Biological inferences from a mathematical model for malignant invasion.

Invasion & metastasis Pub Date : 1996-01-01
A J Perumpanani, J A Sherratt, J Norbury, H M Byrne
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Abstract

Invasive cells show changes in adhesion, motility and the protease-antiprotease balance. In this paper the authors derive a model based on a continuum approach that describes the behaviour of the invasive cells. The invasive cells are studied in the context of their interaction with normal cells, noninvasive tumour cells, ECM proteins and the proteases. The authors briefly describe the methods of mathematical analysis used and then go on to highlight the biological inferences drawn from the mathematical analysis. Based on the results from the modelling the authors suggest that the movement of cells under the simultaneous effects of a haptotactic gradient and a concomitantly created chemotactic gradient is oscillatory both with respect to the speed of invasion and the wave profile of the invasive cells. They further demonstrate that the average speed of invasion can be computed as a measure of the phenotypic properties of the cell and the matrix. They use the model to suggest an intuitive explanation for the occurrence of noninvasion with high protease expression on the basis of chemotactic gradients that prevent invasion. The authors have studied the effect of the diffusivity of the protease on an invading cell and shown that increase in diffusivity initially results in enhanced invasion, but extreme increases in protease diffusivity can result in noninvasion.

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恶性侵袭的数学模型的生物学推论。
侵袭细胞表现出粘附性、运动性和蛋白酶-抗蛋白酶平衡的变化。在本文中,作者推导了一个基于连续体方法的模型,该方法描述了侵入性细胞的行为。侵袭性细胞是在它们与正常细胞、非侵袭性肿瘤细胞、ECM蛋白和蛋白酶相互作用的背景下研究的。作者简要描述了所使用的数学分析方法,然后重点介绍了从数学分析中得出的生物学推论。基于模型的结果,作者认为,在触觉趋向性梯度和同时产生的趋化梯度的同时作用下,细胞的运动在入侵速度和入侵细胞的波谱方面都是振荡的。他们进一步证明,平均入侵速度可以作为细胞和基质表型特性的衡量标准来计算。他们使用该模型,以防止入侵的趋化梯度为基础,对高蛋白酶表达的非侵袭性的发生提出了直观的解释。作者研究了蛋白酶的扩散率对入侵细胞的影响,并表明扩散率的增加最初导致入侵增强,但蛋白酶扩散率的极端增加可能导致不入侵。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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