The application of a commercially available coulometric electrochemical detector to the automated HPLC analysis of some monoamines and their metabolites in microdissected areas of the rat nervous system is described. Apart from the stability and high sensitivity of the system, other appealing features of the technique are the facile sample preparation and long‐term sample storage characteristics which show minimal analyte degradation. Basal values of some regional monoamine and metabolite concentration are listed together with a brief appendix that serves as a user's guide to the operation and maintenance of the detection system.
Extracellular recordings were made from neurones in the ventromedial and parafasicular nuclei of the rat thalamus, many of which had demonstrable capsular or caudate projections. These cells responded to electrical stimulation of the ipsilateral substantia nigra with a short latency (4 ms) inhibition presumed to be monosynaptic. This inhibitory response was often preceded by a brief period of increased excitability (latency approximately 3 ms) attributed to activation of corticofugal collaterals. Longer latency, presumably oligosynaptic excitations (latency approximately 8 ms) and inhibitions (approximately 18 ms) were also obtained, but were more commonly evoked in non-projection neurones. All units were inhibited by iontophoretically applied GABA, glycine or 5-HT. Short and long latency synaptic and GABA-induced inhibitions were selectively blocked by bicuculline. Strychnine only antagonised glycine, while 5-HT was not affected by either convulsant. Intranigral injection of muscimol greatly elevated the spontaneous discharge rate of thalamic neurones, particularly those with a striatal projection. These data are compatible with nigrothalamic neurones maintaining a tonically active, GABA-mediated inhibition of cells in the ventromedial and parafascicular nuclei of the thalamus. It is speculated that intranigral muscimol indirectly activates these thalamic cells and thereby initiates contraversive circling behaviour by suppressing this inhibitory system.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.