Differential Phase Contrast Imaging to Predict MSC Immune Function.

IF 9.6 2区医学 Q1 ENGINEERING, BIOMEDICAL

Advanced Healthcare Materials Pub Date : 2025-07-02 DOI:10.1002/adhm.202501553

Kejie Rui, Priyanka Priyadarshani, Adrian Ross Liversage, Carlos Munoz, Steven Stice, Luke J Mortensen

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引用次数: 0

Abstract

Mesenchymal stromal cells (MSCs) exhibit significant immunomodulatory potential, making them promising candidates for cell-based therapies in autoimmune and inflammatory diseases. However, the heterogeneity of MSC cultures and a lack of robust, predictive potency assays have hindered their clinical translation. In this study, the potential of single-cell morphological imaging during MSC expansion is explored as a method to estimate indoleamine-2,3-dioxygenase (IDO) protein and enzyme activity, a common immunosuppressive capacity measure. Fluorescence and label-free quantitative differential phase contrast (qDPC) imaging is employed to non-invasively extract morphological features from live MSCs during biomanufacturing with machine learning (ML) regression models to predict single cell IDO activity. qDPC imaging characterization is extended to estimate a previously established consensus model of MSC potency based on their IDO activity and immune suppression on T cells. These findings establish a foundation for scalable, non-destructive monitoring of MSC immunomodulatory capacity, facilitating the future development of quality control strategies for MSC manufacturing and clinical applications.

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差相对比成像预测间充质干细胞免疫功能。

间充质基质细胞（MSCs）表现出显著的免疫调节潜能，使其成为自身免疫性疾病和炎症性疾病细胞治疗的有希望的候选者。然而，间充质干细胞培养的异质性和缺乏强大的预测性效力测定阻碍了它们的临床转化。在这项研究中，单细胞形态学成像在MSC扩增过程中的潜力被探索作为一种方法来估计吲哚胺-2,3-双加氧酶（IDO）蛋白和酶活性，一种常见的免疫抑制能力指标。在生物制造过程中，利用荧光和无标记的定量差相对比（qDPC）成像技术，通过机器学习（ML）回归模型，无创地从活的MSCs中提取形态学特征，以预测单细胞IDO活性。qDPC成像表征被扩展到基于其IDO活性和对T细胞的免疫抑制来估计先前建立的MSC效力的共识模型。这些发现为可扩展的、非破坏性的MSC免疫调节能力监测奠定了基础，促进了MSC制造和临床应用的质量控制策略的未来发展。

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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来源期刊

Advanced Healthcare Materials 工程技术-生物材料

CiteScore

14.40

自引率

3.00%

发文量

600

审稿时长

1.8 months

期刊介绍： Advanced Healthcare Materials, a distinguished member of the esteemed Advanced portfolio, has been dedicated to disseminating cutting-edge research on materials, devices, and technologies for enhancing human well-being for over ten years. As a comprehensive journal, it encompasses a wide range of disciplines such as biomaterials, biointerfaces, nanomedicine and nanotechnology, tissue engineering, and regenerative medicine.