Abstract
Apoptosis and necrosis are the two major forms of cell death mechanisms. Both forms of cell death are involved in several physiological and pathological conditions and also in the elimination of cancer cells following successful chemotherapy. Large number of cellular and biochemical assays have evolved to determine apoptosis or necrosis for qualitative and quantitative purposes. A closer analysis of the assays and their performance reveal the difficulty in using any of these methods as a confirmatory approach, owing to the secondary induction of necrosis in apoptotic cells. This highlights the essential requirement of an approach with a real-time analysis capability for discriminating the two forms of cell death. This paper describes a sensitive live cell-based method for distinguishing apoptosis and necrosis at single-cell level. The method uses cancer cells stably expressing genetically encoded FRET-based active caspase detection probe and DsRed fluorescent protein targeted to mitochondria. Caspase activation is visualized by loss of FRET upon cleavage of the FRET probe, while retention of mitochondrial fluorescence and loss of FRET probe before its cleavage confirms necrosis. The absence of cleavage as well as the retention of mitochondrial fluorescence indicates live cells. The method described here forms an extremely sensitive tool to visualize and quantify apoptosis and necrosis, which is adaptable for diverse microscopic, flow cytometric techniques and high-throughput imaging platforms with potential application in diverse areas of cell biology and oncology drug screening.
Highlights
Apoptosis or programmed cell death is a highly conserved cell death mechanism and has a significant role in embryonic development as well as in the initiation and progression of several diseases
The other form of cell death called necrosis is a rapid nonspecific form of cell death, which often kills the cancer cell without involvement of any of the signaling described for apoptosis
The most popular assay described for discriminating apoptosis from necrosis is Annexin-V propidium iodide (PI) staining
Summary
Apoptosis or programmed cell death is a highly conserved cell death mechanism and has a significant role in embryonic development as well as in the initiation and progression of several diseases. The widely used method for apoptosis detection involves analysis of Annexin-V binding on cell membrane, DNA fragmentation, mitochondrial membrane potential loss, mitochondrial permeabilization, Bax activation and caspase activation analysis using fluorogenic substrates.[7,8] Most of these assays are highly powerful techniques for discriminating apoptotic cells from live cells. Annexin-V exposure, even though considered as an early event of apoptosis, had been initially characterized in necrotic cells.[9] Likewise, it is well established that most apoptotic cells later shift to necrotic status owing to membrane permeability.[10,11] This makes it very difficult to ascertain the nature of cell death signaling from snapshot events of analysis using this assay. We describe a sensitive and confirmatory real-time assay for discriminating apoptosis and necrosis
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