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兴奋性海马突触的突触前抑制:突触前钙通道的发育及作用

Presynaptic inhibition at excitatory hippocampal synapses: development and role of presynaptic Ca2+ channels.

作者信息

Scholz K P, Miller R J

机构信息

Department of Pharmacological and Physiological Sciences, University of Chicago, Illinois 60637, USA.

出版信息

J Neurophysiol. 1996 Jul;76(1):39-46. doi: 10.1152/jn.1996.76.1.39.

DOI:10.1152/jn.1996.76.1.39
PMID:8836207
Abstract
  1. Presynaptic inhibition of excitatory postsynaptic currents (EPSCs) induced by activation of adenosine receptors was examined at hippocampal synapses in cell culture. Changes in the degree of presynaptic inhibition during development were examined. The results were then used to test the role of presynaptic Ca2+ channels in presynaptic inhibition. 2. Application of the selective A1 adenosine receptor agonist N6-cyclopentyladenosine (CPA) reduced EPSCs measured with the use of whole cell voltage-clamp procedures. In cells grown in culture for < 15 days, CPA (100 nM) inhibited EPSCs by 74 +/- 2%. In cells grown in culture for > 20 days, the same concentration of CPA inhibited EPSCs by 47 +/- 3%. 3. In mature cells (grown in culture for > 20 days), application of the selective N-type Ca2+ channel blocker omega-conotoxin GVIA (omega-CTx GVIA; 2.5 microM) partially occluded the effects of CPA. In contrast, the P/Q channel blocker omega-Aga IVA enhanced the effects of CPA. Both toxins reduced the amplitude of the EPSC. 4. omega-CTx GVIA was applied to the EPSC that remained after application of 100 nM CPA. Under these conditions, omega-CTx GVIA reduced the EPSC by less than when omega-CTx GVIA was applied under control conditions. In contrast, when omega-Aga IVA was applied in the presence of CPA, the toxin reduced the EPSC to a greater extent than when it was applied under control conditions. 5. Somatic Ca(2+)-channel currents were inhibited by CPA. This effect was partially occluded by pretreatment with omega-CTx GVIA but was unaffected by pretreatment with omega-Aga IVA (1 microM). Both toxins blocked part of the somatic Ca(2+)-channel current. 6. The results indicate that inhibition of presynaptic N-type Ca2+ channels accounted for 40-50% of presynaptic inhibition, another type of Ca2+ channel may participate as well. In addition, the efficacy of presynaptic inhibition declined during synapse maturation due in part to a developmental decline in the relative contribution of N-type channels to transmitter release.
摘要
  1. 在细胞培养的海马突触处,研究了腺苷受体激活所诱导的兴奋性突触后电流(EPSCs)的突触前抑制作用。研究了发育过程中突触前抑制程度的变化。然后利用这些结果来检验突触前Ca2+通道在突触前抑制中的作用。2. 应用选择性A1腺苷受体激动剂N6-环戊基腺苷(CPA)可降低采用全细胞电压钳技术测得的EPSCs。在培养小于15天的细胞中,CPA(100 nM)可使EPSCs抑制74±2%。在培养大于20天的细胞中,相同浓度的CPA可使EPSCs抑制47±3%。3. 在成熟细胞(培养大于20天)中,应用选择性N型Ca2+通道阻滞剂ω-芋螺毒素GVIA(ω-CTx GVIA;2.5 μM)可部分阻断CPA的作用。相反,P/Q通道阻滞剂ω-银环蛇毒素IVA增强了CPA的作用。两种毒素均降低了EPSC的幅度。4. 将ω-CTx GVIA应用于100 nM CPA作用后剩余的EPSC。在这些条件下,ω-CTx GVIA使EPSC降低的幅度小于在对照条件下应用ω-CTx GVIA时。相反,当在CPA存在的情况下应用ω-银环蛇毒素IVA时,该毒素使EPSC降低的程度大于在对照条件下应用时。5. 体细胞Ca(2+)-通道电流受到CPA的抑制。这种作用被ω-CTx GVIA预处理部分阻断,但不受ω-银环蛇毒素IVA(1 μM)预处理的影响。两种毒素均阻断了部分体细胞Ca(2+)-通道电流。6. 结果表明,突触前N型Ca2+通道的抑制占突触前抑制的40 - 50%,可能还有另一种类型的Ca2+通道也参与其中。此外,突触前抑制的效能在突触成熟过程中下降,部分原因是N型通道对递质释放的相对贡献在发育过程中下降。

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