1[1]Georgiev VP, Lazarova MB, Kambourova TS. Further evidence for the interactions between angiotensin Ⅱ and GABAergic transmission in pentylenetetrazole kinding seizures in mice. Neuropeotides,1995;28(1):29~34
2[2]Squires RF, Saederup E,Crawley JN et al. Convulsant potencies of tetrazoles are highly correlated with action on GABA/benzodiazepine/picrotoxin receptor complexes in brain. Life Sci, 1984;35(14):1439~44
3[3]Dedeyn PP, Marescau B, MacDonald RL. Epilepsy and the GABA-hypothesis a brief review and some examples. Acta Neurol Belg,1990;90(2):65~81
4[4]Meldrum BS. Excitatory amino acids in epilepsy and potential novel therapies. Epilepsy Res,1992;12(2):189~96
5[5]MacDonald RL, Barker JL. Pentylenetetrazole and penicillin are selective antagonists of GABA-mediated postsynaptic inhibition in culture mammalian neurons. Scince, 1977;267:720~1
6[6]Sejima H, Ito M, Kishi K et al. Regional excitatory and inhibitory amino acid concentrations in pentylenetetrazol kinding and kindled rat brain. Brain Dev,1997;19(3):171~5
7[7]Ferrendelli JA , Kinscherf DA. Cyclic nucleotides in epileptic brain: Effects of pentylenetetrazole on regional cyclic AMP and cyclic GMP levels in vitro. Epilepsia,1977;18:525~31
4Takeda A, Hirate M, Tamano H, et al. Susceptibility to kainate-induced seizures under dietary zinc deficiency [J].J Neurochem, 2003, 85 (6): 1575-1580.
5Bancila V, Nikonenko I, Dunant Y, et al. Zinc inhibits glutamate release via activation of pre-synaptic K channels and reduces ischaemic damage in rat hippocampus[J].J Neurochem,2004, 90 (5):1243-1250.
6Furuta A, Noda M, Suzuki SO, et al. Translocation of glutamate transporter subtype excitatory amino acid carrier 1 protein in kainic acid-induced rat epilepsy [J].Am J Pathol,2003 , 163 (2): 779-787.
7Engstrom ER, Hillered L, Flink R, et al.. Extracellular amino acid levels measured with intracerebral microdialysis in the model of posttraumatic epilepsy induced by intracortical iron injection[J].Epilepsy Res, 2001, 43 (2): 135-144.
