Abstract
The Nedd4-1 E3 Ubiquitin ligase has been implicated in multiple disease conditions due its overexpression. Although the enzyme may be targeted both covalently and non-covalently, minimal studies provide effective inhibitors against it. Recently, research has focused on covalent inhibitors based on their characteristic, highly-selective warheads and ability to prevent drug resistance. This prompted us to screen for new covalent inhibitors of Nedd4-1 using a combination of computational approaches. However, this task proved challenging due to the limited number of electrophilic moieties available in virtual libraries. Therefore, we opted to divide an existing covalent Nedd4-1 inhibitor into two parts: a non-covalent binding group and a pre-selected α, β-unsaturated ester that forms the covalent linkage with the protein. A non-covalent pharmacophore model was built based on molecular interactions at the binding site. The pharmacophore was then subjected to virtual screening to identify structurally similar hit compounds. Multiple filtrations were implemented prior to selecting four hits, which were validated with a covalent conjugation and later assessed by molecular dynamic simulations. The results showed that, of the four hit molecules, Zinc00937975 exhibited advantageous molecular groups, allowing for favourable interactions with one of the characteristic cysteine residues. Predictive pharmacokinetic analysis further justified the compound as a potential lead molecule, prompting its recommendation for confirmatory biological evaluation. Our inhouse, refined, pharmacophore model approach serves as a robust method that will encourage screening for novel covalent inhibitors in drug discovery.
Highlights
The main class of E3 ubiquitin ligases are enzymes that constitute a HECT domain [1,2]
Due to the challenges related to this task and the pharmacological profile in the inhibition of Neural precursor cell ExpressedDevelopmentally Down-regulated gene 4-1 (Nedd4-1)
Due to the challenges related to this task and scarcity of the electrophilic moieties in the chemical libraries, we elected to use the non-covalent part the scarcity of the electrophilic moieties in the chemical libraries, we elected to use the non-covalent of an existing covalent inhibitor of Nedd4-1 to generate a pharmacophore model and screen for novel inhibitor scaffolds of this enzyme
Summary
The main class of E3 ubiquitin ligases are enzymes that constitute a HECT E6-AP carboxyl terminus) domain [1,2]. These enzymes play an important role in the ubiquitination process, by transferring protein substrates to ubiquitin [3,4]. Down-regulated gene 4-1 (Nedd4-1) ubiquitin ligase is one of the Nedd enzymes that uses the HECT domain in the ubiquitination process [5]. In addition to the HECT region incorporated in the C-terminal domain, Nedd contains two other domains: the N-terminal domain and the multiple WW domain (double tryptophan residues) [6]. Nedd alters normal metabolic processes, thereby implicating the enzyme in the pathogenesis of many human cancers [7,8].
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