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The Discovery of a Novel Antimetastatic Bcl3 Inhibitor.

Molecular cancer therapeutics (2021-03-03)
Jitka Soukupová, Cinzia Bordoni, Daniel J Turnham, William W Yang, Gillian Seaton, Aleksandra Gruca, Rhiannon French, Kok Yung Lee, Athina Varnava, Luke Piggott, Richard W E Clarkson, Andrew D Westwell, Andrea Brancale
RÉSUMÉ

The development of antimetastatic drugs is an urgent healthcare priority for patients with cancer, because metastasis is thought to account for around 90% of cancer deaths. Current antimetastatic treatment options are limited and often associated with poor long-term survival and systemic toxicities. Bcl3, a facilitator protein of the NF-κB family, is associated with poor prognosis in a range of tumor types. Bcl3 has been directly implicated in the metastasis of tumor cells, yet is well tolerated when constitutively deleted in murine models, making it a promising therapeutic target. Here, we describe the identification and characterization of the first small-molecule Bcl3 inhibitor, by using a virtual drug design and screening approach against a computational model of the Bcl3-NF-kB1(p50) protein-protein interaction. From selected virtual screening hits, one compound (JS6) showed potent intracellular Bcl3-inhibitory activity. JS6 treatment led to reductions in Bcl3-NF-kB1 binding, tumor colony formation, and cancer cell migration in vitro; and tumor stasis and antimetastatic activity in vivo, while being devoid of overt systemic toxicity. These results represent a successful application of in silico screening in the identification of protein-protein inhibitors for novel intracellular targets, and confirm Bcl3 as a potential antimetastatic target.

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Sigma-Aldrich
JS6, ≥98% (HPLC)