Literature DB >> 7965845

In vivo voltammetric measurement of evoked extracellular dopamine in the rat basolateral amygdaloid nucleus.

P A Garris1, R M Wightman.   

Abstract

1. The in vivo measurement of evoked extracellular dopamine was established in the basolateral amygdaloid nucleus (BAN) using fast-scan cyclic voltammetry at carbon-fibre microelectrodes. 2. The identification of evoked extracellular dopamine in the BAN was based on anatomical, electrochemical and pharmacological criteria. Electrochemical and pharmacological evidence indicated that the species was a catecholamine. Mesencephalic sites eliciting overflow and amygdaloid sites supporting overflow correlated well with the mesoamygdaloid dopamine innervation. 3. Marked differences in the dynamics and magnitude of evoked dopamine overflow were observed in the BAN, caudate-putamen and amygdalo-striatal transition area. The results underscore the importance of making spatially resolved measurements of extracellular dopamine in the amygdala. 4. Mesoamygdaloid dopamine neurons have similar release characteristics as mesostriatal dopamine neurons but share with mesoprefrontal cortical dopamine neurons the ability to use a greater percentage of intraneuronal dopamine stores for release.

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Year:  1994        PMID: 7965845      PMCID: PMC1155682          DOI: 10.1113/jphysiol.1994.sp020246

Source DB:  PubMed          Journal:  J Physiol        ISSN: 0022-3751            Impact factor:   5.182


  34 in total

1.  Tyrosine hydroxylase and dopamine-beta-hydroxylase: distribution in discrete areas of the rat limbic system.

Authors:  J M Saavedra; J Zivin
Journal:  Brain Res       Date:  1976-04-09       Impact factor: 3.252

2.  Microheterogeneity of dopamine transporters in rat striatum and nucleus accumbens.

Authors:  R Lew; A Patel; R A Vaughan; A Wilson; M J Kuhar
Journal:  Brain Res       Date:  1992-07-03       Impact factor: 3.252

3.  Evoked extracellular dopamine in vivo in the medial prefrontal cortex.

Authors:  P A Garris; L B Collins; S R Jones; R M Wightman
Journal:  J Neurochem       Date:  1993-08       Impact factor: 5.372

4.  Direct in vivo monitoring of dopamine released from two striatal compartments in the rat.

Authors:  A G Ewing; J C Bigelow; R M Wightman
Journal:  Science       Date:  1983-07-08       Impact factor: 47.728

5.  Lack of a high affinity transport system for dopamine in the median eminence and posterior pituitary.

Authors:  K T Demarest; K E Moore
Journal:  Brain Res       Date:  1979-08-10       Impact factor: 3.252

6.  Mesocortical dopamine neurons: rapid transmitter turnover compared to other brain catecholamine systems.

Authors:  M J Bannon; E B Bunney; R H Roth
Journal:  Brain Res       Date:  1981-08-10       Impact factor: 3.252

7.  Regulation of transient dopamine concentration gradients in the microenvironment surrounding nerve terminals in the rat striatum.

Authors:  K T Kawagoe; P A Garris; D J Wiedemann; R M Wightman
Journal:  Neuroscience       Date:  1992-11       Impact factor: 3.590

8.  Autoradiographic localization of dopamine uptake sites in the rat brain with 3H-GBR 12935.

Authors:  F Mennicken; M Savasta; R Peretti-Renucci; C Feuerstein
Journal:  J Neural Transm Gen Sect       Date:  1992

Review 9.  Pharmacology of mesocortical dopamine neurons.

Authors:  M J Bannon; R H Roth
Journal:  Pharmacol Rev       Date:  1983-03       Impact factor: 25.468

10.  Different kinetics govern dopaminergic transmission in the amygdala, prefrontal cortex, and striatum: an in vivo voltammetric study.

Authors:  P A Garris; R M Wightman
Journal:  J Neurosci       Date:  1994-01       Impact factor: 6.167
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  10 in total

1.  In vivo voltammetric monitoring of catecholamine release in subterritories of the nucleus accumbens shell.

Authors:  J Park; B J Aragona; B M Kile; R M Carelli; R M Wightman
Journal:  Neuroscience       Date:  2010-05-06       Impact factor: 3.590

2.  In vivo comparison of norepinephrine and dopamine release in rat brain by simultaneous measurements with fast-scan cyclic voltammetry.

Authors:  Jinwoo Park; Pavel Takmakov; R Mark Wightman
Journal:  J Neurochem       Date:  2011-10-20       Impact factor: 5.372

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Journal:  Brain Res       Date:  2010-03-24       Impact factor: 3.252

4.  Modulation of basolateral amygdala neuronal firing and afferent drive by dopamine receptor activation in vivo.

Authors:  J A Rosenkranz; A A Grace
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5.  Changes in extracellular dopamine induced by morphine and cocaine: crucial control by D2 receptors.

Authors:  Francoise Rouge-Pont; Alessandro Usiello; Marianne Benoit-Marand; Francois Gonon; Pier Vincenzo Piazza; Emiliana Borrelli
Journal:  J Neurosci       Date:  2002-04-15       Impact factor: 6.167

6.  Bursting as a source of non-linear determinism in the firing patterns of nigral dopamine neurons.

Authors:  Jaeseung Jeong; Wei-Xing Shi; Ralph Hoffman; Jihoon Oh; John C Gore; Benjamin S Bunney; Bradley S Peterson
Journal:  Eur J Neurosci       Date:  2012-07-25       Impact factor: 3.386

7.  Simultaneous monitoring of dopamine concentration at spatially different brain locations in vivo.

Authors:  Matthew K Zachek; Pavel Takmakov; Jinwoo Park; R Mark Wightman; Gregory S McCarty
Journal:  Biosens Bioelectron       Date:  2009-10-15       Impact factor: 10.618

8.  Dopaminergic innervation of interneurons in the rat basolateral amygdala.

Authors:  C R Pinard; J F Muller; F Mascagni; A J McDonald
Journal:  Neuroscience       Date:  2008-10-02       Impact factor: 3.590

9.  Dopamine receptor activation increases HIV entry into primary human macrophages.

Authors:  Peter J Gaskill; Hideaki H Yano; Ganjam V Kalpana; Jonathan A Javitch; Joan W Berman
Journal:  PLoS One       Date:  2014-09-30       Impact factor: 3.240

10.  Surface Nanostructure Effects on Dopamine Adsorption and Electrochemistry on Glassy Carbon Electrodes.

Authors:  Dalia L Swinya; Daniel Martín-Yerga; Marc Walker; Patrick R Unwin
Journal:  J Phys Chem C Nanomater Interfaces       Date:  2022-07-29       Impact factor: 4.177
  10 in total

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