| Title : Activators of ATP-sensitive K+ channels reduce anoxic depolarization in CA3 hippocampal neurons - Ben-Ari_1990_Neurosci_37_55 |
| Author(s) : Ben-Ari Y , Krnjevic K , Crepel V |
| Ref : Neuroscience , 37 :55 , 1990 |
|
Abstract :
In CA3 hippocampal neurons of the rat, brief anoxic episodes produce a depolarization which is probably due to a synaptic release of glutamate. Diazoxide, an activator of ATP-sensitive K+ channels (K+ ATP), blocks the anoxic depolarization and has no effect in control oxygenated artificial cerebrospinal fluid. The hormone somatostatin which activates K+ ATP channels in the pancreas also reduces the anoxic depolarization in CA3 neurons. We suggest that drugs that open K+ ATP channels may constitute a novel approach to selectivity reducing the deleterious effects of excessive release of glutamate during anoxia without producing a generalized blockade of glutamatergic synaptic transmission. |
| PubMedSearch : Ben-Ari_1990_Neurosci_37_55 |
| PubMedID: 1978742 |
Ben-Ari Y, Krnjevic K, Crepel V (1990)
Activators of ATP-sensitive K+ channels reduce anoxic depolarization in CA3 hippocampal neurons
Neuroscience
37 :55
Ben-Ari Y, Krnjevic K, Crepel V (1990)
Neuroscience
37 :55