Optimization of TEAD P-Site Binding Fragment Hit into In Vivo Active Lead MSC-4106 .
Timo HeinrichCarl PetersonRichard SchneiderSakshi GargDaniel SchwarzJakub GuneraAnita SeshireLisa KötznerSarah SchlesigerDjordje MusilHeike SchilkeBenjamin DoerfelPatrizia DiehlPia BöppleAna R LemosPedro M F SousaFilipe FreireTiago M BandeirasEmma CarswellNicholas PearsonSameer SirohiMollie HookerElisabeth TrivierRebecca BroomeAlexander BalsigerAbigail CrowdenChristian DillonDirk WienkePublished in: Journal of medicinal chemistry (2022)
The dysregulated Hippo pathway and, consequently, hyperactivity of the transcriptional YAP/TAZ-TEAD complexes is associated with diseases such as cancer. Prevention of YAP/TAZ-TEAD triggered gene transcription is an attractive strategy for therapeutic intervention. The deeply buried and conserved lipidation pocket (P-site) of the TEAD transcription factors is druggable. The discovery and optimization of a P-site binding fragment ( 1 ) are described. Utilizing structure-based design, enhancement in target potency was engineered into the hit, capitalizing on the established X-ray structure of TEAD1. The efforts culminated in the optimized in vivo tool MSC-4106 , which exhibited desirable potency, mouse pharmacokinetic properties, and in vivo efficacy. In close correlation to compound exposure, the time- and dose-dependent downregulation of a proximal biomarker could be shown.
Keyphrases
- transcription factor
- dna binding
- randomized controlled trial
- papillary thyroid
- genome wide identification
- cell proliferation
- small molecule
- high resolution
- gene expression
- magnetic resonance imaging
- signaling pathway
- computed tomography
- squamous cell
- young adults
- oxidative stress
- lymph node metastasis
- electron microscopy
- dual energy