconds produces different rates of rise of brain drug concentrations, while producing similar peak concentrations. Freely-moving male Wistar rats received acute intravenous cocaine infusions (2.0 mg/kg/infusion) over 5, 45 and 90 seconds. We measured cocaine concentrations in the dorsal striatum using rapid-sampling microdialysis (1 sample/minute) and high-performance liquid chromatography-tandem mass spectrometry. We also measured extracellular concentrations of dopamine and other neurochemicals. Regardless of infusion rate, acute cocaine did not change concentrations of non-dopaminergic neurochemicals. Infusion rate did not significantly influence peak concentrations of cocaine or dopamine, but concentrations increased faster following 5-second infusions. We also assessed psychomotor activity as a function of cocaine infusion rate. Infusion rate did not significantly influence total locomotion, but locomotion increased earlier following 5-second infusions. Thus, small differences in the rate of cocaine delivery influence both the rate of rise of drug and dopamine concentrations and psychomotor activity. A faster rate of rise of drug and dopamine concentrations might be an important issue in making rapidly delivered cocaine more addictive.

Published

2018

3. Role of the orbitofrontal cortex and the dorsal striatum in incentive motivation for cocaine

Author

Marie-Pier Filion, Anne-Noël Samaha, Ellie-Anna Minogianis, and Alice Servonnet

Subjects

Male, medicine.medical_specialty, Baclofen, medicine.medical_treatment, media_common.quotation_subject, Drug-Seeking Behavior, Prefrontal Cortex, Self Administration, Striatum, 03 medical and health sciences, Behavioral Neuroscience, chemistry.chemical_compound, Cocaine-Related Disorders, 0302 clinical medicine, Cocaine, Reward, Internal medicine, Medicine, Premovement neuronal activity, Animals, Rats, Wistar, Saline, Sensitization, 030304 developmental biology, media_common, 0303 health sciences, Motivation, business.industry, Muscimol, musculoskeletal, neural, and ocular physiology, Addiction, Corpus Striatum, 3. Good health, Rats, body regions, Behavior, Addictive, medicine.anatomical_structure, Endocrinology, nervous system, chemistry, Orbitofrontal cortex, business, Reinforcement, Psychology, psychological phenomena and processes, 030217 neurology & neurosurgery

Abstract

Drug addiction involves increased incentive motivation for drug. Intermittent access to cocaine (IntA; 5–6 minutes ON, 25–26 minutes OFF, for 5–6 hours/session) enhances motivation to take the drug. The orbitofrontal cortex (OFC) and the dorsal striatum (DS) are part of a corticolimbic circuit that encodes incentive value and regulates reward-directed behaviour. We predicted that inactivation of the OFC, DS or both suppresses incentive motivation for cocaine after IntA experience. Male Wistar rats had IntA to cocaine (0.25 mg/kg/infusion) for 10 sessions. The rats developed a ‘loading’ pattern of intake, taking most of their cocaine in the first minute of each drug-available period. They also developed psychomotor sensitization to self-administered cocaine. We then measured incentive motivation for cocaine using a progressive ratio schedule of reinforcement (PR). Before some PR sessions, rats received microinfusions of a baclofen/muscimol cocktail (0.3 and 0.03 nmol/hemisphere, respectively, or saline) to temporarily inactivate the OFC or DS, or to disconnect the two regions. None of these treatments changed spontaneous locomotion in cocaine-naive rats. However, both baclofen/muscimol and saline infusions influenced cocaine self-administration behaviour. Infusing baclofen/muscimol or saline into the OFC or into the OFC and contralateral DS decreased responding for cocaine under PR, with baclofen/muscimol and saline having similar effects, except that only OFC-DS disconnection with baclofen/muscimol slowed the pace of cocaine intake. Baclofen/muscimol or saline into the DS also reduced responding for cocaine under PR, but baclofen/muscimol was more effective. We conclude that neuronal activity in the OFC and DS might regulate incentive motivation for cocaine.

Published

2018

4. The self-administration of rapidly delivered cocaine promotes increased motivation to take the drug: contributions of prior levels of operant responding and cocaine intake

Author

Karim Bouayad-Gervais, Daniel Lévesque, Ellie-Anna Minogianis, and Anne-Noël Samaha

Subjects

Male, Drug, media_common.quotation_subject, Drug delivery to the brain, Self Administration, Tropomyosin receptor kinase B, Pharmacology, Cocaine, Dopamine Uptake Inhibitors, Reward, Neurotrophic factors, Neuroplasticity, Animals, Receptor, trkB, Rats, Wistar, media_common, Cerebral Cortex, Motivation, Increased motivation, Dose-Response Relationship, Drug, Brain-Derived Neurotrophic Factor, Addiction, Corpus Striatum, Rats, Behavior, Addictive, Drug delivery, Conditioning, Operant, Psychology

Abstract

Rapid drug delivery to the brain might increase the risk for developing addiction. In rats, increasing the speed of intravenous cocaine delivery (5 vs. 90 s) increases drug intake and the subsequent motivation to self-administer cocaine. Increased motivation for cocaine could result not only from more extensive prior drug intake and operant responding for drug, but also from neuroplasticity evoked by rapid drug uptake. We determined the contributions of prior drug intake and operant responding to the increased motivation for cocaine evoked by rapid delivery. We also investigated the effects of cocaine delivery speed on corticostriatal expression of brain-derived neurotrophic factor (BDNF) and tropomyosin receptor kinase B (TrkB) mRNA. Rats self-administered cocaine (0.25 mg/kg/infusion) delivered over 5 or 90 s during short-access (1 h/session; ShA) or long-access (6 h; LgA) sessions. Motivation for cocaine was then assessed by measuring responding under a progressive ratio schedule of reinforcement. Next, BDNF and TrkB mRNA levels were measured in 5- and 90-s rats. Five-second ShA and 5-s-LgA rats were more motivated for cocaine than their 90-s counterparts. This effect was dissociable from previous levels of drug intake or of operant responding for cocaine. In parallel, only rats self-administering rapid cocaine injections had altered BDNF and TrkB mRNA levels in corticostriatal regions. Rapid drug delivery augments the motivation for cocaine independently of effects on the levels of drug intake or operant responding for drug. We suggest that rapid delivery might increase the motivation for drug by promoting neuroplasticity within reward pathways. This neuroplasticity could involve increased regulation of BDNF/TrkB.

Published

2014

5. Neurotensin in the nucleus accumbens reverses dopamine supersensitivity evoked by antipsychotic treatment

Author

Ellie-Anna Minogianis, Daniel Lévesque, Anne-Marie Bédard, Alice Servonnet, Anne-Noël Samaha, Claude Bouchard, and Pierre-Paul Rompré

Subjects

Male, medicine.medical_specialty, Dopamine, Movement, Neuropeptide, Nucleus accumbens, Dopamine agonist, Nucleus Accumbens, Rats, Sprague-Dawley, 03 medical and health sciences, Cellular and Molecular Neuroscience, chemistry.chemical_compound, 0302 clinical medicine, Neurochemical, Internal medicine, medicine, Haloperidol, Animals, Receptors, Neurotensin, RNA, Messenger, Amphetamine, Neurotensin, Pharmacology, Putamen, 030227 psychiatry, Endocrinology, chemistry, Central Nervous System Stimulants, Caudate Nucleus, 030217 neurology & neurosurgery, medicine.drug, Antipsychotic Agents

Abstract

Long-term exposure to antipsychotics like haloperidol can increase sensitivity to dopamine agonist stimulation. This could contribute to treatment failure and increase relapse to psychosis. Chronic antipsychotic treatment elevates neurotensin levels in the nucleus accumbens (NAc), where the neuropeptide modulates dopamine function by signalling through NTS1 receptors. We hypothesized that increasing neurotensin activity in the NAc attenuates the expression of antipsychotic-induced dopamine supersensitivity, which is indicated by a potentiated psychomotor response to amphetamine. Rats received either continuous (CONT-HAL; achieved via subcutaneous osmotic minipump) or intermittent (INT-HAL; achieved via daily subcutaneous injection) haloperidol treatment for 16-17 days. Three to 5 days later, we injected neurotensin into the NAc and measured amphetamine-induced locomotion. Only CONT-HAL rats showed potentiated amphetamine-induced locomotion, indicating dopamine supersensitivity. Compared to intra-NAc saline, intra-NAc neurotensin suppressed amphetamine-induced locomotion in CONT-HAL rats, but not in INT-HAL or control rats. In a new cohort of CONT-HAL and INT-HAL rats, we measured striatal levels of proneurotensin mRNA and NTS1 receptors. The two treatments led to overlapping but also distinct neurochemical profiles. Neither treatment altered NTS1 receptor levels in the NAc, but both increased proneurotensin mRNA levels in the NAc core. In the caudate-putamen, only INT-HAL increased NTS1 receptor levels, while only CONT-HAL increased proneurotensin mRNA expression. Thus, antipsychotic-induced dopamine supersensitivity enhances the ability of neurotensin in the NAc to regulate dopamine-mediated behaviours, and this likely does not involve changes in local levels of NTS1 receptors or proneurotensin mRNA. We conclude that increasing neurotensin activity could be considered to attenuate antipsychotic-induced dopamine supersensitivity.

Published

2016

6. How fast and how often: The pharmacokinetics of drug use are decisive in addiction

Author

Ellie-Anna Minogianis, Florence Allain, Anne-Noël Samaha, David C.S. Roberts, and Université de Montréal. Faculté de médecine. Département de pharmacologie et physiologie

Subjects

Drug, medicine.medical_specialty, Psychotherapist, Substance-Related Disorders, Cognitive Neuroscience, media_common.quotation_subject, Speed of drug delivery, Behavioral Neuroscience, Pharmacokinetics, Cocaine, Dopamine Uptake Inhibitors, Intermittent drug exposure, mental disorders, medicine, Drug addiction, Animals, Humans, Psychiatry, media_common, Motivation, business.industry, Addiction, Drug Administration Routes, Route of drug intake, Behavior, Addictive, Neuropsychology and Physiological Psychology, Drug intoxication, business

Abstract

How much, how often and how fast a drug reaches the brain determine the behavioural and neuroplastic changes associated with the addiction process. Despite the critical nature of these variables, the drug addiction field often ignores pharmacokinetic issues, which we argue can lead to false conclusions. First, we review the clinical data demonstrating the importance of the speed of drug onset and of intermittent patterns of drug intake in psychostimulant drug addiction. This is followed by a review of the preclinical literature demonstrating that pharmacokinetic variables play a decisive role in determining behavioural and neurobiological outcomes in animal models of addiction. This literature includes recent data highlighting the importance of intermittent, ‘spiking’ brain levels of drug in producing an increase in the motivation to take drug over time. Rapid drug onset and intermittent drug exposure both appear to push the addiction process forward most effectively. This has significant implications for refining animal models of addiction and for better understanding the neuroadaptations that are critical for the disorder.

Published

2015

7. The speed of cocaine delivery determines the subsequent motivation to self-administer the drug

Author

Daniel Lévesque, Ellie-Anna Minogianis, and Anne-Noël Samaha

Subjects

Drug, Male, Time Factors, media_common.quotation_subject, Self Administration, Pharmacology, Drug Administration Schedule, Iodine Radioisotopes, Cocaine, Dopamine Uptake Inhibitors, Dopamine receptor D2, medicine, Animals, Rats, Wistar, media_common, Drug injection, Analysis of Variance, Motivation, Dose-Response Relationship, Drug, Receptors, Dopamine D2, Addiction, Rats, Psychiatry and Mental health, Guanosine 5'-O-(3-Thiotriphosphate), Anesthesia, Conditioning, Operant, Dopamine Antagonists, Original Article, Progressive ratio, Analysis of variance, Sulpiride, Psychology, Self-administration, medicine.drug, Protein Binding

Abstract

The rapid delivery of drugs of abuse to the brain is associated with an increased likelihood and severity of addiction. Here we evaluated the hypothesis that rapidly delivered cocaine facilitates the addiction process by promoting the development of enhanced motivation for the drug. Rats lever-pressed for cocaine delivered intravenously over 5 or 90 s under fixed ratio (FR) during 6-h sessions. The motivation for cocaine was subsequently assessed using a progressive ratio (PR) schedule, where each successive drug injection cost an exponentially greater number of lever presses, until the cessation of responding. Throughout all self-administration sessions, all rats could only take one injection every 90 s. The 5-s groups self-administered more drug than the 90-s groups across the FR sessions. Under PR, animals that had chronically self-administered rapidly delivered cocaine took more cocaine across a range of doses and regardless of whether the drug was delivered over 5 or 90 s during PR testing. The speed of delivery also determined the long-term neurobiological impact of cocaine. Fourteen days following cocaine withdrawal, caudate-putamen D2 levels were decreased only in the 90-s rats, and quinpirole-mediated Gα(i/o)-protein activation was increased to a greater extent in the 90- vs 5-s rats. Thus, rapid delivery promotes the pursuit of cocaine in the face of rising costs and alters cocaine-induced changes in striatal D2 receptor number and function. As such, rapidly delivered cocaine might facilitate addiction because it more readily alters brain motivation circuits in ways that contribute to the compulsive pursuit of the drug.

Published

2013

8. Cues Paired with either Rapid or Slower Self-Administered Cocaine Injections Acquire Similar Conditioned Rewarding Properties

Author

Anne-Noël Samaha, Walid Nachar, and Ellie-Anna Minogianis

Subjects

Male, Drugs of abuse, business.product_category, Visual System, lcsh:Medicine, Self Administration, Pharmacology, Behavioral Neuroscience, 0302 clinical medicine, Cocaine, lcsh:Science, media_common, Animal Management, Drug Dependence, Lever, Multidisciplinary, Animal Behavior, Agriculture, Sensory Systems, Neurology, Behavioral Pharmacology, Medicine, medicine.symptom, Self-administration, medicine.drug, Research Article, Behavioral addiction, Drugs and Devices, media_common.quotation_subject, Biology, 03 medical and health sciences, Neuropharmacology, Group differences, Reward, medicine, Animals, Rats, Wistar, Amphetamine, Sensory cue, Evolutionary Biology, Addiction, lcsh:R, 030227 psychiatry, Rats, Conditioning, Operant, lcsh:Q, Veterinary Science, business, Zoology, 030217 neurology & neurosurgery, Neuroscience

Abstract

The faster drugs of abuse reach the brain, the more addictive they can be. It is not known why this is. Environmental stimuli associated with drugs can promote the development and persistence of addiction by invigorating and precipitating drug-seeking behaviour. We determined, therefore, whether cues associated with the self-administration of rapidly delivered cocaine (injected intravenously over 5 versus 90 seconds) would acquire greater conditioned rewarding properties, as assessed by the performance of an operant response reinforced solely by the cues. Rats nose-poked for intravenous cocaine infusions delivered either over 5 or 90 seconds. Discrete visual cues accompanied each infusion. The rats could then press a lever to obtain the cues--now a conditioned reward--or an inactive lever. Rats in both the 5- and 90-second groups pressed more on the active versus inactive lever following extensive (24 sessions) but not following limited (3 sessions) self-administration training. There were no group differences in this behaviour. Following withdrawal from cocaine self-administration, lever discrimination progressively abated in both groups and was lost by withdrawal day 30. However, the rewarding properties of the cues were not "forgotten" because on withdrawal days 32-33, amphetamine selectively enhanced active-lever pressing, and did so to a similar extent in both groups. Thus, cues paired with rapid or slower cocaine delivery acquire similar conditioned rewarding properties. We conclude, therefore, that the rapid delivery of cocaine to the brain promotes addiction by mechanisms that might not involve a greater ability of drug cues to control behaviour.

Published

2011