Sulfatase activity assay using an activity-based probe by generation of N-methyl isoindole under reducing conditions.

Sulfatases catalyze the hydrolysis of sulfate esters that are present in a range of biomolecules. This is an important step in several biological processes such as cellular degradation, hormone regulation, and cell signaling. We have developed a new activity-based sulfatase probe (probe 1) that generates a fluorescent N-methylisoindole upon hydrolysis by sulfatase. Because of the autoxidation of N-methylisoindole, the sulfatase activity was also tested under reducing conditions, containing either glutathione (GSH) or tris(2-carboxyethyl)phosphine (TCEP), exhibiting little change in kinetic parameters compared to non-reducing conditions. Probe 1 displayed reasonable kinetic parameters under both non-reducing and reducing conditions, among which the use of Tris buffer and Tris buffer containing GSH appeared to be appropriate conditions for inhibitor screening. Probe 1 showed stronger intensity upon treatment with sulfatase under neutral conditions than under acidic conditions, but it still has limitations in the selectivity for a specific sulfatase. Nevertheless, the fluorescent signal generated as a result of the release of N-methylisoindole after treatment of probe 1 with sulfatase provides a new assay for measuring sulfatase activity that could be adapted for high throughput screening.

Small-molecule probe using dual signals to monitor leucine aminopeptidase activity.

Leucine aminopeptidases (LAPs) are widely distributed in organisms from bacteria to humans, and play crucial roles in cell maintenance and cell growth. Thus, assays for LAP are necessary for measuring its activity and inhibitor potency. In this Letter, we report a small-molecule probe which exhibits colorimetric and fluorogenic changes according to LAP activity.