Autofluorescence imaging of endogenous metabolic cofactors in response to cytokine stimulation of classically activated macrophages.

IF 6 3区 医学 Q1 CELL BIOLOGY Cancer & Metabolism Pub Date : 2023-11-13 DOI:10.1186/s40170-023-00325-z
Shelby N Bess, Matthew J Igoe, Abby C Denison, Timothy J Muldoon
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Abstract

Background: Macrophages are one of the most prevalent subsets of immune cells within the tumor microenvironment and perform a range of functions depending on the cytokines and chemokines released by surrounding cells and tissues. Recent research has revealed that macrophages can exhibit a spectrum of phenotypes, making them highly plastic due to their ability to alter their physiology in response to environmental cues. Recent advances in examining heterogeneous macrophage populations include optical metabolic imaging, such as fluorescence lifetime imaging (FLIM), and multiphoton microscopy. However, the method of detection for these systems is reliant upon the coenzymes NAD(P)H and FAD, which can be affected by factors other than cytoplasmic metabolic changes. In this study, we seek to validate these optical measures of metabolism by comparing optical results to more standard methods of evaluating cellular metabolism, such as extracellular flux assays and the presence of metabolic intermediates.

Methods: Here, we used autofluorescence imaging of endogenous metabolic co-factors via multiphoton microscopy and FLIM in conjunction with oxygen consumption rate and extracellular acidification rate through Seahorse extracellular flux assays to detect changes in cellular metabolism in quiescent and classically activated macrophages in response to cytokine stimulation.

Results: Based on our Seahorse XFP flux analysis, M0 and M1 macrophages exhibit comparable trends in oxygen consumption rate (OCR) and extracellular acidification rate (ECAR). Autofluorescence imaging of M0 and M1 macrophages was not only able to show acute changes in the optical redox ratio from pre-differentiation (0 hours) to 72 hours post-cytokine differentiation (M0: 0.320 to 0.258 and M1: 0.316 to 0.386), mean NADH lifetime (M0: 1.272 ns to 1.379 ns and M1: 1.265 ns to 1.206 ns), and A1/A2 ratio (M0: 3.452 to ~ 4 and M1: 3.537 to 4.529) but could also detect heterogeneity within each macrophage population.

Conclusions: Overall, the findings of this study suggest that autofluorescence metabolic imaging could be a reliable technique for longitudinal tracking of immune cell metabolism during activation post-cytokine stimulation.

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经典活化巨噬细胞内源性代谢辅助因子响应细胞因子刺激的自身荧光成像。
背景:巨噬细胞是肿瘤微环境中最常见的免疫细胞亚群之一,依赖于周围细胞和组织释放的细胞因子和趋化因子来执行一系列功能。最近的研究表明,巨噬细胞可以表现出一系列的表型,这使得它们具有高度的可塑性,因为它们能够根据环境线索改变自己的生理机能。研究异质巨噬细胞群体的最新进展包括光学代谢成像,如荧光寿命成像(FLIM)和多光子显微镜。然而,这些系统的检测方法依赖于辅酶NAD(P)H和FAD,它们可以受到细胞质代谢变化以外的因素的影响。在这项研究中,我们试图通过将光学结果与更标准的评估细胞代谢的方法(如细胞外通量测定和代谢中间体的存在)进行比较,来验证这些代谢的光学测量。方法:本研究通过多光子显微镜和FLIM对内源性代谢辅助因子进行自身荧光成像,并结合海马细胞外通量测定的耗氧量和细胞外酸化率,检测静止和经典活化巨噬细胞在细胞因子刺激下的细胞代谢变化。结果:基于海马XFP通量分析,M0和M1巨噬细胞在耗氧率(OCR)和细胞外酸化率(ECAR)方面表现出相似的趋势。自体荧光成像M0、M1巨噬细胞不仅能够显示急性光氧化还原率的变化从pre-differentiation(0小时)到72小时post-cytokine分化(M0: 0.320到0.258 M1: 0.316 - 0.386),意味着NADH一生(M0: 1.272 1.379 ns和M1 ns: 1.265 ns 1.206 ns),和A1 / A2比(M0: 3.452 ~ 4和M1: 3.537 - 4.529)但也可以发现异质性在每个人口巨噬细胞。结论:总的来说,本研究的结果表明,自体荧光代谢成像可能是一种可靠的纵向跟踪免疫细胞在激活后细胞因子刺激期间代谢的技术。
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
自引率
1.70%
发文量
17
审稿时长
14 weeks
期刊介绍: Cancer & Metabolism welcomes studies on all aspects of the relationship between cancer and metabolism, including: -Molecular biology and genetics of cancer metabolism -Whole-body metabolism, including diabetes and obesity, in relation to cancer -Metabolomics in relation to cancer; -Metabolism-based imaging -Preclinical and clinical studies of metabolism-related cancer therapies.
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