Mj. Higgins et Tw. Stone, COMPARATIVE SENSITIVITY TO ADENOSINE OF PAIRED-PULSE INHIBITION AND SINGLE FIELD POTENTIALS IN THE RAT HIPPOCAMPUS, Neuroscience letters, 209(1), 1996, pp. 69-72
If excitatory terminals onto inhibitory interneurones were more sensit
ive to adenosine than excitatory terminals onto pyramidal cells in the
hippocampus it might explain the effect of adenosine to decrease pair
ed-pulse inhibition and account for reported excitatory effects of low
concentrations of adenosine. We have compared the concentration-respo
nse relationships for the effect of adenosine on single evoked field p
otentials and on paired-pulse inhibition in the CA1 area of the rat hi
ppocampal slice in order to test this hypothesis. Adenosine caused a c
oncentration-dependent decrease in both single evoked population spike
size and in paired-pulse inhibition between potentials. The concentra
tion-response relationships for both effects was very similar, ruling
out the possibility that excitatory terminals onto inhibitory interneu
rones are more sensitive to adenosine than excitatory terminals onto p
yramidal cells, and suggesting that the receptors located at the two s
ites may be indistinguishable.