Discovery of UCB9386: A Potent, Selective, and Brain-Penetrant Nuak1 Inhibitor Suitable for Pharmacological Studies.

Nuak1 (NUAK family SnF1-like kinase-1) is a serine-threonine kinase and a member of the AMPK family. Interest in Nuak1 has increased over the years due to the role it plays in several biological processes, from tumor cell invasion and proliferation to Tau stabilization. Nuak1 is expressed in many cancer cell lines and many reports describe this target as an oncogene, the inhibition of which is hypothesized to be valuable for treating various cancer types including glioma.

Identification of ß-Glucocerebrosidase Activators for Glucosylceramide hydrolysis.

Several novel chemical series were identified that modulate glucocerebrosidase (GCase). Compounds from these series are active on glucosylceramide, unlike other known GCase modulators. We obtained GCase crystal structures with two compounds that have distinct chemotypes.

Discovery of a small molecule modulator of the Kv1.1/Kvβ1 channel complex that reduces neuronal excitability and in vitro epileptiform activity.

Aims: Kv1.1 (KCNA1) channels contribute to the control of neuronal excitability and have been associated with epilepsy. Kv1.

Back-up strategies in drug discovery: what, how and when?

The management of back-up strategies in drug discovery and development is usually done on an ad hoc basis depending upon a series of external factors including overall portfolio status and resource and/or budget availability. These are however an essential component of risk management and merit a more structured and systematic conduct throughout the lifetime of a project. An approach based upon a thorough alignment of decision points and data availability as well as a tailor-made progression of various types of back-up program as a function of project categorization is suggested.

Binding mode and structure-activity relationships around direct inhibitors of the Nrf2-Keap1 complex.

An X-ray crystal structure of Kelch-like ECH-associated protein (Keap1) co-crystallised with (1S,2R)-2-[(1S)-1-[(1,3-dioxo-2,3-dihydro-1H-isoindol-2-yl)methyl]-1,2,3,4-tetrahydroisoquinolin-2-carbonyl]cyclohexane-1-carboxylic acid (compound (S,R,S)-1 a) was obtained. This X-ray crystal structure provides breakthrough experimental evidence for the true binding mode of the hit compound (S,R,S)-1 a, as the ligand orientation was found to differ from that of the initial docking model, which was available at the start of the project. Crystallographic elucidation of this binding mode helped to focus and drive the drug design process more effectively and efficiently.

Discovery of heterocyclic nonacetamide synaptic vesicle protein 2A (SV2A) ligands with single-digit nanomolar potency: opening avenues towards the first SV2A positron emission tomography (PET) ligands.

The role of the synaptic vesicle protein 2A (SV2A) protein, target of the antiepileptic drug levetiracetam, is still mostly unknown. Considering its potential to provide in vivo functional insights into the role of SV2A in epileptic patients, the development of an SV2A positron emission tomography (PET) tracer has been undertaken. Using a 3D pharmacophore model based on close analogues of levetiracetam, we report the rationale design of three heterocyclic non-acetamide lead compounds, UCB-A, UCB-H and UCB-J, the first single-digit nanomolar SV2A ligands with suitable properties for development as PET tracers.

Advantageous safety profile of a dual selective alpha(2C) agonist/alpha(2A) antagonist antinociceptive agent.

A selective α2C -adrenoceptor (AR) agonist was developed for the treatment of neuropathic pain. The objective was to dissociate analgesic activity from cardiovascular and sedative side effects commonly observed with nonselective agents. A 2-amino-oxazoline derivative (compound A), identified as a dual α2C -AR agonist/α2A -AR antagonist in in vitro-binding assays, exhibited in vivo efficacy in rodent pain models.