Machine learning-assisted imaging analysis of a human epiblast model.

IF 1.5 4区 生物学 Q4 CELL BIOLOGY Integrative Biology Pub Date : 2021-10-15 DOI:10.1093/intbio/zyab014
Agnes M Resto Irizarry, Sajedeh Nasr Esfahani, Yi Zheng, Robin Zhexuan Yan, Patrick Kinnunen, Jianping Fu
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Abstract

The human embryo is a complex structure that emerges and develops as a result of cell-level decisions guided by both intrinsic genetic programs and cell-cell interactions. Given limited accessibility and associated ethical constraints of human embryonic tissue samples, researchers have turned to the use of human stem cells to generate embryo models to study specific embryogenic developmental steps. However, to study complex self-organizing developmental events using embryo models, there is a need for computational and imaging tools for detailed characterization of cell-level dynamics at the single cell level. In this work, we obtained live cell imaging data from a human pluripotent stem cell (hPSC)-based epiblast model that can recapitulate the lumenal epiblast cyst formation soon after implantation of the human blastocyst. By processing imaging data with a Python pipeline that incorporates both cell tracking and event recognition with the use of a CNN-LSTM machine learning model, we obtained detailed temporal information of changes in cell state and neighborhood during the dynamic growth and morphogenesis of lumenal hPSC cysts. The use of this tool combined with reporter lines for cell types of interest will drive future mechanistic studies of hPSC fate specification in embryo models and will advance our understanding of how cell-level decisions lead to global organization and emergent phenomena. Insight, innovation, integration: Human pluripotent stem cells (hPSCs) have been successfully used to model and understand cellular events that take place during human embryogenesis. Understanding how cell-cell and cell-environment interactions guide cell actions within a hPSC-based embryo model is a key step in elucidating the mechanisms driving system-level embryonic patterning and growth. In this work, we present a robust video analysis pipeline that incorporates the use of machine learning methods to fully characterize the process of hPSC self-organization into lumenal cysts to mimic the lumenal epiblast cyst formation soon after implantation of the human blastocyst. This pipeline will be a useful tool for understanding cellular mechanisms underlying key embryogenic events in embryo models.

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人类上胚层模型的机器学习辅助成像分析。
人类胚胎是一个复杂的结构,它的出现和发育是内在遗传程序和细胞-细胞相互作用指导下细胞水平决定的结果。鉴于人类胚胎组织样本的可获取性有限以及相关的伦理限制,研究人员转而使用人类干细胞生成胚胎模型,以研究特定的胚胎发育步骤。然而,要利用胚胎模型研究复杂的自组织发育事件,需要计算和成像工具来详细描述单细胞水平的细胞动态特征。在这项工作中,我们从基于人类多能干细胞(hPSC)的上胚层模型中获得了活细胞成像数据,该模型能再现人类胚泡植入后不久形成的腔内上胚层囊肿。通过使用 CNN-LSTM 机器学习模型结合细胞跟踪和事件识别的 Python 管道处理成像数据,我们获得了 hPSC 管腔囊肿动态生长和形态发生过程中细胞状态和邻近变化的详细时间信息。这一工具的使用与相关细胞类型的报告基因相结合,将推动未来胚胎模型中hPSC命运分化的机理研究,并将推进我们对细胞级决策如何导致全局组织和突发现象的理解。洞察、创新、整合:人类多能干细胞(hPSCs)已被成功用于模拟和理解人类胚胎发育过程中发生的细胞事件。在基于 hPSC 的胚胎模型中,了解细胞-细胞和细胞-环境之间的相互作用如何指导细胞的行动,是阐明系统级胚胎形态和生长驱动机制的关键一步。在这项工作中,我们展示了一个强大的视频分析管道,它结合使用机器学习方法,全面描述了 hPSC 自组织成腔囊的过程,以模仿人类胚泡植入后不久形成的腔囊外胚层。该管道将成为了解胚胎模型中关键胚胎发生事件的细胞机制的有用工具。
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来源期刊
Integrative Biology
Integrative Biology 生物-细胞生物学
CiteScore
4.90
自引率
0.00%
发文量
15
审稿时长
1 months
期刊介绍: Integrative Biology publishes original biological research based on innovative experimental and theoretical methodologies that answer biological questions. The journal is multi- and inter-disciplinary, calling upon expertise and technologies from the physical sciences, engineering, computation, imaging, and mathematics to address critical questions in biological systems. Research using experimental or computational quantitative technologies to characterise biological systems at the molecular, cellular, tissue and population levels is welcomed. Of particular interest are submissions contributing to quantitative understanding of how component properties at one level in the dimensional scale (nano to micro) determine system behaviour at a higher level of complexity. Studies of synthetic systems, whether used to elucidate fundamental principles of biological function or as the basis for novel applications are also of interest.
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