Your search keyword '"Alwin G. Schuller"' showing total 39 results

1. Design and optimisation of dendrimer-conjugated Bcl-2/xL inhibitor, AZD0466, with improved therapeutic index for cancer therapy

Author

Claire M. Patterson, Srividya B. Balachander, Iain Grant, Petar Pop-Damkov, Brian Kelly, William McCoull, Jeremy Parker, Michael Giannis, Kathryn J. Hill, Francis D. Gibbons, Edward J. Hennessy, Paul Kemmitt, Alexander R. Harmer, Sonya Gales, Stuart Purbrick, Sean Redmond, Matthew Skinner, Lorraine Graham, J. Paul Secrist, Alwin G. Schuller, Shenghua Wen, Ammar Adam, Corinne Reimer, Justin Cidado, Martin Wild, Eric Gangl, Stephen E. Fawell, Jamal Saeh, Barry R. Davies, David J. Owen, and Marianne B. Ashford

Subjects

Biology (General), QH301-705.5

Abstract

Claire Patterson et al. present the design and development of AZD0466, a drug-dendrimer conjugate, and use preclinical and mathematical models to determine the optimal release rate of the drug from the dendrimer carrier for maximal therapeutic index in terms of anti-tumour efficacy and cardiovascular tolerability. This study identifies this promising dual Bcl-2/Bcl-xL inhibitor for progression to clinical development.

Published

2021

2. Discovery of Mcl-1-specific inhibitor AZD5991 and preclinical activity in multiple myeloma and acute myeloid leukemia

Author

Adriana E. Tron, Matthew A. Belmonte, Ammar Adam, Brian M. Aquila, Lawrence H. Boise, Elisabetta Chiarparin, Justin Cidado, Kevin J. Embrey, Eric Gangl, Francis D. Gibbons, Gareth P. Gregory, David Hargreaves, J. Adam Hendricks, Jeffrey W. Johannes, Ricky W. Johnstone, Steven L. Kazmirski, Jason G. Kettle, Michelle L. Lamb, Shannon M. Matulis, Ajay K. Nooka, Martin J. Packer, Bo Peng, Philip B. Rawlins, Daniel W. Robbins, Alwin G. Schuller, Nancy Su, Wenzhan Yang, Qing Ye, Xiaolan Zheng, J. Paul Secrist, Edwin A. Clark, David M. Wilson, Stephen E. Fawell, and Alexander W. Hird

Subjects

Science

Abstract

High expression of Mcl-1 promotes tumorigenesis and resistance to anticancer therapies. Here they report a macrocyclic molecule with high selectivity and affinity for Mcl-1 that exhibits potent anti-tumor effects as single agent and in combination with bortezomib or venetoclax in preclinical models of multiple myeloma and acute myeloid leukemia.

Published

2018

3. Defining the spatial distribution of extracellular adenosine revealed a myeloid-dependent immunosuppressive microenvironment in pancreatic ductal adenocarcinoma

Author

Jennifer P Morton, Matthew Wilson, Hannah Buckley, Alwin G Schuller, Richard Goodwin, Kate Williamson, Frances M Richards, Duncan I Jodrell, Saadia A Karim, Simon J Dovedi, Jim Eyles, Vincenzo Graziano, Andreas Dannhorn, Heather Hulme, Sheng Y Lee, Brajesh P Kaistha, Sabita Islam, James E D Thaventhiran, and Rebecca Brais

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Background The prognosis for patients with pancreatic ductal adenocarcinoma (PDAC) remains extremely poor. It has been suggested that the adenosine pathway contributes to the ability of PDAC to evade the immune system and hence, its resistance to immuno-oncology therapies (IOT), by generating extracellular adenosine (eAdo).Methods Using genetically engineered allograft models of PDAC in syngeneic mice with defined and different immune infiltration and response to IOT and autochthonous tumors in KPC mice we investigated the impact of the adenosine pathway on the PDAC tumor microenvironment (TME). Flow cytometry and imaging mass cytometry (IMC) were used to characterize the subpopulation frequency and spatial distribution of tumor-infiltrating immune cells. Mass spectrometry imaging (MSI) was used to visualize adenosine compartmentalization in the PDAC tumors. RNA sequencing was used to evaluate the influence of the adenosine pathway on the shaping of the immune milieu and correlate our findings to published data sets in human PDAC.Results We demonstrated high expression of adenosine pathway components in tumor-infiltrating immune cells (particularly myeloid populations) in the murine models. MSI demonstrated that extracellular adenosine distribution is heterogeneous in tumors, with high concentrations in peri-necrotic, hypoxic regions, associated with rich myeloid infiltration, demonstrated using IMC. Protumorigenic M2 macrophages express high levels of the Adora2a receptor; particularly in the IOT resistant model. Blocking the in vivo formation and function of eAdo (Adoi), using a combination of anti-CD73 antibody and an Adora2a inhibitor slowed tumor growth and reduced metastatic burden. Additionally, blocking the adenosine pathway improved the efficacy of combinations of cytotoxic agents or immunotherapy. Adoi remodeled the TME, by reducing the infiltration of M2 macrophages and regulatory T cells. RNA sequencing analysis showed that genes related to immune modulation, hypoxia and tumor stroma were downregulated following Adoi and a specific adenosine signature derived from this is associated with a poorer prognosis in patients with PDAC.Conclusions The formation of eAdo promotes the development of the immunosuppressive TME in PDAC, contributing to its resistance to conventional and novel therapies. Therefore, inhibition of the adenosine pathway may represent a strategy to modulate the PDAC immune milieu and improve therapy response in patients with PDAC.

Published

2023

4. Novel Arginase Inhibitor, AZD0011, Demonstrates Immune Cell Stimulation and Antitumor Efficacy with Diverse Combination Partners

Author

Aatman S. Doshi, Susan Cantin, Marylens Hernandez, Srimathi Srinivasan, Sharon Tentarelli, Matthew Griffin, Yanjun Wang, Petar Pop-Damkov, Laura B. Prickett, Cecilia Kankkonen, Minhui Shen, Maryann San Martin, Song Wu, M. Paola Castaldi, Hormas Ghadially, Jeffrey Varnes, Sonya Gales, David Henry, Clare Hoover, Deanna A. Mele, Iain Simpson, Eric T. Gangl, Scott N. Mlynarski, M. Raymond V. Finlay, Lisa Drew, Stephen E. Fawell, Wenlin Shao, and Alwin G. Schuller

Subjects

Cancer Research, Oncology

Abstract

Antitumor immunity can be hampered by immunosuppressive mechanisms in the tumor microenvironment, including recruitment of arginase (ARG) expressing myeloid cells that deplete l-arginine essential for optimal T-cell and natural killer cell function. Hence, ARG inhibition can reverse immunosuppression enhancing antitumor immunity. We describe AZD0011, a novel peptidic boronic acid prodrug to deliver an orally available, highly potent, ARG inhibitor payload (AZD0011-PL). We demonstrate that AZD0011-PL is unable to permeate cells, suggesting that this compound will only inhibit extracellular ARG. In vivo, AZD0011 monotherapy leads to arginine increases, immune cell activation, and tumor growth inhibition in various syngeneic models. Antitumor responses increase when AZD0011 is combined with anti–PD-L1 treatment, correlating with increases in multiple tumor immune cell populations. We demonstrate a novel triple combination of AZD0011, anti–PD-L1, and anti-NKG2A, and combination benefits with type I IFN inducers, including polyI:C and radiotherapy. Our preclinical data demonstrate AZD0011’s ability to reverse tumor immunosuppression and enhance immune stimulation and antitumor responses with diverse combination partners providing potential strategies to increase immuno-oncology therapies clinically.

Published

2023

5. Pharmacokinetic/Pharmacodynamic Analysis of Savolitinib plus Osimertinib in an EGFR Mutation–Positive, MET-Amplified Non–Small Cell Lung Cancer Model

Author

Rhys D.O. Jones, Klas Petersson, Areya Tabatabai, Larry Bao, Helen Tomkinson, and Alwin G. Schuller

Subjects

Cancer Research, Oncology

Abstract

Osimertinib is a third-generation, irreversible, oral EGFR tyrosine kinase inhibitor (TKI) recommended as first-line treatment for patients with locally advanced/metastatic EGFR mutation–positive (EGFRm) non–small cell lung cancer (NSCLC). However, MET amplification/overexpression is a common acquired osimertinib resistance mechanism. Savolitinib is an oral, potent, and highly selective MET-TKI; preliminary data suggest that combining osimertinib with savolitinib may overcome MET-driven resistance. A patient-derived xenograft (PDX) mouse model with EGFRm, MET-amplified NSCLC was tested with a fixed osimertinib dose [10 mg/kg for exposures equivalent to (≈)80 mg], combined with doses of savolitinib (0–15 mg/kg, ≈0–600 mg once daily), both with 1-aminobenzotriazole (to better match clinical half-life). After 20 days of oral dosing, samples were taken at various time points to follow the time course of drug exposure in addition to phosphorylated MET and EGFR (pMET and pEGFR) change. Population pharmacokinetics, savolitinib concentration versus percentage inhibition from baseline in pMET, and the relationship between pMET and tumor growth inhibition (TGI) were also modeled. As single agents, savolitinib (15 mg/kg) showed significant antitumor activity, reaching ∼84% TGI, and osimertinib (10 mg/kg) showed no significant antitumor activity (34% TGI, P > 0.05 vs. vehicle). Upon combination, at a fixed dose of osimertinib, significant savolitinib dose-related antitumor activity was shown, ranging from 81% TGI (0.3 mg/kg) to 84% tumor regression (15 mg/kg). Pharmacokinetic–pharmacodynamic modeling showed that the maximum inhibition of both pEGFR and pMET increased with increasing savolitinib doses. Savolitinib demonstrated exposure-related combination antitumor activity when combined with osimertinib in the EGFRm MET-amplified NSCLC PDX model.

Published

2023

6. Small molecule AZD4635 inhibitor of A2AR signaling rescues immune cell function including CD103+ dendritic cells enhancing anti-tumor immunity

Author

Yanjun Wang, James Brown, Richard Woessner, Alwin G Schuller, Alexandra Borodovsky, Dinesh Chandra, Deanna A Mele, Stephen Fawell, Joseph Shaw, Christine M Barbon, Minwei Ye, Laura Prickett, Nanhua Deng, Kris Sachsenmeier, James D Clarke, Bolan Linghu, Giles A Brown, Miles Congreve, Robert KY Cheng, Andrew S Dore, Edward Hurrell, Wenlin Shao, Corinne Reimer, and Lisa Drew

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Methods We report here the development of a small molecule A2AR inhibitor including characterization of binding and inhibition of A2AR function with varying amounts of a stable version of adenosine. Functional activity was tested in both mouse and human T cells and dendritic cells (DCs) in in vitro assays to understand the intrinsic role on each cell type. The role of adenosine and A2AR inhibition was tested in DC differentiation assays as well as co-culture assays to access the cross-priming function of DCs. Syngeneic models were used to assess tumor growth alone and in combination with alphaprogrammed death-ligand 1 (αPD-L1). Immunophenotyping by flow cytometry was performed to examine global immune cell changes upon A2AR inhibition.Results We provide the first report of AZD4635, a novel small molecule A2AR antagonist which inhibits downstream signaling and increases T cell function as well as a novel mechanism of enhancing antigen presentation by CD103+ DCs. The role of antigen presentation by DCs, particularly CD103+ DCs, is critical to drive antitumor immunity providing rational to combine a priming agent AZD4635 with check point blockade. We find adenosine impairs the maturation and antigen presentation function of CD103+ DCs. We show in multiple syngeneic mouse tumor models that treatment of AZD4635 alone and in combination with αPD-L1 led to decreased tumor volume correlating with enhanced CD103+ function and T cell response. We extend these studies into human DCs to show that adenosine promotes a tolerogenic phenotype that can be reversed with AZD4635 restoring antigen-specific T cell activation. Our results support the novel role of adenosine signaling as an intrinsic negative regulator of CD103+ DCs maturation and priming. We show that potent inhibition of A2AR with AZD4635 reduces tumor burden and enhances antitumor immunity. This unique mechanism of action in CD103+ DCs may contribute to clinical responses as AZD4635 is being evaluated in clinical trials with IMFINZI (durvalumab, αPD-L1) in patients with solid malignancies.Conclusion We provide evidence implicating suppression of adaptive and innate immunity by adenosine as a mechanism for immune evasion by tumors. Inhibition of adenosine signaling through selective small molecule inhibition of A2AR using AZD4635 restores T cell function via an internal mechanism as well as tumor antigen cross-presentation by CD103+ DCs resulting in antitumor immunity.

Published

2020

7. Supplementary Table S1 from Pharmacokinetic/Pharmacodynamic Analysis of Savolitinib plus Osimertinib in an EGFR Mutation–Positive, MET-Amplified Non–Small Cell Lung Cancer Model

Author

Alwin G. Schuller, Helen Tomkinson, Larry Bao, Areya Tabatabai, Klas Petersson, and Rhys D.O. Jones

Abstract

Supplementary Table S1

Published

2023

8. Supplementary Figure S2 from Pharmacokinetic/Pharmacodynamic Analysis of Savolitinib plus Osimertinib in an EGFR Mutation–Positive, MET-Amplified Non–Small Cell Lung Cancer Model

Author

Alwin G. Schuller, Helen Tomkinson, Larry Bao, Areya Tabatabai, Klas Petersson, and Rhys D.O. Jones

Abstract

Supplementary Figure S2

Published

2023

9. Supplementary Figure 3 from Novel Arginase Inhibitor, AZD0011, Demonstrates Immune Cell Stimulation and Antitumor Efficacy with Diverse Combination Partners

Author

Alwin G. Schuller, Wenlin Shao, Stephen E. Fawell, Lisa Drew, M. Raymond V. Finlay, Scott N. Mlynarski, Eric T. Gangl, Iain Simpson, Deanna A. Mele, Clare Hoover, David Henry, Sonya Gales, Jeffrey Varnes, Hormas Ghadially, M. Paola Castaldi, Song Wu, Maryann San Martin, Minhui Shen, Cecilia Kankkonen, Laura B. Prickett, Petar Pop-Damkov, Yanjun Wang, Matthew Griffin, Sharon Tentarelli, Srimathi Srinivasan, Marylens Hernandez, Susan Cantin, and Aatman S. Doshi

Abstract

Supplementary Figure 3

Published

2023

10. Supplementary Figure 4 from Novel Arginase Inhibitor, AZD0011, Demonstrates Immune Cell Stimulation and Antitumor Efficacy with Diverse Combination Partners

Author

Alwin G. Schuller, Wenlin Shao, Stephen E. Fawell, Lisa Drew, M. Raymond V. Finlay, Scott N. Mlynarski, Eric T. Gangl, Iain Simpson, Deanna A. Mele, Clare Hoover, David Henry, Sonya Gales, Jeffrey Varnes, Hormas Ghadially, M. Paola Castaldi, Song Wu, Maryann San Martin, Minhui Shen, Cecilia Kankkonen, Laura B. Prickett, Petar Pop-Damkov, Yanjun Wang, Matthew Griffin, Sharon Tentarelli, Srimathi Srinivasan, Marylens Hernandez, Susan Cantin, and Aatman S. Doshi

Abstract

Supplementary Figure 4

Published

2023

11. Data from Novel Arginase Inhibitor, AZD0011, Demonstrates Immune Cell Stimulation and Antitumor Efficacy with Diverse Combination Partners

Author

Alwin G. Schuller, Wenlin Shao, Stephen E. Fawell, Lisa Drew, M. Raymond V. Finlay, Scott N. Mlynarski, Eric T. Gangl, Iain Simpson, Deanna A. Mele, Clare Hoover, David Henry, Sonya Gales, Jeffrey Varnes, Hormas Ghadially, M. Paola Castaldi, Song Wu, Maryann San Martin, Minhui Shen, Cecilia Kankkonen, Laura B. Prickett, Petar Pop-Damkov, Yanjun Wang, Matthew Griffin, Sharon Tentarelli, Srimathi Srinivasan, Marylens Hernandez, Susan Cantin, and Aatman S. Doshi

Abstract

Antitumor immunity can be hampered by immunosuppressive mechanisms in the tumor microenvironment, including recruitment of arginase (ARG) expressing myeloid cells that deplete l-arginine essential for optimal T-cell and natural killer cell function. Hence, ARG inhibition can reverse immunosuppression enhancing antitumor immunity. We describe AZD0011, a novel peptidic boronic acid prodrug to deliver an orally available, highly potent, ARG inhibitor payload (AZD0011-PL). We demonstrate that AZD0011-PL is unable to permeate cells, suggesting that this compound will only inhibit extracellular ARG. In vivo, AZD0011 monotherapy leads to arginine increases, immune cell activation, and tumor growth inhibition in various syngeneic models. Antitumor responses increase when AZD0011 is combined with anti–PD-L1 treatment, correlating with increases in multiple tumor immune cell populations. We demonstrate a novel triple combination of AZD0011, anti–PD-L1, and anti-NKG2A, and combination benefits with type I IFN inducers, including polyI:C and radiotherapy. Our preclinical data demonstrate AZD0011’s ability to reverse tumor immunosuppression and enhance immune stimulation and antitumor responses with diverse combination partners providing potential strategies to increase immuno-oncology therapies clinically.

Published

2023

12. Supplementary Materials and Methods from Pharmacokinetic/Pharmacodynamic Analysis of Savolitinib plus Osimertinib in an EGFR Mutation–Positive, MET-Amplified Non–Small Cell Lung Cancer Model

Author

Alwin G. Schuller, Helen Tomkinson, Larry Bao, Areya Tabatabai, Klas Petersson, and Rhys D.O. Jones

Abstract

Supplementary Data text

Published

2023

13. Supplementary Table 1 from Novel Arginase Inhibitor, AZD0011, Demonstrates Immune Cell Stimulation and Antitumor Efficacy with Diverse Combination Partners

Author

Alwin G. Schuller, Wenlin Shao, Stephen E. Fawell, Lisa Drew, M. Raymond V. Finlay, Scott N. Mlynarski, Eric T. Gangl, Iain Simpson, Deanna A. Mele, Clare Hoover, David Henry, Sonya Gales, Jeffrey Varnes, Hormas Ghadially, M. Paola Castaldi, Song Wu, Maryann San Martin, Minhui Shen, Cecilia Kankkonen, Laura B. Prickett, Petar Pop-Damkov, Yanjun Wang, Matthew Griffin, Sharon Tentarelli, Srimathi Srinivasan, Marylens Hernandez, Susan Cantin, and Aatman S. Doshi

Abstract

Supplementary Table 1

Published

2023

14. Supplementary Figure 1 from Novel Arginase Inhibitor, AZD0011, Demonstrates Immune Cell Stimulation and Antitumor Efficacy with Diverse Combination Partners

Author

Alwin G. Schuller, Wenlin Shao, Stephen E. Fawell, Lisa Drew, M. Raymond V. Finlay, Scott N. Mlynarski, Eric T. Gangl, Iain Simpson, Deanna A. Mele, Clare Hoover, David Henry, Sonya Gales, Jeffrey Varnes, Hormas Ghadially, M. Paola Castaldi, Song Wu, Maryann San Martin, Minhui Shen, Cecilia Kankkonen, Laura B. Prickett, Petar Pop-Damkov, Yanjun Wang, Matthew Griffin, Sharon Tentarelli, Srimathi Srinivasan, Marylens Hernandez, Susan Cantin, and Aatman S. Doshi

Abstract

Supplementary Figure 1

Published

2023

15. Data from Pharmacokinetic/Pharmacodynamic Analysis of Savolitinib plus Osimertinib in an EGFR Mutation–Positive, MET-Amplified Non–Small Cell Lung Cancer Model

Author

Alwin G. Schuller, Helen Tomkinson, Larry Bao, Areya Tabatabai, Klas Petersson, and Rhys D.O. Jones

Abstract

Osimertinib is a third-generation, irreversible, oral EGFR tyrosine kinase inhibitor (TKI) recommended as first-line treatment for patients with locally advanced/metastatic EGFR mutation–positive (EGFRm) non–small cell lung cancer (NSCLC). However, MET amplification/overexpression is a common acquired osimertinib resistance mechanism. Savolitinib is an oral, potent, and highly selective MET-TKI; preliminary data suggest that combining osimertinib with savolitinib may overcome MET-driven resistance.A patient-derived xenograft (PDX) mouse model with EGFRm, MET-amplified NSCLC was tested with a fixed osimertinib dose [10 mg/kg for exposures equivalent to (≈)80 mg], combined with doses of savolitinib (0–15 mg/kg, ≈0–600 mg once daily), both with 1-aminobenzotriazole (to better match clinical half-life). After 20 days of oral dosing, samples were taken at various time points to follow the time course of drug exposure in addition to phosphorylated MET and EGFR (pMET and pEGFR) change. Population pharmacokinetics, savolitinib concentration versus percentage inhibition from baseline in pMET, and the relationship between pMET and tumor growth inhibition (TGI) were also modeled.As single agents, savolitinib (15 mg/kg) showed significant antitumor activity, reaching ∼84% TGI, and osimertinib (10 mg/kg) showed no significant antitumor activity (34% TGI, P > 0.05 vs. vehicle). Upon combination, at a fixed dose of osimertinib, significant savolitinib dose-related antitumor activity was shown, ranging from 81% TGI (0.3 mg/kg) to 84% tumor regression (15 mg/kg). Pharmacokinetic–pharmacodynamic modeling showed that the maximum inhibition of both pEGFR and pMET increased with increasing savolitinib doses.Savolitinib demonstrated exposure-related combination antitumor activity when combined with osimertinib in the EGFRm MET-amplified NSCLC PDX model.

Published

2023

16. Supplementary Figure 2 from Novel Arginase Inhibitor, AZD0011, Demonstrates Immune Cell Stimulation and Antitumor Efficacy with Diverse Combination Partners

Author

Alwin G. Schuller, Wenlin Shao, Stephen E. Fawell, Lisa Drew, M. Raymond V. Finlay, Scott N. Mlynarski, Eric T. Gangl, Iain Simpson, Deanna A. Mele, Clare Hoover, David Henry, Sonya Gales, Jeffrey Varnes, Hormas Ghadially, M. Paola Castaldi, Song Wu, Maryann San Martin, Minhui Shen, Cecilia Kankkonen, Laura B. Prickett, Petar Pop-Damkov, Yanjun Wang, Matthew Griffin, Sharon Tentarelli, Srimathi Srinivasan, Marylens Hernandez, Susan Cantin, and Aatman S. Doshi

Abstract

Supplementary Figure 2

Published

2023

17. Supplementary Figure 5 from Novel Arginase Inhibitor, AZD0011, Demonstrates Immune Cell Stimulation and Antitumor Efficacy with Diverse Combination Partners

Author

Alwin G. Schuller, Wenlin Shao, Stephen E. Fawell, Lisa Drew, M. Raymond V. Finlay, Scott N. Mlynarski, Eric T. Gangl, Iain Simpson, Deanna A. Mele, Clare Hoover, David Henry, Sonya Gales, Jeffrey Varnes, Hormas Ghadially, M. Paola Castaldi, Song Wu, Maryann San Martin, Minhui Shen, Cecilia Kankkonen, Laura B. Prickett, Petar Pop-Damkov, Yanjun Wang, Matthew Griffin, Sharon Tentarelli, Srimathi Srinivasan, Marylens Hernandez, Susan Cantin, and Aatman S. Doshi

Abstract

Supplementary Figure 5

Published

2023

18. Supplementary Table 1 from Preclinical Evaluation of the WEE1 Inhibitor MK-1775 as Single-Agent Anticancer Therapy

Author

Stuart D. Shumway, D. Gary Gilliland, Stephen E. Fawell, Leigh Zawel, Carlo Toniatti, Yair Benita, Igor Feldman, Heather A. Hirsch, Brian Long, Alwin G. Schuller, Melissa S. Hurd, Yaping Liu, Jing Li, and Amy D. Guertin

Abstract

XLSX file - 155K, Proliferation assay EC50 results for MK-1775 in diverse tumor cell lines.

Published

2023

19. Supplementary Figure Legend from Preclinical Evaluation of the WEE1 Inhibitor MK-1775 as Single-Agent Anticancer Therapy

Author

Stuart D. Shumway, D. Gary Gilliland, Stephen E. Fawell, Leigh Zawel, Carlo Toniatti, Yair Benita, Igor Feldman, Heather A. Hirsch, Brian Long, Alwin G. Schuller, Melissa S. Hurd, Yaping Liu, Jing Li, and Amy D. Guertin

Abstract

PDF file - 91K

Published

2023

20. Supplementary Figures 1 - 3 from Preclinical Evaluation of the WEE1 Inhibitor MK-1775 as Single-Agent Anticancer Therapy

Author

Stuart D. Shumway, D. Gary Gilliland, Stephen E. Fawell, Leigh Zawel, Carlo Toniatti, Yair Benita, Igor Feldman, Heather A. Hirsch, Brian Long, Alwin G. Schuller, Melissa S. Hurd, Yaping Liu, Jing Li, and Amy D. Guertin

Abstract

PDF file - 724K, S1. MK-1775 treatment inhibits proliferation in diverse tumor cell lines. S2. DNA damage induction by MK-1775 treatment requires mitogen stimulation. S3. The MK-1775 response of three sensitive cell lines.

Published

2023

21. Data from Preclinical Evaluation of the WEE1 Inhibitor MK-1775 as Single-Agent Anticancer Therapy

Author

Stuart D. Shumway, D. Gary Gilliland, Stephen E. Fawell, Leigh Zawel, Carlo Toniatti, Yair Benita, Igor Feldman, Heather A. Hirsch, Brian Long, Alwin G. Schuller, Melissa S. Hurd, Yaping Liu, Jing Li, and Amy D. Guertin

Abstract

Inhibition of the DNA damage checkpoint kinase WEE1 potentiates genotoxic chemotherapies by abrogating cell-cycle arrest and proper DNA repair. However, WEE1 is also essential for unperturbed cell division in the absence of extrinsic insult. Here, we investigate the anticancer potential of a WEE1 inhibitor, independent of chemotherapy, and explore a possible cellular context underlying sensitivity to WEE1 inhibition. We show that MK-1775, a potent and selective ATP-competitive inhibitor of WEE1, is cytotoxic across a broad panel of tumor cell lines and induces DNA double-strand breaks. MK-1775–induced DNA damage occurs without added chemotherapy or radiation in S-phase cells and relies on active DNA replication. At tolerated doses, MK-1775 treatment leads to xenograft tumor growth inhibition or regression. To begin addressing potential response markers for MK-1775 monotherapy, we focused on PKMYT1, a kinase functionally related to WEE1. Knockdown of PKMYT1 lowers the EC50 of MK-1775 by five-fold but has no effect on the cell-based response to other cytotoxic drugs. In addition, knockdown of PKMYT1 increases markers of DNA damage, γH2AX and pCHK1S345, induced by MK-1775. In a post hoc analysis of 305 cell lines treated with MK-1775, we found that expression of PKMYT1 was below average in 73% of the 33 most sensitive cell lines. Our findings provide rationale for WEE1 inhibition as a potent anticancer therapy independent of a genotoxic partner and suggest that low PKMYT1 expression could serve as an enrichment biomarker for MK-1775 sensitivity. Mol Cancer Ther; 12(8); 1442–52. ©2013 AACR.

Published

2023

22. Supplementary methods from AZ1366: An Inhibitor of Tankyrase and the Canonical Wnt Pathway that Limits the Persistence of Non–Small Cell Lung Cancer Cells Following EGFR Inhibition

Author

James DeGregori, Paul A. Bunn, Vadym Zaberezhnyy, Zhiyong Zhang, Daniel C. Chan, Aik-Choon Tan, Jihye Kim, Shaun E. Grosskurth, Alwin G. Schuller, Matias Casás-Selves, Barbara A. Helfrich, and Hannah A. Scarborough

Abstract

Supplementary methods and materials

Published

2023

23. Supplementary Figures from AZ1366: An Inhibitor of Tankyrase and the Canonical Wnt Pathway that Limits the Persistence of Non–Small Cell Lung Cancer Cells Following EGFR Inhibition

Author

James DeGregori, Paul A. Bunn, Vadym Zaberezhnyy, Zhiyong Zhang, Daniel C. Chan, Aik-Choon Tan, Jihye Kim, Shaun E. Grosskurth, Alwin G. Schuller, Matias Casás-Selves, Barbara A. Helfrich, and Hannah A. Scarborough

Abstract

Supplementary Figures

Published

2023

24. Supplemental Methods from The MET Inhibitor AZD6094 (Savolitinib, HMPL-504) Induces Regression in Papillary Renal Cell Carcinoma Patient–Derived Xenograft Models

Author

Celina M. D'Cruz, Edwin A. Clark, Stephen E. Fawell, Corinne Reimer, Michael Zinda, Ammar Adam, Delphine Nicolle, Olivier Déas, Stefano Cairo, Joanne Wilson, Aaron Smith, Maureen Hattersley, David Linsenmayer, Garry Beran, Melanie M. Frigault, Ryan E. Henry, Rhys D.O. Jones, Evan R. Barry, and Alwin G. Schuller

Abstract

Supplemental Methods. Methods used to generate supplemental data

Published

2023

25. Supplemental Figure 3 from The MET Inhibitor AZD6094 (Savolitinib, HMPL-504) Induces Regression in Papillary Renal Cell Carcinoma Patient–Derived Xenograft Models

Author

Celina M. D'Cruz, Edwin A. Clark, Stephen E. Fawell, Corinne Reimer, Michael Zinda, Ammar Adam, Delphine Nicolle, Olivier Déas, Stefano Cairo, Joanne Wilson, Aaron Smith, Maureen Hattersley, David Linsenmayer, Garry Beran, Melanie M. Frigault, Ryan E. Henry, Rhys D.O. Jones, Evan R. Barry, and Alwin G. Schuller

Abstract

Supplemental Figure 3. HGF and HGFAC expression in RCC-43b and RCC-47

Published

2023

26. Supplemental Figure 2 from The MET Inhibitor AZD6094 (Savolitinib, HMPL-504) Induces Regression in Papillary Renal Cell Carcinoma Patient–Derived Xenograft Models

Author

Celina M. D'Cruz, Edwin A. Clark, Stephen E. Fawell, Corinne Reimer, Michael Zinda, Ammar Adam, Delphine Nicolle, Olivier Déas, Stefano Cairo, Joanne Wilson, Aaron Smith, Maureen Hattersley, David Linsenmayer, Garry Beran, Melanie M. Frigault, Ryan E. Henry, Rhys D.O. Jones, Evan R. Barry, and Alwin G. Schuller

Abstract

Supplemental Figure 2. MET copy number in RCC-43 tumors from passage 6 and 9, and in RCC-47 tumors from passage 5 and 10 by qPCR

Published

2023

27. Data from The MET Inhibitor AZD6094 (Savolitinib, HMPL-504) Induces Regression in Papillary Renal Cell Carcinoma Patient–Derived Xenograft Models

Author

Celina M. D'Cruz, Edwin A. Clark, Stephen E. Fawell, Corinne Reimer, Michael Zinda, Ammar Adam, Delphine Nicolle, Olivier Déas, Stefano Cairo, Joanne Wilson, Aaron Smith, Maureen Hattersley, David Linsenmayer, Garry Beran, Melanie M. Frigault, Ryan E. Henry, Rhys D.O. Jones, Evan R. Barry, and Alwin G. Schuller

Abstract

Purpose: Papillary renal cell carcinoma (PRCC) is the second most common cancer of the kidney and carries a poor prognosis for patients with nonlocalized disease. The HGF receptor MET plays a central role in PRCC and aberrations, either through mutation, copy number gain, or trisomy of chromosome 7 occurring in the majority of cases. The development of effective therapies in PRCC has been hampered in part by a lack of available preclinical models. We determined the pharmacodynamic and antitumor response of the selective MET inhibitor AZD6094 in two PRCC patient-derived xenograft (PDX) models.Experimental Design: Two PRCC PDX models were identified and MET mutation status and copy number determined. Pharmacodynamic and antitumor activity of AZD6094 was tested using a dose response up to 25 mg/kg daily, representing clinically achievable exposures, and compared with the activity of the RCC standard-of-care sunitinib (in RCC43b) or the multikinase inhibitor crizotinib (in RCC47).Results: AZD6094 treatment resulted in tumor regressions, whereas sunitinib or crizotinib resulted in unsustained growth inhibition. Pharmacodynamic analysis of tumors revealed that AZD6094 could robustly suppress pMET and the duration of target inhibition was dose related. AZD6094 inhibited multiple signaling nodes, including MAPK, PI3K, and EGFR. Finally, at doses that induced tumor regression, AZD6094 resulted in a dose- and time-dependent induction of cleaved PARP, a marker of cell death.Conclusions: Data presented provide the first report testing therapeutics in preclinical in vivo models of PRCC and support the clinical development of AZD6094 in this indication. Clin Cancer Res; 21(12); 2811–9. ©2015 AACR.

Published

2023

28. Supplementary Figure Legends from AZ1366: An Inhibitor of Tankyrase and the Canonical Wnt Pathway that Limits the Persistence of Non–Small Cell Lung Cancer Cells Following EGFR Inhibition

Author

James DeGregori, Paul A. Bunn, Vadym Zaberezhnyy, Zhiyong Zhang, Daniel C. Chan, Aik-Choon Tan, Jihye Kim, Shaun E. Grosskurth, Alwin G. Schuller, Matias Casás-Selves, Barbara A. Helfrich, and Hannah A. Scarborough

Abstract

Supplementary Figure Legends

Published

2023

29. Supplemental Figure 1 from The MET Inhibitor AZD6094 (Savolitinib, HMPL-504) Induces Regression in Papillary Renal Cell Carcinoma Patient–Derived Xenograft Models

Author

Celina M. D'Cruz, Edwin A. Clark, Stephen E. Fawell, Corinne Reimer, Michael Zinda, Ammar Adam, Delphine Nicolle, Olivier Déas, Stefano Cairo, Joanne Wilson, Aaron Smith, Maureen Hattersley, David Linsenmayer, Garry Beran, Melanie M. Frigault, Ryan E. Henry, Rhys D.O. Jones, Evan R. Barry, and Alwin G. Schuller

Abstract

Supplemental Figure 1. In vitro activity of AZD6094, sunitinib, crizotinib, SGX-523, JNJ3887605, PHA-665752, and INC280 in AGS and GTL16 gastric cancer cells

Published

2023

30. Supplemental Table 1 from The MET Inhibitor AZD6094 (Savolitinib, HMPL-504) Induces Regression in Papillary Renal Cell Carcinoma Patient–Derived Xenograft Models

Author

Celina M. D'Cruz, Edwin A. Clark, Stephen E. Fawell, Corinne Reimer, Michael Zinda, Ammar Adam, Delphine Nicolle, Olivier Déas, Stefano Cairo, Joanne Wilson, Aaron Smith, Maureen Hattersley, David Linsenmayer, Garry Beran, Melanie M. Frigault, Ryan E. Henry, Rhys D.O. Jones, Evan R. Barry, and Alwin G. Schuller

Abstract

Supplemental Table 1. Genes with copy number gain in RCC-43b and RCC-47

Published

2023

31. Supplemental Table 2 from The MET Inhibitor AZD6094 (Savolitinib, HMPL-504) Induces Regression in Papillary Renal Cell Carcinoma Patient–Derived Xenograft Models

Author

Celina M. D'Cruz, Edwin A. Clark, Stephen E. Fawell, Corinne Reimer, Michael Zinda, Ammar Adam, Delphine Nicolle, Olivier Déas, Stefano Cairo, Joanne Wilson, Aaron Smith, Maureen Hattersley, David Linsenmayer, Garry Beran, Melanie M. Frigault, Ryan E. Henry, Rhys D.O. Jones, Evan R. Barry, and Alwin G. Schuller

Abstract

Supplemental Table 2. Mutations in RCC-43b and RCC-47

Published

2023

32. Data from AZ1366: An Inhibitor of Tankyrase and the Canonical Wnt Pathway that Limits the Persistence of Non–Small Cell Lung Cancer Cells Following EGFR Inhibition

Author

James DeGregori, Paul A. Bunn, Vadym Zaberezhnyy, Zhiyong Zhang, Daniel C. Chan, Aik-Choon Tan, Jihye Kim, Shaun E. Grosskurth, Alwin G. Schuller, Matias Casás-Selves, Barbara A. Helfrich, and Hannah A. Scarborough

Abstract

Purpose: The emergence of EGFR inhibitors such as gefitinib, erlotinib, and osimertinib has provided novel treatment opportunities in EGFR-driven non–small cell lung cancer (NSCLC). However, most patients with EGFR-driven cancers treated with these inhibitors eventually relapse. Recent efforts have identified the canonical Wnt pathway as a mechanism of protection from EGFR inhibition and that inhibiting tankyrase, a key player in this pathway, is a potential therapeutic strategy for the treatment of EGFR-driven tumors.Experimental Design: We performed a preclinical evaluation of tankyrase inhibitor AZ1366 in combination with multiple EGFR-inhibitors across NSCLC lines, characterizing its antitumor activity, impingement on canonical Wnt signaling, and effects on gene expression. We performed pharmacokinetic and pharmacodynamic profiling of AZ1366 in mice and evaluated its therapeutic activity in an orthotopic NSCLC model.Results: In combination with EGFR inhibitors, AZ1366 synergistically suppressed proliferation of multiple NSCLC lines and amplified global transcriptional changes brought about by EGFR inhibition. Its ability to work synergistically with EGFR inhibition coincided with its ability to modulate the canonical Wnt pathway. Pharmacokinetic and pharmacodynamic profiling of AZ1366-treated orthotopic tumors demonstrated clinically relevant serum drug levels and intratumoral target inhibition. Finally, coadministration of an EGFR inhibitor and AZ1366 provided better tumor control and improved survival for Wnt-responsive lung cancers in an orthotopic mouse model.Conclusions: Tankyrase inhibition is a potent route of tumor control in EGFR-dependent NSCLC with confirmed dependence on canonical Wnt signaling. These data strongly support further evaluation of tankyrase inhibition as a cotreatment strategy with EGFR inhibition in an identifiable subset of EGFR-driven NSCLC. Clin Cancer Res; 23(6); 1531–41. ©2016 AACR.

Published

2023

33. Quantitative Evaluation of Dendritic Nanoparticles in Mice: Biodistribution Dynamics and Downstream Tumor Efficacy Outcomes

Author

Christina Vasalou, Douglas Ferguson, Weimin Li, Victorine Muse, Francis D. Gibbons, Silvia Sonzini, Guangnong Zhang, Petar Pop-Damkov, Eric Gangl, Srividya B. Balachander, Shenghua Wen, Alwin G. Schuller, Sanyogitta Puri, Mariarosa Mazza, Marianne Ashford, Adrian J. Fretland, Dermot F. McGinnity, and Rhys D. O. Jones

Subjects

Dendrimers, Pharmaceutical Science, Antineoplastic Agents, Mice, SCID, Mice, Treatment Outcome, Cell Line, Tumor, Drug Discovery, Animals, Humans, Nanoparticles, Molecular Medicine, Female, Tissue Distribution, Neoplasm Transplantation

Abstract

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.

Published

2021

34. Abstract 5155: Targeting tumor infiltrating myeloid cells in prostate cancer

Author

Marco A. De Velasco, Yurie Kura, Naomi Ando, Noriko Sako, Kazutoshi Fujita, Kazuko Sakai, Alwin G. Schuller, Kris F. Sachsenmeier, Masahiro Nozawa, Eri Banno, Kazuhiro Yoshimura, Kazuto Nishio, and Hirotsugu Uemura

Subjects

Cancer Research, Oncology

Abstract

The tumor microenvironment (TME) is a dynamic milieu comprised of various cell types and molecular complexes that eventually evolves to promote cancer cell proliferation, metastasis, and immune evasion. Myeloid cells are a key component of the TME and play key roles in initiating antitumor responses and coordinating with cells of the adaptive immune system. However, these cells are eventually hijacked by tumors and provoke local inflammation that results in chronic cancer-associated inflammation and immune escape. Extracellular adenosine (ecADO) is an immunosuppressive metabolite that is produced in tumors that binds the adenosine 2a receptor (A2aR) which is widely expressed in immune cells. Studies have shown that blocking A2aR signaling has the potential to enhance antitumor immunity by boosting T and NK cell immune responses. However, the relationship between ecADO and tumor-associated myeloid cells is less characterized. We previously reported on the antitumor activity of A2aR and CD73 blockade in preclinical models of Pten-null prostate cancer and their impact on T cell mediated responses. Here, we examine tumor-associated myeloid cell infiltration in models of castration-naïve (CNPC) and castration-resistant prostate cancer (CRPC) the impact of A2aR and CD73 blockade. Transcriptomic, flow cytometric, and immunohistochemical (IHC) profiling studies of CNPC and CRPC from conditional Pten-knockout (KO) and Pten/Trp53-double knockout (DKO) showed that tumor-infiltrating myeloid cells constituted a significant proportion of the prostate tumor microenvironment. CD11b+/Ly6G+ cells representing tumor associated neutrophils (TANs) and myeloid derived suppressor cells (MDSCs) were the most abundant immune cell type comprising 14.9% and 32.1% of the total population, and 46.5% and 69.7% of infiltrating leukocytes in in CNPC and CRPC, respectively. Furthermore, CD11b+/Ly6G+ expressed high levels of CD73. Pte-null prostate tumors were characterized with enriched adenosine signaling signatures which were greater in CRPC compared to CNPC. Treatments with the A2aR inhibitor AZD4635 alone and in combination with CD73 antibody blockade reduced adenosinergic genes as well as genes associated with TAN/MDSC immunosuppressive functions. Additionally, tumors from treated mice exhibited improved T cell mediated cytotoxicity. Together, our findings indicate that tumor associated myeloid cells are an additional source of ecADO contributing to immune suppression which can be targeted with A2aR and CD73 inhibitors. Citation Format: Marco A. De Velasco, Yurie Kura, Naomi Ando, Noriko Sako, Kazutoshi Fujita, Kazuko Sakai, Alwin G. Schuller, Kris F. Sachsenmeier, Masahiro Nozawa, Eri Banno, Kazuhiro Yoshimura, Kazuto Nishio, Hirotsugu Uemura. Targeting tumor infiltrating myeloid cells in prostate cancer. [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 5155.

Published

2023

35. Defining the spatial distribution of extracellular adenosine revealed a myeloid-dependent immunosuppressive microenvironment in pancreatic ductal adenocarcinoma

Author

Vincenzo Graziano, Andreas Dannhorn, Heather Hulme, Kate Williamson, Hannah Buckley, Saadia A Karim, Sheng Y. Lee, Brajesh P. Kaistha, Sabita Islam, James E. D. Thaventhiran, Frances M. Richards, Richard Goodwin, Rebecca Brais, Jennifer P Morton, Simon J. Dovedi, Alwin G. Schuller, Jim Eyles, and Duncan I. Jodrell

Abstract

The prognosis for patients with pancreatic ductal adenocarcinoma (PDAC) remains extremely poor. It has been suggested that the adenosine pathway contributes to the ability of PDAC to evade the immune system and its resistance to immunotherapies (Immuno-Oncology Therapy, IOT), by generating extracellular adenosine (eAdo).Using genetically engineered allograft models of PDAC in syngeneic mice with differential immune infiltration and response to IOT, we showed enrichment of the adenosine pathway in tumour-infiltrating immune cells (in particular, myeloid populations). Using MS-Imaging, we showed that extracellular adenosine distribution is heterogeneous in tumours, with high concentrations in hypoxic margins that surround necrotic areas, associated with a rich myeloid infiltration, demonstrated using Imaging Mass Cytometry (IMC). Pro-tumorigenic M2 macrophages express high levels of the Adora2a receptor; particularly in the IOT resistant model. Blocking thein vivoformation and function of eAdo (Adoi), using a combination of anti-CD73 antibody and an Adora2a inhibitor slowed tumour growth and reduced metastatic burden. In addition, blocking the adenosine pathway improved the efficacy of combinations of cytotoxic agents or immunotherapy. Finally, Adoi remodelled the tumour microenvironment (TME), as evidenced by reduced infiltration of M2 macrophages and Tregs. RNAseq analysis showed that genes related to immune modulation, hypoxia and tumour stroma were downregulated following Adoi and a specific adenosine signature derived from this is associated with a poorer prognosis in patients with PDAC.The formation of eAdo appears to promote the development of the immunosuppressive TME in PDAC, contributing to its resistance to conventional and novel therapies. Therefore, inhibition of the adenosine pathway may represent a strategy to modulate the stroma and improve therapy response in patients with PDAC.

Published

2022

36. Oncogenic switch and single-agent MET inhibitor sensitivity in a subset of

Author

Pınar Özden, Eser, Raymond M, Paranal, Jieun, Son, Elena, Ivanova, Yanan, Kuang, Heidi M, Haikala, Ciric, To, Jeffrey J, Okoro, Kshiti H, Dholakia, Jihyun, Choi, Yoonji, Eum, Atsuko, Ogino, Pavlos, Missios, Dalia, Ercan, Man, Xu, Michael J, Poitras, Stephen, Wang, Kenneth, Ngo, Michael, Dills, Masahiko, Yanagita, Timothy, Lopez, Mika, Lin, Jeanelle, Tsai, Nicolas, Floch, Emily S, Chambers, Jennifer, Heng, Rana, Anjum, Alison D, Santucci, Kesi, Michael, Alwin G, Schuller, Darren, Cross, Paul D, Smith, Geoffrey R, Oxnard, David A, Barbie, Lynette M, Sholl, Magda, Bahcall, Sangeetha, Palakurthi, Prafulla C, Gokhale, Cloud P, Paweletz, George Q, Daley, and Pasi A, Jänne

Subjects

ErbB Receptors, Lung Neoplasms, Drug Resistance, Neoplasm, Cell Line, Tumor, Mutation, Humans, Protein Kinase Inhibitors, Article

Abstract

The clinical efficacy of epidermal growth factor receptor (EGFR)–targeted therapy in EGFR-mutant non–small cell lung cancer is limited by the development of drug resistance. One mechanism of EGFR inhibitor resistance occurs through amplification of the human growth factor receptor (MET) proto-oncogene, which bypasses EGFR to reactivate downstream signaling. Tumors exhibiting concurrent EGFR mutation and MET amplification are historically thought to be codependent on the activation of both oncogenes. Hence, patients whose tumors harbor both alterations are commonly treated with a combination of EGFR and MET tyrosine kinase inhibitors (TKIs). Here, we identify and characterize six patient-derived models of EGFR-mutant, MET-amplified lung cancer that have switched oncogene dependence to rely exclusively on MET activation for survival. We demonstrate in this MET-driven subset of EGFR TKI-refractory cancers that canonical EGFR downstream signaling was governed by MET, even in the presence of sustained mutant EGFR expression and activation. In these models, combined EGFR and MET inhibition did not result in greater efficacy in vitro or in vivo compared to single-agent MET inhibition. We further identified a reduced EGFR:MET mRNA expression stoichiometry as associated with MET oncogene dependence and single-agent MET TKI sensitivity. Tumors from 10 of 11 EGFR inhibitor–resistant EGFR-mutant, MET-amplified patients also exhibited a reduced EGFR:MET mRNA ratio. Our findings reveal that a subset of EGFR-mutant, MET-amplified lung cancers develop dependence on MET activation alone, suggesting that such patients could be treated with a single-agent MET TKI rather than the current standard-of-care EGFR and MET inhibitor combination regimens.

Published

2021

37. MCL1 and BCL-xL levels in solid tumors are predictive of dinaciclib-induced apoptosis.

Author

Robert N Booher, Harold Hatch, Brian M Dolinski, Thi Nguyen, Lauren Harmonay, Ali-Samer Al-Assaad, Mark Ayers, Michael Nebozhyn, Andrey Loboda, Heather A Hirsch, Theresa Zhang, Bin Shi, Carrie E Merkel, Minilik H Angagaw, Yaolin Wang, Brian J Long, Xianlu Q Lennon, Nathan Miselis, Vincenzo Pucci, James W Monahan, Junghoon Lee, Anna Georgieva Kondic, Eun Kyung Im, David Mauro, Rebecca Blanchard, Gary Gilliland, Stephen E Fawell, Leigh Zawel, Alwin G Schuller, and Peter Strack

Subjects

Medicine, Science

Abstract

Dinaciclib is a potent CDK1, 2, 5 and 9 inhibitor being developed for the treatment of cancer. Additional understanding of antitumor mechanisms and identification of predictive biomarkers are important for its clinical development. Here we demonstrate that while dinaciclib can effectively block cell cycle progression, in vitro and in vivo studies, coupled with mouse and human pharmacokinetics, support a model whereby induction of apoptosis is a main mechanism of dinaciclib's antitumor effect and relevant to the clinical duration of exposure. This was further underscored by kinetics of dinaciclib-induced downregulation of the antiapoptotic BCL2 family member MCL1 and correlation of sensitivity with the MCL1-to-BCL-xL mRNA ratio or MCL1 amplification in solid tumor models in vitro and in vivo. This MCL1-dependent apoptotic mechanism was additionally supported by synergy with the BCL2, BCL-xL and BCL-w inhibitor navitoclax (ABT-263). These results provide the rationale for investigating MCL1 and BCL-xL as predictive biomarkers for dinaciclib antitumor response and testing combinations with BCL2 family member inhibitors.

Published

2014

38. Small molecule AZD4635 inhibitor of A

Author

Alexandra, Borodovsky, Christine M, Barbon, Yanjun, Wang, Minwei, Ye, Laura, Prickett, Dinesh, Chandra, Joseph, Shaw, Nanhua, Deng, Kris, Sachsenmeier, James D, Clarke, Bolan, Linghu, Giles A, Brown, James, Brown, Miles, Congreve, Robert Ky, Cheng, Andrew S, Dore, Edward, Hurrell, Wenlin, Shao, Richard, Woessner, Corinne, Reimer, Lisa, Drew, Stephen, Fawell, Alwin G, Schuller, and Deanna A, Mele

Subjects

Male, tumors, Receptor, Adenosine A2A, chemical and pharmacologic phenomena, Basic Tumor Immunology, Dendritic Cells, adaptive immunity, Antineoplastic Agents, Immunological, Antigens, CD, adenosine, Cell Line, Tumor, Neoplasms, oncology, Humans, Female, pharmacology, Integrin alpha Chains, Signal Transduction

Abstract

Accumulation of extracellular adenosine within the microenvironment is a strategy exploited by tumors to escape detection by the immune system. Adenosine signaling through the adenosine 2A receptor (A2AR) on immune cells elicits a range of immunosuppressive effects which promote tumor growth and limit the efficacy of immune checkpoint inhibitors. Preclinical data with A2AR inhibitors have demonstrated tumor regressions in mouse models by rescuing T cell function; however, the mechanism and role on other immune cells has not been fully elucidated. Methods We report here the development of a small molecule A2AR inhibitor including characterization of binding and inhibition of A2AR function with varying amounts of a stable version of adenosine. Functional activity was tested in both mouse and human T cells and dendritic cells (DCs) in in vitro assays to understand the intrinsic role on each cell type. The role of adenosine and A2AR inhibition was tested in DC differentiation assays as well as co-culture assays to access the cross-priming function of DCs. Syngeneic models were used to assess tumor growth alone and in combination with alphaprogrammed death-ligand 1 (αPD-L1). Immunophenotyping by flow cytometry was performed to examine global immune cell changes upon A2AR inhibition. Results We provide the first report of AZD4635, a novel small molecule A2AR antagonist which inhibits downstream signaling and increases T cell function as well as a novel mechanism of enhancing antigen presentation by CD103+ DCs. The role of antigen presentation by DCs, particularly CD103+ DCs, is critical to drive antitumor immunity providing rational to combine a priming agent AZD4635 with check point blockade. We find adenosine impairs the maturation and antigen presentation function of CD103+ DCs. We show in multiple syngeneic mouse tumor models that treatment of AZD4635 alone and in combination with αPD-L1 led to decreased tumor volume correlating with enhanced CD103+ function and T cell response. We extend these studies into human DCs to show that adenosine promotes a tolerogenic phenotype that can be reversed with AZD4635 restoring antigen-specific T cell activation. Our results support the novel role of adenosine signaling as an intrinsic negative regulator of CD103+ DCs maturation and priming. We show that potent inhibition of A2AR with AZD4635 reduces tumor burden and enhances antitumor immunity. This unique mechanism of action in CD103+ DCs may contribute to clinical responses as AZD4635 is being evaluated in clinical trials with IMFINZI (durvalumab, αPD-L1) in patients with solid malignancies. Conclusion We provide evidence implicating suppression of adaptive and innate immunity by adenosine as a mechanism for immune evasion by tumors. Inhibition of adenosine signaling through selective small molecule inhibition of A2AR using AZD4635 restores T cell function via an internal mechanism as well as tumor antigen cross-presentation by CD103+ DCs resulting in antitumor immunity.

Published

2020

39. Conversion of ATP to adenosine by CD39 and CD73 in multiple myeloma can be successfully targeted together with adenosine receptor A2A blockade

Author

Torstein Baade Rø, Rui Yang, Zachary Cooper, Richard Woessner, Samah Elsaadi, Kristine Misund, Pegah Abdollahi, Esten Nymoen Vandsemb, Siv Helen Moen, Anna Kusnierczyk, Geir Slupphaug, Therese Standal, Anders Waage, Tobias S Slørdahl, Even Rustad, Anders Sundan, Carl Hay, Alwin G Schuller, Alexandra Borodovsky, Eline Menu, Magne Børset, and Anne Marit Sponaas

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Background PD1/PDL1-directed therapies have been unsuccessful for multiple myeloma (MM), an incurable cancer of plasma cells in the bone marrow (BM). Therefore, other immune checkpoints such as extracellular adenosine and its immunosuppressive receptor should be considered. CD39 and CD73 convert extracellular ATP to adenosine, which inhibits T-cell effector functions via the adenosine receptor A2A (A2AR). We set out to investigate whether blocking the adenosine pathway could be a therapy for MM.Methods Expression of CD39 and CD73 on BM cells from patients and T-cell proliferation were determined by flow cytometry and adenosine production by Liquid chromatograpy-mass spectrometry (HPCL/MS). ENTPD1 (CD39) mRNA expression was determined on myeloma cells from patients enrolled in the publicly available CoMMpass study. Transplantable 5T33MM myeloma cells were used to determine the effect of inhibiting CD39, CD73 and A2AR in mice in vivo.Results Elevated level of adenosine was found in BM plasma of MM patients. Myeloma cells from patients expressed CD39, and high gene expression indicated reduced survival. CD73 was found on leukocytes and stromal cells in the BM. A CD39 inhibitor, POM-1, and an anti-CD73 antibody inhibited adenosine production and reduced T-cell suppression in vitro in coculture of myeloma and stromal cells. Blocking the adenosine pathway in vivo with a combination of Sodium polyoxotungstate (POM-1), anti-CD73, and the A2AR antagonist AZD4635 activated immune cells, increased interferon gamma production, and reduced the tumor load in a murine model of MM.Conclusions Our data suggest that the adenosine pathway can be successfully targeted in MM and blocking this pathway could be an alternative to PD1/PDL1 inhibition for MM and other hematological cancers. Inhibitors of the adenosine pathway are available. Some are in clinical trials and they could thus reach MM patients fairly rapidly.

Published

2020