The effects of rat interferon (IFN) on the electrically-induced potentiation of the synaptic transmission were studied in rat hippocampal slices by using extracellular field potential recordings. The treatment with rat IFN (120 U/ml) reduced the size of short-term potentiation (STP) and suppressed long-term potentiation (LTP). These IFN-induced effects were dose-dependent in the range of 50-500 U/ml. In addition, IFN slightly attenuated the potentiation when applied during the maintenance of LTP. Basal synaptic transmission was affected by IFN at concentrations greater than or equal to 250 U/ml. Following an acute exposure to IFN (500-200 U/ml), cultured embryonic neurones from rat hippocampus often exhibited an attenuation of N-methyl-D-aspartate-induced currents and a variation (increase or decrease) of voltage-activated Ca2+ current amplitude. A possible role of IFN as neuromodulator in mammalian brain during immune responses is discussed.
D'Arcangelo, G., Grassi, F., Ragozzino, D., Santoni, A., Tancredi, V., Eusebi, F. (1991). Interferon inhibits synaptic potentiation in rat hippocampus. BRAIN RESEARCH, 564(2), 245-248.
Interferon inhibits synaptic potentiation in rat hippocampus
D'ARCANGELO, GIOVANNA;TANCREDI, VIRGINIA;
1991-11-15
Abstract
The effects of rat interferon (IFN) on the electrically-induced potentiation of the synaptic transmission were studied in rat hippocampal slices by using extracellular field potential recordings. The treatment with rat IFN (120 U/ml) reduced the size of short-term potentiation (STP) and suppressed long-term potentiation (LTP). These IFN-induced effects were dose-dependent in the range of 50-500 U/ml. In addition, IFN slightly attenuated the potentiation when applied during the maintenance of LTP. Basal synaptic transmission was affected by IFN at concentrations greater than or equal to 250 U/ml. Following an acute exposure to IFN (500-200 U/ml), cultured embryonic neurones from rat hippocampus often exhibited an attenuation of N-methyl-D-aspartate-induced currents and a variation (increase or decrease) of voltage-activated Ca2+ current amplitude. A possible role of IFN as neuromodulator in mammalian brain during immune responses is discussed.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
