posted on 2023-08-29, 13:03authored byJin Gan, Jelle de Vries, Jimmy J. L. L. Akkermans, Yassene Mohammed, Rayman T. N. Tjokrodirijo, Arnoud H. de Ru, Robbert Q. Kim, David A. Vargas, Vito Pol, Rudi Fasan, Peter A. van Veelen, Jacques Neefjes, Hans van Dam, Huib Ovaa, Aysegul Sapmaz, Paul P. Geurink
Ubiquitin thioesterase
OTUB2, a cysteine protease from the ovarian
tumor (OTU) deubiquitinase superfamily, is often overexpressed during
tumor progression and metastasis. Development of OTUB2 inhibitors
is therefore believed to be therapeutically important, yet potent
and selective small-molecule inhibitors targeting OTUB2 are scarce.
Here, we describe the development of an improved OTUB2 inhibitor, LN5P45, comprising a chloroacethydrazide moiety that covalently
reacts to the active-site cysteine residue. LN5P45 shows
outstanding target engagement and proteome-wide selectivity in living
cells. Importantly, LN5P45 as well as other OTUB2 inhibitors
strongly induce monoubiquitination of OTUB2 on lysine 31. We present
a route to future OTUB2-related therapeutics and have shown that the
OTUB2 inhibitor developed in this study can help to uncover new aspects
of the related biology and open new questions regarding the understanding
of OTUB2 regulation at the post-translational modification level.