CORTICOSTERONE ENHANCES KAINIC ACID-INDUCED CALCIUM ELEVATION IN CULTURED HIPPOCAMPAL-NEURONS

被引：81

作者：

ELLIOTT, EM ^{[1
]}

SAPOLSKY, RM ^{[1
]}

机构：

[1] STANFORD UNIV,DEPT BIOL SCI,STANFORD,CA 94305

来源：

JOURNAL OF NEUROCHEMISTRY | 1992年 / 59卷 / 03期

关键词：

CALCIUM; NEUROTOXICITY; HIPPOCAMPUS; GLUCOCORTICOIDS; CORTICOSTERONE; STRESS;

D O I：

10.1111/j.1471-4159.1992.tb08345.x

中图分类号：

Q5 [生物化学]; Q7 [分子生物学];

学科分类号：

071010 ; 081704 ;

摘要：

Corticosterone, a steroid secreted during stress, increases hippocampal neuronal vulnerability to excitotoxins, hypoxia-ischemia, and antimetabolites. Energy supplementation and N-methyl-D-aspartate receptor antagonists prevent this corticosterone-enhanced neurotoxicity. Because neuronal calcium regulation is energy dependent and a large calcium influx accompanies N-methyl-D-aspartate receptor activation, we investigated whether corticosterone exacerbates the elevation of hippocampal neuronal calcium induced by the glutamatergic excitotoxin kainic acid. Corticosterone caused a 23-fold increase in the magnitude of the calcium response to kainic acid, a sevenfold increase in the peak magnitude of the calcium response, and a twofold increase in calcium recovery time. This corticosterone effect may be energetic in nature as corticosterone decreases hippocampal neuronal glucose transport. Glucose supplementation reduced the corticosterone effect on the magnitude and peak magnitude of the calcium response to kainic acid. Glucose reduction, by the approximate magnitude by which corticosterone inhibits glucose transport, mimicked the corticosterone effect on the peak magnitude of the calcium response to kainic acid. Thus, corticosterone increases calcium after kainic acid exposure in hippocampal neurons in an energy-dependent manner. Elevated calcium is strongly implicated in stimulating neurotoxic cascades during other energetic insults and may be the mechanism for the corticosterone-induced hippocampal neuronal vulnerability and toxicity.

引用

页码：1033 / 1040

页数：8

共 54 条

[1] GLUCOCORTICOID ENDANGERMENT OF HIPPOCAMPAL-NEURONS IS NMDA-RECEPTOR DEPENDENT
ARMANINI, MP
HUTCHINS, C
STEIN, BA
SAPOLSKY, RM
[J]. BRAIN RESEARCH, 1990, 532 (1-2) : 7 - 12
[2] A RANDOMIZED, CONTROLLED TRIAL OF METHYLPREDNISOLONE OR NALOXONE IN THE TREATMENT OF ACUTE SPINAL-CORD INJURY - RESULTS OF THE 2ND NATIONAL ACUTE SPINAL-CORD INJURY STUDY
BRACKEN, MB
SHEPARD, MJ
COLLINS, WF
HOLFORD, TR
YOUNG, W
BASKIN, DS
EISENBERG, HM
FLAMM, E
LEOSUMMERS, L
MAROON, J
MARSHALL, LF
PEROT, PL
PIEPMEIER, J
SONNTAG, VKH
WAGNER, FC
WILBERGER, JE
WINN, HR
[J]. NEW ENGLAND JOURNAL OF MEDICINE, 1990, 322 (20) : 1405 - 1411
[3] INTRACELLULAR CALCIUM HOMEOSTASIS
CARAFOLI, E
[J]. ANNUAL REVIEW OF BIOCHEMISTRY, 1987, 56 : 395 - 433
[4] EFFECTS OF KAINATE ON THE EXCITABILITY OF RAT HIPPOCAMPAL-NEURONS
CHERUBINI, E
ROVIRA, C
BENARI, Y
NISTRI, A
[J]. EPILEPSY RESEARCH, 1990, 5 (01) : 18 - 27
[5] GLUTAMATE NEUROTOXICITY AND DISEASES OF THE NERVOUS-SYSTEM
CHOI, DW
[J]. NEURON, 1988, 1 (08) : 623 - 634
[6] SUSTAINED DENDRITIC GRADIENTS OF CA-2+ INDUCED BY EXCITATORY AMINO-ACIDS IN CA1 HIPPOCAMPAL-NEURONS
CONNOR, JA
WADMAN, WJ
HOCKBERGER, PE
WONG, RKS
[J]. SCIENCE, 1988, 240 (4852) : 649 - 653
[7] GLUTAMATE INDUCES CALCIUM WAVES IN CULTURED ASTROCYTES - LONG-RANGE GLIAL SIGNALING
CORNELLBELL, AH
FINKBEINER, SM
COOPER, MS
SMITH, SJ
[J]. SCIENCE, 1990, 247 (4941) : 470 - 473
[8] ANATOMICAL ORGANIZATION OF EXCITATORY AMINO-ACID RECEPTORS AND THEIR PATHWAYS
COTMAN, CW
MONAGHAN, DT
OTTERSEN, OP
STORMMATHISEN, J
[J]. TRENDS IN NEUROSCIENCES, 1987, 10 (07) : 273 - 280
[9] DALLMAN MF, 1987, RECENT PROG HORM RES, V43, P113
[10] DICYAN E, 1989, CRC HDB CHEM PHYSICS, pC687

← 1 2 3 4 5 6 →