With several marketed drugs, allosteric inhibition of kinases has translated to pharmacological effects and clinical benefits comparable to those from orthosteric inhibition. However, despite much effort over more than 20 years, the number of kinase targets associated with FDA-approved allosteric drugs is limited, suggesting the challenges in identifying and validating allosteric inhibitors. Here we review the principles of allosteric inhibition, summarize the discovery of allosteric MEK1/2 and BCR-ABL1 inhibitors, and discuss the approaches to screening and demonstrating the functional activity of allosteric pocket ligands.
Within druggable target space, new small-molecule modalities, particularly covalent inhibitors and targeted degraders, have expanded the repertoire of medicinal chemists. Molecules with such modes of action have a large potential not only as drugs but also as chemical probes. Criteria have previously been established to describe the potency, selectivity, and properties of smallmolecule probes that are qualified to enable the interrogation and validation of drug targets. These definitions have been tailored to reversibly acting modulators but fall short in their applicability to other modalities. While initial guidelines have been proposed, we delineate here a full set of criteria for the characterization of covalent, irreversible inhibitors as well as heterobifunctional degraders ("proteolysis-targeting chimeras", or PROTACs) and molecular glue degraders. We propose modified potency and selectivity criteria compared to those for reversible inhibitors. We discuss their relevance and highlight examples of suitable probe and pathfinder compounds. ■ SIGNIFICANCE• High-quality chemical probes are important tools which allow generation of robust and reproducible insights into the cellular function of proteins of interest. • Covalently acting small molecules and small-molecule protein degraders extend druggable space beyond that fraction of the proteome which is targetable with reversibly acting ligands. • When applied, the proposed set of quality criteria increases the likelihood that cell biology studies provide robust insights of high basic and translational relevance.
Inhibition of CDK4/6 combined with the estrogen receptor (ER) degrader fulvestrant significantly improves progression free survival and overall survival in advanced hormone receptor positive (HR+) breast cancer patients and is now the standard of care (SOC) in this disease. Up to 40% of HR+ breast cancers harbor PIK3CA mutations leading to activation of phosphoinositide 3-kinase alpha (PI3Kα), which has been associated with resistance to CDK4/6 inhibitors and fulvestrant. Therefore, PI3Kα inhibitor combinations with CDK4/6 inhibitors and/or fulvestrant are of high interest in HR+, PIK3CA mutant breast cancer. The therapeutic index of active site (orthosteric) inhibitors of PI3Kα has been limited by the dual issues of no clinically meaningful selectivity for mutant versus wild-type (WT) PI3Kα and off-isoform inhibitory activity. Alpelisib, the only approved orthosteric PI3Kα inhibitor, is emblematic of the class with toxicity related to inhibition of wild type PI3Kα and other PI3K isoforms resulting in sub-optimal inhibition of mutant PI3Kα, frequent discontinuation, and challenges in combining with CDK4/6 inhibitors. To overcome these limitations, we designed RLY-2608, the first allosteric, mutant, and isoform-selective inhibitor of PI3Kα. We solved the full-length cryo-EM structure of PI3Kα, performed long time-scale molecular dynamic simulations to elucidate conformational differences between WT and mutant PI3Kα, and leveraged these insights to enable the design of RLY-2608. RLY-2608 does not compete with orthosteric inhibitors for binding and associates 8x faster with mutant PI3Kα relative to WT PI3Kα. In biochemical assays, RLY-2608 inhibits kinase domain (H1047R) and helical domain (E542K, and E545K) mutant PI3Kα activity, demonstrating <10nM potency with 8-12x selectivity relative to WT. RLY-2608 is > 1000-fold selective over the β, δ, and γ PI3K isoforms in biochemical assays and demonstrates exquisite selectivity across a panel of 322 kinases, with no other kinases showing >50% inhibition. We performed in vitro combinations in two HR+ PIK3CA mutant cell lines (MCF7: E545K; T47D: H1047R) and observed synergy between RLY-2608 and fulvestrant or CDK4/6 inhibitors. In vivo, we tested combinations of RLY-2608 with fulvestrant and/or the CDK4/6 inhibitor abemaciclib in the MCF7 xenograft model. Oral administration of RLY-2608 in combination with fulvestrant led to improved efficacy compared to either agent alone in a dose-dependent manner, with regressions observed in the combination arms at all doses. Furthermore, the triple combination of RLY-2608, fulvestrant, and abemaciclib resulted in superior efficacy compared to either the RLY-2608 + fulvestrant or RLY-2608 + abemaciclib doublets, with deep regressions observed in the triple combination arm. In addition, in vivo combination efficacy with fulvestrant and CDK4/6 inhibitors (palbociclib or abemaciclib) was assessed in patient-derived xenografts harboring the PIK3CA H1047R or E545K mutation along with a second site PIK3CA minor mutation. In these studies, combination benefit was observed with doses of RLY-2608 significantly lower than the dose required for maximum efficacy as a single agent. RLY-2608 synergizes in vitro with both anti-estrogen and CDK4/6 inhibitors in cell models of HR+/PIK3CA mutant breast cancer. RLY-2608 can be combined with fulvestrant and CDK4/6 inhibitors in vivo with tumor regressions observed in both cell- and patient-derived xenograft models. The pre-clinical profile of RLY-2608 supports the clinical development of RLY-2608 both in single agent and combination clinical trials in patients with PIK3CA mutant tumors, including HR+/PIK3CA mutant breast cancer. Citation Format: Ermira Pazolli, Randy Kipp, Alessandro Boezio, Hakan Gunaydin, Amanda Iskandar, Matthew Zubrowski, Bret Williams, Kelley Shortsleeves, Alexandre Larivee, Tom McLean, Klaus Michelsen, Hongtao Zeng, Jonathan LaRochelle, Joe Manna, Lucian DiPietro, Andre Lescarbeau, Mary Mader, Bindu Bennet, Jeremy Wilbur, Qi Wang, Levi Pierce, Iain Martin, James Watters, Pascal Fortin, Donald Bergstrom. RLY-2608: The first allosteric mutant- and isoform-selective inhibitor of PI3Kα, is efficacious as a single agent and drives regressions in combination with standard of care therapies in PIK3CA mutant breast cancer models [abstract]. In: Proceedings of the 2021 San Antonio Breast Cancer Symposium; 2021 Dec 7-10; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2022;82(4 Suppl):Abstract nr P5-16-10.
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