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上皮腺泡发育的计算研究:II. 结构和管腔稳定性的必要条件。

A computational study of the development of epithelial acini: II. Necessary conditions for structure and lumen stability.

作者信息

Rejniak Katarzyna A, Anderson Alexander R A

机构信息

Division of Mathematics, University of Dundee, Dundee, DD1 4HN, Scotland, UK.

出版信息

Bull Math Biol. 2008 Jul;70(5):1450-79. doi: 10.1007/s11538-008-9308-3. Epub 2008 Apr 10.

DOI:10.1007/s11538-008-9308-3
PMID:18401665
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3812684/
Abstract

Simple epithelial tissues are organized as single layers of tightly packed cells that surround hollow lumens and form selective barriers separating different internal compartments of the body. The maintenance of epithelial structure and its function requires tight coordination and control of all the life processes of epithelial cells via cell-to-cell communication and signaling. These well-balanced cellular systems are, however, quite often disturbed by genetic or environmental cues that may lead to the formation of epithelial tumors (carcinomas). In fact, more than a half of all diagnosed tumors are initiated from epithelial cells. It is, therefore, important to gain a greater understanding of the factors that form and maintain the epithelial structure, as well as the features of the acinar structure that are modified during cancer development as observable in experimental and clinical research. We address these questions using the bio-mechanical model of the developing hollow epithelial acini introduced in Rejniak and Anderson (Bull. Math. Biol. 70:677-712, 2008). Here, we propose several scenarios involving various bio-mechanical interactions between neighboring cells that result in abnormal acinar development. Whenever possible, we compare our computational results with known experimental cases of mutant acini.

摘要

单层上皮组织由紧密排列的单层细胞组成,这些细胞围绕着中空的管腔,形成分隔身体不同内部腔室的选择性屏障。上皮结构及其功能的维持需要通过细胞间通讯和信号传导对上皮细胞的所有生命过程进行紧密协调和控制。然而,这些平衡良好的细胞系统常常受到遗传或环境因素的干扰,这些因素可能导致上皮肿瘤(癌)的形成。事实上,所有确诊肿瘤中有超过一半起源于上皮细胞。因此,更深入地了解形成和维持上皮结构的因素,以及在实验和临床研究中观察到的在癌症发展过程中发生改变的腺泡结构特征非常重要。我们使用Rejniak和Anderson(《数学生物学公报》70:677 - 712,2008年)中引入的发育中空上皮腺泡的生物力学模型来解决这些问题。在这里,我们提出了几种涉及相邻细胞之间各种生物力学相互作用的情况,这些相互作用会导致腺泡发育异常。只要有可能,我们就将计算结果与已知的突变腺泡实验案例进行比较。

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