Plasmas, membranes, and transport across the membranes

Q1 Medicine
Lluis M. Mir
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Abstract

Physical agents, like cold plasma, may affect the cells at various levels, amongst which the cell membrane. Cell or “plasma” membrane is a vital “organ” for the cell. Indeed if cell membrane integrity is affected, transports from cell outside to cell inside and from cell inside to cell outside can no longer be regulated [1]. It is essential for the cell physiology and survival to keep fully regulated the transport across the cell membrane of ions (Na+, Ca++, K+, Cl-), of small molecules (sugars, ATP, aminoacids, drugs – amongst many other xenobiotics) and even of large molecules such as regulatory RNAs (e.g. siRNA) or even proteins, DNAs, …

The way in which physical agents can modify/perturb the cell membrane [2] to cause these changes in the molecules transport across the membrane are even less well known that the changes occurring in the molecules transport. The methods used to analyze cell membrane perturbations have to be very sophisticated due to the dimensions of this element of the cell (the phospholipid bilayer has a thickness of 5 nm). They include nonlinear optical methods such as Raman microspectroscopy [3, 4].

In the presentation, these issues (changes in membrane structure and changes in transport across the membrane) will be presented in spite of a still fragmentary knowledge. They will be discussed comparing the action of various physical agents (plasma, electromagnetic fields, ultrasounds) to the electric pulses effects for which a deeper knowledge has been accumulated. [1-4], and analyzing their potentialities to cause cell death and to develop in new cancer treatments.

等离子体,细胞膜,以及细胞膜间的转运
物理因素,如冷等离子体,可以在不同水平上影响细胞,其中包括细胞膜。细胞膜或“质”膜是细胞的重要器官。确实,如果细胞膜的完整性受到影响,细胞外到细胞内以及细胞内到细胞外的运输就无法再被调节[1]。细胞膜上离子(Na+, Ca++, K+, Cl-),小分子(糖,ATP,氨基酸,药物等),甚至大分子(如调控rna(如siRNA)),甚至蛋白质,dna,物理介质是如何修饰/扰乱细胞膜的[2],从而导致分子在细胞膜上运输的这些变化,人们对发生在分子运输中的变化的了解甚至更少。用于分析细胞膜扰动的方法必须非常复杂,因为细胞的这种元素的尺寸(磷脂双分子层的厚度为5nm)。它们包括非线性光学方法,如拉曼显微光谱[3,4]。在报告中,这些问题(膜结构的变化和跨膜运输的变化)将被呈现,尽管知识仍然不完整。他们将讨论比较各种物理因素(等离子体,电磁场,超声波)的作用与电脉冲效应,其中积累了更深的知识。[1-4],并分析它们引起细胞死亡和开发新的癌症治疗方法的潜力。
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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来源期刊
Clinical Plasma Medicine
Clinical Plasma Medicine MEDICINE, RESEARCH & EXPERIMENTAL-
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