CHANNEL SHUTDOWN - A RESPONSE OF HIPPOCAMPAL-NEURONS TO ADVERSE ENVIRONMENTS

被引:33
|
作者
SOMJEN, GG
FAAS, GC
VREUGDENHIL, M
WADMAN, WJ
机构
[1] UNIV AMSTERDAM,CTR BIOL,DEPT EXPTL ZOOL,1098 SM AMSTERDAM,NETHERLANDS
[2] DUKE UNIV,MED CTR,DEPT CELL BIOL,DIV PHYSIOL,DURHAM,NC 27710
来源
BRAIN RESEARCH | 1993年 / 632卷 / 1-2期
关键词
ION CHANNEL; OSMOTIC EFFECT; HYPOGLYCEMIA; WHOLE-CELL PATCH-CLAMP; DISSOCIATED NEURON;
D O I
10.1016/0006-8993(93)91153-J
中图分类号
Q189 [神经科学];
学科分类号
071006 ;
摘要
Stretch-activated ion channels have been discovered in the membrane of many types of cells, but their presence in neurons is uncertain. We used freshly dissociated rat hippocampal neurons to study the effect of hypotonic swelling but, surprisingly, the isolated neurons did not swell. Voltage-dependent whole-cell membrane currents mediated by K+, Na+ and Ca2+ were rapidly and reversibly suppressed during sudden exposure to strongly hypo-osmotic, hyper-osmotic or glucose deficient solutions. The amplitudes of the sustained components of K+ and Ca2+ currents were more depressed than transient currents, but the rate of decay of transient K+ current greatly accelerated. The voltage dependence of activation and of steady state inactivation of residual K+ and Ca2+ currents were not shifted. The current holding membrane potential at -70 mV and therefore the conductance at that voltage were unchanged or somewhat decreased. Capacitive (charging) membrane current was not affected. Changes in tail current suggested moderate loss of cytosolic K+ in some but not in all cells. We conclude that channel shutdown is a uniform response of neuron somata and proximal dendrites to various adverse environments. Hypothetically we propose that swelling was prevented in anisosmotic conditions because membrane water permeability decreased.
引用
收藏
页码:180 / 194
页数:15
相关论文
共 50 条
  • [41] EXCITATORY ACTIONS OF HOMOCYSTEIC ACID ON HIPPOCAMPAL-NEURONS
    SAWADA, S
    TAKADA, S
    YAMAMOTO, C
    BRAIN RESEARCH, 1982, 238 (01) : 282 - 285
  • [42] COMPLIANCE OF HIPPOCAMPAL-NEURONS TO PATTERNED SUBSTRATE NETWORKS
    COREY, JM
    WHEELER, BC
    BREWER, GJ
    JOURNAL OF NEUROSCIENCE RESEARCH, 1991, 30 (02) : 300 - 307
  • [43] SLOW CONDUCTANCE CHANGES IN HIPPOCAMPAL-NEURONS - A MODEL
    DYHREPOULSEN, P
    HOUNSGAARD, J
    JAHNSEN, H
    ACTA PHYSIOLOGICA SCANDINAVICA, 1980, 109 (03): : A33 - A33
  • [44] INHIBITION IN SYNCHRONOUSLY FIRING HUMAN HIPPOCAMPAL-NEURONS
    ISOKAWAAKESSON, M
    WILSON, CL
    BABB, TL
    EPILEPSY RESEARCH, 1989, 3 (03) : 236 - 247
  • [45] ACUTE EFFECTS OF ETHANOL ON RAT HIPPOCAMPAL-NEURONS
    LAHNSTEINER, E
    KERSCHBAUM, H
    HERMANN, A
    EUROPEAN JOURNAL OF NEUROSCIENCE, 1992, : 71 - 71
  • [46] RAT HIPPOCAMPAL-NEURONS IN CULTURE - POTASSIUM CONDUCTANCES
    SEGAL, M
    BARKER, JL
    JOURNAL OF NEUROPHYSIOLOGY, 1984, 51 (06) : 1409 - 1433
  • [47] GABAA RESPONSES IN HIPPOCAMPAL-NEURONS ARE POTENTIATED BY GLUTAMATE
    STELZER, A
    WONG, RKS
    NATURE, 1989, 337 (6203) : 170 - 173
  • [48] EFFECTS OF KAINATE ON THE EXCITABILITY OF RAT HIPPOCAMPAL-NEURONS
    CHERUBINI, E
    ROVIRA, C
    BENARI, Y
    NISTRI, A
    EPILEPSY RESEARCH, 1990, 5 (01) : 18 - 27
  • [49] VALPROATE AND SODIUM CURRENTS IN CULTURED HIPPOCAMPAL-NEURONS
    VANDENBERG, RJ
    KOK, P
    VOSKUYL, RA
    EXPERIMENTAL BRAIN RESEARCH, 1993, 93 (02) : 279 - 287
  • [50] CALCIUM SIGNALING IN DENDRITIC SPINES OF HIPPOCAMPAL-NEURONS
    CONNOR, JA
    MILLER, LDP
    PETROZZINO, J
    MULLER, W
    JOURNAL OF NEUROBIOLOGY, 1994, 25 (03): : 234 - 242
12345