Publications by authors named "G W Tin"
Targeted protein degradation (TPD) relies on small molecules to recruit proteins to E3 ligases to induce their ubiquitylation and degradation by the proteasome. Only a few of the approximately 600 human E3 ligases are currently amenable to this strategy. This limits the actionable target space and clinical opportunities and thus establishes the necessity to expand to additional ligases.
View Article and Find Full Text PDFTargeted protein degradation is mediated by small molecules that induce or stabilize protein-protein interactions between targets and the ubiquitin-proteasome machinery. Currently, there remains a need to expand the repertoire of viable E3 ligases available for hijacking. Notably, covalent chemistry has been employed to engage a handful of E3 ligases, including DCAF11.
View Article and Find Full Text PDFChemical modulation of proteins enables a mechanistic understanding of biology and represents the foundation of most therapeutics. However, despite decades of research, 80% of the human proteome lacks functional ligands. Chemical proteomics has advanced fragment-based ligand discovery toward cellular systems, but throughput limitations have stymied the scalable identification of fragment-protein interactions.
View Article and Find Full Text PDFArticle Synopsis
- Despite their potential as therapeutic targets, solute carrier (SLC) transporters are often underutilized due to challenges in reliable chemical screening.
- The researchers developed a new screening method called PARADISO, using isogenic cell lines that rely on different SLC genes to identify inhibitors specifically for SLC16A3.
- They successfully discovered and characterized a selective SLC16A3 inhibitor, slCeMM1, which also demonstrated broad selectivity across the proteome, contributing to better drug discovery techniques.