Figure 2. Staining of nucleus (DAPI), cytochrome c and LC3B in HepG2 cells treated with media (non-treated) or with the proteasome inhibitor MG132 (20 ?M) for 18 hours. Note that LC3B appears as distinct spots in the cytoplasm. Cytochrome c released from mitochondria is detected in cytoplasm and in the nucleus. Images from two time points were chosen to depict events that occur in their maximal states. LC3B expression (autophagy) and cytochrome c release from mitochondria and its distribution throughout the cell (this figure) precede nuclear condensation, loss of cells and increased cell permeability and terminal events associated with cell death (next figure).
This kit was optimized using the Thermo Scientific ArrayScan? HCS Reader and the Compartmental Analysis BioApplication Software Module but can be used with other Cellomics BioApplications. Thus, automated plate-handling, focusing, cell image acquisition and data analysis are combined in one HCS system to assay for compounds that regulate the autophagy and other apoptotic events. In addition to HCS instruments, cells stained using reagents in this kit can be viewed and analyzed by fluorescence and confocal microscopes.
Programmed cell death is characterized by morphological changes that include classical apoptotic features such as loss of mitochondrial membrane potential, increased cell permeability, induction of nuclear condensation and fragmentation. Mitochondrial-dependent apoptosis is accomplished by release of cytochrome c and cleavage of caspase 9, caspase 3 and PARP. The apoptosis mechanism is mainly caspase-dependent; however, other forms of programmed cell death, such as that induced by autophagy, is caspase-independent. Autophagy is a catabolic process involving sequestration and self-ingestion of various cellular constituents such as organelles and long-lived proteins. LC3B is one of the best known markers that indicate formation of autophagic vesicles. Cells that undergo excessive autophagy are triggered to die in a non-apoptotic manner. Automated, quantitative, cell-based imaging HCS assays enable simultaneous measurements of multiple targets in individual cells, allowing programmed cell death pathways to be distinguished and characterized. This kit has markers for apoptosis (cytochrome c), autophagy (LC3B), general cytotoxicity and cell death indicators (nuclear morphology, DNA content and cell membrane permeability), which are monitored in the cells simultaneously.
These cellular properties are measured directly using fixed end-point assay and fluorescence detection in cells grown on standard high-density microplates. The kits contain highly specific primary
antibodies, DyLight-conjugated Secondary Antibodies and other reagents and buffers required to stain cells for HCS assays.
Product Detail
The Multiparameter Cell Death Detection Kits for high-content screening (HCS) enable simultaneous quantitation of LC3B protein on autophagic vesicles, cytochrome c localization and its release from
mitochrondria, cell membrane integrity and its permeability and nuclear morphology and DNA content.
The Multiparameter Cell Death Detection Kits for high-content screening (HCS) enable simultaneous quantitation |