Fragment-Derived Selective Inhibitors of Dual-Specificity Kinases DYRK1A and DYRK1B.
David Lee WalmsleyJames B MurrayPawel DokurnoAndrew J MasseyKaren BenwellAndrea FiumanaNicolas FoloppeStuart RayJulia SmithAllan E SurgenorThomas EdmondsDidier DemarlesMike BurbridgeFrancisco CruzaleguiAndrás KotschyRoderick Eliot HubbardPublished in: Journal of medicinal chemistry (2021)
The serine/threonine kinase DYRK1A has been implicated in regulation of a variety of cellular processes associated with cancer progression, including cell cycle control, DNA damage repair, protection from apoptosis, cell differentiation, and metastasis. In addition, elevated-level DYRK1A activity has been associated with increased severity of symptoms in Down's syndrome. A selective inhibitor of DYRK1A could therefore be of therapeutic benefit. We have used fragment and structure-based discovery methods to identify a highly selective, well-tolerated, brain-penetrant DYRK1A inhibitor which showed in vivo activity in a tumor model. The inhibitor provides a useful tool compound for further exploration of the effect of DYRK1A inhibition in models of disease.
Keyphrases
- cell cycle
- dna damage
- oxidative stress
- protein kinase
- high throughput
- papillary thyroid
- squamous cell carcinoma
- cell death
- white matter
- cell cycle arrest
- resting state
- case report
- multiple sclerosis
- blood brain barrier
- signaling pathway
- dna repair
- young adults
- physical activity
- squamous cell
- lymph node metastasis
- single cell