局部麻醉剂诱导筏样有序膜域破坏的机制。

Mechanism of local anesthetic-induced disruption of raft-like ordered membrane domains.

机构信息

Department of Chemistry, Graduate School of Science, Kyushu University, 744 Motooka, Nishi-ku, Fukuoka 819-0395, Japan.

出版信息

Biochim Biophys Acta Gen Subj. 2019 Sep;1863(9):1381-1389. doi: 10.1016/j.bbagen.2019.06.008. Epub 2019 Jun 15.

DOI:10.1016/j.bbagen.2019.06.008

PMID:31207252

Abstract

BACKGROUND

Because ordered membrane domains, called lipid rafts, regulate activation of ion channels related to the nerve pulse, lipids rafts are thought to be a possible target for anesthetic molecules. To understand the mechanism of anesthetic action, we examined influence of representative local anesthetics (LAs); dibucaine, tetracaine, and lidocaine, on raft-like liquid-ordered (L)/non-raft-like liquid-disordered (L) phase separation.

METHODS

Impact of LAs on the phase separation was observed by fluorescent microscopy. LA-induced perturbation of the L and L membranes was examined by DPH anisotropy measurements. Incorporation of LAs to the membranes was examined by fluorescent anisotropy of LAs. The biding location of the LAs was indicated by small angle x-ray diffraction (SAXD).

RESULTS

Fluorescent experiments showed that dibucaine eliminated the phase separation the most effectively, followed by tetracaine and lidocaine. The disruption of the phase separation can be explained by their disordering effects on the L membrane. SAXD and other experiments further suggested that dibucaine's most potent perturbation of the L membrane is attributable to its deeper immersion and bulky molecular structure. Tetracaine, albeit immersed in the L membrane as deeply as dibucaine, less perturbs the L membrane probably because of its smaller bulkiness. Lidocaine hardly reaches the hydrophobic region, resulting in the weakest L membrane perturbation.

CONCLUSION

Dibcaine perturbs the L membrane the most effectively, followed by tetracaine and lidocaine. This ranking correlates with their anesthetic potency.

GENERAL SIGNIFICANCE

This study suggests a possible mechanistic link between anesthetic action and perturbation of lipid rafts.

摘要

背景

由于有序的膜域，即脂质筏，调节与神经脉冲相关的离子通道的激活，因此脂质筏被认为是麻醉分子的可能靶标。为了了解麻醉作用的机制，我们研究了代表性局部麻醉剂（LAs）；布比卡因、地卡因和利多卡因对类脂筏样液体有序（L）/非类脂筏样液体无序（L）相分离的影响。

方法

通过荧光显微镜观察 LA 对相分离的影响。通过 DPH 各向异性测量研究 LA 对 L 和 L 膜的扰动。通过 LA 的荧光各向异性研究 LA 向膜的掺入。通过小角 X 射线衍射（SAXD）指示 LA 的结合位置。

结果

荧光实验表明，布比卡因最有效地消除了相分离，其次是地卡因和利多卡因。相分离的破坏可以用它们对 L 膜的无序作用来解释。SAXD 和其他实验进一步表明，布比卡因对 L 膜最强的扰动归因于其更深的浸入和较大的分子结构。地卡因虽然浸入 L 膜的深度与布比卡因相同，但由于其体积较小，对 L 膜的扰动较小。利多卡因几乎无法到达疏水区，导致对 L 膜的扰动最小。

结论

布比卡因最有效地扰动 L 膜，其次是地卡因和利多卡因。这种排序与它们的麻醉效力相关。

一般意义

这项研究表明麻醉作用与脂质筏的扰动之间可能存在机制联系。

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局部麻醉剂诱导筏样有序膜域破坏的机制。

Mechanism of local anesthetic-induced disruption of raft-like ordered membrane domains.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

GENERAL SIGNIFICANCE

背景

方法

结果

结论

一般意义

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