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Scaffold hopping from indoles to indazoles yields dual MCL-1/BCL-2 inhibitors from MCL-1 selective leads

Brandon Drennen, Christopher C. Goodis, Nathan G. Bowen, Wenbo Yu, Gregory E.A. Vickers, Paul T. Wilder, Alexander D. MacKerell, Steven Fletcher

2022RSC Medicinal Chemistry16 citationsDOIOpen Access PDF

Abstract

Overexpression of the anti-apoptotic BCL-2 proteins is associated with the development and progression of a range of cancers. Venetoclax, an FDA-approved BCL-2 inhibitor, is fast becoming the standard-of-care for acute myeloid leukemia and chronic lymphocytic leukemia. However, the median survival offered by venetoclax is only 18 months (as part of a combination therapy regimen), and one of the primary culprits for this is the concomitant upregulation of sister anti-apoptotic proteins, in particular MCL-1 (and BCL-xL), which provides an escape route that manifests as venetoclax resistance. Since inhibition of BCL-xL leads to thrombocytopenia, we believe that a dual MCL-1/BCL-2 inhibitor may provide an enhanced therapeutic effect relative to a selective BCL-2 inhibitor. Beginning with a carboxylic acid-containing literature compound that is a potent inhibitor of MCL-1 and a moderate inhibitor of BCL-2, we herein describe our efforts to develop dual inhibitors of MCL-1 and BCL-2 by scaffold hopping from an indole core to an indazole framework. Subsequently, further elaboration of our novel N2-substituted, indazole-3-carboxylic acid lead into a family of indazole-3-acylsulfonamides resulted in improved inhibition of both MCL-1 and BCL-2, possibly through occupation of the p4 pocket, with minimal or no inhibition of BCL-xL.

Topics & Concepts

VenetoclaxIndazoleMyeloid leukemiaChemistryCancer researchDownregulation and upregulationPharmacologyApoptosisBcl-2 familyIsatinLeukemiaMedicineStereochemistryChronic lymphocytic leukemiaImmunologyProgrammed cell deathBiochemistryOrganic chemistryGeneCell death mechanisms and regulationMultiple Myeloma Research and TreatmentsInsect Resistance and Genetics