用于瞬时细胞黏附的超弱糖-糖相互作用。
Ultraweak sugar-sugar interactions for transient cell adhesion.
作者信息
Pincet F, Le Bouar T, Zhang Y, Esnault J, Mallet J M, Perez E, Sinaÿ P
机构信息
Laboratoire de Physique Statistique de l'Ecole Normale Supérieure, UMR 8550 associée au CNRS et aux Universités Paris 6 et Paris 7, 75231 Paris cedex 05, France.
出版信息
Biophys J. 2001 Mar;80(3):1354-8. doi: 10.1016/S0006-3495(01)76108-5.
Abstract
Carbohydrate-carbohydrate interactions are rarely considered in biologically relevant situations such as cell recognition and adhesion. One Ca(2+)-mediated homotypic interaction between two Lewis(x) determinants (Le(x)) has been proposed to drive cell adhesion in murine embryogenesis. Here, we confirm the existence of this specific interaction by reporting the first direct quantitative measurements in an environment akin to that provided by membranes. The adhesion between giant vesicles functionalized with Le(x) was obtained by micropipette aspiration and contact angle measurements. This interaction is below the thermal energy, and cell-cell adhesion will require a large number of molecules, as illustrated by the Le(x) concentration peak observed at the cell membranes during the morula stage of the embryo. This adhesion is ultralow and therefore difficult to measure. Such small interactions explain why the concept of specific interactions between carbohydrates is often neglected.
摘要
在细胞识别和黏附等生物学相关情境中,碳水化合物-碳水化合物相互作用很少被考虑。有人提出,两个Lewis(x)决定簇(Le(x))之间一种由Ca(2+)介导的同型相互作用在小鼠胚胎发育过程中驱动细胞黏附。在此,我们通过报告在类似于膜所提供的环境中的首次直接定量测量,证实了这种特定相互作用的存在。通过微量移液管抽吸和接触角测量获得了用Le(x)功能化的巨型囊泡之间的黏附。这种相互作用低于热能,并且细胞间黏附将需要大量分子,如在胚胎桑椹胚阶段细胞膜上观察到的Le(x)浓度峰值所示。这种黏附力极低,因此难以测量。如此微小的相互作用解释了为什么碳水化合物之间特定相互作用的概念常常被忽视。
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