Discovery of Mcl-1 inhibitors from integrated high throughput and virtual screening

Mady, Ahmed S.A.; Liao, Chenzhong; Bajwa, Naval; Kump, Karson J.; Abulwerdi, Fardokht A.; Lev, Katherine; Miao, Lei; Grigsby, Sierrah; Perdih, Andrej; Stuckey, Jeanne A.; Du, Yuhong; Fu, Haian; Nikolovska‐Coleska, Zaneta

doi:10.1038/s41598-018-27899-9

Cited by 18 publications

(17 citation statements)

References 78 publications

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“…Moreover, the NMR data suggested an interaction with Gly219, Val220 and Val216, part of the P4 pocket, for both ligands. This observation was also highlighted from similar NMR data reported by Mady et al, 68 for a set of Mcl-1 inhibitors. These interactions at the P4 pocket might rise from a non-direct effect due to the presence of aromatic rings (ring-current effect) as we have previously discussed for Pyridoclax 36 for instance.…”

Section: Resultssupporting

confidence: 82%

Drug Repurposing: Deferasirox Inhibits the Anti-Apoptotic Activity of Mcl-1

Aziez¹,

Benabderrahmane²,

Paysant³

et al. 2021

DDDT

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Introduction With the aim of repositioning commercially available drugs for the inhibition of the anti-apoptotic myeloid cell leukemia protein, Mcl-1, implied in various cancers, five molecules, highlighted from a published theoretical screening, were selected to experimentally validate their affinity toward Mcl-1. Results A detailed NMR study revealed that only two of the five tested drugs, Torsemide and Deferasirox, interacted with Mcl-1. NMR data analysis allowed the complete characterization of the binding mode of both drugs to Mcl-1, including the estimation of their affinity for Mcl-1. Biological assays evidenced that the biological activity of Torsemide was lower as compared to the Deferasirox, which was able to efficiently and selectively inhibit the anti-apoptotic activity of Mcl-1. Finally, docking and molecular dynamics led to a 3D model for the Deferasirox:Mcl-1 complex and revealed the positioning of the drug in the Mcl-1 P2/P3 pockets as well as almost all synthetic Mcl-1 inhibitors. Interestingly, contrary to known synthetic Mcl-1 inhibitors which interact through Arg263, Deferasirox, establishes a salt bridge with Lys234. Conclusion Deferasirox could be a potential candidate for drug repositioning as Mcl-1 inhibitor.

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Section: Resultssupporting

confidence: 82%

Drug Repurposing: Deferasirox Inhibits the Anti-Apoptotic Activity of Mcl-1

Aziez¹,

Benabderrahmane²,

Paysant³

et al. 2021

DDDT

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“…[44][45][46] Importantly, there is a conserved arginine residue on pro-life proteins (Arg263 in Mcl-1) that forms a salt bridge with Asp67 on the Bim α-helix at the i + 5 position. [47] Additionally, there is an aspartate residue in an analogous location (i + 2) in p53TAD (Asp21), that helps maintain the integrity of the helix rather than engage in recognition. [48] We set out to capitalize on these similarities across both α-helices towards the discovery of dual inhibitors of Mcl-1 and HDM2.…”

Section: Resultsmentioning

confidence: 99%

Rationally Designed Polypharmacology: α‐Helix Mimetics as Dual Inhibitors of the Oncoproteins Mcl‐1 and HDM2

et al. 2020

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Protein–protein interactions (PPIs), many of which are dominated by α‐helical recognition domains, play key roles in many essential cellular processes, and the dysregulation of these interactions can cause detrimental effects. For instance, aberrant PPIs involving the Bcl‐2 protein family can lead to several diseases including cancer, neurodegenerative diseases, and diabetes. Interactions between Bcl‐2 pro‐life proteins, such as Mcl‐1, and pro‐death proteins, such as Bim, regulate the intrinsic pathway of apoptosis. p53, a tumor‐suppressor protein, also has a pivotal role in apoptosis and is negatively regulated by its E3 ubiquitin ligase HDM2. Both Mcl‐1 and HDM2 are upregulated in numerous cancers, and, interestingly, there is crosstalk between both protein pathways. Recently, synergy has been observed between Mcl‐1 and HDM2 inhibitors. Towards the development of new anticancer drugs, we herein describe a polypharmacology approach for the dual inhibition of Mcl‐1 and HDM2 by employing three densely functionalized isoxazoles, pyrazoles, and thiazoles as mimetics of key α‐helical domains of their partner proteins.

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“…Aside from the on-target toxicity concerns, Bcl-xL remains an important therapeutic target, especially in solid tumors, therefore development of selective Bcl-xL inhibitors remains an attractive approach. , The selective Bcl-2 inhibitor, ABT-199 or venetoclax, is the first BH3 mimetic with granted FDA approval for its success in treating chronic lymphocytic leukemia and is currently being evaluated in numerous clinical trials for various indications. , The need for selective Mcl-1 inhibitors emerged from the observance of Mcl-1 as a prominent resistance factor to other BH3 mimetics, as well as to many targeted chemo- and radiotherapies . This need was addressed by selective Mcl-1 inhibitors developed by our group − and others, both in academia − and industry. − The work on selective Mcl-1 inhibitors has culminated to several compounds now being evaluated in phase I clinical trials for the treatment of hematologic malignancies as a single agent (ClinicalTrials.gov; NCT02675452, NCT03465540, NCT02979366, NCT02992483, NCT03218683) and in combination with venetoclax (ClinicalTrials.gov; NCT03672695). There is still a need, however, to effectively target Bfl-1 with drug-like molecules, as the main successes have come from selective peptides. − We and others, using biochemical screening assays, have identified hit small molecule inhibitors of Bfl-1 which require further optimization. , A recent study identified bicyclic stapled peptides as dual Mcl-1/Bfl-1 inhibitors with cellular activity and demonstrated an opportunity to develop Noxa-mimetic type inhibitors …”

Section: Introductionmentioning

confidence: 99%

“…This need was addressed by selective Mcl-1 inhibitors developed by our group − and others, both in academia − and industry. − The work on selective Mcl-1 inhibitors has culminated to several compounds now being evaluated in phase I clinical trials for the treatment of hematologic malignancies as a single agent (ClinicalTrials.gov; NCT02675452, NCT03465540, NCT02979366, NCT02992483, NCT03218683) and in combination with venetoclax (ClinicalTrials.gov; NCT03672695). There is still a need, however, to effectively target Bfl-1 with drug-like molecules, as the main successes have come from selective peptides. − We and others, using biochemical screening assays, have identified hit small molecule inhibitors of Bfl-1 which require further optimization. , A recent study identified bicyclic stapled peptides as dual Mcl-1/Bfl-1 inhibitors with cellular activity and demonstrated an opportunity to develop Noxa-mimetic type inhibitors …”

Section: Introductionmentioning

confidence: 99%

“…Our recent work utilizing an integrated high throughput and virtual screening approach yielded several scaffolds that showed binding to Mcl-1 and Bfl-1, including compound 19 (here referred to as 19SR ). , Our screening strategy using the Noxa pharmacophore to funnel high throughput hits likely selected for molecular scaffolds that display a dual Mcl-1/Bfl-1 binding profile . In this manuscript, we describe the further development of this hit molecule, 19SR , by redesigning the chemical core structure (Figure A).…”

Section: Introductionmentioning

confidence: 99%

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Discovery and Characterization of 2,5-Substituted Benzoic Acid Dual Inhibitors of the Anti-apoptotic Mcl-1 and Bfl-1 Proteins

et al. 2020

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Anti-apoptotic Bcl-2 family proteins are overexpressed in a wide spectrum of cancers and have become well validated therapeutic targets. Cancer cells display survival dependence on individual or subsets of anti-apoptotic proteins that could be effectively targeted by multimodal inhibitors. We designed a 2,5-substituted benzoic acid scaffold that displayed equipotent binding to Mcl-1 and Bfl-1. Structure-based design was guided by several solved cocrystal structures with Mcl-1, leading to the development of compound 24, which binds both Mcl-1 and Bfl-1 with K i values of 100 nM and shows appreciable selectivity over Bcl-2/Bcl-xL. The selective binding profile of 24 was translated to on-target cellular activity in model lymphoma cell lines. These studies lay a foundation for developing more advanced dual Mcl-1/Bfl-1 inhibitors that have potential to provide greater single agent efficacy and broader coverage to combat resistance in several types of cancer than selective Mcl-1 inhibitors alone.

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Discovery of Mcl-1 inhibitors from integrated high throughput and virtual screening

Cited by 18 publications

References 78 publications

Drug Repurposing: Deferasirox Inhibits the Anti-Apoptotic Activity of Mcl-1

Drug Repurposing: Deferasirox Inhibits the Anti-Apoptotic Activity of Mcl-1

Rationally Designed Polypharmacology: α‐Helix Mimetics as Dual Inhibitors of the Oncoproteins Mcl‐1 and HDM2

Discovery and Characterization of 2,5-Substituted Benzoic Acid Dual Inhibitors of the Anti-apoptotic Mcl-1 and Bfl-1 Proteins

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