阿米替林的非离子化形式及相关三环化合物对大鼠离体交感神经元钾电流的强效阻断作用。
Potent block of potassium currents in rat isolated sympathetic neurones by the uncharged form of amitriptyline and related tricyclic compounds.
作者信息
Wooltorton J R, Mathie A
机构信息
Department of Pharmacology, Royal Free Hospital School of Medicine, London.
出版信息
Br J Pharmacol. 1995 Oct;116(4):2191-200. doi: 10.1111/j.1476-5381.1995.tb15053.x.
Abstract
- The block of K+ currents by amitriptyline and the related tricyclic compounds cyproheptadine and dizocilpine was studied in dissociated rat sympathetic neurones by whole-cell voltage-clamp recording. 2. Cyproheptadine (30 microM) inhibited the delayed-rectifier current (Kv) by 92% and the transient current (KA) by 43%. For inhibition of Kv, cyproheptaidine had a KD of 2.2 microM. Dizocilpine (30 microM) inhibited Kv by 26% and KA by 22%. The stereoisomers of dizocilpine were equally potent at blocking Kv and KA. 3. Amitriptyline, a weak base, was significantly more effective in blocking Kv at pH 9.4 (KD = 0.46 microM) where the ratio of charged to uncharged drug was 50:50 compared with pH 7.4 (KD = 11.9 microM) where the ratio was 99:1. 4. N-methylamitriptyline (10 microM), the permanently charged analogue of amitriptyline, inhibited Kv by only 2% whereas in the same cells amitriptyline (10 microM) inhibited Kv by 36%. 5. Neither amitriptyline nor N-methylamitriptyline had a detectable effect on Kv when added to the intracellular solution. 6. It is concluded that the uncharged form of amitriptyline is approximately one hundred times more potent in blocking Kv than the charged form. However, this does not seem to be due to uncharged amitriptyline having better access to an intracellular binding site.
摘要
- 通过全细胞膜片钳记录,在离体大鼠交感神经元中研究了阿米替林以及相关三环化合物赛庚啶和地卓西平对钾电流的阻断作用。2. 赛庚啶(30微摩尔)使延迟整流电流(Kv)抑制92%,瞬时电流(KA)抑制43%。对于Kv的抑制,赛庚啶的解离常数(KD)为2.2微摩尔。地卓西平(30微摩尔)使Kv抑制26%,KA抑制22%。地卓西平的立体异构体在阻断Kv和KA方面具有同等效力。3. 弱碱性的阿米替林在pH 9.4(KD = 0.46微摩尔,此时带电与不带电药物的比例为50:50)时阻断Kv的效果明显优于pH 7.4(KD = 11.9微摩尔,此时比例为99:1)。4. 阿米替林的永久带电类似物N-甲基阿米替林(10微摩尔)仅使Kv抑制2%,而在相同细胞中阿米替林(10微摩尔)使Kv抑制36%。5. 当加入细胞内溶液时,阿米替林和N-甲基阿米替林对Kv均无可检测到的影响。6. 得出的结论是,阿米替林的不带电形式在阻断Kv方面的效力比带电形式强约一百倍。然而,这似乎并非由于不带电的阿米替林更容易进入细胞内结合位点所致。
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