Administering copper reduces hyper-excitability generated by penicillin G in motor cortex neurons from rat brain slices.

IF 0.8 4区 医学 Q4 NEUROSCIENCES Archives Italiennes De Biologie Pub Date : 2019-09-30 DOI:10.12871/00039829201921
J Leiva, C Infante
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引用次数: 5

Abstract

Recording synaptic activity of layer III neurons from motor cortex slices, which was provoked by stimulating layer IV, generated synaptic responses of the field potential (FP) that went from mean 100 μV to 600 μV when the stimulus was increased up to twice the threshold. Administering 100 μM or 200 μM of copper, increased the responses to mean 800 μV and 820 μV, respectively. The response to 200 μM was not significantly greater than that to 100 μM. However, all FP responses were significantly lower to a copper concentration of 500 μM. The basal FP was slowly restored by removing the copper with Krebs-Ringer(K-R), resulting in similar characteristics to those observed before copper administration. Then, neurons were perfused with penicillin (2000 UI) to increase cortical excitability and to assess the depressing effect of high concentrations of copper. Administering 500 μM of copper significantly reduced the activity generated by penicillin, while removing by wash(K-R) penicillin and copper generated FP responses similar to those obtained at baseline. Our data indicate that depending on the concentration, copper can behave as an activating or blocking agent for cortical activity.

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给药铜可降低青霉素G在大鼠脑切片运动皮质神经元中产生的超兴奋性。
在运动皮层切片上记录第III层神经元在刺激第IV层时的突触活动,当刺激增加到阈值的2倍时,产生的突触场电位(FP)从平均100 μV上升到600 μV。当铜浓度为100 μM或200 μM时,反应速度分别提高到800 μV和820 μV。对200 μM的响应不显著大于对100 μM的响应。然而,当铜浓度为500 μM时,所有FP响应都显著降低。用Krebs-Ringer(K-R)去除铜后,基底FP缓慢恢复,其特征与给铜前相似。然后,给神经元灌注青霉素(2000ui)以增加皮质兴奋性,并评估高浓度铜的抑制作用。给药500 μM的铜显著降低了青霉素产生的活性,而通过清洗(K-R)去除青霉素和铜产生的FP反应与基线相似。我们的数据表明,根据浓度的不同,铜可以作为皮质活动的激活剂或阻滞剂。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Archives Italiennes De Biologie
Archives Italiennes De Biologie 医学-神经科学
CiteScore
2.10
自引率
30.00%
发文量
12
审稿时长
>12 weeks
期刊介绍: Archives Italiennes de Biologie - a Journal of Neuroscience- was founded in 1882 and represents one of the oldest neuroscience journals in the world. Archives publishes original contributions in all the fields of neuroscience, including neurophysiology, experimental neuroanatomy and electron microscopy, neurobiology, neurochemistry, molecular biology, genetics, functional brain imaging and behavioral science. Archives Italiennes de Biologie also publishes monographic special issues that collect papers on a specific topic of interest in neuroscience as well as the proceedings of important scientific events. Archives Italiennes de Biologie is published in 4 issues per year and is indexed in the major collections of biomedical journals, including Medline, PubMed, Current Contents, Excerpta Medica.
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