Degraders: The Ultimate Weapon Against Amplified Driver Kinases in Cancer

Abstract: Amplification of pro-oncogenic kinases is a common genetic alteration driving tumorigenic phenotypes. Cancer cells rely on the amplified kinases to sustain cell proliferation, survival, and growth, presenting an opportunity to develop therapies targeting the amplified kinases. Utilizing small-molecule catalytic inhibitors as therapies to target amplified kinases is plagued by de novo resistance driven by increased expression of the target, and amplified kinases can drive tumorigenic phenotypes independent of c… Show more

“…Targeted RDP screening of cysteine‐reactive fragment library has identified covalent binders for RNF4, an E3 ligase, and optimized to degrade BRD4 as a model system (Ward et al, 2019). Covalent degraders have also been developed for BTK kinase degradation using ibrutinib as the targeting ligand (Torres‐Ayuso & Brognard, 2022). However, the large size of covalent PROTACs may limit their cell and blood‐brain barrier permeability.…”

Measurement and utilization of the proteomic reactivity by mass spectrometry

“…Targeted RDP screening of cysteine‐reactive fragment library has identified covalent binders for RNF4, an E3 ligase, and optimized to degrade BRD4 as a model system (Ward et al, 2019). Covalent degraders have also been developed for BTK kinase degradation using ibrutinib as the targeting ligand (Torres‐Ayuso & Brognard, 2022). However, the large size of covalent PROTACs may limit their cell and blood‐brain barrier permeability.…”

Measurement and utilization of the proteomic reactivity by mass spectrometry

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