Modelling acute myeloid leukaemia in a continuum of differentiation states.

Q3 Mathematics

Letters in Biomathematics Pub Date : 2018-01-01 Epub Date: 2018-06-18 DOI:10.1080/23737867.2018.1472532

H Cho, K Ayers, L DePills, Y-H Kuo, J Park, A Radunskaya, R Rockne

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引用次数: 16

Abstract

Here we present a mathematical model of movement in an abstract space representing states of cellular differentiation. We motivate this work with recent examples that demonstrate a continuum of cellular differentiation using single cell RNA sequencing data to characterize cellular states in a high-dimensional space, which is then mapped into $ℝ^{2}$ or $ℝ^{2}$ with dimension reduction techniques. We represent trajectories in the differentiation space as a graph, and model directed and random movement on the graph with partial differential equations. We hypothesize that flow in this space can be used to model normal and abnormal differentiation processes. We present a mathematical model of hematopoeisis parameterized with publicly available single cell RNA-Seq data and use it to simulate the pathogenesis of acute myeloid leukemia (AML). The model predicts the emergence of cells in novel intermediate states of differentiation consistent with immunophenotypic characterizations of a mouse model of AML.

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模拟急性髓性白血病在连续分化状态。

在这里，我们提出了一个抽象空间中代表细胞分化状态的运动数学模型。我们用最近的例子来激励这项工作，这些例子展示了细胞分化的连续体，使用单细胞RNA测序数据来表征高维空间中的细胞状态，然后用降维技术将其映射到2或2中。我们将微分空间中的轨迹表示为一个图，并用偏微分方程对图上的有向和随机运动进行建模。我们假设这个空间的流动可以用来模拟正常和异常的分化过程。我们提出了一个用公开的单细胞RNA-Seq数据参数化造血的数学模型，并用它来模拟急性髓性白血病(AML)的发病机制。该模型预测细胞出现在新的中间分化状态，与AML小鼠模型的免疫表型特征一致。

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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