Dendrodendritic Inhibition through Reversal of Dopamine Transport

Synapses in the central nervous system are usually defined by presynaptic exocytotic release sites and postsynaptic differentiations. We report here a demonstration of dendrodendritic inhibition that does not engage a conventional synapse. Using amperometric and patch-clamp recordings in rat brain s...

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Veröffentlicht in:	Science (American Association for the Advancement of Science) 2001-09, Vol.293 (5539), p.2465-2470
Hauptverfasser:	Falkenburger, Björn H., Barstow, Karen L., Mintz, Isabelle M.
Format:	Artikel
Sprache:	eng
Schlagworte:	Anatomy Animals Antidepressants Basal ganglia Biological and medical sciences Biological Transport - drug effects Body regions Brain Brain chemistry Calcium - metabolism Carbon fibers Carrier Proteins - antagonists & inhibitors Carrier Proteins - metabolism Central nervous system Dendrites Dendrites - metabolism Dopamine Dopamine - metabolism Dopamine antagonists Dopamine D2 Receptor Antagonists Dopamine Plasma Membrane Transport Proteins Dopaminergic neurons Electric Stimulation Electrophysiology Evoked Potentials - drug effects Excitatory Postsynaptic Potentials Exocytosis Fundamental and applied biological sciences. Psychology Glutamic Acid - pharmacology Humans In Vitro Techniques Inhibition Membrane Glycoproteins Membrane Potentials Membrane Transport Proteins Nerve Tissue Proteins Nervous system Neural Inhibition Neurons Neurons - metabolism Parkinson disease Parkinson Disease - drug therapy Parkinson Disease - metabolism Parkinson's disease Patch-Clamp Techniques Piperazines - pharmacology Rats Receptors, Dopamine D2 - metabolism Sodium - metabolism Substantia nigra Substantia Nigra - cytology Substantia Nigra - metabolism Subthalamic nucleus Subthalamic Nucleus - physiology Synapses Vertebrates: nervous system and sense organs
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Beschreibung
Zusammenfassung:	Synapses in the central nervous system are usually defined by presynaptic exocytotic release sites and postsynaptic differentiations. We report here a demonstration of dendrodendritic inhibition that does not engage a conventional synapse. Using amperometric and patch-clamp recordings in rat brain slices of the substantia nigra, we found that blockade of the dopamine transporter abolished the dendritic release of dopamine and the resulting self-inhibition. These findings demonstrate that dendrodendritic autoinhibition entails the carrier-mediated release of dopamine rather than conventional exocytosis. This suggests that some widely used antidepressants that inhibit the dopamine transporter may benefit patients in the early stages of Parkinson's disease.
ISSN:	0036-8075 1095-9203
DOI:	10.1126/science.1060645