Structure Report for: 6YXI

Vecchia, L., Jones, E.Y., Ruza, R.R., Hillier, J., Zhao, Y.

Title: Screening of a Custom-Designed Acid Fragment Library Identifies 1-Phenylpyrroles and 1-Phenylpyrrolidines as Inhibitors of Notum Carboxylesterase Activity
Mahy W, Patel M, Steadman D, Woodward HL, Atkinson BN, Svensson F, Willis NJ, Flint A, Papatheodorou D and Fish PV <10 more author(s)> Mahy W, Patel M, Steadman D, Woodward HL, Atkinson BN, Svensson F, Willis NJ, Flint A, Papatheodorou D, Zhao Y, Vecchia L, Ruza RR, Hillier J, Frew S, Monaghan A, Costa A, Bictash M, Walter MW, Jones EY, Fish PV (- 10)
Ref: Journal of Medicinal Chemistry, 63:9464, 2020 : PubMed
Abstract


ESTHER: Mahy_2020_J.Med.Chem_63_9464
PubMedSearch: Mahy 2020 J.Med.Chem 63 9464
PubMedID: 32787107
Gene_locus related to this paper: human-NOTUM
Inhibitor(s) related to this paper: Pyrrole-5-6YUY, Pyrrole-6-6YV4, Pyrrole-7-6YUW, Pyrrolidine-8-6YV2, Pyrrolidine-10-6YV0, Pyrrole-20i-6YXI, Pyrrole-26-6YSK

Abstract

The Wnt family of proteins are secreted signaling proteins that play key roles in regulating cellular functions. Recently, carboxylesterase Notum was shown to act as a negative regulator of Wnt signaling by mediating the removal of an essential palmitoleate. Here we disclose two new chemical scaffolds that inhibit Notum enzymatic activity. Our approach was to create a fragment library of 250 acids for screening against Notum in a biochemical assay followed by structure determination by X-ray crystallography. Twenty fragments were identified as hits for Notum inhibition, and 14 of these fragments were shown to bind in the palmitoleate pocket of Notum. Optimization of 1-phenylpyrrole 20, guided by structure-based drug design, identified 20z as the most potent compound from this series. Similarly, the optimization of 1-phenylpyrrolidine 8 gave acid 26. This work demonstrates that inhibition of Notum activity can be achieved by small, drug-like molecules possessing favorable in vitro ADME profiles.