Bahaâ Salem scite author profile

Chronic myelogenous leukemia (CML) arises from the constitutive activity of the BCR-ABL1 oncoprotein. Tyrosine kinase inhibitors (TKIs) that target the ATP-binding site have transformed CML into a chronic manageable disease. However, some patients develop drug resistance due to ATP-site mutations impeding drug binding. We describe the discovery of asciminib (ABL001), the first allosteric BCR-ABL1 inhibitor to reach the clinic. Asciminib binds to the myristate pocket of BCR-ABL1 and maintains activity against TKI-resistant ATP-site mutations. Although resistance can emerge due to myristate-site mutations, these are sensitive to ATP-competitive inhibitors so that combinations of asciminib with ATP-competitive TKIs suppress the emergence of resistance. Fragment-based screening using NMR and X-ray yielded ligands for the myristate pocket. An NMR-based conformational assay guided the transformation of these inactive ligands into ABL1 inhibitors. Further structure-based optimization for potency, physicochemical, pharmacokinetic, and drug-like properties, culminated in asciminib, which is currently undergoing clinical studies in CML patients.

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Small-molecule WNK inhibition regulates cardiovascular and renal function

Yamada¹,

Hm²,

Df³

et al. 2016

Nat Chem Biol

137

148

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The With-No-Lysine (K) (WNK) kinases play a critical role in blood pressure regulation and body fluid and electrolyte homeostasis. Herein, we introduce the first orally bioavailable pan-WNK-kinase inhibitor, WNK463, that exploits unique structural features of the WNK kinases for both affinity and kinase selectivity. In rodent models of hypertension, WNK463 affects blood pressure and body fluid and electro-lyte homeostasis, consistent with WNK-kinase-associated physiology and pathophysiology.

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Cyclocarbopalladation: 5-Exo-dig Cyclization versus Direct Stille Cross-Coupling Reaction. The Influence of the α,β-Propargylic Substitution

et al. 2003

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Several bicyclic compounds bearing a 1,2-cyclopentanediol have been prepared from various anti- or syn-gamma-bromopropargylic diols and cis-dioxolanes under palladium(0) catalysis. The reaction proceeds through a 5-exo-dig cyclocarbopalladation. When the corresponding trans-dioxolanes are used, the only products isolated are obtained from a direct Stille cross-coupling reaction. [reaction: see text]

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The First Class of Small Molecules Potently Disrupting the YAP‐TEAD Interaction by Direct Competition

et al. 2022

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Inhibition of the YAP‐TEAD protein‐protein interaction is an attractive therapeutic concept under intense investigation with the objective to treat cancers associated with a dysregulation of the Hippo pathway. However, owing to the very extended surface of interaction of the two proteins, the identification of small drug‐like molecules able to efficiently prevent YAP from binding to TEAD by direct competition has been elusive so far. We disclose here the discovery of the first class of small molecules potently inhibiting the YAP‐TEAD interaction by binding at one of the main interaction sites of YAP at the surface of TEAD. These inhibitors, providing a path forward to pharmacological intervention in the Hippo pathway, evolved from a weakly active virtual screening hit advanced to high potency by structure‐based design.

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Bahaâ Salem

Discovery of Asciminib (ABL001), an Allosteric Inhibitor of the Tyrosine Kinase Activity of BCR-ABL1

Small-molecule WNK inhibition regulates cardiovascular and renal function

Cyclocarbopalladation: 5-Exo-dig Cyclization versus Direct Stille Cross-Coupling Reaction. The Influence of the α,β-Propargylic Substitution

The First Class of Small Molecules Potently Disrupting the YAP‐TEAD Interaction by Direct Competition

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