奥沙利铂神经毒性——不存在一般离子通道表面电荷效应。

Oxaliplatin neurotoxicity--no general ion channel surface-charge effect.

作者信息

Broomand Amir, Jerremalm Elin, Yachnin Jeffrey, Ehrsson Hans, Elinder Fredrik

机构信息

Department of Oncology-Pathology, Karolinska Institutet and Karolinska Pharmacy, Karolinska University Hospital, Solna, Stockholm, Sweden.

出版信息

J Negat Results Biomed. 2009 Jan 12;8:2. doi: 10.1186/1477-5751-8-2.

DOI:10.1186/1477-5751-8-2

PMID:19138416

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2639537/

Abstract

BACKGROUND

Oxaliplatin is a platinum-based chemotherapeutic drug. Neurotoxicity is the dose-limiting side effect. Previous investigations have reported that acute neurotoxicity could be mediated via voltage-gated ion channels. A possible mechanism for some of the effects is a modification of surface charges around the ion channel, either because of chelation of extracellular Ca2+, or because of binding of a charged biotransformation product of oxaliplatin to the channel. To elucidate the molecular mechanism, we investigated the effects of oxaliplatin and its chloride complex Pt(dach)oxCl on the voltage-gated Shaker K channel expressed in Xenopus oocytes. The recordings were made with the two-electrode and the cut-open oocyte voltage clamp techniques.

CONCLUSION

To our surprise, we did not see any effects on the current amplitudes, on the current time courses, or on the voltage dependence of the Shaker wild-type channel. Oxaliplatin is expected to bind to cysteines. Therefore, we explored if there could be a specific effect on single (E418C) and double-cysteine (R362C/F416C) mutated Shaker channels previously shown to be sensitive to cysteine-specific reagents. Neither of these channels were affected by oxaliplatin. The clear lack of effect on the Shaker K channel suggests that oxaliplatin or its monochloro complex has no general surface-charge effect on the channels, as has been suggested before, but rather a specific effect to the channels previously shown to be affected.

摘要

背景

奥沙利铂是一种铂类化疗药物。神经毒性是其剂量限制性副作用。先前的研究报告称，急性神经毒性可能通过电压门控离子通道介导。某些效应的一种可能机制是离子通道周围表面电荷的改变，这要么是由于细胞外Ca2+的螯合，要么是由于奥沙利铂的带电生物转化产物与通道的结合。为了阐明分子机制，我们研究了奥沙利铂及其氯络合物Pt(dach)oxCl对非洲爪蟾卵母细胞中表达的电压门控Shaker K通道的影响。记录采用双电极和切开式卵母细胞电压钳技术进行。

结论

令我们惊讶的是，我们未观察到对Shaker野生型通道的电流幅度、电流时间进程或电压依赖性有任何影响。奥沙利铂预计会与半胱氨酸结合。因此，我们探究了它是否会对先前已证明对半胱氨酸特异性试剂敏感的单（E418C）和双半胱氨酸（R362C/F416C）突变的Shaker通道产生特异性影响。这些通道均未受到奥沙利铂的影响。对Shaker K通道明显缺乏影响表明，奥沙利铂或其一氯络合物对通道没有如之前所认为的一般表面电荷效应，而是对先前已证明受影响的通道有特异性效应。

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奥沙利铂神经毒性——不存在一般离子通道表面电荷效应。

Oxaliplatin neurotoxicity--no general ion channel surface-charge effect.

作者信息

机构信息

出版信息

BACKGROUND

CONCLUSION

背景

结论

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