VOLTAGE-SENSITIVE CALCIUM-CHANNEL DEVELOPMENT IN EPILEPTIC DBA/2J MICE SUGGESTS ALTERED PRESYNAPTIC FUNCTION

被引：15

作者：

ESPLIN, MS

ABBOTT, JR

SMART, ML

BURROUGHS, AF

FRANDSEN, TC

LITZINGER, MJ

机构：

[1] UNIV UTAH,DEPT PEDIAT,SALT LAKE CITY,UT 84132

[2] UNIV UTAH,DEPT PHYSIOL,SALT LAKE CITY,UT 84112

来源：

EPILEPSIA | 1994年 / 35卷 / 05期

关键词：

EPILEPSY; EPILEPTOGENESIS; OMEGA-CONOTOXIN; CALCIUM; VOLTAGE-SENSITIVE ION CHANNEL; DBA/2J MICE; NONEPILEPTIC MICE;

D O I：

10.1111/j.1528-1157.1994.tb02533.x

中图分类号：

R74 [神经病学与精神病学];

学科分类号：

摘要：

Aberrant synapse formation has been implicated in development and propagation of epileptic potential. Litzinger et al. (1993a) showed that omega-GVIA conotoxin may be used as a marker for synapse formation in nonepileptic mice. We conducted omega-GVIA binding in synaptosomal preparations from epileptic DBA/2J mice at different developmental ages. Binding in DBA/2J mice was compared with omega-GVIA binding in synaptosomal preparations from nonepileptic C57/B1, Swiss Webster, and AJ mice. Striking differences between these strains of mice are evident in the developmental sequence and pattern of N-type voltage:sensitive calcium channels (VSCC). In contrast to nonepileptic mice, the DBA/2J mice show a slow increase in omega-GVIA binding between postnatal days 2 and 8. This increase corresponds to onset of susceptibility to seizure in this strain. In addition to the difference in developmental sequence, DBA/2J mice have fewer binding sites for omega-GVIA throughout development, suggesting changes in channel structure or number. These data show that in DBA/2J mice development of the VSCC in brain is different from that in nonepileptic mice. This difference in development in presynaptic membranes responsible for neurotransmitter release may represent a change in synaptic activity that plays a role in epileptogenesis.

引用

页码：911 / 914

页数：4

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