Journal
EUROPEAN JOURNAL OF NEUROSCIENCE
Volume 33, Issue 9, Pages 1622-1636Publisher
WILEY
DOI: 10.1111/j.1460-9568.2011.07659.x
Keywords
D-2 receptors; dopamine; GABA; glutamate; patch-clamp technique; TH-GFP mouse
Categories
Funding
- Italian Ministry of Health
- Neurological Foundation of New Zealand
- Education New Zealand (Maurice and Phyllis Paykel Trust
- Sir John Logan Campbell Trust)
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Organotypic cultures (OCs) have been widely used to investigate the midbrain dopaminergic system, but only a few studies focused on the functional properties of dopaminergic neurons and their synaptic inputs from dopaminergic and non-dopaminergic neurons also contained in such cultures. In addition, it is not clear whether the culturing process affects the intrinsic neuronal properties and the expression of specific receptors and transporters. We performed patch-clamp recordings from dopaminergic neurons in mesencephalic-striatal co-cultures obtained from transgenic mice expressing green fluorescent protein (GFP) under the tyrosine hydroxylase promoter. Some (10/44) GFP+ neurons displayed a bursting activity that renders the firing of these cells similar to that of the dopaminergic neurons in vivo. The culturing process reduced the hyperpolarization-activated current (I-h) and the expression of D-2 receptors. Downregulation of D-2 receptor mRNA and protein was confirmed with reverse transcriptase polymerase chain reaction and Western blotting. Immunocytochemistry revealed that many synaptic terminals, most likely originating from dopaminergic neurons, co-expressed the dopamine (DA) transporter and the vesicular glutamate transporter-2, suggesting a co-release of DA and glutamate. Interestingly, exogenous DA decreased glutamate release in young cultures [days in vitro (DIV) < 20] by acting on pre-synaptic D-2 receptors, while in older cultures (DIV > 26) DA increased glutamate release by acting on alpha-1 adrenoreceptors. The facilitatory effect of DA on glutamatergic transmission to midbrain dopaminergic neurons may be important in conditions when the expression of D-2 receptors is compromised, such as long-term treatment with antipsychotic drugs. Our data show that midbrain OCs at DIV > 26 may provide a suitable model of such conditions.
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