Your search keyword '"Dixon CI"' showing total 172 results

51. NEW PUBLIC MANAGEMENT E NEOLIBERISMO. UN INTRECCIO STORICO.

Author

Moini, Giulio

Published

2017

52. Loop G in the GABAA receptor α1 subunit influences gating efficacy.

Author

Baptista‐Hon, Daniel T., Gulbinaite, Simona, and Hales, Tim G.

Subjects

GABA receptors, ION channel gating mechanisms, CYSTEINE derivatives, NEURAL transmission, AMINO acids, GENETIC mutation, PROPOFOL

Abstract

Key points The functional importance of residues in loop G of the GABAA receptor has not been investigated. D43 and T47 in the α1 subunit are of particular significance as their structural modification inhibits activation by GABA., While the T47C substitution had no significant effect, non-conservative substitution of either residue (D43C or T47R) reduced the apparent potency of GABA., Propofol potentiated maximal GABA-evoked currents mediated by α1(D43C)β2γ2 and α1(T47R)β2γ2 receptors. Non-stationary variance analysis revealed a reduction in maximal GABA-evoked Popen, suggesting impaired agonist efficacy., Further analysis of α1(T47R)β2γ2 receptors revealed that the efficacy of the partial agonist THIP (4,5,6,7-tetrahydroisoxazolo[5,4-c]pyridine-3-ol) relative to GABA was impaired., GABA-, THIP- and propofol-evoked currents mediated by α1(T47R)β2γ2 receptors deactivated faster than those mediated by α1β2γ2 receptors, indicating that the mutation impairs agonist-evoked gating., Spontaneous gating caused by the β2(L285R) mutation was also reduced in α1(T47R)β2(L285R)γ2 compared to α1β2(L285R)γ2 receptors, confirming that α1(T47R) impairs gating independently of agonist activation., Abstract The modification of cysteine residues (substituted for D43 and T47) by 2-aminoethyl methanethiosulfonate in the GABAA α1 subunit loop G is known to impair activation of α1β2γ2 receptors by GABA and propofol. While the T47C substitution had no significant effect, non-conservative substitution of either residue (D43C or T47R) reduced the apparent potency of GABA. Propofol (1 μ m), which potentiates sub-maximal but not maximal GABA-evoked currents mediated by α1β2γ2 receptors, also potentiated maximal currents mediated by α1(D43C)β2γ2 and α1(T47R)β2γ2 receptors. Furthermore, the peak open probabilities of α1(D43C)β2γ2 and α1(T47R)β2γ2 receptors were reduced. The kinetics of macroscopic currents mediated by α1(D43C)β2γ2 and α1(T47R)β2γ2 receptors were characterised by slower desensitisation and faster deactivation. Similar changes in macroscopic current kinetics, together with a slower activation rate, were observed with the loop D α1(F64C) substitution, known to impair both efficacy and agonist binding, and when the partial agonist THIP (4,5,6,7-tetrahydroisoxazolo[5,4-c]pyridine-3-ol) was used to activate WT or α1(T47R)β2γ2 receptors. Propofol-evoked currents mediated by α1(T47R)β2γ2 and α1(F64C)β2γ2 receptors also exhibited faster deactivation than their WT counterparts, revealing that these substitutions impair gating through a mechanism independent of orthosteric binding. Spontaneous gating caused by the introduction of the β2(L285R) mutation was also reduced in α1(T47R)β2(L285R)γ2 compared to α1β2(L285R)γ2 receptors, confirming that α1(T47R) impairs gating independently of activation by any agonist. These findings implicate movement of the GABAA receptor α1 subunit's β1 strand during agonist-dependent and spontaneous gating. Immobilisation of the β1 strand may provide a mechanism for the inhibition of gating by inverse agonists such as bicuculline. [ABSTRACT FROM AUTHOR]

Published

2017

53. Injectable anaesthesia for adult cat and kitten castration: effects of medetomidine, dexmedetomidine and atipamezole on recovery.

Author

Bruniges, Natalie, Taylor, Polly M., and Yates, David

Published

2016

54. Effects of Gabra2 Point Mutations on Alcohol Intake: Increased Binge-Like and Blunted Chronic Drinking by Mice.

Author

Newman, Emily L., Gunner, Georgia, Huynh, Polly, Gachette, Darrel, Moss, Stephen J., Smart, Trevor G., Rudolph, Uwe, DeBold, Joseph F., and Miczek, Klaus A.

Subjects

ANALYSIS of variance, ANIMAL behavior, ANIMAL experimentation, BENZODIAZEPINES, CHI-squared test, DRINKING behavior, ALCOHOL drinking, ETHANOL, GABA, MICE, MIDAZOLAM, GENETIC mutation, NEUROTRANSMITTER receptors, PROBABILITY theory, QUININE, RESEARCH funding, SOCIAL skills, STATISTICS, STEROIDS, SUCROSE, TRANQUILIZING drugs, DATA analysis, BINGE drinking, REPEATED measures design, DESCRIPTIVE statistics, FRIEDMAN test (Statistics)

Abstract

Background Alcohol use disorders are associated with single-nucleotide polymorphisms in GABRA2, the gene encoding the GABAA receptor α2-subunit in humans. Deficient GABAergic functioning is linked to impulse control disorders, intermittent explosive disorder, and to drug abuse and dependence, yet it remains unclear whether α2-containing GABAA receptor sensitivity to endogenous ligands is involved in excessive alcohol drinking. Methods Male wild-type (Wt) C57 BL/6J and point-mutated mice rendered insensitive to GABAergic modulation by benzodiazepines (BZD; H101R), allopregnanolone (ALLO) or tetrahydrodeoxycorticosterone (THDOC; Q241M), or high concentrations of ethanol (EtOH) (S270H/L277A) at α2-containing GABAA receptors were assessed for their binge-like, moderate, or escalated chronic drinking using drinking in the dark, continuous access (CA) and intermittent access (IA) to alcohol protocols, respectively. Social approach by mutant and Wt mice in forced alcohol abstinence was compared to approach by Et OH-naïve controls. Social deficits in forced abstinence were treated with allopregnanolone (0, 3.0, 10.0 mg/kg, intraperitoneal [i.p.]) or midazolam (0, 0.56, 1.0 mg/kg, i.p.). Results Mice with BZD-insensitive α2-containing GABAA receptors (H101R) escalated their binge-like drinking. Mutants harboring the Q241M point substitution in Gabra2 showed blunted chronic intake in the CA and IA protocols. S270H/L277A mutants consumed excessive amounts of alcohol but, unlike wild-types, they did not show forced abstinence-induced social deficits. Conclusions These findings suggest a role for: (i) H101 in species-typical binge-like drinking, (ii) Q241 in escalated chronic drinking, and (iii) S270 and/or L277 in the development of forced abstinence-associated social deficits. Clinical findings report reduced BZD-binding sites in the cortex of dependent patients; the present findings suggest a specific role for BZD-sensitive α2-containing receptors. In addition, amino acid residue 241 in Gabra2 is necessary for positive modulation and activation of GABAA receptors by ALLO and THDOC; we postulate that neurosteroid action on α2-containing receptor may be necessary for escalated chronic EtOH intake. [ABSTRACT FROM AUTHOR]

Published

2016

55. Association Between Smoking and Cholinergic Basal Forebrain Volume in Healthy Aging and Prodromal and Dementia Stages of Alzheimer's Disease.

Author

Teipel, Stefan, Grothe, Michel J., and Alzheimer’s Disease Neuroimaging Initiative

Subjects

AGE factors in Alzheimer's disease, PROSENCEPHALON physiology, HEALTH, SMOKING, CHOLINERGIC mechanisms, NEUROBEHAVIORAL disorders, AGING, ALZHEIMER'S disease, BRAIN, HIPPOCAMPUS (Brain), MAGNETIC resonance imaging, NEURORADIOLOGY, NEURONS, RESEARCH funding, CROSS-sectional method, EARLY diagnosis

Abstract

Background: Smoking has been found associated with decreased cerebral volumes in healthy adults and in various neuropsychiatric disorders.Objective: We aimed to determine whether chronic nicotine exposure through smoking is associated with reduced volume of cortically projecting cholinergic basal forebrain nuclei in healthy aging, mild cognitive impairment (MCI), and dementia stages of Alzheimer's disease (AD).Methods: We retrieved cross-sectional data from the Alzheimer's Disease Neuroimaging Initiative (ADNI) database including 179 cognitively normal elderly subjects, 270 subjects with early stage MCI, 136 subjects in later, more advanced, stage of MCI, and 86 subjects in dementia stages of AD. We determined the association between past or current smoking versus lifetime non-smoker status on the volumes of the basal forebrain determined from volumetric MRI scans. Hippocampus volume was used as a control region. Significant effects were controlled for mediating or moderating effects of respiratory and cardiovascular morbidity.Results: In cognitively healthy individuals and early MCI, past or current smoking was significantly associated with smaller basal forebrain volume. This effect was independent from age, sex, or cardiovascular or respiratory morbidity. Hippocampus volume was not associated with smoking. In late MCI and AD dementia, smoking was not associated with basal forebrain or hippocampus volumes.Conclusions: Our findings suggest that chronic nicotine exposure through smoking may lead to atrophy of cholinergic input areas of the basal forebrain. This effect may account for an increased risk of AD dementia onset with smoking by exhausting the cholinergic system reserve capacity. [ABSTRACT FROM AUTHOR]

Published

2016

56. Negative allosteric modulation of GABA receptors inhibits facilitation of brain stimulation reward by drugs of abuse in C57BL6/J mice.

Author

Tracy, Matthew, Banks, Matthew, and Shelton, Keith

Subjects

GABA receptors, BRAIN stimulation, DRUG abuse, ALLOSTERIC regulation, DRUG therapy, DRUG development, PHARMACOLOGY, LABORATORY mice

Abstract

Rationale: There is an emerging body of evidence that implicates a crucial role of γ-aminobutyric acid subtype A (GABA) receptors in modulating the rewarding effects of a number of abused drugs. Modulation of GABA receptors may therefore represent a novel drug-class independent mechanism for the development of abuse treatment pharmacotherapeutics. Objectives: We tested the hypothesis that the GABA receptor benzodiazepine-site (BDZ) negative modulator Ro15-4513 would reduce the reward-related effects of three pharmacologically dissimilar drugs; toluene vapor, d-methamphetamine, and diazepam using intracranial self-stimulation (ICSS) in mice. We also examined whether Ro15-4513 attenuated dopamine release produced by d-methamphetamine in an in vivo microdialysis procedure. Results: Ro15-4513 abolished ICSS reward facilitation produced by all three abused drugs at Ro15-4513 doses which had no effect on ICSS when administered alone. In contrast, the BDZ antagonist flumazenil only attenuated the ICSS-facilitating effects of diazepam. Administration of the same dose of Ro15-4513 which abolished drug-facilitated ICSS produced a 58 % decrease in d-methamphetamine-stimulated dopamine in the nucleus accumbens of mice relative to d-methamphetamine alone. Conclusions: These results demonstrate that negative modulation of GABA receptors can produce profound reductions in reward-related effects of a diverse group of drugs that activate the mesolimbic reward pathway through different mechanisms. These data suggest that pharmacological modulation of GABA receptors may represent a viable pathway for the development of drug abuse pharmacotherapies. [ABSTRACT FROM AUTHOR]

Published

2016

57. Clinically Combating Reward Deficiency Syndrome (RDS) with Dopamine Agonist Therapy as a Paradigm Shift: Dopamine for Dinner?

Author

Blum, Kenneth, Febo, Marcelo, Thanos, Panayotis, Baron, David, Fratantonio, James, and Gold, Mark

Abstract

Everyday, there are several millions of people that are increasingly unable to combat their frustrating and even fatal romance with getting high and/or experiencing 'normal' feelings of well-being. In the USA, the FDA has approved pharmaceuticals for drug and alcohol abuse: tobacco and nicotine replacement therapy. The National Institute on Drug Abuse (NIDA) and the National Institute on Alcohol Abuse and Alcoholism (NIAAA) remarkably continue to provide an increasing understanding of the intricate functions of brain reward circuitry through sophisticated neuroimaging and molecular genetic applied technology. Similar work is intensely investigated on a worldwide basis with enhanced clarity and increased interaction between not only individual scientists but across many disciplines. However, while it is universally agreed that dopamine is a major neurotransmitter in terms of reward dependence, there remains controversy regarding how to modulate its role clinically to treat and prevent relapse for both substance and non-substance-related addictive behaviors. While the existing FDA-approved medications promote blocking dopamine, we argue that a more prudent paradigm shift should be biphasic-short-term blockade and long-term upregulation, enhancing functional connectivity of brain reward circuits. [ABSTRACT FROM AUTHOR]

Published

2015

58. α2-containing GABA(A) receptors: a requirement for midazolam-escalated aggression and social approach in mice.

Author

Newman, Emily, Smith, Kiersten, Takahashi, Aki, Chu, Adam, Hwa, Lara, Chen, Yang, DeBold, Joseph, Rudolph, Uwe, and Miczek, Klaus

Subjects

GABA receptors, MIDAZOLAM, AGGRESSION (Psychology), BENZODIAZEPINES, DRUG prescribing, LABORATORY mice

Abstract

Rationale: Benzodiazepines (BZDs) are prescribed to reduce anxiety, agitation, and muscle spasms and for their sedative-hypnotic and anticonvulsant effects. Under specific conditions, BZDs escalate aggression in some individuals. Specific effects of BZDs have been linked to the α-subunit subtype composition of GABA receptors. Objectives: Point-mutated mice rendered selectively insensitive to BZDs at α1-, α2-, or α3-containing GABA receptors were used to determine which α-subunit subtypes are necessary for BZDs to escalate aggression and social approach and to reduce fear-motivated behavior. Methods: During resident-intruder confrontations, male wild-type (WT) and point-mutated α1(H101R), α2(H101R), and α3(H126R) mice were treated with midazolam (0-1.7 mg/kg, i.p.) and evaluated for aggression in an unfamiliar environment. Separate midazolam-treated WT and point-mutated mice were assessed for social approach toward a female or investigated in a 6-day fear-potentiated startle procedure. Results: Moderate doses of midazolam (0.3-0.56 mg/kg, i.p.) escalated aggression in WT and α3(H126R) mutants and increased social approach in WT and α1(H101R) mice. The highest dose of midazolam (1.0 mg/kg) reduced fear-potentiated startle responding. All mice were sensitive to the sedative effect of midazolam (1.7 mg/kg) except α1(H101R) mutants. Conclusions: Midazolam requires BZD-sensitive α1- and α2-containing GABA receptors in order to escalate aggression and α2- and α3-containing receptors to reduce social anxiety-like behavior. GABA receptors containing the α1-subunit are crucial for BZD-induced sedation, while α2-containing GABA receptors may be a shared site of action for the pro-aggressive and anxiolytic effects of BZDs. [ABSTRACT FROM AUTHOR]

Published

2015

59. In vivo activation of the SK channel in the spinal cord reduces the NMDA receptor antagonist dose needed to produce antinociception in an inflammatory pain model.

Author

Hipólito, Lucia, Fakira, Amanda K., Cabañero, David, Blandón, Rebecca, Carlton, Susan M., Morón, Jose A., and Melyan, Zara

Published

2015

60. Selective targeting of the α5-subunit of GABAA receptors relaxes airway smooth muscle and inhibits cellular calcium handling.

Author

Gallos, George, Yocum, Gene T., Siviski, Matthew E., Yim, Peter D., Xiao Wen Fu, Poe, Michael M., Cook, James M., Harrison, Neil, Perez-Zoghbi, Jose, and Emala Sr., Charles W.

Subjects

GABA receptors, BRONCHOCONSTRICTION, TARGETED drug delivery, BRONCHODILATOR agents, AIRWAY (Anatomy), INTRACELLULAR calcium, IMMUNOSTAINING, THERAPEUTICS

Abstract

The clinical need for novel bronchodilators for the treatment of bronchoconstrictive diseases remains a major medical issue. Modulation of airway smooth muscle (ASM) chloride via GABAA receptor activation to achieve relaxation of precontracted ASM represents a potentially beneficial therapeutic option. Since human ASM GABAA receptors express only the α4- and α5-subunits, there is an opportunity to selectively target ASM GABAA receptors to improve drug efficacy and minimize side effects. Recently, a novel compound (R)-ethyl8-ethynyl-6-(2-fluorophenyl)-4-methyl-4H-benzo[f]imidazo[1,5-a][1,4] diazepine-3-carboxylate (SH-053-2â€F-R-CH3) with allosteric selectivity for α5-subunit containing GABAA receptors has become available. We questioned whether this novel GABAA α5-selective ligand relaxes ASM and affects intracellular calcium concentration ([Ca2+]i) regulation. Immunohistochemical staining localized the GABAA α5-subunit to human ASM. The selective GABAA α5 ligand SH-053-2â€F-R-CH3 relaxes precontracted intact ASM; increases GABA-activated chloride currents in human ASM cells in voltage-clamp electrophysiology studies; and attenuates bradykinin-induced increases in [Ca2+]i, store-operated Ca2+ entry, and methacholine-induced Ca2+ oscillations in peripheral murine lung slices. In conclusion, selective subunit targeting of endogenous α5-subunit containing GABAA receptors on ASM may represent a novel therapeutic option to treat severe bronchospasm. [ABSTRACT FROM AUTHOR]

Published

2015

61. Effect of nucleus accumbens shell infusions of ganaxolone or gaboxadol on ethanol consumption in mice.

Author

Ramaker, Marcia, Strong-Kaufman, Moriah, Ford, Matthew, Phillips, Tamara, and Finn, Deborah

Subjects

NUCLEUS accumbens, INFUSION therapy, ETHANOL, ALCOHOL drinking, LABORATORY mice, PREGNANOLONE

Abstract

Rationale: Allopregnanolone (ALLO) is an endogenous neuroactive steroid thought to alter the reinforcement value of alcohol (ethanol) due to its actions as a positive modulator of the GABA receptor (GABAR). Extrasynaptic GABARs may be a particularly sensitive target of ethanol and neuroactive steroids. Previous work showed that systemic injections of an ALLO analog, ganaxolone (GAN), or an extrasynaptic GABAR agonist (gaboxadol; THIP) decreased ethanol intake in male mice with limited access to ethanol. Objectives: The present studies tested whether activation of GABARs in the nucleus accumbens (NAc) shell by GAN or THIP was sufficient to reduce ethanol intake. C57BL/6J male mice had 2-h access to 10 % ethanol (10E) and water, and 10E intake was measured following site-specific infusions of GAN or THIP. Results: Decreases in limited-access 10E consumption were observed following site-specific bilateral infusions of either drug into the NAc shell. Significant changes in intake were absent when the drugs were infused in a region dorsal to the target site (GAN) or into the lateral ventricle (THIP). Locomotor data confirmed that the decreases in intake were not due to a sedative effect of the drugs. Conclusions: These data demonstrate the sufficiency of GABAR activation by a positive allosteric modulator or an agonist with selectivity for extrasynaptic GABARs to decrease ethanol consumption in mice. Importantly, more refined GABAR-active targets that decrease ethanol intake may enhance our understanding and ability to treat alcohol use disorders. [ABSTRACT FROM AUTHOR]

Published

2015

62. GABAA Receptor α1 Subunit (Gabra1) Knockout Mice: Review and New Results.

Author

Ye, Gui-Lan, Baker, Kevin B., Mason, Sara M., Zhang, Wandong, Kirkpatrick, Laura, Lanthorn, Thomas H., and Savelieva, Katerina V.

Published

2010

63. Rodent models for nicotine withdrawal.

Author

Chellian, Ranjithkumar, Behnood-Rod, Azin, Bruijnzeel, Dawn M, Wilson, Ryann, Pandy, Vijayapandi, and Bruijnzeel, Adriaan W

Subjects

ELECTRONIC cigarettes, NICOTINE, CIGARETTES, TOBACCO smoke, NICOTINE addiction, SMOKING cessation, DRUG withdrawal symptoms, FLAVOR

Abstract

Background: Animal models are critical to improve our understanding of the neuronal mechanisms underlying nicotine withdrawal. Nicotine dependence in rodents can be established by repeated nicotine injections, chronic nicotine infusion via osmotic minipumps, oral nicotine intake, tobacco smoke exposure, nicotine vapor exposure, and e-cigarette aerosol exposure. The time course of nicotine withdrawal symptoms associated with these methods has not been reviewed in the literature. Aim: The goal of this review is to discuss nicotine withdrawal symptoms associated with the cessation of nicotine, tobacco smoke, nicotine vapor, and e-cigarette aerosol exposure in rats and mice. Furthermore, age and sex differences in nicotine withdrawal symptoms are reviewed. Results: Cessation of nicotine, tobacco smoke, nicotine vapor, and e-cigarette aerosol exposure leads to nicotine withdrawal symptoms such as somatic withdrawal signs, changes in locomotor activity, anxiety- and depressive-like behavior, learning and memory deficits, attention deficits, hyperalgesia, and dysphoria. These withdrawal symptoms are most pronounced within the first week after cessation of nicotine exposure. Anxiety- and depressive-like behavior, and deficits in learning and memory may persist for several months. Adolescent (4–6 weeks old) rats and mice display fewer nicotine withdrawal symptoms than adults (>8 weeks old). In adult rats and mice, females show fewer nicotine withdrawal symptoms than males. The smoking cessation drugs bupropion and varenicline reduce nicotine withdrawal symptoms in rodents. Conclusion: The nicotine withdrawal symptoms that are observed in rodents are similar to those observed in humans. Tobacco smoke and e-cigarette aerosol contain chemicals and added flavors that enhance the reinforcing properties of nicotine. Therefore, more valid animal models of tobacco and e-cigarette use need to be developed by using tobacco smoke and e-cigarette aerosol exposure methods to induce dependence. [ABSTRACT FROM AUTHOR]

Published

2021

64. Probing α4βδ GABAa Receptor Heterogeneity: Differential Regional Effects of a Functionally Selective α4β1δ/α4β3δ Receptor Agonist on Tonic and Phasic Inhibition in Rat Brain

Author

Hoestgaard-Jensen, Kirsten, Dalby, Nils Ole, Krall, Jacob, Hammer, Harriet, Krogsgaard-Larsen, Povl, Frølund, Bente, and Jensen, Anders A.

Subjects

GABA receptors, LABORATORY rats, RECOMBINANT proteins, PROTEIN expression, DENTATE gyrus, PHYSIOLOGY

Abstract

In the present study, the orthosteric GABAA receptor (GABAAR) ligand4,5,6,7-tetrahydroisothiazolo[5,4-c]pyridin-3-ol (Thio-THIP) was found to possess a highly interesting functional profile at recombinant human GABAARS and native rat GABAARS. Whereas Thio-THIP displayed weak antagonist activity at α1,2,5β2,3λ2S and p1 GABAARS and partial agonism at α6β2,3δ GABAARS expressed in Xenopus oocytes, the pronounced agonism exhibited by the compound at α4β1δ and α4β3δ GABAARS was contrasted by its negligible activity at the α4β2δ subtype. To elucidate to which extent this in vitro profile translated into functionality at native GABAARS, we assessed the effects of 100 μM Thio-THIP at synaptic and extrasynaptic receptors in principal cells of four different brain regions by slice electrophys-iology. In concordance with its α6β2,3δ agonism, Thio-THIP evoked robust currents through extrasynaptic GABAARS in cerebellar granule cells. In contrast, the compound did not elicit significant currents in dentate gyrus granule cells or in striatal medium spiny neurons (MSNs), indicating predominant expression of extrasynaptic α4β2δ receptors in these cells. Interestingly, Thio-THIP evoked differential degrees of currents in ventrobasal thalamus neurons, a diversity that could arise from differential expression of extrasynaptic α4βδ subtypes in the cells. Finally, whereas 100 μM Thio-THIP did not affect the synaptic currents in ventrobasal thalamus neurons or striatal MSNs, it reduced the current amplitudes recorded from dentate gyrus granule cells, most likely by targeting perisynaptic α4βδ receptors expressed at distal dendrites of these cells. Being the first published ligand capable of discriminating between β2- and β3- containing receptor subtypes, Thio-THIP could be a valuable tool in explorations of native α4βδ GABAARS. [ABSTRACT FROM AUTHOR]

Published

2014

65. Effect of GABRA2 Genotype on Development of Incentive-Motivation Circuitry in a Sample Enriched for Alcoholism Risk.

Author

Heitzeg, Mary M, Villafuerte, Sandra, Weiland, Barbara J, Enoch, Mary-Anne, Burmeister, Margit, Zubieta, Jon-Kar, and Zucker, Robert A

Subjects

GABA, MOTIVATION (Psychology), ALCOHOLISM risk factors, NUCLEUS accumbens, NEURAL circuitry, FUNCTIONAL magnetic resonance imaging

Abstract

Heightened reactivity of the incentive-motivation system has been proposed to underlie adolescent-typical risky behaviors, including problem alcohol involvement. However, even in adolescence considerable individual variation in these behaviors exists, which may have genetic underpinnings and be related to variations in risk for later alcohol use disorder (AUD). Variants in GABRA2 have been associated with adult alcohol dependence as well as phenotypic precursors, including impulsiveness and externalizing behaviors. We investigated the impact of GABRA2 on the developmental trajectory of nucleus accumbens (NAcc) activation during anticipation of monetary reward from childhood to young adulthood. Functional MRI during a monetary incentive delay task was collected in 175 participants, with the majority (n=151) undergoing repeated scanning at 1- to 2-year intervals. One group entered the study at age 8-13 years (n=76) and another entered at age 18-23 years (n=99). Most participants were children of alcoholics (79%) and thus at heightened risk for AUD. A total of 473 sessions were completed, covering ages 8-27 years. NAcc activation was heightened during adolescence compared with childhood and young adulthood. GABRA2 genotype (SNP rs279858) was associated with individual differences in NAcc activation specifically during adolescence, with the minor allele (G) associated with greater activation. Furthermore, NAcc activation mediated an effect of genotype on alcohol problems (n=104). This work demonstrates an impact of GABRA2 genotype on incentive-motivation neurocircuitry in adolescence, with implications for vulnerability to alcoholism. These findings represent an important step toward understanding the genetic and neural basis of individual differences in how risk for addiction unfolds across development. [ABSTRACT FROM AUTHOR]

Published

2014

66. The Antihypersensitive and Antiinflammatory Activities of a Benzofuranone Derivative in Different Experimental Models in Mice.

Author

de Souza Nunes, Juliana Paula, da Silva, Kathryn Ana Bortolini, da Silva, Gislaine Francieli, Quintão, Nara Lins Meira, Corrêa, Rogério, Cechinel-Filho, Valdir, de Campos-Buzzi, Fátima, and Niero, Rivaldo

Published

2014

67. Loss of BDNF Signaling in D1R-Expressing NAc Neurons Enhances Morphine Reward by Reducing GABA Inhibition.

Author

Koo, Ja Wook, Lobo, Mary Kay, Chaudhury, Dipesh, Labonté, Benoit, Friedman, Allyson, Heller, Elizabeth, Peña, Catherine Jensen, Han, Ming-Hu, and Nestler, Eric J

Subjects

NUCLEUS accumbens, NEURONS, GABA, BRAIN-derived neurotrophic factor, LABORATORY mice

Abstract

The nucleus accumbens (NAc) has a central role in the mechanism of action of drugs of abuse. The major neuronal type within the NAc is the GABAergic medium spiny neuron (MSN), with two major subpopulations defined-termed D1-type and D2-type MSNs-based on the predominant dopamine receptor expressed. However, very little is known about the contribution of altered GABAergic function in NAc MSNs to the neural and behavioral plasticity that contributes to the lasting actions of drugs of abuse. In the present study, we show that GABAergic activity is selectively modulated in D1-type MSNs of the NAc by signaling of brain-derived neurotrophic factor (BDNF) and its receptor, tyrosine receptor kinase B (TrkB), and that such adaptations control rewarding responses to morphine. Optical activation of D1-type MSNs, or the knockout of TrkB from D1-type MSNs (D1-TrkB KO), enhances morphine reward, effects not seen for D2-type MSNs. In addition, D1-TrkB KO mice, but not D2-TrkB KO mice, display decreased GABAA receptor (GABAAR) subunit expression and reduced spontaneous inhibitory postsynaptic currents (sIPSCs) in D1-type, but not D2-type, MSNs in the NAc. Furthermore, we found that GABAAR antagonism in the NAc enhances morphine reward and that morphine exposure decreases TrkB expression as well as GABAergic activity in D1-type MSNs. Together, these data provide evidence for the enhancement of morphine reward through reduction of inhibitory GABAAR responses, an adaptation mediated by morphine-induced reduction of BDNF-TrkB signaling in D1-type MSNs. [ABSTRACT FROM AUTHOR]

Published

2014

68. Effects of the neuroactive steroid allopregnanolone on intracranial self-stimulation in C57BL/6J Mice.

Author

Fish, Eric, Whitman, Buddy, DiBerto, Jeff, Robinson, J., Morrow, A., and Malanga, C.

Subjects

PSYCHOPHARMACOLOGICAL research, PREGNANOLONE, PREGNANE, LABORATORY mice, REWARD (Psychology), REINFORCEMENT (Psychology), BRAIN stimulation, NEURAL stimulation, TRANSCRANIAL direct current stimulation

Abstract

Rationale: The neuroactive steroid (3α,5α)-3-hydroxy-pregnan-20-one (3α,5α-THP, allopregnanolone) has effects on reward-related behaviors in mice and rats that suggest that it may activate brain reward circuits. Intracranial self-stimulation (ICSS) is an operant behavioral technique that detects changes in the sensitivity of brain reward circuitry following drug administration. Objective: To examine the effects of the neuroactive steroid allopregnanolone on ICSS and to compare these effects to those of cocaine. Methods: Male C57BL/6J mice implanted with stimulating electrodes implanted into the medial forebrain bundle responded for reinforcement by electrical stimulation (brain stimulation reward (BSR)). Mice received cocaine ( n = 11, 3.0-30.0 mg/kg, intraperitoneal (i.p.)) or the neuroactive steroid allopregnanolone ( n = 11, 3.0-17.0 mg/kg, i.p.). BSR thresholds ( θ) and maximum (MAX) operant response rates after drug treatments were compared to those after vehicle injections. Results: Cocaine and allopregnanolone dose dependently lowered BSR thresholds relative to vehicle injections. Cocaine was maximally effective (80 % reduction) in the second 15 min following the 30 mg/kg dose, while allopregnanolone was maximally effective (30 % reduction) 15-45 min after the 17 mg/kg dose. Neither drug had significant effects on MAX response rates. Conclusions: The effects of allopregnanolone on BSR thresholds are consistent with the previously reported effects of benzodiazepines and alcohol, suggesting that positive modulation of GABA receptors can facilitate reward-related behaviors in C57BL/6J mice. [ABSTRACT FROM AUTHOR]

Published

2014

69. A Leptin-Mediated Central Mechanism in Analgesia- Enhanced Opioid Reward in Rats.

Author

Lim, Grewo, Hyangin Kim, McCabe, Michael F., Chiu-Wen Chou, Shuxing Wang, Chen, Lucy L., Marota, John J. A., Blood, Anne, Breiter, Hans C., and Jianren Mao

Subjects

OPIOID analgesics, LEPTIN, DOPAMINE receptors, NUCLEUS accumbens, INTERLEUKIN-1, CHRONIC pain, LABORATORY rats

Abstract

Opioid analgesics are commonly used in chronic pain management despite a potential risk of rewarding. However, it remains unclear whether opioid analgesia would enhance the opioid rewarding effect thereby contributing to opioid rewarding. Utilizing a rat paradigm of conditioned place preference (CPP) combined with ankle monoarthritis as a condition of persistent nociception, we showed that analgesia induced by either morphine or the nonsteroid anti-inflammatory drug ibuprofen increased CPP scores in arthritic rats, suggesting that analgesia itself had a rewarding effect. However, arthritic rats exhibited a significantly higher CPP score in response to morphine than ibuprofen. Thus, the rewarding effect of morphine was enhanced in the presence of persistent nociception, producing a phenomenon of analgesia-enhanced opioid reward. At the cellular level, administration of morphine activated a cascade of leptin expression, glial activation, and dopamine receptor upregulation in the nucleus accumbens (NAc), while administration of ibuprofen decreased glial activation with no effect on leptin expression in the NAc. Furthermore, the morphine rewarding effect was blocked in leptin deficient ob/ob mice or by neutralizing leptin or interleukin-1β in the NAc without diminishing morphine analgesia. The data indicate that systemic opioid can activate a leptin-mediated central mechanism in the NAc that led to the enhanced opioid rewarding effect. These findings provide evidence for an interaction between opioid analgesia and opioid rewarding, which may have implications in clinical opioid dose escalation in chronic pain management. [ABSTRACT FROM AUTHOR]

Published

2014

70. Decreased pain threshold and enhanced synaptic transmission in the anterior cingulate cortex of experimental hypothyroidism mice.

Author

Jun Yi, Jian-yong Zheng, Wei Zhang, Shan Wang, Zhi-fu Yang, and Ke-feng Dou

Subjects

THYROID hormones, PAIN, PAIN threshold, NEURAL transmission, HYPOTHYROIDISM, PERCHLORATES, TRIIODOTHYRONINE, THYROXINE

Abstract

Background Thyroid hormones are essential for the maturation and functions of the central nervous system. Pain sensitivity is related to the thyroid status. However, information on how thyroid hormones affect pain processing and synaptic transmission in the anterior cingulate cortex (ACC) is limited. Nociceptive threshold and synaptic transmission in the ACC were detected in the experimental hypothyroidism (HT) mice. Results HT was induced by methimazole and potassium perchlorate in distilled drinking water for 4 weeks. The threshold of pain perception to hot insults, but not mechanical ones, decreased in hypothyroid mice. After treatment with tri-iodothyronine (T3) or thyroxine (T4) for 2 weeks, thermal pain threshold recovered. Electrophysiological recordings revealed enhanced glutamatergic synaptic transmission and reduced GABAergic synaptic transmission in the ACC. Supplementation with T3 or T4 significantly rescued this synaptic transmission imbalance. In the same model, HT caused the up-regulation of the GluR1 subunit of the α- amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptor and NR2B-containing Nmethyl- D-aspartate receptors, but it down-regulated γ-aminobutyric acid A receptors in the ACC. Supplementation with T3 or T4 notably recovered the levels of above proteins. Conclusions These results suggest that HT promotes hypersensitivity to noxious thermal, and that supplementation with T3 or T4 rescues the imbalance between excitatory and inhibitory transmission in the ACC. [ABSTRACT FROM AUTHOR]

Published

2014

71. Examination of Genetic Variation in GABRA2 with Conduct Disorder and Alcohol Abuse and Dependence in a Longitudinal Study.

Author

Melroy, Whitney, Stephens, Sarah, Sakai, Joseph, Kamens, Helen, McQueen, Matthew, Corley, Robin, Stallings, Michael, Hopfer, Christian, Krauter, Kenneth, Brown, Sandra, Hewitt, John, and Ehringer, Marissa

Subjects

LONGITUDINAL method, AMINOBUTYRIC acid, NUCLEOTIDES, GENETIC polymorphisms, AMINO acids

Abstract

Previous studies have shown associations between single nucleotide polymorphisms (SNPs) in gamma aminobutyric acid receptor alpha 2 ( GABRA2) and adolescent conduct disorder (CD) and alcohol dependence in adulthood, but not adolescent alcohol dependence. The present study was intended as a replication and extension of this work, focusing on adolescent CD, adolescent alcohol abuse and dependence (AAD), and adult AAD. Family based association tests were run using Hispanics and non-Hispanic European American subjects from two independent longitudinal samples. Although the analysis provided nominal support for an association with rs9291283 and AAD in adulthood and CD in adolescence, the current study failed to replicate previous associations between two well replicated GABRA2 SNPs and CD and alcohol dependence. Overall, these results emphasize the utility of including an independent replication sample in the study design, so that the results from an individual sample can be weighted in the context of its reproducibility. [ABSTRACT FROM AUTHOR]

Published

2014

72. Selective modulation of GABAergic tonic current by dopamine in the nucleus accumbens of alcohol-dependent rats.

Author

Jing Liang, Marty, Vincent N., Mulpuri, Yatendra, Olsen, Richard W., and Spigelman, Igor

Subjects

GABA agents, DOPAMINE receptors, NUCLEUS accumbens, PHYSIOLOGICAL effects of alcohol, CELLULAR signal transduction, POSTSYNAPTIC potential, LABORATORY rats

Abstract

The nucleus accumbens (NAcc) is a key structure of the mesolimbic dopaminergic reward system and plays an important role in mediating alcoholseeking behaviors. Alterations in glutamatergic and GABAergic signaling were recently demonstrated in the NAcc of rats after chronic intermittent ethanol (CIE) treatment, a model of alcohol dependence. Here we studied dopamine (DA) modulation of GABAergic signaling and how this modulation might be altered by CIE treatment. We show that the tonic current (Itonic) mediated by extrasynaptic γ-aminobutyric acid type A receptors (GABAARs) of medium spiny neurons (MSNs) in the NAcc core is differentially modulated by DA at concentrations in the range of those measured in vivo (0.01-1 µM), without affecting the postsynaptic kinetics of miniature inhibitory postsynaptic currents (mIPSCs). Use of selective D1 receptor (D1R) and D2 receptor (D2R) ligands revealed that Itonic potentiation by DA (10 nM) is mediated by D1Rs while Itonic depression by DA (0.03-1 µM) is mediated by D2Rs in the same MSNs. Addition of guanosine 5'-O-(2-thiodiphosphate) (GDPβS) to the recording pipettes eliminated Itonic decrease by the selective D2R agonist quinpirole (5 nM), leaving intact the quinpirole effect on mIPSC frequency. Recordings from CIE and vehicle control (CIV) MSNs during application of D1R agonist (SKF 38393, 100 nM) or D2R agonist (quinpirole, 2 nM) revealed that SKF 38393 potentiated Itonic to the same extent, while quinpirole reduced Itonic to a similar extent, in both groups of rats. Our data suggest that the selective modulatory effects of DA on Itonic are unaltered by CIE treatment and withdrawal. [ABSTRACT FROM AUTHOR]

Published

2014

73. Neural Basis of Benzodiazepine Reward: Requirement for α2 Containing GABAA Receptors in the Nucleus Accumbens.

Author

Engin, Elif, Bakhurin, Konstantin I, Smith, Kiersten S, Hines, Rochelle M, Reynolds, Lauren M, Tang, Wannan, Sprengel, Rolf, Moss, Stephen J, and Rudolph, Uwe

Subjects

BENZODIAZEPINE receptors, BENZODIAZEPINE agonists, GABA, AMINO acid neurotransmitters, HISTIDINE kinase genetics, PHYSIOLOGY

Abstract

Despite long-standing concerns regarding the abuse liability of benzodiazepines, the mechanisms underlying properties of benzodiazepines that may be relevant to abuse are still poorly understood. Earlier studies showed that compounds selective for α1-containing GABAA receptors (α1GABAARs) are abused by humans and self-administered by animals, and that these receptors may underlie a preference for benzodiazepines as well as neuroplastic changes observed in the ventral tegmental area following benzodiazepine administration. There is some evidence, however, that even L-838, 417, a compound with antagonistic properties at α1GABAARs and agonistic properties at the other three benzodiazepine-sensitive GABAA receptor subtypes, is self-administered, and that the α2GABAARs may have a role in benzodiazepine-induced reward enhancement. Using a two-bottle choice drinking paradigm to evaluate midazolam preference and an intracranial self-stimulation (ICSS) paradigm to evaluate the impact of midazolam on reward enhancement, we demonstrated that mice carrying a histidine-to-arginine point mutation in the α2 subunit which renders it insensitive to benzodiazepines (α2(H101R) mice) did not prefer midazolam and did not show midazolam-induced reward enhancement in ICSS, in contrast to wild-type controls, suggesting that α2GABAARs are necessary for the reward enhancing effects and preference for oral benzodiazepines. Through a viral-mediated knockdown of α2GABAARs in the nucleus accumbens (NAc), we demonstrated that α2 in the NAc is necessary for the preference for midazolam. Findings imply that α2GABAARs in the NAc are involved in at least some reward-related properties of benzodiazepines, which might partially underlie repeated drug-taking behavior. [ABSTRACT FROM AUTHOR]

Published

2014

74. Novel QTL at chromosome 6p22 for alcohol consumption: Implications for the genetic liability of alcohol use disorders.

Author

Kos, Mark Z., Glahn, David C., Carless, Melanie A., Olvera, Rene, McKay, D. Reese, Quillen, Ellen E., Gelernter, Joel, Chen, Xiang‐Ding, Deng, Hong‐Wen, Kent, Jack W., Dyer, Thomas D., Göring, Harald H.H., Curran, Joanne E., Duggirala, Ravi, Blangero, John, and Almasy, Laura

Published

2014

75. Extrasynaptic Glycine Receptors of Rodent Dorsal Raphe Serotonergic Neurons: A Sensitive Target for Ethanol.

Author

Maguire, Edward P, Mitchell, Elizabeth A, Greig, Scott J, Corteen, Nicole, Balfour, David J K, Swinny, Jerome D, Lambert, Jeremy J, and Belelli, Delia

Subjects

ALCOHOLISM, NEUROTRANSMITTERS, IMMUNOHISTOCHEMISTRY, NEURONS, STRYCHNINE, TAURINE

Abstract

Alcohol abuse is a significant medical and social problem. Several neurotransmitter systems are implicated in ethanol's actions, with certain receptors and ion channels emerging as putative targets. The dorsal raphe (DR) nucleus is associated with the behavioral actions of alcohol, but ethanol actions on these neurons are not well understood. Here, using immunohistochemistry and electrophysiology we characterize DR inhibitory transmission and its sensitivity to ethanol. DR neurons exhibit inhibitory 'phasic' post-synaptic currents mediated primarily by synaptic GABAA receptors (GABAAR) and, to a lesser extent, by synaptic glycine receptors (GlyR). In addition to such phasic transmission mediated by the vesicular release of neurotransmitter, the activity of certain neurons may be governed by a 'tonic' conductance resulting from ambient GABA activating extrasynaptic GABAARs. However, for DR neurons extrasynaptic GABAARs exert only a limited influence. By contrast, we report that unusually the GlyR antagonist strychnine reveals a large tonic conductance mediated by extrasynaptic GlyRs, which dominates DR inhibition. In agreement, for DR neurons strychnine increases their input resistance, induces membrane depolarization, and consequently augments their excitability. Importantly, this glycinergic conductance is greatly enhanced in a strychnine-sensitive fashion, by behaviorally relevant ethanol concentrations, by drugs used for the treatment of alcohol withdrawal, and by taurine, an ingredient of certain 'energy drinks' often imbibed with ethanol. These findings identify extrasynaptic GlyRs as critical regulators of DR excitability and a novel molecular target for ethanol. [ABSTRACT FROM AUTHOR]

Published

2014

76. Efficacy and gastrointestinal tolerability of ML3403, a selective inhibitor of p38 MAP kinase and CBS-3595, a dual inhibitor of p38 MAP kinase and phosphodiesterase 4 in CFA-induced arthritis in rats.

Author

Koch, Diana A., Silva, Rodrigo B. M., de Souza, Alessandra H., Leite, Carlos E., Nicoletti, Natália F., Campos, Maria M., Laufer, Stefan, and Morrone, Fernanda B.

Subjects

DRUG therapy for arthritis, INFLAMMATION prevention, LIVER, ACADEMIC medical centers, ANALYSIS of variance, ANIMAL experimentation, BIOLOGICAL models, BLOOD testing, HEALTH outcome assessment, RATS, RESEARCH funding, RHEUMATOID arthritis, SAFETY, STATISTICS, DATA analysis, TREATMENT effectiveness, DATA analysis software, PHARMACODYNAMICS, INVESTIGATIONAL drugs, ANATOMY, THERAPEUTICS

Abstract

Objective. Mitogen-activated protein kinase (MAPK) p38 inhibitors have entered the clinical phase, although many of them have failed due to high toxicity and lack of efficacy. In the present study we compared the effects of the selective p38 inhibitor ML3403 and the dual p38–PDE4 inhibitor CBS-3595, on inflammatory and nociceptive parameters in a model of polyarthritis in rats.Methods. Male Wistar rats (180–200 g) were used for the complete Freund’s adjuvant (CFA)-induced arthritis model and they were evaluated at 14–21 days. We also analysed the effects of these pharmacological tools on liver and gastrointestinal toxicity and on cytokine levels.Results. Repeated CBS-3595 (3 mg/kg) or ML3403 (10 mg/kg) administration produced significant anti-inflammatory actions in the chronic arthritis model induced by CFA. CBS-3595 and ML3403 treatment also markedly reduced the production of the proinflammatory cytokine IL-6 in the paw tissue, whereas it widely increased the levels of the anti-inflammatory cytokine IL-10. Moreover, CBS-3595 produced partial anti-allodynic effects in the CFA model at 4 and 8 days after treatment. Notably, ML3403 and CBS-3595 did not show marked signs of hepatoxicity, as supported by unaltered histological observations in the liver sections. Finally, both compounds were safe in the gastrointestinal tract, according to evaluation of intestinal biopsies.Conclusion. CBS-3595 displayed a superior profile regarding its anti-inflammatory effects. Thus p38 MAPK/PDE4 blocking might well constitute a relevant strategy for the treatment of RA. [ABSTRACT FROM AUTHOR]

Published

2014

77. Tonic Inhibition of Accumbal Spiny Neurons by Extrasynaptic α4βδ GABAA Receptors Modulates the Actions of Psychostimulants.

Author

Maguire, Edward P., Macpherson, Tom, Swinny, Jerome D., Dixon, Claire I., Herd, Murray B., Belelli, Delia, Stephens, David N., King, Sarah L., and Lambert, Jeremy J.

Subjects

SYNAPSES, GABA receptors, NEURONS, COCAINE, AMPHETAMINES

Abstract

Within the nucleus accumbens (NAc), synaptic GABAA receptors (GABAARs) mediate phasic inhibition of medium spiny neurons (MSNs) and influence behavioral responses to cocaine. We demonstrate that both dopamine D1- and D2-receptor-expressing MSNs (D-MSNs) additionally harbor extrasynaptic GABAARs incorporating α4, β, and δ subunits that mediate tonic inhibition, thereby influencing neuronal excitability. Both the selective δ-GABAAR agonist THIP and DS2, a selective positive allosteric modulator, greatly increased the tonic current of all MSNs from wild-type (WT), but not from δ-/- or α4-/- mice. Coupling dopamine and tonic inhibition, the acute activation of D1 receptors (by a selective agonist or indirectly by amphetamine) greatly enhanced tonic inhibition in D1-MSNs but not D2-MSNs. In contrast, prolonged D2 receptor activation modestly reduced the tonic conductance of D2-MSNs. Behaviorally, WT and constitutive α4-/- mice did not differ in their expression of cocaine-conditioned place preference (CPP). Importantly, however, mice with the α4 deletion specific to D1-expressing neurons (α4D1-/-) showed increased CPP. Furthermore, THIP administered systemically or directly into the NAc of WT, but not α4-/- or α4D1-/- mice, blocked cocaine enhancement of CPP. In comparison, α4D2-/- mice exhibited normal CPP, but no cocaine enhancement. In conclusion, dopamine modulation of GABAergic tonic inhibition of D1- and D2-MSNs provides an intrinsic mechanism to differentially affect their excitability in response to psychostimulants and thereby influence their ability to potentiate conditioned reward. Therefore, α4βδ GABAARs may represent a viable target for the development of novel therapeutics to better understand and influence addictive behaviors. [ABSTRACT FROM AUTHOR]

Published

2014

78. Butyrylcholinesterase Genetic Variants: Association with Cocaine Dependence and Related Phenotypes.

Author

Negrão, André Brooking, Pereira, Alexandre Costa, Guindalini, Camila, Santos, Hadassa Campos, Messas, Guilherme Peres, Laranjeira, Ronaldo, and Vallada, Homero

Subjects

BUTYRYLCHOLINESTERASE, HUMAN genetic variation, COCAINE abuse, HUMAN phenotype, NEUROPLASTICITY, DISEASE susceptibility, GENETIC polymorphisms

Abstract

Objective: The search for genetic vulnerability factors in cocaine dependence has focused on the role that neuroplasticity plays in addiction. However, like many other drugs, the ability of an individual to metabolize cocaine can also influence susceptibility to dependence. Butyrylcholinesterase (BChE) metabolizes cocaine, and genetic variants of the BChE gene (BCHE) alter its catalytic activity. Therefore, we hypothesize that cocaine users with polymorphisms in BCHE can show diverse addictive behaviors due to differences in effective plasma concentrations of cocaine. Those polymorphisms might also influence users to prefer one of the two main preparations (crack or powder cocaine), despite having equal access to both. The present work investigates polymorphisms in BCHE and if those genetic variants constitute risk factors for cocaine dependence and for crack cocaine use. Methods: A total of 1,436 individuals (698 cocaine-dependent patients and 738 controls) were genotyped for three single nucleotide polymorphisms (SNPs) in BCHE: rs1803274, rs4263329, and rs4680662. Results: For rs4263329, a nominal difference was found between cases and controls. For rs1803274 (the functional SNP), a statistically significant difference was found between patients who used crack cocaine exclusively and those who used only powder cocaine (P = 0.027; OR = 4.36; 95% CI = 1.18–16.04). Allele frequencies and genotypes related to other markers did not differ between cases and controls or between the two cocaine subgroups. Conclusions: Our findings suggest that the AA genotype of rs1803274 is a risk factor for crack cocaine use, which is more addictive than powder cocaine use. Further studies are needed in order to confirm this preliminary result and clarify the role of BCHE and its variants in cocaine dependence. [ABSTRACT FROM AUTHOR]

Published

2013

79. Accumbal and pallidal dopamine, glutamate and GABA overflow during cocaine self-administration and its extinction in rats.

Author

Wydra, Karolina, Golembiowska, Krystyna, Zaniewska, Magdalena, Kamińska, Katarzyna, Ferraro, Luca, Fuxe, Kjell, and Filip, Małgorzata

Subjects

DOPAMINE, GLUTAMIC acid, GABA, COCAINE, LABORATORY rats, MICRODIALYSIS, NEUROTRANSMITTERS, NUCLEUS accumbens

Abstract

We investigated the changes in dopamine ( DA), glutamate and γ-aminobutyric acid ( GABA) during cocaine self-administration in rats implanted with guide cannulae into the nucleus accumbens and ventral pallidum. After stabilized cocaine self-administration, separate groups of rats underwent extinction (10 days) procedure in which cocaine infusion was replaced by saline injections. With using a 'yoked' procedure, the effects of cocaine or its withdrawal on the level of neurotransmitters were evaluated by dual-probe microdialysis. Repeated cocaine administration reduced basal glutamate levels in the nucleus accumbens and ventral pallidum, whereas it did not affect basal accumbal DA levels. Only rats that self-administered cocaine had increased basal GABA overflow in both examined brain structures. Active or passive cocaine administration elevated extracellular accumbal DA, however, the extent of cocaine-evoked DA level was significantly higher in rats that self-administered cocaine while both groups of animals showed also an attenuation of GABA level in the nucleus accumbens. On day 10 of extinction training, rats previously given cocaine revealed decreases in the basal accumbal concentration of glutamate while the basal GABA levels were significantly enhanced as compared with baseline of saline-yoked controls. Potassium depolarization delayed the reduction of the accumbal and pallidal extracellular glutamate levels in the active and passive cocaine groups. The present data indicate that changes in DA and GABA neurotransmission during maintenance phase mirror the motivational aspects of cocaine intake. Depending on acute (24 hours) or late (10 days) cocaine withdrawal, different neurotransmitter systems (i.e. glutamate or GABA) seem to be involved. [ABSTRACT FROM AUTHOR]

Published

2013

80. NAD+ cellular redox and SIRT1 regulate the diurnal rhythms of tyrosine hydroxylase and conditioned cocaine reward.

Author

Logan RW, Parekh PK, Kaplan GN, Becker-Krail DD, Williams WP 3rd, Yamaguchi S, Yoshino J, Shelton MA, Zhu X, Zhang H, Waplinger S, Fitzgerald E, Oliver-Smith J, Sundarvelu P, Enwright JF 3rd, Huang YH, and McClung CA

Subjects

Animals, Brain metabolism, CLOCK Proteins genetics, CLOCK Proteins metabolism, Circadian Rhythm genetics, Cocaine metabolism, Conditioning, Operant physiology, Conditioning, Psychological physiology, Male, Mice, Mice, Inbred BALB C, NAD metabolism, Neurons metabolism, Nucleus Accumbens metabolism, Oxidation-Reduction, Reward, Sirtuin 1 physiology, Tyrosine 3-Monooxygenase physiology, Ventral Tegmental Area metabolism, Circadian Rhythm physiology, Sirtuin 1 metabolism, Tyrosine 3-Monooxygenase metabolism

Abstract

The diurnal regulation of dopamine is important for normal physiology and diseases such as addiction. Here we find a novel role for the CLOCK protein to antagonize CREB-mediated transcriptional activity at the tyrosine hydroxylase (TH) promoter, which is mediated by the interaction with the metabolic sensing protein, Sirtuin 1 (SIRT1). Additionally, we demonstrate that the transcriptional activity of TH is modulated by the cellular redox state, and daily rhythms of redox balance in the ventral tegmental area (VTA), along with TH transcription, are highly disrupted following chronic cocaine administration. Furthermore, CLOCK and SIRT1 are important for regulating cocaine reward and dopaminergic (DAergic) activity, with interesting differences depending on whether DAergic activity is in a heightened state and if there is a functional CLOCK protein. Taken together, we find that rhythms in cellular metabolism and circadian proteins work together to regulate dopamine synthesis and the reward value for drugs of abuse.

Published

2019

81. Human microdose evaluation of the novel EP1 receptor antagonist GSK269984A.

Author

Ostenfeld, Thor, Beaumont, Claire, Bullman, Jonathan, Beaumont, Maria, and Jeffrey, Phillip

Subjects

PHARMACOKINETICS, PROSTAGLANDIN E1, MEDICAL decision making, LIQUID chromatography-mass spectrometry, SOLID phase extraction

Abstract

WHAT IS ALREADY KNOWN ABOUT THIS SUBJECT • The microdose administration of novel drug candidates to humans in early development is currently undergoing evaluation as a cost-efficient approach to the early assessment of pharmacokinetics (PK) before the commitment of resources required to support formal phase 1 studies. • The microdose approach assumes that PK can be extrapolated linearly over the full range of exposures achieved with sub-pharmacological doses up to the therapeutic dose range. • Few microdose studies have been undertaken in the context of pharmaceutical drug development and their precise role in the selection of candidates for further clinical evaluation at therapeutic doses has yet to be fully substantiated. WHAT THIS STUDY ADDS • The present study describes the elective application of a human microdose study with a novel EP1 receptor antagonist, GSK269984A, to address a critical development liability posed by uncertainty with respect to the predicted human PK profile. • Microdose data revealed a favourable PK profile, consistent with a clinically acceptable dosing regimen. These data support the value of undertaking a microdose study early in the drug discovery process to facilitate risk evaluation and to enable decision-making. AIM The primary objective was to evaluate the pharmacokinetics (PK) of the novel EP1 antagonist GSK269984A in human volunteers after a single oral and intravenous (i.v.) microdose (100 µg). METHOD GSK269984A was administered to two groups of healthy human volunteers as a single oral ( n= 5) or i.v. ( n= 5) microdose (100 µg). Blood samples were collected for up to 24 h and the parent drug concentrations were measured in separated plasma using a validated high pressure liquid chromatography-tandem mass spectrometry method following solid phase extraction. RESULTS Following the i.v. microdose, the geometric mean values for clearance (CL), steady-state volume of distribution ( Vss) and terminal elimination half-life ( t1/2) of GSK269984A were 9.8 l h−1, 62.8 l and 8.2 h. Cmax and AUC(0,∞) were 3.2 ng ml−1 and 10.2 ng ml−1 h, respectively; the corresponding oral parameters were 1.8 ng ml−1 and 9.8 ng ml−1 h, respectively. Absolute oral bioavailability was estimated to be 95%. These data were inconsistent with predictions of human PK based on allometric scaling of in vivo PK data from three pre-clinical species (rat, dog and monkey). CONCLUSION For drug development programmes characterized by inconsistencies between pre-clinical in vitro metabolic and in vivo PK data, and where uncertainty exists with respect to allometric predictions of the human PK profile, these data support the early application of a human microdose study to facilitate the selection of compounds for further clinical development. [ABSTRACT FROM AUTHOR]

Published

2012

82. GABAergic Control of Critical Developmental Periods for Anxiety- and Depression-Related Behavior in Mice.

Author

Qiuying Shen, Fuchs, Thomas, Sahir, Nadia, and Luscher, Bernhard

Subjects

ANXIETY, NEURAL transmission, GENES, DIAZEPAM, MICE

Abstract

Vulnerability for anxiety and depressive disorders is thought to have origins in early life and is increasingly recognized to involve deficits in GABAergic neurotransmission. Mice that were rendered heterozygous for the γ2 subunit gene of GABAA receptors (GABAARs) show behavioral, cognitive, neuroendocrine and pharmacologic features expected of a mouse model of melancholic anxious depression, including reduced survival of adult-born hippocampal neurons. Here we embarked on elucidating the developmental substrate underlying this phenotype, focusing on the Elevated Plus Maze and Forced Swim Test as relevant behavioral paradigms. In a first series of experiments using hemizygous tamoxifen-induced genetic inactivation of a floxed γ2 genomic locus we show that reducing the gene dosage at postnatal days (P)13/14 but not P27/28 results in altered behavior in both of these tests in adulthood, reminiscent of the anxious-depressive phenotype previously described for global heterozygous mice. However, in contrast to global heterozygous mice, the behavioral changes induced by γ2 subunit knockdown at P13/14 occurred without changes in adult hippocampal neurogenesis, indicating that altered neurogenesis is not an absolute prerequisite for anxiety- and depression-related behavior in this model. In a separate series of experiments using a pharmacological approach, acute but transient potentiation of GABAARs with diazepam uncovered distinct developmental vulnerabilities for altered behavior in the Elevated Plus Maze and Forced Swim Test, respectively. Specifically, diazepam given during P10-16 but not during later weeks resulted in increased anxiety-like behavior in adulthood, while diazepam administered during P29-35 but not earlier nor later resulted in increased immobility behavior in adulthood. We conclude that anxiety-like behavior in the Elevated Plus Maze and behavioral despair-like immobility in the Forced Swim Test are controlled by separate postnatal critical periods characterized by distinct developmental sensitivity to manipulation of GABAergic transmission via γ2 subunit-containing GABAARs. [ABSTRACT FROM AUTHOR]

Published

2012

83. Deletion of the gabra2Gene Results in Hypersensitivity to the Acute Effects of Ethanol but Does Not Alter Ethanol Self Administration.

Author

Dixon, Claire I., Walker, Sophie E., King, Sarah L., and Stephens, David N.

Subjects

HUMAN genetics, GENETIC polymorphisms, ETHANOL, SEDATIVES, GENES, PHARMACOKINETICS

Abstract

Human genetic studies have suggested that polymorphisms of the GABRA2 gene encoding the GABAA α2-subunit are associated with ethanol dependence. Variations in this gene also convey sensitivity to the subjective effects of ethanol, indicating a role in mediating ethanol-related behaviours. We therefore investigated the consequences of deleting the α2-subunit on the ataxic and rewarding properties of ethanol in mice. Ataxic and sedative effects of ethanol were explored in GABAA α2-subunit wildtype (WT) and knockout (KO) mice using a Rotarod apparatus, wire hang and the duration of loss of righting reflex. Following training, KO mice showed shorter latencies to fall than WT littermates under ethanol (2 g/kg i.p.) in both Rotarod and wire hang tests. After administration of ethanol (3.5 g/kg i.p.), KO mice took longer to regain the righting reflex than WT mice. To ensure the acute effects are not due to the gabra2 deletion affecting pharmacokinetics, blood ethanol concentrations were measured at 20 minute intervals after acute administration (2 g/kg i.p.), and did not differ between genotypes. To investigate ethanol's rewarding properties, WT and KO mice were trained to lever press to receive increasing concentrations of ethanol on an FR4 schedule of reinforcement. Both WT and KO mice self-administered ethanol at similar rates, with no differences in the numbers of reinforcers earned. These data indicate a protective role for α2- subunits, against the acute sedative and ataxic effects of ethanol. However, no change was observed in ethanol self administration, suggesting the rewarding effects of ethanol remain unchanged. [ABSTRACT FROM AUTHOR]

Published

2012

84. Gait Analysis in Rats with Single Joint Inflammation: Influence of Experimental Factors.

Author

Möller, Kristina Ängeby, Kinert, Susanne, Størkson, Rolf, and Berge, Odd-Geir

Subjects

JOINT diseases, DISABILITIES, PAIN, WEIGHT-bearing (Orthopedics), LOCOMOTION, INFLAMMATION

Abstract

Disability and movement-related pain are major symptoms of joint disease, motivating the development of methods to quantify motor behaviour in rodent joint pain models. We used observational scoring and automated methods to compare weight bearing during locomotion and during standing after single joint inflammation induced by Freund's complete adjuvant (0.12-8.0 mg/mL) or carrageenan (0.47-30 mg/mL). Automated gait analysis was based on video capture of prints generated by light projected into the long edge of the floor of a walkway, producing an illuminated image of the contact area of each paw with light intensity reflecting the contact pressure. Weight bearing was calculated as an area-integrated paw pressure, that is, the light intensity of all pixels activated during the contact phase of a paw placement. Automated static weight bearing was measured with the Incapacitance tester. Pharmacological sensitivity of weight-bearing during locomotion was tested in carrageenan-induced monoarthritis by administration of the commonly used analgesics diclofenac, ibuprofen, and naproxen, as well as oxycodone and paracetamol. Observational scoring and automated quantification yielded similar results. We found that the window between control rats and monoarthritic rats was greater during locomotion. The response was more pronounced for inflammation in the ankle as compared to the knee, suggesting a methodological advantage of using this injection site. The effects of both Freund's complete adjuvant and carrageenan were concentration related, but Freund's incomplete adjuvant was found to be as effective as lower, commonly used concentrations of the complete adjuvant. The results show that gait analysis can be an effective method to quantify behavioural effects of single joint inflammation in the rat, sensitive to analgesic treatment. [ABSTRACT FROM AUTHOR]

Published

2012

85. Differential Roles of GABAA Receptor Subtypes in Benzodiazepine-Induced Enhancement of Brain-Stimulation Reward.

Author

Reynolds, Lauren M, Engin, Elif, Tantillo, Gabriella, Lau, Hew Mun, Muschamp, John W, Carlezon, William A, and Rudolph, Uwe

Subjects

BENZODIAZEPINES, BRAIN stimulation, GABA receptors, ARGININE, COCAINE

Abstract

Benzodiazepines such as diazepam are widely prescribed as anxiolytics and sleep aids. Continued use of benzodiazepines, however, can lead to addiction in vulnerable individuals. Here, we investigate the neural mechanisms of the behavioral effects of benzodiazepines using the intracranial self-stimulation (ICSS) test, a procedure with which the reward-enhancing effects of these drugs can be measured. Benzodiazepines bind nonselectively to several different GABAA receptor subtypes. To elucidate the α subunit(s) responsible for the reward-enhancing effects of benzodiazepines, we examined mice carrying a histidine-to-arginine point mutation in the α1, α2, or α3 subunit, which renders the targeted subunit nonresponsive to diazepam, other benzodiazepines and zolpidem. In wild-type and α1-point-mutated mice, diazepam caused a dose-dependent reduction in ICSS thresholds (reflecting a reward-enhancing effect) that is comparable to the reduction observed following cocaine administration. This effect was abolished in α2- and α3-point-mutant mice, suggesting that these subunits are necessary for the reward-enhancing action of diazepam. α2 Subunits appear to be particularly important, since diazepam increased ICSS thresholds (reflecting an aversive-like effect) in α2-point-mutant animals. Zolpidem, an α1-preferring benzodiazepine-site agonist, had no reward-enhancing effects in any genotype. Our findings implicate α2 and α3 subunit containing GABAA receptors as key mediators of the reward-related effects of benzodiazepines. This finding has important implications for the development of new medications that retain the therapeutic effects of benzodiazepines but lack abuse liability. [ABSTRACT FROM AUTHOR]

Published

2012

86. Toward a unified model of developmental timing: A "molting" approach.

Author

Monsalve, Gabriela C. and Frand, Alison R.

Subjects

MOLTING, CAENORHABDITIS elegans, EPITHELIAL cells, STEM cells, NUCLEAR receptors (Biochemistry), CIRCADIAN rhythms, MICRORNA

Abstract

Animal development requires temporal coordination between recurrent processes and sequential events, but the underlying timing mechanisms are not yet understood. The molting cycle of C. elegans provides an ideal system to study this basic problem. We recently characterized LIN-42, which is related to the circadian clock protein PERIOD, as a key component of the developmental timer underlying rhythmic molting cycles. In this context, LIN-42 coordinates epithelial stem cell dynamics with progression of the molting cycle. Repeated actions of LIN-42 may enable the reprogramming of seam cell temporal fates, while stage-specific actions of LIN-42 and other heterochronic genes select fates appropriate for upcoming, rather than passing, life stages. Here, we discuss the possible configuration of the molting timer, which may include interconnected positive and negative regulatory loops among lin-42, conserved nuclear hormone receptors such as NHR-23 and -25, and the let-7 family of microRNAs. Physiological and environmental conditions may modulate the activities of particular components of this molting timer. Finding that LIN-42 regulates both a sleep-like behavioral state and epidermal stem cell dynamics further supports the model of functional conservation between LIN-42 and mammalian PERIOD proteins. The molting timer may therefore represent a primitive form of a central biological clock and provide a general paradigm for the integration of rhythmic and developmental processes. [ABSTRACT FROM AUTHOR]

Published

2012

87. Cocaine self-administration behaviors in ClockΔ19 mice.

Author

Ozburn, Angela, Larson, Erin, Self, David, and McClung, Colleen

Subjects

COCAINE abuse, DRUG administration, CIRCADIAN rhythms, GENETIC regulation, GENETIC mutation, PHENOTYPES, LABORATORY mice

Abstract

Rationale: A key role has been identified for the circadian locomotor output cycles kaput ( Clock) gene in the regulation of drug reward. Mice bearing a dominant negative mutation in the Clock gene ( ClockΔ19 mice) exhibit increased cocaine-induced conditioned place preference, reduced anxiety- and depression-like behavior, increased sensitivity to intracranial self-stimulation, and increased dopaminergic cell activity in the ventral tegmental area. Objectives: We sought to determine if this hyperhedonic phenotype extends to cocaine self-administration and measures of motivation. Methods: Two separate serial testing procedures were carried out ( n = 7-10/genotype/schedule). Testing began with acquisition of sucrose pellet self-administration, implantation of intravenous catheter, acquisition of cocaine self-administration, and dose-response testing (fixed ratio or progressive ratio). To evaluate diurnal variations in acquisition behavior, these sessions occurred at Zeitgeber 2 (ZT2) or ZT14. Results: WT and ClockΔ19 mice exhibited similar learning and readily acquired food self-administration at both ZT2 and ZT14. However, only ClockΔ19 mice acquired cocaine self-administration at ZT2. A greater percentage of ClockΔ19 mice reached acquisition criteria at ZT2 and ZT14. ClockΔ19 mice self-administered more cocaine than WT mice. Using fixed ratio and progressive ratio schedules of reinforcement dose-response paradigms, we found that cocaine is a more efficacious reinforcer in ClockΔ19 mice than in WT mice. Conclusion: Our results demonstrate that the Clock gene plays an important role in cocaine reinforcement and that decreased CLOCK function increases vulnerability for cocaine use. [ABSTRACT FROM AUTHOR]

Published

2012

88. Genetic Association of GABA-A Receptor Alpha-2 and Mu Opioid Receptor with Cocaine Cue-Reactivity: Evidence for Inhibitory Synaptic Neurotransmission Involvement in Cocaine Dependence.

Author

Smelson, David, Yu, Lei, Buyske, Steven, Gonzalez, Gerardo, Tischfield, Jay, Deutsch, Curtis K., and Ziedonis, Douglas

Subjects

GABA, OPIOID receptors, COCAINE, NEURAL transmission, DRUG addiction, GENETIC polymorphisms

Abstract

Background: This pilot feasibility study examined the role of genetics in laboratory-induced cocaine craving. Methods: Thirty-four African American, cocaine-depend- ent male subjects underwent a baseline assessment, cue-exposure session, and genetic analysis. Subjects were classified as either cue-reactive or nonreactive. Results: Among single nucleotide polymorphism markers in 13 candidate genes examined for association with cocaine cue-reactivity, two were statistically significant: GABRA2 (coding for GABA-A receptor alpha-2 subunit; rs11503014, nominal p= .001) and OPRM1 (coding for mu opioid receptor; rs2236256, nominal p= .03). Conclusions: These pilot results suggest that cocaine craving shows variability among cocaine-dependent subjects, and that GABRA2 and OPRM1 polymorphisms have differential influences on cocaine cue-reactivity, warranting studies in future research. (Am J Addict 2012;21:411-415) [ABSTRACT FROM AUTHOR]

Published

2012

89. Enhanced learning and memory in GAT1 heterozygous mice.

Author

Shi, Jun, Cai, Youqing, Liu, Guoxiang, Gong, Neng, Liu, Zhenze, Xu, Tianle, Wang, Zhugang, and Fei, Jian

Published

2012

90. Distinct mechanisms regulate GABAA receptor and gephyrin clustering at perisomatic and axo-axonic synapses on CA1 pyramidal cells.

Author

Panzanelli, Patrizia, Gunn, Benjamin G., Schlatter, Monika C., Benke, Dietmar, Tyagarajan, Shiva K., Scheiffele, Peter, Belelli, Delia, Lambert, Jeremy J., Rudolph, Uwe, and Fritschy, Jean-Marc

Subjects

SYNAPSES, NEURAL transmission, GABA, NERVES, PHYSIOLOGY

Abstract

Copyright of Journal of Physiology is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2011

91. Behavioral satiety sequence in a genetic mouse model of obesity.

Author

Finger, Beate C., Dinan, Timothy G., and Cryan, John F.

Published

2011

92. The clinical implications of mouse models of enhanced anxiety.

Published

2011

93. Freshwater Invertebrate Toxicity Tests.

Author

Calow, Peter

Published

1997

94. Microbial Systems.

Author

Calow, Peter

Published

1997

95. Sensory and vascular changes in a rat monoarthritis model: prophylactic and therapeutic effects of meloxicam.

Author

Hashmi, Javeria, Yashpal, Kiran, Holdsworth, David, and Henry, James

Subjects

INTRA-articular injections, ENDOTOXINS, NONSTEROIDAL anti-inflammatory agents, ARTHRITIS in animals, TIBIOTARSUS, BONE remodeling, MACROPHAGES, ANIMAL models in research, RANGE of motion of joints

Abstract

The objective of this study was to determine the ability of meloxicam prophylaxis and therapy to blunt the effect of complete Freund’s adjuvant (CFA) induced monoarthritis. First the validity of this animal model was established by examining joint changes at multiple levels after injecting CFA into the tibio-tarsal joint. Next, meloxicam (5 mg/kg) or vehicle was administered on days 0–7 (prophylactic) and on days 7–16 (therapeutic) in separate groups of animals. The CFA-injected joint demonstrated hallmark histological and structural changes such as pannus formation, bone remodeling, cartilage erosion and immune cell infiltration. Both prophylactic and therapeutic treatment with meloxicam effectively reduced swelling (ankle circumference), oedema and extravasation of Evans blue dye in the affected joint. Moreover, meloxicam reduced loss in range of motion and also reduced mechanical stimulus evoked pain scores. Notably, these effects persisted after discontinuing drug treatment. The present study provides a unique comparison of prophylactic versus therapeutic effects of meloxicam in the CFA-induced model of monoarthritis. [ABSTRACT FROM AUTHOR]

Published

2010

96. The role of GABAA receptors in the acute and chronic effects of ethanol: a decade of progress.

Author

Kumar, Sandeep, Porcu, Patrizia, Werner, David F., Matthews, Douglas B., Diaz-Granados, Jaime L., Helfand, Rebecca S., and Morrow, A. Leslie

Subjects

CYCLOPENTAPHENANTHRENE, AMINO acid neurotransmitters, AMINOBUTYRIC acid, ALCOHOL drinking, SUBSTANCE abuse

Abstract

The past decade has brought many advances in our understanding of GABAA receptor-mediated ethanol action in the central nervous system. We now know that specific GABAA receptor subtypes are sensitive to ethanol at doses attained during social drinking while other subtypes respond to ethanol at doses attained by severe intoxication. Furthermore, ethanol increases GABAergic neurotransmission through indirect effects, including the elevation of endogenous GABAergic neuroactive steroids, presynaptic release of GABA, and dephosphorylation of GABAA receptors promoting increases in GABA sensitivity. Ethanol’s effects on intracellular signaling also influence GABAergic transmission in multiple ways that vary across brain regions and cell types. The effects of chronic ethanol administration are influenced by adaptations in GABAA receptor function, expression, trafficking, and subcellular localization that contribute to ethanol tolerance, dependence, and withdrawal hyperexcitability. Adolescents exhibit altered sensitivity to ethanol actions, the tendency for higher drinking and longer lasting GABAergic adaptations to chronic ethanol administration. The elucidation of the mechanisms that underlie adaptations to ethanol exposure are leading to a better understanding of the regulation of inhibitory transmission and new targets for therapies to support recovery from ethanol withdrawal and alcoholism. [ABSTRACT FROM AUTHOR]

Published

2009

97. Allosteric modulators of NR2B-containing NMDA receptors: molecular mechanisms and therapeutic potential.

Author

Mony, Laetitia, Kew, James NC, Gunthorpe, Martin J, Paoletti, Pierre, and Kew, James N C

Subjects

ALLOSTERIC regulation, METHYL aspartate, ION channels, GLUTAMIC acid, NEUROPATHY, CENTRAL nervous system, CHRONIC pain, PSYCHOSES

Abstract

N-methyl-D-aspartate receptors (NMDARs) are ion channels gated by glutamate, the major excitatory neurotransmitter in the mammalian central nervous system (CNS). They are widespread in the CNS and are involved in numerous physiological and pathological processes including synaptic plasticity, chronic pain and psychosis. Aberrant NMDAR activity also plays an important role in the neuronal loss associated with ischaemic insults and major degenerative disorders including Parkinson's and Alzheimer's disease. Agents that target and alter NMDAR function may, thus, have therapeutic benefit. Interestingly, NMDARs are endowed with multiple extracellular regulatory sites that recognize ions or small molecule ligands, some of which are likely to regulate receptor function in vivo. These allosteric sites, which differ from agonist-binding and channel-permeation sites, provide means to modulate, either positively or negatively, NMDAR activity. The present review focuses on allosteric modulation of NMDARs containing the NR2B subunit. Indeed, the NR2B subunit confers a particularly rich pharmacology with distinct recognition sites for exogenous and endogenous allosteric ligands. Moreover, NR2B-containing receptors, compared with other NMDAR subtypes, appear to contribute preferentially to pathological processes linked to overexcitation of glutamatergic pathways. The actions of extracellular H+, Mg2+, Zn2+, of polyamines and neurosteroids, and of the synthetic compounds ifenprodil and derivatives ('prodils') are presented. Particular emphasis is put upon the structural determinants and molecular mechanisms that underlie the effects exerted by these agents. A better understanding of how NR2B-containing NMDARs (and NMDARs in general) operate and how they can be modulated should help define new strategies to counteract the deleterious effects of dysregulated NMDAR activity. [ABSTRACT FROM AUTHOR]

Published

2009

98. Differential effects of MPEP and diazepam in tests of conditioned emotional response and Pavlovian-to-instrumental transfer suggests ‘anxiolytic’ effects are mediated by different mechanisms.

Author

George, S., Hutson, P., and Stephens, D.N.

Subjects

ANIMAL behavior, LABORATORY rats, CLASSICAL conditioning, CONDITIONED response, BEHAVIORISM (Psychology), DIAZEPAM, PSYCHOLOGICAL stress

Abstract

The selective mGluR5 antagonist 2-methyl-6-(phenylethynyl)-pyridine (MPEP) is reported to be anxiolytic in several animal models of anxiety, including the conditioned emotional response (CER) paradigm. Suppression of responding during conditioned stimulus (CS) presentation in CER may reflect behavioural competition between lever pressing and adopting a shock-avoidance posture, or it may alternatively reflect altered value of the food reward following its association with a footshock, thus reducing its ability to motivate responding. If this is the case, then drugs that reduce the CER may interfere with the mechanism by which CSs are able to motivate responding, rather than by reducing anxiety. The standard test of the ability of Pavlovian cues to motivate responding is the Pavlovian-to-instrumental transfer (PIT) paradigm and it has recently been suggested that CER may be ‘negative PIT’. We compared the effect of MPEP (0, 3, 10 and 30 mg/kg) and diazepam (0, 1, 3 and 10 mg/kg) in CER and PIT. Both MPEP and diazepam significantly reduced conditioned suppression in the CER paradigm. MPEP, but not diazepam, significantly reduced PIT. The findings support the hypothesis that MPEP may reduce expression of anxiety in the CER paradigm by interfering with the way in which emotionally salient cues are able to affect behaviour, but do not support such an analysis of the effect of diazepam. Diazepam and MPEP may therefore achieve their effects in CER by influencing different psychological processes. [ABSTRACT FROM AUTHOR]

Published

2009

99. Whole genome expression analyses of single- and double-knock-out mice implicate partially overlapping functions of alpha- and gamma-synuclein.

Author

Kuhn, Melanie, Haebig, Karina, Bonin, Michael, Ninkina, Natalia, Buchman, Vladimir, Poths, Sven, and Riess, Olaf

Abstract

α-Synuclein has been implicated in the pathogenesis of Parkinson’s disease. The function of α-synuclein has not been deciphered yet; however, it might play a role in vesicle function, transport, or as a chaperone. α-Synuclein belongs to a family of three proteins, which includes β- and γ-synuclein. γ-Synuclein shares 60% similarity with α-synuclein. Similar to α-synuclein, a physiological function for γ-synuclein has not been defined yet, but it has been implicated in tumorgenesis and neurodegeneration. Interestingly, neither α- (SNCA−/−), γ- (SNCG−/−), nor α/γ- (SNCA_G−/−) deficient mice are present with any obvious phenotype. Using microarray analysis, we thus investigated whether deficiency of α- and γ-synuclein leads to similar compensatory mechanisms at the RNA level and whether similar transcriptional signatures are altered in the brain. Sixty-five genes were differentially expressed in all mice. SNCA−/− mice and SNCG−/− mice shared 84 differentially expressed genes, SNCA−/− and SNCA_G−/− expressed 79 genes, and SNCG−/− and SNCA_G−/− expressed 148 genes. For many of the physiological pathways such as dopamine receptor signaling (down-regulated), cellular development, nervous system function, and cell death (up-regulated), we found groups of genes that were similarly altered in SNCA−/− and SNCG−/− mice. In one of the pathways altered in both models, we found Mapk1 as the core transcript. Other gene groups, however, such as TGF-β signaling and apoptosis pathways genes were significantly up-regulated in the SNCA−/− mice but down-regulated in SNCG−/− mice. β-synuclein expression was not significantly altered in any of the models. [ABSTRACT FROM AUTHOR]

Published

2007

100. P2X[sub4], P2Y[sub1] and P2Y[sub2] receptors on rat alveolar macrophages.

Author

Bowler, Jonathan W., Bailey, R. Jayne, North, R. Alan, and Surprenant, Annmarie

Subjects

ADENOSINE triphosphate, PHOSPHOLIPASE C, CALCIUM-dependent potassium channels, PURINERGIC receptors, MACROPHAGES, CALCIUM, IMMUNOCYTOCHEMISTRY

Abstract

1 ATP receptors present on rat alveolar macrophages (NR8383 cells) were identified by recordings of membrane current, measurements of intracellular calcium. RT PCR and inmunocytochemislry. 2 In whole-cell recordings with a sodium-based internal solution, ATP evoked an inward current at —60 mV. This reversed at 0 mV. The EC[sub50] for ATP was 18 μM in normal external solution (calcium 2 mM. magnesium 1 mM). The currents evoked by 2′,3-O-(4-benzoyl]henzoyl-ATP were about five-fold smaller than those observed with ATP. ADP. UTP and αβ-methylene-ATP (αβmeATP) (up to 100 μM) had no effect. ATP-evoked currents were potentiated up to ten-fold by ivermectin and were unaffected by suramin (30-100 μM), pyridoxal-phosphate-6-azophenyl-(2.4-sulphonic acid) (30-100 &muM). and brilliant blue G (1 μM). 3 In whole-cell recordings with 11 potassium-based internal solution and low ECTA (0.01 mM), ATP evoked an inward current at —60mV that was followed by larger outward current. ADP and UTP (1— 100 μM) evoked only outward currents: these reversed polarity at the potassium equilibrium potential and were blocked by apamin (10nM). Outward currents were also blocked by the phospholipase C inhibitor U73I22 (l μM). and they were not seen with higher intracellular EGTA (l0mM). Suramin (30 μM) blocked the outward currents evoked by ATP and UTP, but not that evoked by ADP. PPADS (10 μM) blocked the ADP-evoked outward current without altering the ATP or UTP currents. 4 RT—PCR showed transcripts for P2X subunits 1,4 and 7 (not 2, 3, 5, 6) and P2Y receptors 1, 2, 4 and 12 (not 6). Immunocytochemistry showed strong P2X[sub4] receptor expression partly associated with the membrane, weak P2X[sub7], staining that was not associated with the cell membrane, and no P2X[sub1] receptor immunoreactivity. 5 We conclude that rat alveolar macrophages express (probably hornomeric) P2X[sub4] receptors, but find no evidence for other functional P2X subtypes. The P2Y receptors are most likely P2Y[sub1] and P2Y[sub2] and these couple through phospholipase C to an increase in intracellular calcium and the opening of SK. type potassium channels. [ABSTRACT FROM AUTHOR]

Published

2003