A Real-Time Image-Based Approach to Distinguish and Discriminate Apoptosis from Necrosis

Asha Lekshmi, Shankara Narayanan Varadarajan, Santhik Subhasingh Lupitha, Mydhily Nair, Aneesh Chandrasekharan, T.R. Santhoshkumar
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引用次数: 3

Abstract

Recent cell biology studies reveal that a cell can die through multiple pathways via distinct signaling mechanisms. Among these, apoptosis and necrosis are two distinct cell death pathways, and their detection and discrimination is vital in the drug discovery process and in understanding diverse biological processes. Although sensitive assays for apoptosis and necrosis are available, it is extremely difficult to adapt any of these methods to discriminate apoptosis-inducing stimuli from necrosis-inducing stimuli because of the acquisition of secondary necrosis by apoptotic cells when they are not phagocytosed. Essentially, any assay for discriminating apoptosis and necrosis needs to be carried out in real-time kinetic mode. Caspase 3 or 7 activation is observed in the majority of apoptotic cell death. Similarly, the absence of caspase 3/7 activation and cell membrane leakage are the two prominent indicators for necrotic cell death or necroptosis. The programmed form of necrosis, called pyroptosis, is also accompanied by membrane leakage and most often associated with activation of specific caspases such as caspase 1, 4, or 11, but not through caspase 3/7 activation. Here, a robust and sensitive real-time method is described to distinguish and discriminate apoptosis from necrosis. The assay utilizes stable integration of a genetically encoded fluorescence resonance energy transfer (FRET) probe for caspase 3/7 activation and the mitochondrion-targeted DsRed to identify necrotic cells. Caspase activation is determined by cleavage of the FRET probe; loss of soluble FRET probe with retention of mitochondrial red fluorescence indicates necrosis. This unit describes an important protocol for the generation of sensor cells expressing both probes, followed by detailed analysis of apoptosis and necrosis by microscopy imaging, confocal imaging, high-throughput imaging, and flow cytometry. © 2018 by John Wiley & Sons, Inc.

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基于实时图像的细胞凋亡与坏死的鉴别方法
最近的细胞生物学研究表明,细胞的死亡可以通过多种途径,通过不同的信号机制。其中,细胞凋亡和坏死是两种不同的细胞死亡途径,它们的检测和识别在药物发现过程和理解各种生物过程中至关重要。虽然对细胞凋亡和坏死有灵敏的测定方法,但由于凋亡细胞在未被吞噬时获得继发性坏死,因此很难采用任何这些方法来区分细胞凋亡诱导刺激和坏死诱导刺激。从本质上讲,任何分析识别细胞凋亡和坏死需要进行实时的动态模式。Caspase 3或7激活在大多数凋亡细胞死亡中被观察到。同样,caspase 3/7活性缺失和细胞膜渗漏是坏死细胞死亡或坏死下垂的两个突出指标。程序性坏死,称为焦亡,也伴有膜渗漏,最常与特定caspase的激活有关,如caspase 1、4或11,但不通过caspase 3/7激活。本文描述了一种鲁棒且敏感的实时方法来区分细胞凋亡和坏死。该检测利用基因编码荧光共振能量转移(FRET)探针(caspase 3/7激活)和线粒体靶向的DsRed来鉴定坏死细胞。半胱天冬酶的激活是由FRET探针的切割决定的;可溶性FRET探针丢失,线粒体红色荧光保留表明坏死。本单元描述了表达这两种探针的传感器细胞的生成的重要方案,随后通过显微镜成像、共聚焦成像、高通量成像和流式细胞术详细分析细胞凋亡和坏死。©2018 by John Wiley &儿子,Inc。
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