基于计算机的人类结肠隐窝中干细胞动力学建模。

Modeling of stem cell dynamics in human colonic crypts in silico.

出版信息

J Gastroenterol. 2014 Feb;49(2):263-9. doi: 10.1007/s00535-013-0887-x.

Abstract

BACKGROUND

Several possible scenarios of cellular dynamics in human colonic crypts have been inferred from transgenic animal experiments. However, because of the discrepancy in size and physiology between humans and animals, quantitative predictions of tissue renewal and cancer development are difficult to execute.

METHODS

A two-dimensional individual based model was developed for the first time to predict cellular dynamics in human colonic crypts. A simple scenario, in which stem cells were not fixed positionally, divide symmetrically and asymmetrically in a stochastic fashion in the lower part of the crypt, was proposed and implemented in the developed model. Numerical simulations of the model were executed in silico.

RESULTS

By comparing the results of computational simulations with available experimental data, the presented scenario was consistent with various experimental evidence. Using this scenario, we simulated and visualized monoclonal conversion in the human colonic crypt. We also predicted that the propensity for monoclonal expansion of a mutant cell was largely dependent on the phenotype, the cell type, the position and the state of the crypt.

CONCLUSIONS

Using the computational framework developed in this study, model users can verify possible scenarios of stem cell dynamics occurring in human colonic crypts and quantitatively predict cell behavior. Its applicability in scenario verification and predictability makes it a valuable tool for elucidation of stem cell dynamics in human colonic crypts.

摘要

背景

从转基因动物实验中推断出了人类结肠隐窝中细胞动力学的几种可能情况。然而，由于人类和动物在大小和生理上的差异，定量预测组织更新和癌症发展是困难的。

方法

首次开发了一个二维基于个体的模型，用于预测人类结肠隐窝中的细胞动力学。提出并在开发的模型中实现了一个简单的方案，即在隐窝的下部，干细胞不固定位置，以随机的方式进行对称和不对称分裂。对模型进行了数值模拟。

结果

通过将计算模拟的结果与现有的实验数据进行比较，所提出的方案与各种实验证据一致。使用这个方案，我们模拟并可视化了人类结肠隐窝中的单克隆转换。我们还预测，突变细胞的单克隆扩展倾向在很大程度上取决于表型、细胞类型、隐窝的位置和状态。

结论

使用本研究中开发的计算框架，模型用户可以验证发生在人类结肠隐窝中的干细胞动力学的可能情况，并定量预测细胞行为。它在情景验证和可预测性方面的适用性使其成为阐明人类结肠隐窝中干细胞动力学的有价值的工具。

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J Theor Biol. 2012 Aug 7;306:104-14. doi: 10.1016/j.jtbi.2012.04.021. Epub 2012 Apr 26.

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Modelling the role of the basement membrane beneath a growing epithelial monolayer.模拟生长的上皮单层下方基膜的作用。

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Nature. 2011 Sep 18;478(7368):255-9. doi: 10.1038/nature10408.

Ancestries hidden in plain sight: methylation patterns for clonal analysis.隐匿于众目睽睽之下的谱系：用于克隆分析的甲基化模式

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基于计算机的人类结肠隐窝中干细胞动力学建模。

Modeling of stem cell dynamics in human colonic crypts in silico.

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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