BH3 profiling in whole cells by fluorimeter or FACS

J Ryan, A Letai - Methods, 2013 - Elsevier
Methods, 2013Elsevier
Rapid analysis of a cell's propensity to undergo apoptosis through the mitochondrial
pathway is hindered by the complex network of interactions between more than fifteen
known members of the BCL2 family that govern the decision to undergo mitochondrial
apoptosis, and measurement of protein levels alone fails to account for critical interactions
between the proteins. To address this issue, we have developed two functional assays for
same-day analysis of cell lines or primary tissue samples. Using defined inputs in the form of …
Rapid analysis of a cell’s propensity to undergo apoptosis through the mitochondrial pathway is hindered by the complex network of interactions between more than fifteen known members of the BCL2 family that govern the decision to undergo mitochondrial apoptosis, and measurement of protein levels alone fails to account for critical interactions between the proteins. To address this issue, we have developed two functional assays for same-day analysis of cell lines or primary tissue samples. Using defined inputs in the form of peptides derived primarily from the BH3 domains of pro-apoptotic members of the BCL2 family, we invoke a response in the mitochondria in the form of mitochondrial outer membrane permeabilization measured indirectly using potential sensitive dyes. BH3 profiling can be applied to any viable single cell suspension and provides a response from the sum total of all known and unknown interactions within the BCL2 family for each stimulus, and the pattern of response can provide both a cell’s propensity towards mitochondrial apoptosis, or ‘priming’, as well as indicate dependencies on specific anti-apoptotic proteins. Described here are optimized conditions for both plate-based and FACS-based BH3 profiling for homogeneous and heterogeneous samples.
Elsevier