利用双光子荧光寿命成像显微镜和机器学习分析测量癌细胞的代谢变化

IF 2 3区物理与天体物理 Q3 BIOCHEMICAL RESEARCH METHODS

Journal of Biophotonics Pub Date : 2024-11-25 DOI:10.1002/jbio.202400426

Jiaxin Zhang, Horst Wallrabe, Karsten Siller, Brian Mbogo, Thomas Cassidy, Shagufta Rehman Alam, Ammasi Periasamy

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引用次数: 0

摘要

利用双光子（2P）荧光寿命成像显微镜（FLIM）跟踪活体癌细胞中自发荧光辅酶 NAD(P)H 和 FAD 在药物治疗下的细胞代谢情况。在加入多柔比星前后的成像时间过程中，将 800 纳米同时激发两种辅酶与传统的 740/890 纳米和另一种 740/800 纳米顺序激发进行了比较。通过三种分析方法比较了单细胞分辨率下氧化还原状态的变化：我们最近推出的荧光寿命氧化还原比率（FLIRR：NAD(P)H-a2%/FAD-a1%）、使用主成分（PCA）和非线性多特征自动编码器（AE）分析的机器学习（ML）算法。虽然这三种算法都得出了类似的生物学结论（早期药物反应），但从统计学角度来看，ML 模型提供了最可靠的显著结果。在上述分析中，单 800 纳米激发两种辅酶进行代谢成像的优势得到了证明。

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Measuring Metabolic Changes in Cancer Cells Using Two-Photon Fluorescence Lifetime Imaging Microscopy and Machine-Learning Analysis

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Measuring Metabolic Changes in Cancer Cells Using Two-Photon Fluorescence Lifetime Imaging Microscopy and Machine-Learning Analysis

Two-photon (2P) fluorescence lifetime imaging microscopy (FLIM) was used to track cellular metabolism with drug treatment of auto-fluorescent coenzymes NAD(P)H and FAD in living cancer cells. Simultaneous excitation at 800 nm of both coenzymes was compared with traditional sequential 740/890 nm plus another alternative of 740/800 nm, before and after adding doxorubicin in an imaging time course. Changes of redox states at single cell resolution were compared by three analysis methods: our recently introduced fluorescence lifetime redox ratio (FLIRR: NAD(P)H-a ₂%/FAD-a ₁%), machine-learning (ML) algorithms using principal component (PCA) and non-linear multi-Feature autoencoder (AE) analysis. While all three led to similar biological conclusions (early drug response), the ML models provided statistically the most robust significant results. The advantage of the single 800 nm excitation of both coenzymes for metabolic imaging in above mentioned analysis is demonstrated.

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来源期刊

Journal of Biophotonics 生物-生化研究方法

CiteScore

5.70

自引率

7.10%

发文量

248

审稿时长

1 months

期刊介绍： The first international journal dedicated to publishing reviews and original articles from this exciting field, the Journal of Biophotonics covers the broad range of research on interactions between light and biological material. The journal offers a platform where the physicist communicates with the biologist and where the clinical practitioner learns about the latest tools for the diagnosis of diseases. As such, the journal is highly interdisciplinary, publishing cutting edge research in the fields of life sciences, medicine, physics, chemistry, and engineering. The coverage extends from fundamental research to specific developments, while also including the latest applications.