在 750 纳米单一激发波长下利用多光谱荧光寿命成像显微镜同时评估 NAD(P)H 和黄素。

IF 3 3区 医学 Q2 BIOCHEMICAL RESEARCH METHODS Journal of Biomedical Optics Pub Date : 2024-10-01 Epub Date: 2024-09-30 DOI:10.1117/1.JBO.29.10.106501
Boris Yakimov, Anastasia Komarova, Elena Nikonova, Artem Mozherov, Liubov Shimolina, Marina Shirmanova, Wolfgang Becker, Evgeny Shirshin, Vladislav Shcheslavskiy
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引用次数: 0

摘要

意义重大:还原型烟酰胺腺嘌呤二核苷酸和氧化型黄素辅助因子的自发荧光特性对于评估细胞的代谢状态非常重要。对自发荧光信号的光谱和时间特征进行详细分析的方法可为了解细胞和生物组织的生化过程提供更多信息,并促进光谱荧光寿命成像技术向临床应用的过渡。目的:我们介绍了多光谱荧光寿命成像实验,详细分析了单一激发波长下还原型烟酰胺腺嘌呤二核苷酸和氧化型黄素的荧光衰减和光谱轮廓,旨在了解使用多光谱检测是否有助于癌细胞的代谢成像:我们使用双光子光谱荧光寿命成像显微镜。从模型溶液开始,我们改用代谢抑制剂处理细胞培养物,然后研究肿瘤球体内细胞的代谢:结果:使用多光谱检测器并结合 750 nm 单波长激发,可以根据全局拟合程序识别来自三种成分的荧光信号:游离和结合的 NAD(P)H 以及黄素。多光谱数据不仅能评估黄素的寿命,还能评估化学扰动引起的黄素发射光谱偏移。总之,所开发方法的信息参数包括游离和结合 NAD(P)H 振幅的比率、结合 NAD(P)H 的衰减时间、黄素荧光信号的振幅、黄素的荧光衰减时间以及黄素发射信号的光谱偏移。因此,通过多光谱荧光寿命成像,我们可以得到五个独立的参数,其中三个与黄素有关:使用单一波长(750 nm)激发和荧光时间分辨光谱检测来探测培养细胞和球形细胞的新陈代谢状态,并随之对数据进行全局分析,这种方法不仅简化了图像采集方案,还能在使用新陈代谢抑制剂处理细胞时,通过评估其荧光参数(发射光谱和荧光寿命)的变化来区分游离和结合的 NAD(P)H 和黄素成分的影响,并感知三维肿瘤球体内的新陈代谢异质性。
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Simultaneous assessment of NAD(P)H and flavins with multispectral fluorescence lifetime imaging microscopy at a single excitation wavelength of 750 nm.

Significance: Autofluorescence characteristics of the reduced nicotinamide adenine dinucleotide and oxidized flavin cofactors are important for the evaluation of the metabolic status of the cells. The approaches that involve a detailed analysis of both spectral and time characteristics of the autofluorescence signals may provide additional insights into the biochemical processes in the cells and biological tissues and facilitate the transition of spectral fluorescence lifetime imaging into clinical applications.

Aim: We present the experiments on multispectral fluorescence lifetime imaging with a detailed analysis of the fluorescence decays and spectral profiles of the reduced nicotinamide adenine dinucleotide and oxidized flavin under a single excitation wavelength aimed at understanding whether the use of multispectral detection is helpful for metabolic imaging of cancer cells.

Approach: We use two-photon spectral fluorescence lifetime imaging microscopy. Starting from model solutions, we switched to cell cultures treated by metabolic inhibitors and then studied the metabolism of cells within tumor spheroids.

Results: The use of a multispectral detector in combination with an excitation at a single wavelength of 750 nm allows the identification of fluorescence signals from three components: free and bound NAD(P)H, and flavins based on the global fitting procedure. Multispectral data make it possible to assess not only the lifetime but also the spectral shifts of emission of flavins caused by chemical perturbations. Altogether, the informative parameters of the developed approach are the ratio of free and bound NAD(P)H amplitudes, the decay time of bound NAD(P)H, the amplitude of flavin fluorescence signal, the fluorescence decay time of flavins, and the spectral shift of the emission signal of flavins. Hence, with multispectral fluorescence lifetime imaging, we get five independent parameters, of which three are related to flavins.

Conclusions: The approach to probe the metabolic state of cells in culture and spheroids using excitation at a single wavelength of 750 nm and a fluorescence time-resolved spectral detection with the consequent global analysis of the data not only simplifies image acquisition protocol but also allows to disentangle the impacts of free and bound NAD(P)H, and flavin components evaluate changes in their fluorescence parameters (emission spectra and fluorescence lifetime) upon treating cells with metabolic inhibitors and sense metabolic heterogeneity within 3D tumor spheroids.

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来源期刊
CiteScore
6.40
自引率
5.70%
发文量
263
审稿时长
2 months
期刊介绍: The Journal of Biomedical Optics publishes peer-reviewed papers on the use of modern optical technology for improved health care and biomedical research.
期刊最新文献
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