A toolkit for mapping cell identities in relation to neighbours reveals Notch-dependent heterogeneity within neuromesodermal progenitor populations

bioRxiv - Developmental Biology Pub Date : 2024-09-03 DOI:10.1101/2024.09.03.610492

Matthew French, Rosa Portero Migueles, J Kim Dale, Guillaume Blin, Valerie Wilson, Sally Lowell

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Abstract

Patterning of cell fates is central to embryonic development, tissue homeostasis, and disease. Quantitative analysis of patterning reveals the logic by which cell-cell interactions orchestrate changes in cell fate. However, it is challenging to quantify patterning when graded changes in identity occur over complex 4D trajectories, or where different cell states are intermingled. Furthermore, comparing patterns across multiple individual embryos, tissues, or organoids is difficult because these often vary in shape and size. Here we present a toolkit of computational approaches to tackle these problems. These strategies are based on measuring properties of each cell in relation to the properties of its neighbours to quantify patterning, and on using embryonic landmarks in order to compare these patterns between embryos. We use this toolkit to characterise patterning of cell identities within the caudal lateral epiblast of E8.5 embryos, revealing local patterning in emergence of early mesoderm cells that is sensitive to inhibition of Notch activity.

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绘制邻近细胞特征图的工具包揭示了神经组织胚胎祖细胞群中依赖于 Notch 的异质性

细胞命运的模式化是胚胎发育、组织稳态和疾病的核心。对模式化的定量分析揭示了细胞-细胞相互作用协调细胞命运变化的逻辑。然而，在复杂的四维轨迹上发生身份分级变化，或不同细胞状态相互交织的情况下，对模式化进行量化具有挑战性。此外，比较多个胚胎、组织或器官的模式也很困难，因为它们的形状和大小往往各不相同。这些策略的基础是测量每个细胞的属性与其相邻细胞属性的关系，以量化模式，并使用胚胎地标来比较不同胚胎的模式。我们利用这一工具包描述了 E8.5 胚胎尾侧上胚层细胞特征的模式化，揭示了早期中胚层细胞出现的局部模式化对 Notch 活动抑制的敏感性。

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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bioRxiv - Developmental Biology

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