CALCIUM-DEPENDENCE OF LTP INDUCED BY 2-DEOXYGLUCOSE IN CA1 NEURONS

1. As previously reported, in hippocampal slices from Sprague Dawley r ats, 13-min applications of 2-deoxy-D-glucose (2-DG) (substituting 10 mM 2-DG for glucose)-which sharply depress field excitatory postsynapt ic potentials (EPSPs)-are followed by a sustained potentiation of the initial slopes of EPSPs (2-DG-LTP). 2. Such 2-DG-LTP is not prevented by exposing slices to Ca2+-free medium for 25 min before the 13-min 2- DG applications (in Ca2+-free medium). Therefore 2-DG-LTP is not depen dent on influx of external Ca2+ during the 2-DG applications. 3. When the Ca2+-free conditions begin 15 min before, and are maintained for 1 0 min after, the 13-min 2-DG applications (in Ca2+-free medium), 2-DG- LTP is either totally suppressed or much reduced. A delayed Ca2+ influ x thus plays a crucial role in the induction of 2-DG-LTP. 4. Much long er Ca2+-free pretreatment (for 77 min) largely abolishes 2-DG-LTP. The refore Ca2+ release from a compartment (presumably intracellular) that is not readily depleted is also important for the induction of 2-DG-L TP. 5. This intracellular Ca2+ store is sensitive to dantrolene sodium (10 mu M)-which prevents 2-DG-LTP-but not 10 mu M thapsigar gin. 2-DG -LTP of isolated N-methyl-D-aspartate-receptor-mediated EPSPs is only partly reduced by dantrolene. 6. Dantrolene (10 mu M) also reduces or abolishes posttetanic potentiation, but not paired-pulse facilitation. 7. Depotentiation by 1-Hz stimulation is abolished by 20 mu M dantrol ene. 8. In contrast to the above, long-term potentiation (LTP) elicite d by tetanic stimulation is prevented by 10 mu M thapsigargin but not by dantrolene (less than or equal to 50 mu M). 9. In conclusion, two m echanisms of intracellular Ca2+ concentration increase appear to be es sential for LTP induction by 2-DG. One is Ca2+ influx after the 2-DG a pplication; the other is Ca2+ release from a dantrolene-sensitive inte rnal store. The opposite effects of thapsigargin and dantrolene on 2-D G-LTP and tetanic LTP suggest that distinct internal sources of Ca2+ m ay be needed For the induction of these two forms of LTP.