Imaging flow cytometry of tumoroids: A new method for studying GPCR expression

IF 2.5 4区 生物学 Q3 BIOCHEMICAL RESEARCH METHODS
V. Gratio, S. Dayot, S. Benadda, P. Nicole, L. Saveanu, T. Voisin, A. Couvineau
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Abstract

Fluorescence confocal microscopy is commonly used to analyze the regulation membrane proteins expression such as G protein-coupled receptors (GPCRs). With this approach, the internal movement of GPCRs within the cell can be observed with a high degree of resolution. However, these microscopy techniques led to complex and time-consuming analysis and did not allow a large population of events to be sampled. A recent approach termed imaging flow cytometry (IFC), which combines flow cytometry and fluorescence microscopy, had two main advantages to study the regulation of GPCRs expression such as orexins receptors (OXRs): the ability (1) to analyze large numbers of cells and; (2) to visualize cell integrity and fluorescent markers localization. Here, we compare these two technologies using the orexin A (OxA) ligand coupled to rhodamine (OxA-rho) to investigate anti-tumoral OX1R expression in human digestive cancers. IFC has been adapted for cancer epithelial adherent cells and also to 3D cell culture tumoroids which partially mimic tumoral structures. In the absence of specific antibody, expression of OX1R is examined in the presence of OxA-rho. 2D-culture of colon cancer cells HT-29 exhibits a maximum level of OX1R internalization induced by OxA with 19% ± 3% colocalizing to early endosomes. In 3D-culture of HT-29 cells, internalization of OX1R/OxA-rho reached its maximum at 60 min, with 30.7% ± 6.4% of OX1R colocalizing with early endosomes. This is the first application of IFC to the analysis of the expression of a native GPCR, OX1R, in both 2D and 3D cultures of adherent cancer cells.

Abstract Image

类肿瘤成像流式细胞术:研究GPCR表达的新方法。
荧光共聚焦显微镜常用来分析G蛋白偶联受体(gpcr)等膜蛋白的表达调控。通过这种方法,可以以高分辨率观察细胞内gpcr的内部运动。然而,这些显微镜技术导致复杂和耗时的分析,并没有允许大量的事件采样。最近的一种方法称为成像流式细胞术(IFC),它结合了流式细胞术和荧光显微镜,在研究gpcr的表达调控(如食欲素受体(OXRs))方面有两个主要优点:1)分析大量细胞的能力;(2)可视化细胞完整性和荧光标记定位。在这里,我们比较了这两种技术,使用食欲素A (OxA)配体偶联罗丹明(OxA-rho)来研究人类消化系统癌症中OX1R的抗肿瘤表达。IFC已适用于癌症上皮贴壁细胞,也适用于部分模拟肿瘤结构的3D细胞培养类肿瘤。在没有特异性抗体的情况下,在有OxA-rho的情况下检测OX1R的表达。在结肠癌细胞HT-29的2d培养中,OxA诱导的OX1R内化水平最高,在早期内体共定位19%±3%。在HT-29细胞的3d培养中,OX1R/OxA-rho的内化在60 min时达到最大值,有30.7%±6.4%的OX1R与早期内体共定位。这是IFC首次应用于分析附着癌细胞的2D和3D培养物中天然GPCR OX1R的表达。
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来源期刊
Cytometry Part A
Cytometry Part A 生物-生化研究方法
CiteScore
8.10
自引率
13.50%
发文量
183
审稿时长
4-8 weeks
期刊介绍: Cytometry Part A, the journal of quantitative single-cell analysis, features original research reports and reviews of innovative scientific studies employing quantitative single-cell measurement, separation, manipulation, and modeling techniques, as well as original articles on mechanisms of molecular and cellular functions obtained by cytometry techniques. The journal welcomes submissions from multiple research fields that fully embrace the study of the cytome: Biomedical Instrumentation Engineering Biophotonics Bioinformatics Cell Biology Computational Biology Data Science Immunology Parasitology Microbiology Neuroscience Cancer Stem Cells Tissue Regeneration.
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