Real-time detection of cellular death receptor-4 activation by fluorescence resonance energy transfer

Autor:	Ling Ge Zeng, Sidra Waqas, Harmeet Gandhok, Zeynep Dereli-Korkut, Xuejun Jiang, Sihong Wang
Rok vydání:	2013
Předmět:	musculoskeletal diseases Recombinant Fusion Proteins Confocal Cell Bioengineering Biology Applied Microbiology and Biotechnology Article Cell membrane Drug Delivery Systems Cell Line Tumor Fluorescence Resonance Energy Transfer Fluorescence microscope medicine Humans Cell Membrane fungi Immunohistochemistry Fluorescence Photobleaching Cell biology Luminescent Proteins Receptors TNF-Related Apoptosis-Inducing Ligand medicine.anatomical_structure Förster resonance energy transfer Microscopy Fluorescence Cell culture Biotechnology
Zdroj:	Biotechnology and Bioengineering. 110:1396-1404
ISSN:	0006-3592
DOI:	10.1002/bit.24804
Popis:	Targeted therapy involving the activation of death receptors DR4 and/or DR5 by its ligand, TRAIL, can selectively induce apoptosis in certain tumor cells. In order to profile the dynamic activation or trimerization of TRAIL-DR4 in live cells in real-time, the development of an apoptosis reporter cell line is essential. Fluorescence resonance energy transfer (FRET) technology via a FRET pair, cyan fluorescence protein (CFP) and yellow fluorescence protein (YFP), was used in this study. DR4-CFP and DR4-YFP were stably expressed in human lung cancer PC9 cells. Flow cytometer sorting and limited dilution coupled with fluorescence microscopy were used to select a monoclonal reporter cell line with high and compatible expression levels of DR4-CFP and DR4-YFP. FRET experiments were conducted and FRET efficiencies were monitored according to the Siegel's YFP photobleaching FRET protocol. Upon TRAIL induction a significant increase in FRET efficiencies from 5% to 9% demonstrated the ability of the DR4-CFP/YFP reporter cell line in monitoring the dynamic activation of TRAIL pathways. 3D reconstructed confocal images of DR4-CFP/YFP reporter cells exhibited a colocalized expression of DR4-CFP and DR4-YFP mainly on cell membranes. FRET results obtained during this study complements the use of epi-fluorescence microscopy for FRET analysis. The real-time FRET analysis allows the dynamic profiling of the activation of TRAIL pathways by using the time-lapse fluorescence microscopy. Therefore, DR4-CFP/YFP PC9 reporter cells along with FRET technology can be used as a tool for anti-cancer drug screening to identify compounds that are capable of activating TRAIL pathways.
Databáze:	OpenAIRE
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