A practical guide for the assay-dependent characterisation of irreversible inhibitors.

Irreversible targeted covalent inhibitors, in the past regarded as inappropriately reactive and toxic, have seen a recent resurgence in clinical interest. This paradigm shift is attributed to the exploitation of the two-step mechanism, in which a high affinity and selectivity (, low ) scaffold binds the target and only then does a pendant low intrinsic reactivity warhead react with the target (moderate ). This highlights the importance of evaluating inhibitors by deriving both their and values.

Fitting of and Values from Endpoint Pre-incubation IC Data.

Experiments comprising a "pre-incubation" phase, where enzyme is incubated with inhibitor prior to the addition of assay substrate, are commonly used to evaluate covalent inhibitors, often via discontinuous or "endpoint" IC assays. However, due to the lack of mathematical tools to describe its biphasic time-dependent nature, this experiment has thus far been unable to provide and values. Herein we report EPIC-Fit, a new method to determine and values from global fitting of Endpoint Pre-incubation IC data that can be implemented using Microsoft Excel.

The war on hTG2: warhead optimization in small molecule human tissue transglutaminase inhibitors.

Human tissue transglutaminase (hTG2) is a multifunctional enzyme with protein cross-linking and G-protein activity, both of which have been implicated in the progression of diseases such as fibrosis and cancer stem cell propagation when dysregulated, prompting the development of small molecule targeted covalent inhibitors (TCIs) possessing a crucial electrophilic 'warhead'. In recent years there have been significant advances in the library of warheads available for the design of TCIs; however, the exploration of warhead functionality in hTG2 inhibitors has remained relatively stagnant. Herein, we describe a structure-activity relationship study entailing rational design and synthesis for systematic variation of the warhead on a previously reported small molecule inhibitor scaffold, and rigorous kinetic evaluation of inhibitory efficiency, selectivity, and pharmacokinetic stability.

Identification of alternative protein targets of glutamate-ureido-lysine associated with PSMA tracer uptake in prostate cancer cells.

Prostate-specific membrane antigen (PSMA) is highly overexpressed in most prostate cancers and is clinically visualized using PSMA-specific probes incorporating glutamate-ureido-lysine (GUL). PSMA is effectively absent from certain high-mortality, treatment-resistant subsets of prostate cancers, such as neuroendocrine prostate cancer (NEPC); however, GUL-based PSMA tracers are still reported to have the potential to identify NEPC metastatic tumors. These probes may bind unknown proteins associated with PSMA-suppressed cancers.