Pre-synaptic glutamate-induced activation of DA release in the striatum after partial nigral lesion.

The present experiments aimed at understanding the functional link between dopamine (DA) and glutamate (GLU) during the compensatory processes taking place after partial DA denervation. Lesion of the lateral part of substantia nigra in rats using 6-hydroxydopamine resulted in DA denervation of the lateral region of the ipsilateral caudate/putamen complex (CPc) whereas the medial CPc was spared. In vivo voltammetry revealed a large increase of extracellular dopamine (DA(ext)) in the medial CPc both ipsilateral and contralateral to the lesion.

Optimal neuroprotection by erythropoietin requires elevated expression of its receptor in neurons.

Erythropoietin receptor (EpoR) binding mediates neuroprotection by endogenous Epo or by exogenous recombinant human (rh)Epo. The level of EpoR gene expression may determine tissue responsiveness to Epo. Thus, harnessing the neuroprotective power of Epo requires an understanding of the Epo-EpoR system and its regulation.

Erythropoietin receptor expression is concordant with erythropoietin but not with common beta chain expression in the rat brain throughout the life span.

Brain effects of erythropoietin (Epo) are proposed to involve a heteromeric receptor comprising the classical Epo receptor (Epo-R) and the common beta chain (betac). However, data documenting the pattern of betac gene expression in the healthy brain, in comparison with that of the Epo-R gene, are still lacking. The present study is the first to investigate at the same time betac, Epo-R, and Epo gene expression within different rat brain areas throughout the life span, from neonatal to elderly stages, using quantitative RT-PCR for transcripts.

Striatal dopamine during sensorial stimulations: a [18F]FDOPA PET study in human and cats.

Sensory stimulations of the forelimb in cats are known to increase dopamine release in the ipsilateral striatum and to decrease it in the homologous contralateral structure. Using positron emission tomography in both humans and cats, the present study shows that such sensory stimulations greatly reduce [(18)F]FDOPA accumulation ipsilateral to the stimulation (by 40.4% and 26.

Effect of sensory stimulus on striatal dopamine release in humans and cats: a [(11)C]raclopride PET study.

Background: Sensory stimulation of the forelimb extremities constitutes a well-established experimental model that has consistently shown to activate dopamine (DA) neurotransmission in the mammals' forebrain.

Objectives: To visualize in vivo this modification of striatal DA release in healthy human volunteers using Positron Emission Tomography (PET) and [(11)C]raclopride. Experiments in humans were paralleled by experiments in anesthetized cats.

PET study of the [11C]raclopride binding in the striatum of the awake cat: effects of anaesthetics and role of cerebral blood flow.

Cats were trained to stay in a containment box, without developing any signs of behavioural stress, while their head was maintained in a position that allowed positron emission tomography (PET) experiments to be performed. The binding potential for [(11)C]raclopride (BP(raclo)), a radioligand with good specificity for dopamine (DA) receptors of the D(2) type, was measured in the striatum and in three experimental situations: awake, anaesthetised with ketamine (50 mg kg(-1) h(-1); i.m.

Effects of amphetamine and evoked dopamine release on [11C]raclopride binding in anesthetized cats.

The effects of halothane and ketamine anesthesia on [11C]raclopride binding were assessed in the cat striatum at basal conditions and after drug- or depolarization-induced dopamine (DA) release using Positron Emission Tomography. At baseline, Scatchard analyses revealed that the higher [11C]raclopride binding found under halothane anesthesia was mainly attributable to a higher radioligand apparent affinity. Decreased [11C]raclopride binding was demonstrated following amphetamine under ketamine but not under halothane anesthesia.