Effects of iontophoretic application of trimethyltin on spontaneous neuronal activity in mouse hippocampal slices.

Neurobehavioral toxicology and teratology Pub Date : 1986-11-01

D L Armstrong, H L Read, A E Cork, F Montemayor, M J Wayner

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Abstract

Changes in spontaneous activity in various regions of mouse hippocampal slices were observed following iontophoretic application of trimethyltin (TMT). TMT (0.5 mM) dissolved in 0.15 M NaCl and ejected in 30 sec periods from four barrel micropipettes using anodal ejection currents (3-28 nA) produced dose dependent increases in the spontaneous activity of 67.6% of the 34 dentate gyrus cells tested. Seventy percent of the 25 CA3 cells tested displayed prolonged (30-200 sec) decreases in activity. The majority of CA1 and CA2 cells examined also displayed a decrease in firing rate. Repeated applications of TMT produced increased variability in spontaneous firing rates in all regions tested. When slices were maintained in a low Ca++, high Co++ perfusion fluid to inhibit synaptic activity, the TMT induced increase of dentate gyrus cell firing rate was not observed. The results demonstrate that direct application of TMT produces immediate changes in hippocampal cell activity that is specific for certain regions. Significant increases in firing rate were only observed in the dentate gyrus and these effects were calcium dependent.

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三甲基锡离子电泳对小鼠海马切片自发神经元活动的影响。

观察了三甲基锡(TMT)离子电泳后小鼠海马切片各区域自发活动的变化。TMT (0.5 mM)溶解于0.15 M NaCl中，在4个桶状微移液管中以阳极喷射电流(3-28 nA)在30秒内喷射，在34个测试的齿状回细胞中产生了67.6%的剂量依赖性自发活性增加。在25个CA3细胞中，70%的细胞表现出持续的(30-200秒)活性下降。大多数CA1和CA2细胞也显示放电率下降。在所有测试区域，反复应用TMT会增加自发放电率的变异性。将切片置于低Ca++、高Co++灌注液中抑制突触活性时，未观察到TMT诱导齿状回细胞放电率升高。结果表明，直接应用TMT会产生海马细胞活性的直接变化，这种变化是特定区域的。放电率的显著增加仅在齿状回观察到，这些影响是钙依赖的。

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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Neurobehavioral toxicology and teratology

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