INVIVO KINDLING DOES NOT ALTER AFTERHYPERPOLARIZATIONS (AHPS) FOLLOWING ACTION-POTENTIAL FIRING INVITRO IN BASOLATERAL AMYGDALA NEURONS

被引:14
作者
ASPRODINI, EK [1 ]
RAINNIE, DG [1 ]
ANDERSON, AC [1 ]
SHINNICKGALLAGHER, P [1 ]
机构
[1] UNIV TEXAS,MED BRANCH,DEPT PHARMACOL & TOXICOL,GALVESTON,TX 77550
来源
BRAIN RESEARCH | 1992年 / 588卷 / 02期
关键词
EPILEPSY; AFTERHYPERPOLARIZATION; KINDLING; AMYGDALA; ACCOMMODATION; INHIBITION; SEIZURE;
D O I
10.1016/0006-8993(92)91595-6
中图分类号
Q189 [神经科学];
学科分类号
071006 ;
摘要
Kindling in vivo results in enhanced glutamatergic synaptic transmission and epileptiform bursting in vitro in neurons of the basolateral amygdala (BLA). We tested the hypothesis that reduction of intrinsic inhibitory mechanisms. such as the slow- and medium-afterhyperpolarizations (s-AHPs, m-AHPs), contributes to the enhanced neuronal excitability observed in kindling-induced epileptogenesis using intracellular recording methodology. In these studies, neurons were recorded from the BLA contralateral to the kindling site. AHPs following depolarizing current-induced (100 ms, 1 nA) action potentials were recorded from BLA neurons of control and kindled animals. We found no difference in the amplitude of the s-AHP and m-AHP, or the duration of the S-AHP between control and kindled neurons. In addition, kindling did not alter the distribution of accommodating/non-accommodating BLA neurons (as assessed from neuronal responses during long (500 ms) depolarizing current injection). It is concluded that an alteration in the neuronal network within the BLA rather than a blockade of an intrinsic inhibitory mechanism underlies the enhanced excitability recorded in BLA neurons following kindling.
引用
收藏
页码:329 / 334
页数:6
相关论文
共 34 条
[1]   CORTICOTROPIN RELEASING-FACTOR DECREASES POSTBURST HYPERPOLARIZATIONS AND EXCITES HIPPOCAMPAL-NEURONS [J].
ALDENHOFF, JB ;
GRUOL, DL ;
RIVIER, J ;
VALE, W ;
SIGGINS, GR .
SCIENCE, 1983, 221 (4613) :875-877
[2]   EPILEPTIFORM BURST AFTERHYPERPOLARIZATION - CALCIUM-DEPENDENT POTASSIUM POTENTIAL IN HIPPOCAMPAL CA1-PYRAMIDAL CELLS [J].
ALGER, BE ;
NICOLL, RA .
SCIENCE, 1980, 210 (4474) :1122-1124
[3]   THE EXPRESSION OF N-METHYL-D-ASPARTATE-RECEPTOR-MEDIATED COMPONENT DURING EPILEPTIFORM SYNAPTIC ACTIVITY IN THE HIPPOCAMPUS [J].
ASHWOOD, TJ ;
WHEAL, HV .
BRITISH JOURNAL OF PHARMACOLOGY, 1987, 91 (04) :815-822
[4]   ELECTROPHYSIOLOGICAL PROPERTIES AND SYNAPTIC RESPONSES IN THE DEEP LAYERS OF THE HUMAN EPILEPTOGENIC NEOCORTEX INVITRO [J].
AVOLI, M ;
OLIVIER, A .
JOURNAL OF NEUROPHYSIOLOGY, 1989, 61 (03) :589-606
[5]   IONIC MECHANISMS OF CHOLINERGIC EXCITATION IN MAMMALIAN HIPPOCAMPAL PYRAMIDAL CELLS [J].
BENARDO, LS ;
PRINCE, DA .
BRAIN RESEARCH, 1982, 249 (02) :333-344
[6]   CONTROL OF EPILEPTIFORM BURST RATE BY CA3 HIPPOCAMPAL CELL AFTERHYPERPOLARIZATIONS INVITRO [J].
CHAMBERLIN, NL ;
DINGLEDINE, R .
BRAIN RESEARCH, 1989, 492 (1-2) :337-346
[7]   ACETYLCHOLINE MEDIATES A SLOW SYNAPTIC POTENTIAL IN HIPPOCAMPAL PYRAMIDAL CELLS [J].
COLE, AE ;
NICOLL, RA .
SCIENCE, 1983, 221 (4617) :1299-1301
[8]   AFTERPOTENTIALS FOLLOWING PENICILLIN-INDUCED PAROXYSMAL DEPOLARIZATIONS IN RAT HIPPOCAMPAL CA1 PYRAMIDAL CELLS-INVITRO [J].
DOMANN, R ;
DORN, T ;
WITTE, OW .
PFLUGERS ARCHIV-EUROPEAN JOURNAL OF PHYSIOLOGY, 1991, 417 (05) :469-478
[9]  
DOMANN R, 1989, EXP BRAIN RES, V78, P646
[10]   SPONTANEOUS EPILEPTIFORM ACTIVITY AND ALTERATION OF GABA-MEDIATED AND OF NMDA-MEDIATED NEUROTRANSMISSION IN AMYGDALA NEURONS KINDLED INVIVO [J].
GEAN, PW ;
SHINNICKGALLAGHER, P ;
ANDERSON, AC .
BRAIN RESEARCH, 1989, 494 (01) :177-181
1234