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Paradoxical Increase of Permeability and Lipophilicity with the Increasing Topological Polar Surface Area within a Series of PRMT5 Inhibitors.

Argikar, Upendra, Bednarczyk, Dallas, Cho, Young, Dore, Michael, Jenn, Dumouchel, Ho, Samuel, Hoegenauer, Klemens, Kawanami, Toshio, Mathieu, Simon, Erik, Meredith, Moebitz, Henrik, Stephen, Murphy, Parthasarathy, Van, Pissot Soldermann, Carole, Santos, Jobette, Serena, Silver, Skolnik, Suzanne, Stojanovic, Aleksandar, Chen, Zhuoliang and Blatter, Markus (2022) Paradoxical Increase of Permeability and Lipophilicity with the Increasing Topological Polar Surface Area within a Series of PRMT5 Inhibitors. Journal of medicinal chemistry. ISSN 1520-4804

Abstract

An imidazolone → triazolone replacement addressed the limited passive permeability of a series of protein arginine methyl transferase 5 (PRMT5) inhibitors. This increase in passive permeability was unexpected given the increase in the hydrogen bond acceptor (HBA) count and topological polar surface area (TPSA), two descriptors that are typically inversely correlated with permeability. Quantum mechanics (QM) calculations revealed that this unusual effect was due to an electronically driven disconnect between TPSA and 3D-PSA, which manifests in a reduction in overall HBA strength as indicated by the HBA moment descriptor from COSMO-RS (conductor-like screening model for real solvation). HBA moment was subsequently deployed as a design parameter leading to the discovery of inhibitors with not only improved passive permeability but also reduced P-glycoprotein (P-gp) transport. Our case study suggests that hidden polarity as quantified by TPSA-3DPSA can be rationally designed through QM calculations.

Item Type: Article
Date Deposited: 29 Sep 2022 00:46
Last Modified: 29 Sep 2022 00:46
URI: https://oak.novartis.com/id/eprint/44233

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