Suppression of auto-fluorescence from high-resolution 3D polymeric architectures fabricated via two-photon polymerization for cell biology applications

IF 2.8 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC Micro and Nano Engineering Pub Date : 2023-06-01 DOI:10.1016/j.mne.2023.100188
A. Sharaf , J.P. Frimat , G.J. Kremers , A. Accardo
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引用次数: 1

Abstract

Two-photon polymerization (2PP) has provided the field of cell biology with the opportunity to fabricate precisely designed microscaffolds for a wide range of studies, from mechanobiology to in vitro disease modelling. However, a multitude of commercial and in-house developed photosensitive materials employed in 2PP suffers from high auto-fluorescence in multiple regions of the spectrum. In the context of in vitro cell biological studies, this is a major problem since one of the main methods of characterization is fluorescence microscopy of immuno-stained cells. This undesired auto-fluorescence of microscaffolds affects the efficiency of such an analysis as it often overlaps with fluorescent signals of stained cells rendering them indistinguishable from the scaffolds. Here, we propose two effective solutions to suppress this auto-fluorescence and compare them to determine the superiority of one over the other: photo-bleaching with a powerful UV point source and auto-fluorescence quenching via Sudan Black B (SBB). The materials used in this study were all commercially available, namely IP-L, IP-Dip, IP-S, and IP-PDMS. Bleaching was shown to be 61.7–92.5% effective in reducing auto-fluorescence depending on the material. On the other hand, SBB was shown to be 33–95.4% effective. The worst result in presence of SBB (33%) was in combination with IP-PDMS since the adsorption of the material on IP-PDMS was not sufficient to fully quench the auto-fluorescence. However, auto-fluorescence reduction was significantly enhanced when activating the IP-PDMS structures with oxygen plasma for 30 s. Moreover, we performed a cell culture assay using a human neuroblastoma cell line (SH-SY5Y) to prove the effectiveness of both methods in immunofluorescence characterization. SBB presented a lower performance in the study especially in presence of 2PP-fabricated microchannels and microcages, within which the differentiated SH-SY5Y cells migrated and extended their axon-like processes, since the SBB obstructed the fluorescence of the stained cells. Therefore, we concluded that photo-bleaching is the optimal way of auto-fluorescence suppression. In summary, this study provides a systematic comparison to answer one of the most pressing issues in the field of 2PP applied to cell biology and paves the way to a more efficient immunofluorescence characterization of cells cultured within engineered in vitro microenvironments.

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通过双光子聚合制备的高分辨率三维聚合物结构在细胞生物学应用中的自荧光抑制
双光子聚合(2PP)为细胞生物学领域提供了制造精确设计的微支架的机会,用于从机械生物学到体外疾病建模的广泛研究。然而,在2PP中使用的大量商业和内部开发的光敏材料在光谱的多个区域中具有高的自荧光。在体外细胞生物学研究的背景下,这是一个主要问题,因为表征的主要方法之一是免疫染色细胞的荧光显微镜。微支架的这种不希望有的自动荧光影响了这种分析的效率,因为它经常与染色细胞的荧光信号重叠,使它们与支架无法区分。在这里,我们提出了两种抑制这种自动荧光的有效解决方案,并对它们进行比较,以确定其中一种方案的优越性:使用强大的紫外线点源进行光漂白和通过苏丹黑B(SBB)进行自动荧光猝灭。本研究中使用的材料均为市售材料,即IP-L、IP-Dip、IP-S和IP-PDMS。漂白在减少自身荧光方面的有效性为61.7–92.5%,具体取决于材料。另一方面,SBB的有效率为33-95.4%。SBB(33%)存在下的最差结果是与IP-PDMS组合,因为材料在IP-PDMS上的吸附不足以完全猝灭自身荧光。然而,当用氧等离子体激活IP-PDMS结构30秒时,自身荧光减少显著增强。此外,我们使用人神经母细胞瘤细胞系(SH-SY5Y)进行了细胞培养试验,以证明这两种方法在免疫荧光表征中的有效性。SBB在研究中表现出较低的性能,特别是在存在2PP制造的微通道和微腔的情况下,分化的SH-SY5Y细胞在其中迁移并延伸其轴突样过程,因为SBB阻碍了染色细胞的荧光。因此,我们得出结论,光漂白是抑制自身荧光的最佳方法。总之,本研究提供了一个系统的比较,以回答2PP应用于细胞生物学领域中最紧迫的问题之一,并为在工程化体外微环境中培养的细胞的更有效的免疫荧光表征铺平了道路。
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来源期刊
Micro and Nano Engineering
Micro and Nano Engineering Engineering-Electrical and Electronic Engineering
CiteScore
3.30
自引率
0.00%
发文量
67
审稿时长
80 days
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