Mechanisms for the formation of membranous nanostructures in cell-to-cell communication

被引:0
作者
Karin Schara
Vid Janša
Vid Šuštar
Drago Dolinar
Janez Ivan Pavlič
Maruša Lokar
Veronika Kralj-Iglič
Peter Veranič
Aleš Iglič
机构
[1] University of Ljubljana,Laboratory of Clinical Biophysics, Institute of Biophysics, Faculty of Medicine
[2] University Medical Centre Ljubljana,Faculty of Health Studies
[3] University of Ljubljana,Laboratory of Physics, Faculty of Electrical Engineering
[4] University of Ljubljana,Institute of Cell Biology, Faculty of Medicine
[5] University of Ljubljana,undefined
来源
Cellular & Molecular Biology Letters | 2009年 / 14卷
关键词
Membrane nanostructures; Cell-to-cell communication; Microvesicles; Nanotubes; Trousseau syndrome; Heparin;
D O I
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中图分类号
学科分类号
摘要
Cells interact by exchanging material and information. Two methods of cell-to-cell communication are by means of microvesicles and by means of nanotubes. Both microvesicles and nanotubes derive from the cell membrane and are able to transport the contents of the inner solution. In this review, we describe two physical mechanisms involved in the formation of microvesicles and nanotubes: curvature-mediated lateral redistribution of membrane components with the formation of membrane nanodomains; and plasmamediated attractive forces between membranes. These mechanisms are clinically relevant since they can be affected by drugs. In particular, the underlying mechanism of heparin’s role as an anticoagulant and tumor suppressor is the suppression of microvesicluation due to plasma-mediated attractive interaction between membranes.
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页码:636 / 656
页数:20
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