Cell-based bioluminescent assays for all three proteasome activities in a homogeneous format.

A luminescent method to individually measure the chymotrypsin-like, trypsin-like, or caspase-like activities of the proteasome in cultured cells was developed. Each assay uses a specific luminogenic peptide substrate in a buffer optimized for cell permeabilization, proteasome activity, and luciferase activity. Luminescence is generated in a coupled-enzyme format in which proteasome cleavage of the peptide conjugated substrate generates aminoluciferin, which is a substrate for luciferase.

A homogeneous assay to measure live and dead cells in the same sample by detecting different protease markers.

A method to simultaneously determine the relative numbers of live and dead cells in culture by introducing a combination of two fluorogenic substrates or a fluorogenic and a luminogenic protease substrate into the sample is described. The method is based on detection of differential ubiquitous proteolytic activities associated with intact viable cells and cells that have lost membrane integrity. A cell-permeable peptide aminofluorocoumarin substrate detects protease activity restricted to intact viable cells.

Homogeneous, bioluminescent protease assays: caspase-3 as a model.

Using caspase-3 as a model, the authors have developed a strategy for highly sensitive, homogeneous protease assays suitable for high-throughput, automated applications. The assay uses peptide-conjugated aminoluciferin as the protease substrate and a firefly luciferase that has been molecularly evolved for increased stability. By combining the proluminescent caspase-3 substrate, Z-DEVD-aminoluciferin, with a stabilized luciferase in a homogeneous format, the authors developed an assay that is significantly faster and more sensitive than fluorescent caspase-3 assays.