Camille Denis scite author profile

Protein–protein interactions (PPIs) control many important physiological processes within human cells. Apoptosis or programmed cell death is closely regulated by pro- and antiapoptotic signals. Dysregulation of this homeostasis is implicated in tumorigenesis and acquired resistance to treatments. The emerging importance of Mcl-1 protein in chemotherapeutic resistance makes it a high priority therapeutic target. Targeting PPIs associated with Mcl-1 presents many challenges for the design of inhibitors. This review focuses on the characterization of the Mcl-1 hot-spots which are related to four hydrophobic pockets P1–P4 and one major electrostatic interaction. Analysis of structural data highlights the high importance of the P2/P3 pockets for the binding of nonpeptide ligands. In order to guide medicinal chemists into making more selective and potent Mcl-1 inhibitors, the Mcl-1 protein is compared to other antiapoptotic proteins.

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Selecting the first chemical molecule inhibitor of HSP110 for colorectal cancer therapy

Gozzi¹,

González²,

Boudesco³

et al. 2019

Cell Death Differ

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Pro-survival stress-inducible chaperone HSP110 is the only HSP for which a mutation has been found in a cancer. Multicenter clinical studies demonstrated a direct association between HSP110 inactivating mutation presence and excellent prognosis in colorectal cancer patients. Here, we have combined crystallographic studies on human HSP110 and in silico modeling to identify HSP110 inhibitors that could be used in colorectal cancer therapy. Two molecules (foldamers 33 and 52), binding to the same cleft of HSP110 nucleotide-binding domain, were selected from a chemical library (by co-immunoprecipitation, AlphaScreening, Interference-Biolayer, Duo-link). These molecules block HSP110 chaperone anti-aggregation activity and HSP110 association to its client protein STAT3, thereby inhibiting STAT3 phosphorylation and colorectal cancer cell growth. These effects were strongly decreased in HSP110 knockdown cells. Foldamer's 33 ability to inhibit tumor growth was confirmed in two colorectal cancer animal models. Although tumor cell death (apoptosis) was noted after treatment of the animals with foldamer 33, no apparent toxicity was observed, notably in epithelial cells from intestinal crypts. Taken together, we identified the first HSP110 inhibitor, a possible drug-candidate for colorectal cancer patients whose unfavorable outcome is associated to HSP110.

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Synthesis of 3,3-Diarylazetidines by Calcium(II)-Catalyzed Friedel–Crafts Reaction of Azetidinols with Unexpected Cbz Enhanced Reactivity

et al. 2018

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Azetidines are valuable motifs that readily access under explored chemical space for drug discovery. 3,3-Diarylazetidines are prepared in high yield from N-Cbz azetidinols in a calcium(II)-catalyzed Friedel-Crafts alkylation of (hetero)aromatics and phenols, including complex phenols such as b-estradiol. Electron poor phenols undergo O-alkylation. The product azetidines can be derivatized to drug-like compounds through the azetidine nitrogen and the aromatic groups. The N-Cbz group is crucial to reactivity by providing stabilization of an intermediate carbocation on the 4-membered ring.

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Camille Denis

Hot-Spots of Mcl-1 Protein

Selecting the first chemical molecule inhibitor of HSP110 for colorectal cancer therapy

Synthesis of 3,3-Diarylazetidines by Calcium(II)-Catalyzed Friedel–Crafts Reaction of Azetidinols with Unexpected Cbz Enhanced Reactivity

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