Rhythm generation in organotypic medullary cultures of newborn rats |
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| Authors: | R. E. Baker D. Ballantyne D. Bingmann D. Jones G. Widman |
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| Affiliation: | ∗Netherlands Institute for Brain Research, Amsterdam, The Netherlands;†Institut für Physiologie, Bochum, Germany;‡Institut für Experimentelle Orthopädie, Münster, Germany;¶Neurologie/Epileptologie, Bonn, Germany;∥Institut für Physiologie, Essen, Germany |
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| Abstract: | Organotypic transverse medullary slices (obex level) from six-day-old rats, cultured for two to four weeks in chemically defined medium contained rhythmically discharging neurones which were activated by CO2 and H+. The mechanisms underlying this rhythmicity and the spread of excitation and synaptic transmission within this organotypic tissue were examined by modifying the composition of the external solution. Our findings showed that (1) Exposure to tetrodotoxin (0.2 μM) or to high magnesium (6 mM) and low calcium (0.2 mM) concentrations abolished periodic activity. (2) Neither the blockade of GABAergic potentials with bicuculline methiodide (200 μM) and/or hydroxysaclofen (200 μM) nor the blockade of glycinergic potentials with strychnine hydrochloride (100 μM) abolished rhythmicity. (3) While atropine sulphate (5 μM) was ineffective in modulating periodic discharges nicotine (100 μM) — like CO2 — shortened the intervals between the periodic events; hexamethonium (50–100 μM) reduced both periodic and aperiodic activity. (4) Exposure to the NMDA antagonist 2-aminophosphonovaleric acid (50 μM) suppressed periodic events only transiently. In the presence of 2-aminophosphonovaleric acid rhythmicity recovered. However, the AMPA-antagonist 6-cyano-7-nitroquinoxaline-2,3-dione (10–50 μM), abolished periodic activity reversibly within less than 5 min. When 6-cyano-7-nitroquinoxaline-2,3-dione and nicotine were administered simultaneously periodic events persisted for up to 10 min. These findings indicate that synaptic excitatory drive is a prerequisite for the generation of rhythmic discharges of medullary neurones in this preparation. This drive may activate voltage-dependent channels or it may facilitate endogenous cellular mechanisms which initiate oscillations of intracellular calcium concentration. To test the latter possibility (5) calcium antagonists were added to the bath saline. The organic calcium antagonists verapamil and flunarizine (50–100 μM each) and the inorganic calcium antagonists cobalt (2 mM) and magnesium (6 mM) suppressed periodic activity and abolished or weakened the chemosensitivity towards CO2/acidosis. (6) Dantrolene (10 μM), an inhibitor of intracellular calcium release decreased the periodicity, while thapsigargin (2 μM) which blocks endoplasmic Ca2+-ATPase, transiently accelerated the occurrence of periodic events. (7) Oscillations of intracellular free calcium concentrations in Fura-2 AM-loaded cells were weakened or abolished by cobalt (2 mM). The results of (5)–(7) indicate that transmembrane calcium fluxes as well as intracellular Ca2+-release and -clearance mechanisms are a prerequisite for intracellular free calcium oscillations which may be important in the generation of rhythmic discharges in medullary neurones. |
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| Keywords: | Abbreviations: AMPA, (R,S)-α-amino-3-hydroxy-5-methylisoxazole-4-propionic acid AP, action potentials 2-APV, 2 aminophosphonovaleric acid BIC, bicuculline methiodide CA, calcium antagonists CICR, calcium-induced calcium release CNQX, 6-cyano-7-nitroquinoxaline-2,3-dione hydroxysaclofen CTR, control conditions DW, depolarization waves EPSP, excitatory postsynaptic potentials Fura 2-AM, Fura-2-acetoxymethyl-ester GABA, γ-amino-butyric acid HSAC, hydroxysaclofen IPSP, inhibitory postsynaptic potentials IFC, intracellular free calcium concentration MP, membrane potential NMDA, N-methyl- font-variant: small-caps" >d-aspartate PE, periodic events TTX, tetrodotoxin |
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