Histochemical demonstration of transmitter release from noradrenaline,dopamine and 5-hydroxytryptamine nerve terminals in field stimulated rat brain slices |
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Authors: | Lars Ove Farnebo |
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Institution: | (1) Department of Histology, Karolinska Institutet, S-104 01 Stockholm 60, Sweden |
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Abstract: | Summary The effect of electrical field stimulation on noradrenaline (NA), dopamine (DA) and 5-hydroxytryptamine (5-HT) nerve terminals in rat brain slicesin vitro was investigated. Slices prepared from the cerebral cortex or the neostriatum were incubated in physiologic buffer for 30 min and then superfused by buffer and stimulated by an electrical field (biphasic pulses, 10 Hz, 12 mA, 2 ms) for various time periods. The effect of the stimulation was studied at the cellular level with the histochemical fluorescence technique of Falck and Hillarp. The transmitter overflow into the superfusing buffer caused by the stimulation was studied with isotope technique.
Cerebral Cortex NA Nerve Terminals. Stimulation caused release of NA from cortical NA nerve terminals. Already after 2 min stimulation a slight decrease of the fluorescence intensity of the nerve terminals could be found. Stimulation for 15 to 30 min greatly reduced the fluorescence intensity. In slices preincubated with3H-NA the stimulation-induced overflow of tritium during 2 min stimulation was about 15% (i.e. 15% of the tissue tritium content was overflowing into the superfusing buffer in response to stimulation for 2 min). During prolonged stimulation there was a considerable decline of the tritium efflux.
Cerebral Cortex 5-HT Nerve Terminals. The 5-HT-analogue 6-hydroxytryptamine (6-HT) which is readily taken up into 5-HT nerve terminals was used to permit good visualization of these nerve terminals. Uptake of 6-HT into cortical NA nerve terminals was prevented by preincubation with 6-hydroxydopamine (6-OH-DA) or protriptyline. Stimulation for 15 to 30 min reduced the fluorescence intensity of the 5-HT nerve terminals. In slices preincubated with3H-5-HT the stimulation-induced overflow of tritium during 2 min stimulation was about 5%. The tritium efflux slowly decreased during continuous stimulation.
Neostriatal DA Nerve Terminals. In slices frozen directly after preparation an intense diffuse fluorescence could be seen. After incubation in drug-free buffer at 37° C the fluorescence was localized in the varicosities of the DA nerve terminals. The central parts of the slices almost completely lacked specific fluorescence, while the outer zones were brightly fluorescent. No clear reduction of the fluorescence intensity of the DA nerve terminals in the outer zone could be observed after stimulation for 30 min. In slices preincubated with3H-DA the stimulation-induced overflow of tritium during 2 min stimulation was about 2%. The tritium efflux slowly decreased during continuous stimulation.It is suggested that the differences in release between the various nerve terminal systems foundin vitro reflect differences in transmitter release occurringin vivo. The comparably high release of NA per impulse from the cortical NA nerve terminals implicate that the discharge rate of these neuronsin vivo is very low.This investigation has been supported by grants from the Swedish Medical Research Council (B72-14X-2330-05A) and Magnus Bergwall's Foundation.The author is greatly indebted to Mrs. Annika Hamberger for her skillful technical assistance. For generous supplies of drugs thanks are due to Hässle, Göteborg, Sweden, through Dr. H. Corrodi (6-HT, 6-OH-DA and H44/68). |
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Keywords: | Transmitter release Central nervous system Field stimulation Fluorescence Monoamine nerves |
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