脉冲激光迫使癌细胞吸收抗癌药物——就像水在纳米医学中的作用。

Andrei P Sommer, Dan Zhu, Adam R Mester, Horst-Dieter Försterling
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引用次数: 13

摘要

在细胞内发挥作用的抗癌药物通过扩散过程进入癌细胞。与这些缓慢的过程相辅相成的是,细胞可以通过对流——一种更有效的运输过程——来吸收药物。通过中等强度的脉冲激光(或发光二极管)改变细胞中纳米级水层的结构,可以诱导跨膜对流。这是与光动力疗法的根本区别。在一个模型系统中,我们证明了一分钟的总照射时间足以完全抑制癌细胞的增殖。跨膜对流保护健康细胞免受长期化疗暴露,可用于克服多药耐药,并且是各种治疗和皮肤再生中有前途的新工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Pulsed laser light forces cancer cells to absorb anticancer drugs--the role of water in nanomedicine.
Abstract: Anticancer drugs executing their function intracellularly enter cancer cells via diffusive processes. Complementary to these slow processes, cells can be forced to incorporate drugs by convection – a more efficient transport process. Transmembrane convection is induced by moderately intense pulsed laser light (or light emitting diodes) changing the structure of nanoscopic water layers in cells. This is a fundamental difference with the method of photodynamic therapy. In a model system we demonstrate that a total irradiation time of one minute is sufficient to completely inhibit proliferation of cancer cells. Transmembrane convection protects healthy cells from extended chemotherapy exposure, could be exploited to overcome multidrug resistance, and is a promising new tool in a variety of therapies as well as in skin rejuvenation.
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