Acid
ceramidase (AC) hydrolyzes ceramides into sphingoid bases
and fatty acids. The enzyme is overexpressed in several types of cancer
and Alzheimer’s disease, and its genetic defect causes different
incurable disorders. The availability of a method for the specific
visualization of catalytically active AC in intracellular compartments
is crucial for diagnosis and follow-up of therapeutic strategies in
diseases linked to altered AC activity. This work was undertaken to
develop activity-based probes for the detection of AC. Several analogues
of the AC inhibitor SABRAC were synthesized and found to act as very
potent (two-digit nM range) irreversible AC inhibitors by reaction
with the active site Cys143. Detection of active AC in cell-free systems
was achieved either by using fluorescent SABRAC analogues or by click
chemistry with an azide-substituted analogue. The compound affording
the best features allowed the unprecedented labeling of active AC
in living cells.
Ceramide has a key role in the regulation of cellular senescence and apoptosis. As Ceramide levels are lowered by the action of acid ceramidase (AC), abnormally expressed in various cancers, the identification of AC inhibitors has attracted increasing interest. However, this finding has been mainly hampered by the lack of formats suitable for the screening of large libraries. We have overcome this drawback by adapting a fluorogenic assay to a 384-well plate format. The performance of this optimised platform has been proven by the screening a library of 4100 compounds. Our results show that the miniaturised platform is well suited for screening purposes and it led to the identification of several hits, that belong to different chemical classes and display potency ranges of 2–25 µM. The inhibitors also show selectivity over neutral ceramidase and retain activity in cells and can therefore serve as a basis for further chemical optimisation.
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