Dual Bcl-2/Bcl-xL inhibitors are expected to deliver therapeutic benefit in many haematological and solid malignancies, however, their use is limited by tolerability issues. AZD4320, a potent dual Bcl-2/Bcl-xL inhibitor, has shown good efficacy however had dose limiting cardiovascular toxicity in preclinical species, coupled with challenging physicochemical properties, which prevented its clinical development. Here, we describe the design and development of AZD0466, a drug-dendrimer conjugate, where AZD4320 is chemically conjugated to a PEGylated poly-lysine dendrimer. Mathematical modelling was employed to determine the optimal release rate of the drug from the dendrimer for maximal therapeutic index in terms of preclinical anti-tumour efficacy and cardiovascular tolerability. The optimised candidate is shown to be efficacious and better tolerated in preclinical models compared with AZD4320 alone. The AZD4320-dendrimer conjugate (AZD0466) identified, through mathematical modelling, has resulted in an improved therapeutic index and thus enabled progression of this promising dual Bcl-2/Bcl-xL inhibitor into clinical development.
◥Purpose: Targeting Bcl-2 family members upregulated in multiple cancers has emerged as an important area of cancer therapeutics. While venetoclax, a Bcl-2-selective inhibitor, has had success in the clinic, another family member, Bcl-x L , has also emerged as an important target and as a mechanism of resistance. Therefore, we developed a dual Bcl-2/Bcl-x L inhibitor that broadens the therapeutic activity while minimizing Bcl-x L -mediated thrombocytopenia.Experimental Design: We used structure-based chemistry to design a small-molecule inhibitor of Bcl-2 and Bcl-x L and assessed the activity against in vitro cell lines, patient samples, and in vivo models. We applied pharmacokinetic/pharmacodynamic (PK/PD) modeling to integrate our understanding of on-target activity of the dual inhibitor in tumors and platelets across dose levels and over time.Results: We discovered AZD4320, which has nanomolar affinity for Bcl-2 and Bcl-x L , and mechanistically drives cell death through the mitochondrial apoptotic pathway. AZD4320 demonstrates activity in both Bcl-2-and Bcl-x L -dependent hematologic cancer cell lines and enhanced activity in acute myeloid leukemia (AML) patient samples compared with the Bcl-2-selective agent venetoclax. A single intravenous bolus dose of AZD4320 induces tumor regression with transient thrombocytopenia, which recovers in less than a week, suggesting a clinical weekly schedule would enable targeting of Bcl-2/Bcl-x L -dependent tumors without incurring dose-limiting thrombocytopenia. AZD4320 demonstrates monotherapy activity in patient-derived AML and venetoclax-resistant xenograft models.Conclusions: AZD4320 is a potent molecule with manageable thrombocytopenia risk to explore the utility of a dual Bcl-2/Bcl-x L inhibitor across a broad range of tumor types with dysregulation of Bcl-2 prosurvival proteins.
Malignant pleural mesothelioma (MPM) is an aggressive cancer with treatment limited to Cisplatin and Pemetrexed chemotherapy. Recently, we showed that drugs targeting the BCL-2-regulated apoptosis pathway could kill MPM cell lines in vitro, and control tumor growth in vivo. These studies showed BCL-XL was the dominant pro-survival BCL-2 family member correlating with its high-level expression in cells and patient tumor samples. In this study we show another inhibitor, AZD4320 that targets BCL-XL (and BCL-2), can also potently kill MPM tumor cells in vitro (EC50 values in the 200 nM range) and this effect is enhanced by co-inhibition of MCL-1 using AZD5991. Moreover, we show that a novel nanoparticle, AZD0466, where AZD4320 is chemically conjugated to a PEGylated poly-lysine dendrimer, was as effective as standard-of-care chemotherapy, Cisplatin, at inhibiting tumor growth in mouse xenograft studies, and this effect was enhanced when both drugs were combined. Critically, the degree of thrombocytopenia, an on-target toxicity associated with BCL-XL inhibition, was significantly reduced throughout the treatment period compared to other BCL-XL-targeting BH3-mimetics. These pre-clinical findings provide a rationale for the future clinical evaluation for novel BH3-mimetic formulations in MPM, and indeed, other solid tumor types dependent on BCL-XL.
A physiologically based pharmacokinetic model was developed to describe the tissue distribution kinetics of a dendritic nanoparticle and its conjugated active pharmaceutical ingredient (API) in plasma, liver, spleen, and tumors. Tumor growth data from MV-4-11 tumor-bearing mice were incorporated to investigate the exposure/efficacy relationship. The nanoparticle demonstrated improved antitumor activity compared to the conventional API formulation, owing to the extended released API concentrations at the site of action. Model simulations further enabled the identification of critical parameters that influence API exposure in tumors and downstream efficacy outcomes upon nanoparticle administration. The model was utilized to explore a range of dosing schedules and their effect on tumor growth kinetics, demonstrating the improved antitumor activity of nanoparticles with less frequent dosing compared to the same dose of naked APIs in conventional formulations.
The induction of apoptosis in tumor cells represents a promising approach to the treatment of cancer. In tumor cells, the B cell lymphoma 2 (Bcl-2) protein family promotes cell survival through upregulation of anti-apoptotic Bcl-2 proteins, such as Bcl-2, Bcl-xL, Mcl-1 and Bcl-w. Clinical activity of the Bcl-2 inhibitor venetoclax has validated the approach of targeting this class of molecules, but additional value remains in jointly targeting Bcl-2 with other family members. AZD0466 is a novel drug-dendrimer conjugate, where the active moiety, AZD4320, is chemically conjugated to Starpharma's DEP® dendrimer platform, a 5-generation PEGylated poly-lysine dendrimer via a hydrolytically labile linker. AZD4320 is a potent dual Bcl-2/Bcl-xL inhibitor, with nanomolar affinity for both proteins1. AZD0466 has been optimized to maintain efficacy whilst mitigating anticipated on-target toxicities of AZD4320. The active moiety, AZD4320, was profiled in an unbiased 72 h cell proliferation screen of 764 cancer cell lines. The greatest degree of sensitivity to AZD4320 (IC50 value ≤0.1 µM) was observed in hematological and small cell lung cancer (SCLC) cell lines. AZD0466 demonstrated greater monotherapy activity than platinum/etoposide chemotherapy regimen or venetoclax monotherapy in 6 out of 11 SCLC PDX models. AZD0466 was also evaluated at different doses in the RS4;11 B-ALL xenograft model. Weekly intravenous dose of AZD0466 resulted in complete tumor regression at 34 and 103 mg/kg doses. Administration of a single dose of AZD0466 produced dose dependent induction of cleaved caspase 3 in tumors as measured by MSD ELISA, which was consistent with the concentrations of released AZD4320 measured in the tumor. All treatments were well tolerated. Anti-tumor activity of AZD0466 was also evaluated in the disseminated luciferase-tagged Ri-1-DLBCL tumor model. AZD0466 dosed weekly IV at 34 mg/kg showed approximately 82% inhibition of bioluminescence compared to vehicle treated animals, whereas 103 mg/kg and 340 mg/kg showed complete inhibition of bioluminescence. In the SUDHL-4 GCB DLBCL model, 103 mg/kg AZD0466 with 10 mg/kg Rituximab resulted in complete and durable regressions in 5/6 animals. Finally, combination of 103 mg/kg AZD0466 with 12.5 mg/kg BID Acalabrutinib, a Bruton's Tyrosine kinase inhibitor, was investigated in OCI-LY10 DLBCL model. While neither agent showed any demonstrable monotherapy activity the combination resulted in complete regressions in 8/8 mice in this model. These data show that AZD0466 has monotherapy activity and a differentiated response from Venetoclax in SCLC models. AZD0466 also has therapeutic potential as monotherapy and a combinatorial agent to increase the depth and duration of response to standard of care and BTK inhibitors in hematological tumors. 1Cidado, J; et al. AACR (2018) Citation Format: Srividya B. Balachander, Areya Tabatabai, Shenghua Wen, Francis D. Gibbons, Giulia Fabbri, Guangnong Sunny Zhang, Justin Cidado, Lorraine Graham, Marianne Ashford, Barry Davies. AZD0466, a nanomedicine of a potent dual Bcl-2/Bcl-xL inhibitor, exhibits anti-tumor activity in a range of hematological and solid tumor models [abstract]. In: Proceedings of the Annual Meeting of the American Association for Cancer Research 2020; 2020 Apr 27-28 and Jun 22-24. Philadelphia (PA): AACR; Cancer Res 2020;80(16 Suppl):Abstract nr 56.
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