细胞间粘附在多细胞芽形成中的作用。
The Role of Cell-Cell Adhesion in the Formation of Multicellular Sprouts.
作者信息
Szabó A, Czirók A
机构信息
Department of Biological Physics, Eötvos University, Budapest, Hungary.
出版信息
Math Model Nat Phenom. 2010 Jan 1;5(1):106. doi: 10.1051/mmnp/20105105.
Abstract
Collective cell motility and its guidance via cell-cell contacts is instrumental in several morphogenetic and pathological processes such as vasculogenesis or tumor growth. Multicellular sprout elongation, one of the simplest cases of collective motility, depends on a continuous supply of cells streaming along the sprout towards its tip. The phenomenon is often explained as leader cells pulling the rest of the sprout forward via cell-cell adhesion. Building on an empirically demonstrated analogy between surface tension and cell-cell adhesion, we demonstrate that such a mechanism is unable to recruit cells to the sprout. Moreover, the expansion of such hypothetical sprouts is limited by a form of the Plateau-Taylor instability. In contrast, actively moving cells - guided by cell-cell contacts - can readily populate and expand linear sprouts. We argue that preferential attraction to the surfaces of elongated cells can provide a generic mechanism, shared by several cell types, for multicellular sprout formation.
摘要
集体细胞运动及其通过细胞间接触的引导在血管生成或肿瘤生长等多种形态发生和病理过程中发挥着重要作用。多细胞芽伸长是集体运动最简单的情况之一,它依赖于沿着芽向其尖端流动的细胞的持续供应。这种现象通常被解释为领头细胞通过细胞间粘附将芽的其余部分向前拉。基于表面张力和细胞间粘附之间经验证明的类比,我们证明这种机制无法将细胞招募到芽中。此外,这种假设芽的扩展受到一种形式的普拉托-泰勒不稳定性的限制。相比之下,在细胞间接触引导下积极移动的细胞可以很容易地填充和扩展线性芽。我们认为,对伸长细胞表面的优先吸引力可以为多种细胞类型所共有的多细胞芽形成提供一种通用机制。
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