High-Speed Clearing and High-Resolution Staining for Analysis of Various Markers for Neurons and Vessels.

IF 4.4 4区 医学 Q2 CELL & TISSUE ENGINEERING
Jung Min Park, Seock Hwan Choi, Eun-Shil Lee, Sang-Il Gum, Sungkuk Hong, Dong Sun Kim, Man-Hoon Han, Soung-Hoon Lee, Ji Won Oh
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引用次数: 0

Abstract

Background: Tissue clearing enables deep imaging in various tissues by increasing the transparency of tissues, but there were limitations of immunostaining of the large-volume tissues such as the whole brain.

Methods: Here, we cleared and immune-stained whole mouse brain tissues using a novel clearing technique termed high-speed clearing and high-resolution staining (HCHS). We observed neural structures within the cleared brains using both a confocal microscope and a light-sheet fluorescence microscope (LSFM). The reconstructed 3D images were analyzed using a computational reconstruction algorithm.

Results: Various neural structures were well observed in three-dimensional (3D) images of the cleared brains from Gad-green fluorescent protein (GFP) mice and Thy 1-yellow fluorescent protein (YFP) mice. The intrinsic fluorescence signals of both transgenic mice were preserved after HCHS. In addition, large-scale 3D imaging of brains, immune-stained by the HCHS method using a mild detergent-based solution, allowed for the global topological analysis of several neuronal markers such as c-Fos, neuronal nuclear protein (NeuN), Microtubule-associated protein 2 (Map2), Tuj1, glial fibrillary acidic protein (GFAP), and tyrosine hydroxylase (TH) in various anatomical regions in the whole mouse brain tissues. Finally, through comparisons with various existing tissue clearing methodologies such as CUBIC, Visikol, and 3DISCO, it was confirmed that the HCHS methodology results in relatively less tissue deformation and higher fluorescence retention.

Conclusion: In conclusion, the development of 3D imaging based on novel tissue-clearing techniques (HCHS) will enable detailed spatial analysis of neural and vascular networks present within the brain.

Abstract Image

高速清除和高分辨率染色,用于分析神经元和血管的各种标记。
背景:方法:在此,我们使用一种称为高速清除和高分辨率染色(HCHS)的新型清除技术对小鼠全脑组织进行了清除和免疫染色。我们使用共聚焦显微镜和光片荧光显微镜(LSFM)观察了清除后大脑中的神经结构。我们使用计算重建算法对重建的三维图像进行了分析:结果:在Gad-绿色荧光蛋白(GFP)小鼠和Thy 1-黄色荧光蛋白(YFP)小鼠清除后大脑的三维图像中,可以很好地观察到各种神经结构。两种转基因小鼠的固有荧光信号在 HCHS 后都得到了保留。此外,通过使用温和去污剂溶液进行免疫染色的 HCHS 方法对大脑进行大规模三维成像,可以对小鼠全脑组织中不同解剖区域的多个神经元标记物(如 c-Fos、神经元核蛋白(NeuN)、微管相关蛋白 2(Map2)、Tuj1、胶质纤维酸性蛋白(GFAP)和酪氨酸羟化酶(TH))进行全局拓扑分析。最后,通过与 CUBIC、Visikol 和 3DISCO 等现有的各种组织清除方法进行比较,证实 HCHS 方法的组织变形相对较小,荧光保留率较高:总之,基于新型组织清除技术(HCHS)的三维成像技术的发展将有助于对大脑内的神经和血管网络进行详细的空间分析。
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来源期刊
Tissue engineering and regenerative medicine
Tissue engineering and regenerative medicine CELL & TISSUE ENGINEERING-ENGINEERING, BIOMEDICAL
CiteScore
6.80
自引率
5.60%
发文量
83
审稿时长
6-12 weeks
期刊介绍: Tissue Engineering and Regenerative Medicine (Tissue Eng Regen Med, TERM), the official journal of the Korean Tissue Engineering and Regenerative Medicine Society, is a publication dedicated to providing research- based solutions to issues related to human diseases. This journal publishes articles that report substantial information and original findings on tissue engineering, medical biomaterials, cells therapy, stem cell biology and regenerative medicine.
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