A perspective on the changing landscape of HTS.

Recently, there has been a change in the types of drug target entering early drug discovery portfolios. A significant increase in the number of challenging targets, or which would have historically been classed as intractable, has been observed. Such targets often have shallow or non-existent ligand-binding sites, can have disordered structures or domains or can be involved in protein-protein or protein-DNA interactions.

Modulating PCAF/GCN5 Immune Cell Function through a PROTAC Approach.

P300/CBP-associated factor (PCAF) and general control nonderepressible 5 (GCN5) are closely related epigenetic proteins, each containing an acetyltransferase domain and a bromodomain. Consistent with reported roles for these proteins in immune function, we find that PCAF-deficient macrophages exhibit a markedly reduced ability to produce cytokines upon stimulation with lipopolysaccharide (LPS). Investigating the potential to target this pathway pharmacologically, we show that chemical inhibition of the PCAF/GCN5 bromodomains is insufficient to recapitulate the diminished inflammatory response of PCAF-deficient immune cells.

Nuisance Compounds, PAINS Filters, and Dark Chemical Matter in the GSK HTS Collection.

High-throughput screening (HTS) hits include compounds with undesirable properties. Many filters have been described to identify such hits. Notably, pan-assay interference compounds (PAINS) has been adopted by the community as the standard term to refer to such filters, and very useful guidelines have been adopted by the American Chemical Society (ACS) and subsequently triggered a healthy scientific debate about the pitfalls of draconian use of filters.

Small-molecule modulation of cellular chaperones to treat protein misfolding disorders.

The correct folding of proteins is a fundamental process in the normal physiological functioning of cells, and is mediated by cellular chaperones including members of the Hsp70 family. Many diseases are caused by a failure of cellular chaperones to adequately maintain correct protein folding, and has led to the development of a therapeutic strategy to upregulate the activity of cellular chaperones in order to ameliorate intrinsic folding deficits. A large range of pharmacological agents that can induce cellular chaperones and correct deficits associated with misfolded proteins are known.