Your search keyword '"Oleksijew A"' showing total 218 results

1. ABBV-319: a CD19-targeting glucocorticoid receptor modulator antibody-drug conjugate therapy for B-cell malignancies

Author

Chang, Chewei Anderson, Emberley, Ethan, D'Souza, Aloma L., Zhao, Weilong, Cosgrove, Cormac, Parrish, Karen, Mitra, Diya, Payson, Elmer, Oleksijew, Anatol, Ellis, Paul, Rodriguez, Luis, Duggan, Ryan, Hrusch, Cara, Lasko, Loren, Assaily, Wissam, Zheng, Pingping, Liu, Wei, Hernandez, Axel, Jr., McCarthy, Kimberley, Zhang, Zhaomei, Rha, Geunbae, Cao, Zhensheng, Li, Yingchun, Perng, Olivia, Campbell, Jos, Zhang, Gloria, Curran, Tyler, Bruncko, Milan, Marvin, Christopher C., Hobson, Adrian, McPherson, Michael, Uziel, Tamar, Pysz, Marybeth A., Zhao, Xi, Bankovich, Alex, Hayflick, Joel, McDevitt, Michael, Freise, Kevin J., Morgan-Lappe, Susan, and Purcell, James W.

Published

2024

2. An engineered three-dimensional stem cell niche in the inner ear by applying a nanofibrillar cellulose hydrogel with a sustained-release neurotrophic factor delivery system

Author

Chang, Hsiang-Tsun, Heuer, Rachel A., Oleksijew, Andrew M., Coots, Kyle S., Roque, Christian B., Nella, Kevin T., McGuire, Tammy L., and Matsuoka, Akihiro J.

Published

2020

3. Synergistic therapeutic benefit by combining the antibody drug conjugate, depatux-m with temozolomide in pre-clinical models of glioblastoma with overexpression of EGFR

Author

Vaidya, Kedar S., Mitten, Michael J., Zelaya-Lazo, Adelyn L., Oleksijew, Anatol, Alvey, Cory, Falls, Hugh D., Mishra, Sasmita, Palma, Joann, Ansell, Peter, Phillips, Andrew C., Reilly, Edward B., Anderson, Mark, and Boghaert, Erwin R.

Published

2021

4. Full Factorial Microfluidic Designs and Devices for Parallelizing Human Pluripotent Stem Cell Differentiation

Author

Chadly, Duncan M., Oleksijew, Andrew M., Coots, Kyle S., Fernandez, Jose J., Kobayashi, Shun, Kessler, John A., and Matsuoka, Akihiro J.

Published

2019

5. The Volume of Three-Dimensional Cultures of Cancer Cells InVitro Influences Transcriptional Profile Differences and Similarities with Monolayer Cultures and Xenografted Tumors

Author

Boghaert, Erwin R., Lu, Xin, Hessler, Paul E., McGonigal, Thomas P., Oleksijew, Anatol, Mitten, Michael J., Foster-Duke, Kelly, Hickson, Jonathan A., Santo, Vitor E., Brito, Catarina, Uziel, Tamar, and Vaidya, Kedar S.

Published

2017

6. Supplementary Figure 1 from Expression Profile of BCL-2, BCL-XL, and MCL-1 Predicts Pharmacological Response to the BCL-2 Selective Antagonist Venetoclax in Multiple Myeloma Models

Author

Punnoose, Elizabeth A., primary, Leverson, Joel D., primary, Peale, Franklin, primary, Boghaert, Erwin R., primary, Belmont, Lisa D., primary, Tan, Nguyen, primary, Young, Amy, primary, Mitten, Michael, primary, Ingalla, Ellen, primary, Darbonne, Walter C., primary, Oleksijew, Anatol, primary, Tapang, Paul, primary, Yue, Peng, primary, Oeh, Jason, primary, Lee, Leslie, primary, Maiga, Sophie, primary, Fairbrother, Wayne J., primary, Amiot, Martine, primary, Souers, Andrew J., primary, and Sampath, Deepak, primary

Published

2023

7. Legends for Tables S1 to S3 and Figures S1 to S5 from Expression Profile of BCL-2, BCL-XL, and MCL-1 Predicts Pharmacological Response to the BCL-2 Selective Antagonist Venetoclax in Multiple Myeloma Models

Author

Punnoose, Elizabeth A., primary, Leverson, Joel D., primary, Peale, Franklin, primary, Boghaert, Erwin R., primary, Belmont, Lisa D., primary, Tan, Nguyen, primary, Young, Amy, primary, Mitten, Michael, primary, Ingalla, Ellen, primary, Darbonne, Walter C., primary, Oleksijew, Anatol, primary, Tapang, Paul, primary, Yue, Peng, primary, Oeh, Jason, primary, Lee, Leslie, primary, Maiga, Sophie, primary, Fairbrother, Wayne J., primary, Amiot, Martine, primary, Souers, Andrew J., primary, and Sampath, Deepak, primary

Published

2023

8. Data from Expression Profile of BCL-2, BCL-XL, and MCL-1 Predicts Pharmacological Response to the BCL-2 Selective Antagonist Venetoclax in Multiple Myeloma Models

Author

Punnoose, Elizabeth A., primary, Leverson, Joel D., primary, Peale, Franklin, primary, Boghaert, Erwin R., primary, Belmont, Lisa D., primary, Tan, Nguyen, primary, Young, Amy, primary, Mitten, Michael, primary, Ingalla, Ellen, primary, Darbonne, Walter C., primary, Oleksijew, Anatol, primary, Tapang, Paul, primary, Yue, Peng, primary, Oeh, Jason, primary, Lee, Leslie, primary, Maiga, Sophie, primary, Fairbrother, Wayne J., primary, Amiot, Martine, primary, Souers, Andrew J., primary, and Sampath, Deepak, primary

Published

2023

9. Supplementary Figure 5 from Expression Profile of BCL-2, BCL-XL, and MCL-1 Predicts Pharmacological Response to the BCL-2 Selective Antagonist Venetoclax in Multiple Myeloma Models

Author

Punnoose, Elizabeth A., primary, Leverson, Joel D., primary, Peale, Franklin, primary, Boghaert, Erwin R., primary, Belmont, Lisa D., primary, Tan, Nguyen, primary, Young, Amy, primary, Mitten, Michael, primary, Ingalla, Ellen, primary, Darbonne, Walter C., primary, Oleksijew, Anatol, primary, Tapang, Paul, primary, Yue, Peng, primary, Oeh, Jason, primary, Lee, Leslie, primary, Maiga, Sophie, primary, Fairbrother, Wayne J., primary, Amiot, Martine, primary, Souers, Andrew J., primary, and Sampath, Deepak, primary

Published

2023

10. Supplementary Figure 2 from Expression Profile of BCL-2, BCL-XL, and MCL-1 Predicts Pharmacological Response to the BCL-2 Selective Antagonist Venetoclax in Multiple Myeloma Models

Author

Punnoose, Elizabeth A., primary, Leverson, Joel D., primary, Peale, Franklin, primary, Boghaert, Erwin R., primary, Belmont, Lisa D., primary, Tan, Nguyen, primary, Young, Amy, primary, Mitten, Michael, primary, Ingalla, Ellen, primary, Darbonne, Walter C., primary, Oleksijew, Anatol, primary, Tapang, Paul, primary, Yue, Peng, primary, Oeh, Jason, primary, Lee, Leslie, primary, Maiga, Sophie, primary, Fairbrother, Wayne J., primary, Amiot, Martine, primary, Souers, Andrew J., primary, and Sampath, Deepak, primary

Published

2023

11. Supplementary Figure 4 from Expression Profile of BCL-2, BCL-XL, and MCL-1 Predicts Pharmacological Response to the BCL-2 Selective Antagonist Venetoclax in Multiple Myeloma Models

Author

Punnoose, Elizabeth A., primary, Leverson, Joel D., primary, Peale, Franklin, primary, Boghaert, Erwin R., primary, Belmont, Lisa D., primary, Tan, Nguyen, primary, Young, Amy, primary, Mitten, Michael, primary, Ingalla, Ellen, primary, Darbonne, Walter C., primary, Oleksijew, Anatol, primary, Tapang, Paul, primary, Yue, Peng, primary, Oeh, Jason, primary, Lee, Leslie, primary, Maiga, Sophie, primary, Fairbrother, Wayne J., primary, Amiot, Martine, primary, Souers, Andrew J., primary, and Sampath, Deepak, primary

Published

2023

12. Supplementary Figure 3 from Expression Profile of BCL-2, BCL-XL, and MCL-1 Predicts Pharmacological Response to the BCL-2 Selective Antagonist Venetoclax in Multiple Myeloma Models

Author

Punnoose, Elizabeth A., primary, Leverson, Joel D., primary, Peale, Franklin, primary, Boghaert, Erwin R., primary, Belmont, Lisa D., primary, Tan, Nguyen, primary, Young, Amy, primary, Mitten, Michael, primary, Ingalla, Ellen, primary, Darbonne, Walter C., primary, Oleksijew, Anatol, primary, Tapang, Paul, primary, Yue, Peng, primary, Oeh, Jason, primary, Lee, Leslie, primary, Maiga, Sophie, primary, Fairbrother, Wayne J., primary, Amiot, Martine, primary, Souers, Andrew J., primary, and Sampath, Deepak, primary

Published

2023

13. Supplementary Table 1 from Expression Profile of BCL-2, BCL-XL, and MCL-1 Predicts Pharmacological Response to the BCL-2 Selective Antagonist Venetoclax in Multiple Myeloma Models

Author

Punnoose, Elizabeth A., primary, Leverson, Joel D., primary, Peale, Franklin, primary, Boghaert, Erwin R., primary, Belmont, Lisa D., primary, Tan, Nguyen, primary, Young, Amy, primary, Mitten, Michael, primary, Ingalla, Ellen, primary, Darbonne, Walter C., primary, Oleksijew, Anatol, primary, Tapang, Paul, primary, Yue, Peng, primary, Oeh, Jason, primary, Lee, Leslie, primary, Maiga, Sophie, primary, Fairbrother, Wayne J., primary, Amiot, Martine, primary, Souers, Andrew J., primary, and Sampath, Deepak, primary

Published

2023

14. Supplementary Data from Targeting Multiple EGFR-expressing Tumors with a Highly Potent Tumor-selective Antibody–Drug Conjugate

Author

Anderson, Mark G., primary, Falls, Hugh D., primary, Mitten, Michael J., primary, Oleksijew, Anatol, primary, Vaidya, Kedar S., primary, Boghaert, Erwin R., primary, Gao, Wenqing, primary, Palma, Joann P., primary, Cao, Diana, primary, Chia, Puey-Ling, primary, John, Thomas, primary, Gan, Hui K., primary, Scott, Andrew M., primary, and Reilly, Edward B., primary

Published

2023

15. Supplementary Table 3 from Expression Profile of BCL-2, BCL-XL, and MCL-1 Predicts Pharmacological Response to the BCL-2 Selective Antagonist Venetoclax in Multiple Myeloma Models

Author

Punnoose, Elizabeth A., primary, Leverson, Joel D., primary, Peale, Franklin, primary, Boghaert, Erwin R., primary, Belmont, Lisa D., primary, Tan, Nguyen, primary, Young, Amy, primary, Mitten, Michael, primary, Ingalla, Ellen, primary, Darbonne, Walter C., primary, Oleksijew, Anatol, primary, Tapang, Paul, primary, Yue, Peng, primary, Oeh, Jason, primary, Lee, Leslie, primary, Maiga, Sophie, primary, Fairbrother, Wayne J., primary, Amiot, Martine, primary, Souers, Andrew J., primary, and Sampath, Deepak, primary

Published

2023

16. Supplementary Table 2 from Expression Profile of BCL-2, BCL-XL, and MCL-1 Predicts Pharmacological Response to the BCL-2 Selective Antagonist Venetoclax in Multiple Myeloma Models

Author

Punnoose, Elizabeth A., primary, Leverson, Joel D., primary, Peale, Franklin, primary, Boghaert, Erwin R., primary, Belmont, Lisa D., primary, Tan, Nguyen, primary, Young, Amy, primary, Mitten, Michael, primary, Ingalla, Ellen, primary, Darbonne, Walter C., primary, Oleksijew, Anatol, primary, Tapang, Paul, primary, Yue, Peng, primary, Oeh, Jason, primary, Lee, Leslie, primary, Maiga, Sophie, primary, Fairbrother, Wayne J., primary, Amiot, Martine, primary, Souers, Andrew J., primary, and Sampath, Deepak, primary

Published

2023

17. Supplementary Fig. S1 from ABT-263 and rapamycin act cooperatively to kill lymphoma cells in vitro and in vivo

Author

Ackler, Scott, primary, Xiao, Yu, primary, Mitten, Michael J., primary, Foster, Kelly, primary, Oleksijew, Anatol, primary, Refici, Marion, primary, Schlessinger, Sally, primary, Wang, Baole, primary, Chemburkar, Sanjay R., primary, Bauch, Joy, primary, Tse, Christin, primary, Frost, David J., primary, Fesik, Stephen W., primary, Rosenberg, Saul H., primary, Elmore, Steven W., primary, and Shoemaker, Alex R., primary

Published

2023

18. Supplementary Table 1 from A Small-Molecule Inhibitor of Bcl-XL Potentiates the Activity of Cytotoxic Drugs In vitro and In vivo

Author

Shoemaker, Alex R., primary, Oleksijew, Anatol, primary, Bauch, Joy, primary, Belli, Barbara A., primary, Borre, Tony, primary, Bruncko, Milan, primary, Deckwirth, Thomas, primary, Frost, David J., primary, Jarvis, Ken, primary, Joseph, Mary K., primary, Marsh, Kennan, primary, McClellan, William, primary, Nellans, Hugh, primary, Ng, ShiChung, primary, Nimmer, Paul, primary, O'Connor, Jacqueline M., primary, Oltersdorf, Tilman, primary, Qing, Weiguo, primary, Shen, Wang, primary, Stavropoulos, Jason, primary, Tahir, Stephen K., primary, Wang, Baole, primary, Warner, Robert, primary, Zhang, Haichao, primary, Fesik, Stephen W., primary, Rosenberg, Saul H., primary, and Elmore, Steven W., primary

Published

2023

19. Cholangiocyte primary cilia transduce a fluid shear signal to increase KLF2 via the actin cytoskeleton

Author

Wehrkamp, Cody J., primary, Oleksijew, Andrew M., additional, Mansini, Adrian P., additional, Gradilone, Sergio A., additional, Mohr, Ashley M., additional, and Mott, Justin L., additional

Published

2023

20. Data from Targeting Multiple EGFR-expressing Tumors with a Highly Potent Tumor-selective Antibody–Drug Conjugate

Author

Edward B. Reilly, Andrew M. Scott, Hui K. Gan, Thomas John, Puey-Ling Chia, Diana Cao, Joann P. Palma, Wenqing Gao, Erwin R. Boghaert, Kedar S. Vaidya, Anatol Oleksijew, Michael J. Mitten, Hugh D. Falls, and Mark G. Anderson

Abstract

ABBV-321 (serclutamab talirine), a next-generation EGFR-targeted antibody–drug conjugate (ADC) incorporates a potent pyrrolobenzodiazepine (PBD) dimer toxin conjugated to the EGFR-targeting ABT-806 affinity-matured AM1 antibody. ABBV-321 follows the development of related EGFR-targeted ADCs including depatuxizumab mafodotin (depatux-m, ABT-414), ABT-806 conjugated to monomethyl auristatin F (MMAF), and ABBV-221 (losatuxizumab vedotin), AM1 antibody conjugated to monomethyl auristatin E (MMAE). The distinct tumor selectivity of ABBV-321 differentiates it from many previous highly active antibody PBD conjugates that lack a therapeutic window. Potency of the PBD dimer, combined with increased binding of AM1 to EGFR-positive tumor cells, opens the possibility to target a wide array of tumors beyond those with high levels of EGFR overexpression or amplification, including those insensitive to auristatin-based ADCs. ABBV-321 exhibits potent antitumor activity in cellular and in vivo studies including xenograft cell line and patient-derived xenograft glioblastoma, colorectal, lung, head and neck, and malignant mesothelioma tumor models that are less sensitive to depatux-m or ABBV-221. Combination studies with ABBV-321 and depatux-m suggest a promising treatment option permitting suboptimal, and potentially better tolerated, doses of both ADCs while providing improved potency. Collectively, these data suggest that ABBV-321 may offer an extended breadth of efficacy relative to other EGFR ADCs while extending utility to multiple EGFR-expressing tumor indications. Despite its highly potent PBD dimer payload, the tumor selectivity of ABBV-321, coupled with its pharmacology, toxicology, and pharmacokinetic profiles, support continuation of ongoing phase I clinical trials in patients with advanced EGFR-expressing malignancies.

Published

2023

21. Supplementary Table 3 from Expression Profile of BCL-2, BCL-XL, and MCL-1 Predicts Pharmacological Response to the BCL-2 Selective Antagonist Venetoclax in Multiple Myeloma Models

Author

Deepak Sampath, Andrew J. Souers, Martine Amiot, Wayne J. Fairbrother, Sophie Maiga, Leslie Lee, Jason Oeh, Peng Yue, Paul Tapang, Anatol Oleksijew, Walter C. Darbonne, Ellen Ingalla, Michael Mitten, Amy Young, Nguyen Tan, Lisa D. Belmont, Erwin R. Boghaert, Franklin Peale, Joel D. Leverson, and Elizabeth A. Punnoose

Abstract

BCL2, BCL2L1 and MCL1 mRNA in CD138 primary MM patient samples and sensitivity to veneteclax ex vivo

Published

2023

22. Legends for Tables S1 to S3 and Figures S1 to S5 from Expression Profile of BCL-2, BCL-XL, and MCL-1 Predicts Pharmacological Response to the BCL-2 Selective Antagonist Venetoclax in Multiple Myeloma Models

Author

Deepak Sampath, Andrew J. Souers, Martine Amiot, Wayne J. Fairbrother, Sophie Maiga, Leslie Lee, Jason Oeh, Peng Yue, Paul Tapang, Anatol Oleksijew, Walter C. Darbonne, Ellen Ingalla, Michael Mitten, Amy Young, Nguyen Tan, Lisa D. Belmont, Erwin R. Boghaert, Franklin Peale, Joel D. Leverson, and Elizabeth A. Punnoose

Abstract

Legends for Tables S1 to S3 and Figures S1 to S5

Published

2023

23. Supplementary Figure 3 from Expression Profile of BCL-2, BCL-XL, and MCL-1 Predicts Pharmacological Response to the BCL-2 Selective Antagonist Venetoclax in Multiple Myeloma Models

Author

Deepak Sampath, Andrew J. Souers, Martine Amiot, Wayne J. Fairbrother, Sophie Maiga, Leslie Lee, Jason Oeh, Peng Yue, Paul Tapang, Anatol Oleksijew, Walter C. Darbonne, Ellen Ingalla, Michael Mitten, Amy Young, Nguyen Tan, Lisa D. Belmont, Erwin R. Boghaert, Franklin Peale, Joel D. Leverson, and Elizabeth A. Punnoose

Abstract

Caspase-dependent degradation of MCL-1 in NCI-H929 HMCL following treatment with bortezomib treatment

Published

2023

24. Supplementary Figure 5 from Expression Profile of BCL-2, BCL-XL, and MCL-1 Predicts Pharmacological Response to the BCL-2 Selective Antagonist Venetoclax in Multiple Myeloma Models

Author

Deepak Sampath, Andrew J. Souers, Martine Amiot, Wayne J. Fairbrother, Sophie Maiga, Leslie Lee, Jason Oeh, Peng Yue, Paul Tapang, Anatol Oleksijew, Walter C. Darbonne, Ellen Ingalla, Michael Mitten, Amy Young, Nguyen Tan, Lisa D. Belmont, Erwin R. Boghaert, Franklin Peale, Joel D. Leverson, and Elizabeth A. Punnoose

Abstract

BCL-2 and BCL-XL IHC correlates with qPCR and immunobot analysis of HMCLs

Published

2023

25. Data from Expression Profile of BCL-2, BCL-XL, and MCL-1 Predicts Pharmacological Response to the BCL-2 Selective Antagonist Venetoclax in Multiple Myeloma Models

Author

Deepak Sampath, Andrew J. Souers, Martine Amiot, Wayne J. Fairbrother, Sophie Maiga, Leslie Lee, Jason Oeh, Peng Yue, Paul Tapang, Anatol Oleksijew, Walter C. Darbonne, Ellen Ingalla, Michael Mitten, Amy Young, Nguyen Tan, Lisa D. Belmont, Erwin R. Boghaert, Franklin Peale, Joel D. Leverson, and Elizabeth A. Punnoose

Abstract

BCL-2 family proteins dictate survival of human multiple myeloma cells, making them attractive drug targets. Indeed, multiple myeloma cells are sensitive to antagonists that selectively target prosurvival proteins such as BCL-2/BCL-XL (ABT-737 and ABT-263/navitoclax) or BCL-2 only (ABT-199/GDC-0199/venetoclax). Resistance to these three drugs is mediated by expression of MCL-1. However, given the selectivity profile of venetoclax it is unclear whether coexpression of BCL-XL also affects antitumor responses to venetoclax in multiple myeloma. In multiple myeloma cell lines (n = 21), BCL-2 is expressed but sensitivity to venetoclax correlated with high BCL-2 and low BCL-XL or MCL-1 expression. Multiple myeloma cells that coexpress BCL-2 and BCL-XL were resistant to venetoclax but sensitive to a BCL-XL–selective inhibitor (A-1155463). Multiple myeloma xenograft models that coexpressed BCL-XL or MCL-1 with BCL-2 were also resistant to venetoclax. Resistance to venetoclax was mitigated by cotreatment with bortezomib in xenografts that coexpressed BCL-2 and MCL-1 due to upregulation of NOXA, a proapoptotic factor that neutralizes MCL-1. In contrast, xenografts that expressed BCL-XL, MCL-1, and BCL-2 were more sensitive to the combination of bortezomib with a BCL-XL selective inhibitor (A-1331852) but not with venetoclax cotreatment when compared with monotherapies. IHC of multiple myeloma patient bone marrow biopsies and aspirates (n = 95) revealed high levels of BCL-2 and BCL-XL in 62% and 43% of evaluable samples, respectively, while 34% were characterized as BCL-2High/BCL-XLLow. In addition to MCL-1, our data suggest that BCL-XL may also be a potential resistance factor to venetoclax monotherapy and in combination with bortezomib. Mol Cancer Ther; 15(5); 1132–44. ©2016 AACR.

Published

2023

26. Supplementary Data from Targeting Multiple EGFR-expressing Tumors with a Highly Potent Tumor-selective Antibody–Drug Conjugate

Author

Edward B. Reilly, Andrew M. Scott, Hui K. Gan, Thomas John, Puey-Ling Chia, Diana Cao, Joann P. Palma, Wenqing Gao, Erwin R. Boghaert, Kedar S. Vaidya, Anatol Oleksijew, Michael J. Mitten, Hugh D. Falls, and Mark G. Anderson

Abstract

In vivo Efficacy of ABBV-321 tumor targeting.

Published

2023

27. Supplementary Table 2 from Expression Profile of BCL-2, BCL-XL, and MCL-1 Predicts Pharmacological Response to the BCL-2 Selective Antagonist Venetoclax in Multiple Myeloma Models

Author

Deepak Sampath, Andrew J. Souers, Martine Amiot, Wayne J. Fairbrother, Sophie Maiga, Leslie Lee, Jason Oeh, Peng Yue, Paul Tapang, Anatol Oleksijew, Walter C. Darbonne, Ellen Ingalla, Michael Mitten, Amy Young, Nguyen Tan, Lisa D. Belmont, Erwin R. Boghaert, Franklin Peale, Joel D. Leverson, and Elizabeth A. Punnoose

Abstract

Correlation of mRNA expression of BCL2 family members and sensitivity to venetoclax or navitoclax in HMCLs

Published

2023

28. Supplementary Figure 4 from Expression Profile of BCL-2, BCL-XL, and MCL-1 Predicts Pharmacological Response to the BCL-2 Selective Antagonist Venetoclax in Multiple Myeloma Models

Author

Deepak Sampath, Andrew J. Souers, Martine Amiot, Wayne J. Fairbrother, Sophie Maiga, Leslie Lee, Jason Oeh, Peng Yue, Paul Tapang, Anatol Oleksijew, Walter C. Darbonne, Ellen Ingalla, Michael Mitten, Amy Young, Nguyen Tan, Lisa D. Belmont, Erwin R. Boghaert, Franklin Peale, Joel D. Leverson, and Elizabeth A. Punnoose

Abstract

Conceptual workflow for establishing BCL-2 family IHC cut-offs for analysis of MM patient tumor samples

Published

2023

29. Supplementary Table 1 from Expression Profile of BCL-2, BCL-XL, and MCL-1 Predicts Pharmacological Response to the BCL-2 Selective Antagonist Venetoclax in Multiple Myeloma Models

Author

Deepak Sampath, Andrew J. Souers, Martine Amiot, Wayne J. Fairbrother, Sophie Maiga, Leslie Lee, Jason Oeh, Peng Yue, Paul Tapang, Anatol Oleksijew, Walter C. Darbonne, Ellen Ingalla, Michael Mitten, Amy Young, Nguyen Tan, Lisa D. Belmont, Erwin R. Boghaert, Franklin Peale, Joel D. Leverson, and Elizabeth A. Punnoose

Abstract

qPCR primer sequences for Apopanel of BCL2 family members

Published

2023

30. Data from ABBV-399, a c-Met Antibody–Drug Conjugate that Targets Both MET–Amplified and c-Met–Overexpressing Tumors, Irrespective of MET Pathway Dependence

Author

Edward B. Reilly, Louie Naumovski, Joann P. Palma, Edward K. Han, Qian Zhang, Lora Tucker, Erwin R. Boghaert, Kedar S. Vaidya, Anatol Oleksijew, Mark G. Anderson, and Jieyi Wang

Abstract

Purpose: Despite the importance of the MET oncogene in many malignancies, clinical strategies targeting c-Met have benefitted only small subsets of patients with tumors driven by signaling through the c-Met pathway, thereby necessitating selection of patients with MET amplification and/or c-Met activation most likely to respond. An ADC targeting c-Met could overcome these limitations with potential as a broad-acting therapeutic.Experimental Design: ADC ABBV-399 was generated with the c-Met–targeting antibody, ABT-700. Antitumor activity was evaluated in cancer cells with overexpressed c-Met or amplified MET and in xenografts including patient-derived xenograft (PDX) models and those refractory to other c-Met inhibitors. The correlation between c-Met expression and sensitivity to ABBV-399 in tumor and normal cell lines was assessed to evaluate the risk of on-target toxicity.Results: A threshold level of c-Met expressed by sensitive tumor but not normal cells is required for significant ABBV-399–mediated killing of tumor cells. Activity extends to c-Met or amplified MET cell line and PDX models where significant tumor growth inhibition and regressions are observed. ABBV-399 inhibits growth of xenograft tumors refractory to other c-Met inhibitors and provides significant therapeutic benefit in combination with standard-of-care chemotherapy.Conclusions: ABBV-399 represents a novel therapeutic strategy to deliver a potent cytotoxin to c-Met–overexpressing tumor cells enabling cell killing regardless of reliance on MET signaling. ABBV-399 has progressed to a phase I study where it has been well tolerated and has produced objective responses in c-Met–expressing non–small cell lung cancer (NSCLC) patients. Clin Cancer Res; 23(4); 992–1000. ©2016 AACR.

Published

2023

31. Supplementary Figures 1-2 from ABBV-399, a c-Met Antibody–Drug Conjugate that Targets Both MET–Amplified and c-Met–Overexpressing Tumors, Irrespective of MET Pathway Dependence

Author

Edward B. Reilly, Louie Naumovski, Joann P. Palma, Edward K. Han, Qian Zhang, Lora Tucker, Erwin R. Boghaert, Kedar S. Vaidya, Anatol Oleksijew, Mark G. Anderson, and Jieyi Wang

Abstract

ABBV-399, a c-Met Antibody Drug Conjugate that Targets Both MET Amplified and c-Met Overexpressing Tumors, Irrespective of MET Pathway Dependence. Figure S1 shows ABBV-399 is internalized upon binding to tumor cells. Figure S2 shows the down-regulation of phospho- and total c-Met and downstream signaling molecules upon treatment with ABBV-399

Published

2023

32. Supplementary Fig. S1 from ABT-263 and rapamycin act cooperatively to kill lymphoma cells in vitro and in vivo

Author

Alex R. Shoemaker, Steven W. Elmore, Saul H. Rosenberg, Stephen W. Fesik, David J. Frost, Christin Tse, Joy Bauch, Sanjay R. Chemburkar, Baole Wang, Sally Schlessinger, Marion Refici, Anatol Oleksijew, Kelly Foster, Michael J. Mitten, Yu Xiao, and Scott Ackler

Abstract

Supplementary Fig. S1 from ABT-263 and rapamycin act cooperatively to kill lymphoma cells in vitro and in vivo

Published

2023

33. Data from ABT-263 and rapamycin act cooperatively to kill lymphoma cells in vitro and in vivo

Author

Alex R. Shoemaker, Steven W. Elmore, Saul H. Rosenberg, Stephen W. Fesik, David J. Frost, Christin Tse, Joy Bauch, Sanjay R. Chemburkar, Baole Wang, Sally Schlessinger, Marion Refici, Anatol Oleksijew, Kelly Foster, Michael J. Mitten, Yu Xiao, and Scott Ackler

Abstract

ABT-263 is a potent, orally bioavailable inhibitor of the antiapoptotic Bcl-2 family members Bcl-2, Bcl-xL, and Bcl-w, which is currently in phase I clinical trials. Previous work has shown that this compound has low nanomolar cell-killing activity in a variety of lymphoma and leukemia cell lines, many of which overexpress Bcl-2 through a variety of mechanisms. Rapamycin is a macrolide antibiotic that inhibits the mammalian target of rapamycin complex, leading to cell cycle arrest and inhibition of protein translation. Rapamycin (and its analogues) has shown activity in a variety of tumor cell lines primarily through induction of cell cycle arrest. Activity has also been shown clinically in mantle cell lymphoma and advanced renal cell carcinoma. Here, we show that treatment of the follicular lymphoma lines DoHH-2 and SuDHL-4 with 100 nmol/L rapamycin induces substantial G0-G1 arrest. Addition of as little as 39 nmol/L ABT-263 to the rapamycin regimen induced a 3-fold increase in sub-G0 cells. Combination of these agents also led to a significant increase in Annexin V staining over ABT-263 alone. In xenograft models of these tumors, rapamycin induced a largely cytostatic response in the DoHH-2 and SuDHL-4 models. Coadministration with ABT-263 induced significant tumor regression, with DoHH-2 and SuDHL-4 tumors showing 100% overall response rates. Apoptosis in these tumors was significantly enhanced by combination therapy as measured by staining with an antibody specific for cleaved caspase-3. These data suggest that combination of ABT-263 and rapamycin or its analogues represents a promising therapeutic strategy for the treatment of lymphoma. [Mol Cancer Ther 2008;7(10):3265–74]

Published

2023

34. Supplementary Table 1 from A Small-Molecule Inhibitor of Bcl-XL Potentiates the Activity of Cytotoxic Drugs In vitro and In vivo

Author

Steven W. Elmore, Saul H. Rosenberg, Stephen W. Fesik, Haichao Zhang, Robert Warner, Baole Wang, Stephen K. Tahir, Jason Stavropoulos, Wang Shen, Weiguo Qing, Tilman Oltersdorf, Jacqueline M. O'Connor, Paul Nimmer, ShiChung Ng, Hugh Nellans, William McClellan, Kennan Marsh, Mary K. Joseph, Ken Jarvis, David J. Frost, Thomas Deckwirth, Milan Bruncko, Tony Borre, Barbara A. Belli, Joy Bauch, Anatol Oleksijew, and Alex R. Shoemaker

Abstract

Supplementary Table 1 from A Small-Molecule Inhibitor of Bcl-XL Potentiates the Activity of Cytotoxic Drugs In vitro and In vivo

Published

2023

35. Data from A Small-Molecule Inhibitor of Bcl-XL Potentiates the Activity of Cytotoxic Drugs In vitro and In vivo

Author

Steven W. Elmore, Saul H. Rosenberg, Stephen W. Fesik, Haichao Zhang, Robert Warner, Baole Wang, Stephen K. Tahir, Jason Stavropoulos, Wang Shen, Weiguo Qing, Tilman Oltersdorf, Jacqueline M. O'Connor, Paul Nimmer, ShiChung Ng, Hugh Nellans, William McClellan, Kennan Marsh, Mary K. Joseph, Ken Jarvis, David J. Frost, Thomas Deckwirth, Milan Bruncko, Tony Borre, Barbara A. Belli, Joy Bauch, Anatol Oleksijew, and Alex R. Shoemaker

Abstract

Inhibition of the prosurvival members of the Bcl-2 family of proteins represents an attractive strategy for the treatment of cancer. We have previously reported the activity of ABT-737, a potent inhibitor of Bcl-2, Bcl-XL, and Bcl-w, which exhibits monotherapy efficacy in xenograft models of small-cell lung cancer and lymphoma and potentiates the activity of numerous cytotoxic agents. Here we describe the biological activity of A-385358, a small molecule with relative selectivity for binding to Bcl-XL versus Bcl-2 (Ki's of 0.80 and 67 nmol/L for Bcl-XL and Bcl-2, respectively). This compound efficiently enters cells and co-localizes with the mitochondrial membrane. Although A-385358 shows relatively modest single-agent cytotoxic activity against most tumor cell lines, it has an EC50 of L for survival. In addition, A-385358 enhances the in vitro cytotoxic activity of numerous chemotherapeutic agents (paclitaxel, etoposide, cisplatin, and doxorubicin) in several tumor cell lines. In A549 non–small-cell lung cancer cells, A-385358 potentiates the activity of paclitaxel by as much as 25-fold. Importantly, A-385358 also potentiated the activity of paclitaxel in vivo. Significant inhibition of tumor growth was observed when A-385358 was added to maximally tolerated or half maximally tolerated doses of paclitaxel in the A549 xenograft model. In tumors, the combination therapy also resulted in a significant increase in mitotic arrest followed by apoptosis relative to paclitaxel monotherapy. (Cancer Res 2006; 66(17): 8731-9)

Published

2023

36. Cholangiocyte primary cilia transduce a fluid shear signal to increase KLF2 via the actin cytoskeleton

Author

Cody J. Wehrkamp, Andrew M. Oleksijew, Adrian P. Mansini, Sergio A. Gradilone, Ashley M. Mohr, and Justin L. Mott

Abstract

Cholangiocarcinoma is an aggressive solid tumor formed in the bile duct epithelium. Often this tumor obstructs bile flow, known as cholestasis. Normal cholangiocytes detect bile flow in the ductal lumen with an extension of the apical membrane called the primary cilium. However, these sensory organelles are often lost in malignant cells. Krüppel-like factor 2 (KLF2) is an important flow-sensitive transcription factor involved in shear stress response in endothelial cells, and has anti-proliferative, anti-inflammatory, and anti-angiogenic effects. The potential role of KLF2 in cholangiocyte flow detection and in cholangiocarcinoma is unknown. We hypothesized that reduced bile flow contributes to malignant features in cholangiocarcinoma through regulation of KLF2 signaling. We observed that primary cilia were expressed in normal cholangiocytes but were absent in malignant cells. KLF2 expression was higher in normal cells compared to malignant. Depletion of cilia in normal cells led to a decrease in KLF2 expression and increased cilia number was associated with increased KLF2. Enforced KLF2 expression inhibited cell proliferation, migration, and also decreased cell death induction in malignant cells. Applied media flow over cholangiocytes increased KLF2 and cilia depletion completely blocked flow-induced KLF2 expression. Disruption of filamentous actin decreased KLF2 expression, suggesting the cilium may communicate through a cytoskeletal mechanotransduction pathway. Our studies demonstrate that cilia positively regulated KLF2 protein levels and increased fluid flow induced KLF2 expression for the first time in cholangiocytes, emphasizing the importance of reestablishing bile flow in cholestatic cholangiocarcinoma.

Published

2023

37. Three-Dimensional Otic Neuronal Progenitor Spheroids Derived from Human Embryonic Stem Cells

Author

Luisa Helena Andrade Silva, Tammy L. McGuire, Hsiang-Tsun Chang, Kevin T. Nella, Christian B. Roque, Rachel A. Heuer, Andrew M. Oleksijew, Akihiro J. Matsuoka, Kyle S. Coots, and Kazuaki Homma

Subjects

Human Embryonic Stem Cells, Biomedical Engineering, Bioengineering, Biology, Biochemistry, Biomaterials, Spheroids, Cellular, otorhinolaryngologic diseases, medicine, Humans, Inner ear, Spiral ganglion, Progenitor, Neurons, Regeneration (biology), Spheroid, Cell Differentiation, Original Articles, medicine.disease, Embryonic stem cell, Stem cell niche, Cell biology, medicine.anatomical_structure, embryonic structures, Sensorineural hearing loss, sense organs, Spiral Ganglion, Stem Cell Transplantation

Abstract

Stem cell–replacement therapies have been proposed as a potential tool to treat sensorineural hearing loss by aiding the regeneration of spiral ganglion neurons (SGNs) in the inner ear. However, transplantation procedures have yet to be explored thoroughly to ensure proper cell differentiation and optimal transplant procedures. We hypothesized that the aggregation of human embryonic stem cell (hESC)–derived otic neuronal progenitor (ONP) cells into a multicellular form would improve their function and their survival in vivo post-transplantation. We generated hESC–derived ONP spheroids—an aggregate form conducive to differentiation, transplantation, and prolonged cell survival—to optimize conditions for their transplantation. Our findings indicate that these cell spheroids maintain the molecular and functional characteristics similar to those of ONP cells, which are upstream in the SGN lineage. Moreover, our phenotypical, electrophysiological, and mechanical data suggest an optimal spheroid transplantation point after 7 days of in vitro three-dimensional (3D) culture. We have also developed a feasible transplantation protocol for these spheroids using a micropipette aided by a digital microinjection system. In summary, the present work demonstrates that the transplantation of ONP cells in spheroid form into the inner ear through micropipette 7 days after seeding for 3D spheroid culture is an expedient and viable method for stem cell replacement therapies in the inner ear. IMPACT STATEMENT: Sensorineural hearing loss affects millions of people worldwide. Although inner ear stem cell replacement therapies offer a promising method to mitigate this hearing loss by aiding in the regeneration of spiral ganglion neurons, few in vivo studies have been performed in this area. By providing detailed cell spheroid characterization, determining an optimal development stage for transplantation, and establishing a reliable and reproducible transplantation protocol, we aimed to provide the necessary details to bridge the gap between in vitro experiments and in vivo studies of stem cell replacement therapies in the inner ear.

Published

2021

38. Targeting Multiple EGFR-expressing Tumors with a Highly Potent Tumor-selective Antibody–Drug Conjugate

Author

Anatol Oleksijew, Thomas John, Diana Cao, Mark Anderson, Joann P. Palma, Kedar S. Vaidya, Puey-Ling Chia, Michael J. Mitten, Hugh D. Falls, Hui K Gan, Edward B. Reilly, Andrew M. Scott, Wenqing Gao, and Erwin R. Boghaert

Subjects

0301 basic medicine, Cancer Research, Antibody-drug conjugate, Immunoconjugates, Mice, Nude, Pyrrolobenzodiazepine, Depatuxizumab mafodotin, Mice, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, In vivo, Cell Line, Tumor, medicine, Animals, Humans, ErbB Receptors, 030104 developmental biology, Monomethyl auristatin F, Oncology, Monomethyl auristatin E, chemistry, 030220 oncology & carcinogenesis, Cancer research, Female, Erlotinib, medicine.drug, Conjugate

Abstract

ABBV-321 (serclutamab talirine), a next-generation EGFR-targeted antibody–drug conjugate (ADC) incorporates a potent pyrrolobenzodiazepine (PBD) dimer toxin conjugated to the EGFR-targeting ABT-806 affinity-matured AM1 antibody. ABBV-321 follows the development of related EGFR-targeted ADCs including depatuxizumab mafodotin (depatux-m, ABT-414), ABT-806 conjugated to monomethyl auristatin F (MMAF), and ABBV-221 (losatuxizumab vedotin), AM1 antibody conjugated to monomethyl auristatin E (MMAE). The distinct tumor selectivity of ABBV-321 differentiates it from many previous highly active antibody PBD conjugates that lack a therapeutic window. Potency of the PBD dimer, combined with increased binding of AM1 to EGFR-positive tumor cells, opens the possibility to target a wide array of tumors beyond those with high levels of EGFR overexpression or amplification, including those insensitive to auristatin-based ADCs. ABBV-321 exhibits potent antitumor activity in cellular and in vivo studies including xenograft cell line and patient-derived xenograft glioblastoma, colorectal, lung, head and neck, and malignant mesothelioma tumor models that are less sensitive to depatux-m or ABBV-221. Combination studies with ABBV-321 and depatux-m suggest a promising treatment option permitting suboptimal, and potentially better tolerated, doses of both ADCs while providing improved potency. Collectively, these data suggest that ABBV-321 may offer an extended breadth of efficacy relative to other EGFR ADCs while extending utility to multiple EGFR-expressing tumor indications. Despite its highly potent PBD dimer payload, the tumor selectivity of ABBV-321, coupled with its pharmacology, toxicology, and pharmacokinetic profiles, support continuation of ongoing phase I clinical trials in patients with advanced EGFR-expressing malignancies.

Published

2020

39. Optimal Classes of Chemotherapeutic Agents Sensitized by Specific Small-Molecule Inhibitors of Akt In Vitro and In Vivo

Author

Yan Shi, Xuesong Liu, Edward K. Han, Ran Guan, Alexander R. Shoemaker, Anatol Oleksijew, Keith W. Woods, John P. Fisher, Vered Klinghofer, Loren Lasko, Thomas McGonigal, Qun Li, Saul H. Rosenberg, Vincent L. Giranda, and Yan Luo

Subjects

Akt, inhibitors, chemosensitization, apoptosis, synergy, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Akt is a serine/threonine kinase that transduces survival signals from survival/growth factors. Deregulation and signal imbalance in cancer cells make them prone to apoptosis. Upregulation or activation of Akt to aid the survival of cancer cells is a common theme in human malignancies. We have developed small-molecule Akt inhibitors that are potent and specific. These Akt inhibitors can inhibit Akt activity and block phosphorylation by Akt on multiple downstream targets in cells. Synergy in apoptosis induction was observed when Akt inhibitors were combined with doxorubicin or camptothecin. Akt inhibitor-induced enhancement of topoisomerase inhibitor cytotoxicity was also evident in long-term cell survival assay. Synergy with paclitaxel in apoptosis induction was evident in cells pretreated with paclitaxel, and enhancement of tumor delay by paclitaxel was demonstrated through cotreatment with Akt inhibitor Compound A (A-443654). Combination with other classes of chemotherapeutic agents did not yield any enhancement of cytotoxicity. These findings provide important guidance in selecting appropriate classes of chemotherapeutic agents for combination with Akt inhibitors in cancer treatment.

Published

2005

40. Effects of Buprenorphine in a Preclinical Orthotopic Tumor Model of Ovarian Carcinoma in Female CB17 SCID Mice

Author

Jonathan Hickson, Letty M Medina, Debra Ferguson, Xin Huang, Susan Bolin, David Frost, Andrew Oleksijew, and Natalie A Bratcher

Subjects

Oncology, medicine.medical_specialty, Pain, Mice, SCID, Mice, 03 medical and health sciences, 0302 clinical medicine, Laboratory Animal Science, 030202 anesthesiology, Internal medicine, Ovarian carcinoma, medicine, Carcinoma, Animals, Humans, Pain Management, Bioluminescence imaging, Anesthesia, Ovarian Neoplasms, Pain, Postoperative, business.industry, Cancer, medicine.disease, Buprenorphine, Analgesics, Opioid, Clinical trial, Opioid, 030220 oncology & carcinogenesis, Female, Animal Science and Zoology, Analgesia, business, Ovarian cancer, medicine.drug

Abstract

In the development of cancer therapeutics, no suitable replacements for the use of animals that are capable of modeling such complex disease processes are currently available. In orthotopic models, surgery is often required to access the target organ for tumor cell inoculation. Historically analgesics have been withheld in such models in light of potential effects on tumor development. The current study evaluated the effect of the opioid buprenorphine on tumor growth of a human ovarian cancer cell line (OVCAR5 OT luc2 mCherry). Female CB17 SCID mice (n = 150) underwent surgery for orthotopic inoculation and were assigned to 1 of 3 treatment groups: vehicle control, 1 dose of buprenorphine, or 2 doses of buprenorphine administered perioperatively. Bioluminescence imaging revealed no significant difference on tumor engraftment rate or growth between control and analgesia-treated groups. These data demonstrate that acute, perioperative analgesia with buprenorphine did not alter tumor growth. Although further research is needed to evaluate potential effects of buprenorphine in other cell lines and mouse strains, the justification for withholding analgesia and the potential influence of pain and stress due to insufficient analgesia in these models should be considered thoroughly.

Published

2019

41. ABT-199, a potent and selective BCL-2 inhibitor, achieves antitumor activity while sparing platelets

Author

Souers, Andrew J., Leverson, Joel D., Boghaert, Erwin R., Ackler, Scott L., Catron, Nathaniel D., Chen, Jun, Dayton, Brian D., Ding, Hong, Enschede, Sari H., Fairbrother, Wayne J., Huang, David C.S., Hymowitz, Sarah G., Jin, Sha, Khaw, Seong Lin, Kovar, Peter J., Lam, Lloyd T., Lee, Jackie, Maecker, Heather L., Marsh, Kennan C., Mason, Kylie D., Mitten, Michael J., Nimmer, Paul M., Oleksijew, Anatol, Park, Chang H., Park, Cheol-Min, Phillips, Darren C., Roberts, Andrew W., Sampath, Deepak, Seymour, John F., Smith, Morey L., Sullivan, Gerard M., Tahir, Stephen K., Tse, Chris, Wendt, Michael D., Xiao, Yu, Xue, John C., Zhang, Haichao, Humerickhouse, Rod A., Rosenberg, Saul H., and Elmore, Steven W.

Subjects

Physiological aspects, Health aspects, Blood platelets -- Physiological aspects -- Health aspects, B cells -- Physiological aspects -- Health aspects, Blood proteins -- Physiological aspects -- Health aspects, Antineoplastic agents -- Physiological aspects -- Health aspects, Antimitotic agents -- Physiological aspects -- Health aspects

Abstract

Apoptosis, or programmed cell death, is a conserved and regulated process that is the primary mechanism for the removal of aged, damaged and unnecessary cells. The ability to block apoptotic [...], Proteins in the B cell CLL/lymphoma 2 (BCL-2) family are key regulators of the apoptotic process. This family comprises proapoptotic and prosurvival proteins, and shifting the balance toward the latter is an established mechanism whereby cancer cells evade apoptosis. The therapeutic potential of directly inhibiting prosurvival proteins was unveiled with the development of navitoclax, a selective inhibitor of both BCL-2 and BCL-2-like 1 ([BCL-X.sub.L]), which has shown clinical efficacy in some BCL-2-dependent hematological cancers. However, concomitant on-target thrombocytopenia caused by [BCL-X.sub.L] inhibition limits the efficacy achievable with this agent. Here we report the re-engineering of navitoclax to create a highly potent, orally bioavailable and BCL-2-selective inhibitor, ABT-199. This compound inhibits the growth of BCL-2-dependent tumors in vivo and spares human platelets. A single dose of ABT-199 in three patients with refractory chronic lymphocytic leukemia resulted in tumor lysis within 24 h. These data indicate that selective pharmacological inhibition of BCL-2 shows promise for the treatment of BCL-2-dependent hematological cancers.

Published

2013

42. The Bcl-2 inhibitor ABT-263 enhances the response of multiple chemotherapeutic regimens in hematologic tumors in vivo

Author

Ackler, Scott, Mitten, Michael J., Foster, Kelly, Oleksijew, Anatol, Refici, Marion, Tahir, Stephen K., Xiao, Yu, Tse, Christin, Frost, David J., Fesik, Stephen W., Rosenberg, Saul H., Elmore, Steven W., and Shoemaker, Alexander R.

Published

2010

43. Synergistic therapeutic benefit by combining the antibody drug conjugate, depatux-m with temozolomide in pre-clinical models of glioblastoma with overexpression of EGFR

Author

Kedar S, Vaidya, Michael J, Mitten, Adelyn L, Zelaya-Lazo, Anatol, Oleksijew, Cory, Alvey, Hugh D, Falls, Sasmita, Mishra, Joann, Palma, Peter, Ansell, Andrew C, Phillips, Edward B, Reilly, Mark, Anderson, and Erwin R, Boghaert

Subjects

ErbB Receptors, Disease Models, Animal, Mice, Brain Neoplasms, Antineoplastic Combined Chemotherapy Protocols, Temozolomide, Animals, Humans, Drug Synergism, Antibodies, Monoclonal, Humanized, Glioblastoma, Xenograft Model Antitumor Assays, Cell Proliferation

Abstract

Depatux-m is an antibody drug conjugate (ADC) that targets and inhibits growth of cancer cells overexpressing the epidermal growth factor receptor (EGFR) or the 2-7 deletion mutant (EGFRvIII) in tumor models in vitro and in vivo. Treatment of patients suffering from relapsed/refractory glioblastoma (GBM) with a combination of depatux-m and temozolomide (TMZ) tended to increase overall survival. As a first step to understand the nature of the interaction between the two drugs, we investigated whether the interaction was synergistic, additive or antagonistic.The efficacy of ADCs, antibodies, TMZ and radiation was tested in xenograft models of GBM, U-87MG and U-87MG EGFRvIII. Both models express EGFR. U-87MG EGFRvIII was transduced to express EGFRvIII. Changes in tumor volume, biomarkers of cell death and apoptosis after treatment were used to measure efficacy of the various treatments. Synergism of depatux-m and TMZ was verified in three-dimensional cultures of U-87MG and U-87MG EGFRvIII by the method of Chou and Talalay.Combined with TMZ and radiotherapy (RT), depatux-m inhibited xenograft growth of U-87MG and U-87MG EGFRvIII more than either treatment with depatux-m or TMZ + RT. Durability of the response to depatux-m + TMZ + RT or depatux-m + TMZ was more pronounced in U-87MG EGFRvIII than in U-87MG. Efficacy of depatux-m + TMZ was synergistic in U-87MG EGFRvIII and additive in U-87MG.Adding depatux-m enhances the efficacy of standard of care therapy in preclinical models of GBM. Durability of response to depatux-m + TMZ in vivo and synergy of the drug-drug interaction correlates with the amount of antigen expressed by the tumor cells.

Published

2020

44. An inhibitor of Bcl-2 family proteins induces regression of solid tumours

Author

Oltersdorf, Tilman, Elmore, Steven W., Shoemaker, Alexander R., Armstrong, Robert C., Augeri, David J., Belli, Barbara A., Bruncko, Milan, Deckwerth, Thomas L., Dinges, Jurgen, Hajduk, Philip J., Joseph, Mary K., Kitada, Shinichi, Korsmeyer, Stanley J., Kunzer, Aaron R., Letai, Anthony, Li, Chi, Mitten, Michael J., Nettesheim, David G., Ng, ShiChung, Nimmer, Paul M., O'Connor, Jacqueline M., Oleksijew, Anatol, Petros, Andrew M., Reed, John C., Shen, Wang, Tahir, Stephen K., Thompson, Craig B., Tomaselli, Kevin J., Wang, Baole, Wendt, Michael D., Zhang, Haichao, Fesik, Stephen W., and Rosenberg, Saul H.

Abstract

Author(s): Tilman Oltersdorf [1, 7]; Steven W. Elmore [2, 7]; Alexander R. Shoemaker [2, 7]; Robert C. Armstrong [1]; David J. Augeri [2]; Barbara A. Belli [1]; Milan Bruncko [2]; [...]

Published

2005

45. Three-Dimensional Otic Neuronal Progenitor Spheroids Derived from Human Embryonic Stem Cells

Author

Heuer, Rachel A., primary, Nella, Kevin T., additional, Chang, Hsiang-Tsun, additional, Coots, Kyle S., additional, Oleksijew, Andrew M., additional, Roque, Christian B., additional, Silva, Luisa H.A., additional, McGuire, Tammy L., additional, Homma, Kazuaki, additional, and Matsuoka, Akihiro J., additional

Published

2021

46. Targeting Multiple EGFR-expressing Tumors with a Highly Potent Tumor-selective Antibody–Drug Conjugate

Author

Anderson, Mark G., primary, Falls, Hugh D., additional, Mitten, Michael J., additional, Oleksijew, Anatol, additional, Vaidya, Kedar S., additional, Boghaert, Erwin R., additional, Gao, Wenqing, additional, Palma, Joann P., additional, Cao, Diana, additional, Chia, Puey-Ling, additional, John, Thomas, additional, Gan, Hui K., additional, Scott, Andrew M., additional, and Reilly, Edward B., additional

Published

2020

47. The Volume of Three-Dimensional Cultures of Cancer Cells InVitro Influences Transcriptional Profile Differences and Similarities with Monolayer Cultures and Xenografted Tumors

Author

Kedar S. Vaidya, Xin Lu, Anatol Oleksijew, Jonathan Hickson, Tamar Uziel, Catarina Brito, Vítor E. Santo, Kelly Foster-Duke, Erwin R. Boghaert, Thomas McGonigal, Paul Hessler, and Michael J. Mitten

Subjects

0301 basic medicine, Cancer Research, Original article, Angiogenesis, Cell, Cell Culture Techniques, Biology, lcsh:RC254-282, 03 medical and health sciences, Mice, In vivo, Cell Line, Tumor, Spheroids, Cellular, medicine, Animals, Cluster Analysis, Humans, Epithelial–mesenchymal transition, Cell adhesion, Gene Expression Profiling, Wnt signaling pathway, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, TP, transcriptional profile, Gene Expression Regulation, Neoplastic, Disease Models, Animal, 030104 developmental biology, medicine.anatomical_structure, Cell culture, Immunology, Cancer cell, Cancer research, Heterografts, Female, Transcriptome

Abstract

Improving the congruity of preclinical models with cancer as it is manifested in humans is a potential way to mitigate the high attrition rate of new cancer therapies in the clinic. In this regard, three-dimensional (3D) tumor cultures in vitro have recently regained interest as they have been acclaimed to have higher similarity to tumors in vivo than to cells grown in monolayers (2D). To identify cancer functions that are active in 3D rather than in 2D cultures, we compared the transcriptional profiles (TPs) of two non-small cell lung carcinoma cell lines, NCI-H1650 and EBC-1 grown in both conditions to the TP of xenografted tumors. Because confluence, diameter or volume can hypothetically alter TPs, we made intra- and inter-culture comparisons using samples with defined dimensions. As projected by Ingenuity Pathway Analysis (IPA), a limited number of signal transduction pathways operational in vivo were better represented by 3D than by 2D cultures in vitro . Growth of 2D and 3D cultures as well as xenografts induced major changes in the TPs of these 3 modes of culturing. Alterations of transcriptional network activation that were predicted to evolve similarly during progression of 3D cultures and xenografts involved the following functions: hypoxia, proliferation, cell cycle progression, angiogenesis, cell adhesion, and interleukin activation. Direct comparison of TPs of 3D cultures and xenografts to monolayer cultures yielded up-regulation of networks involved in hypoxia, TGF and Wnt signaling as well as regulation of epithelial mesenchymal transition. Differences in TP of 2D and 3D cancer cell cultures are subject to progression of the cultures. The emulation of the predicted cell functions in vivo is therefore not only determined by the type of culture in vitro but also by the confluence or diameter of the 2D or 3D cultures, respectively. Consequently, the successful implementation of 3D models will require phenotypic characterization to verify the relevance of applying these models for drug development.

Published

2017

48. ABBV-399, a c-Met Antibody–Drug Conjugate that Targets Both MET–Amplified and c-Met–Overexpressing Tumors, Irrespective of MET Pathway Dependence

Author

Kedar S. Vaidya, Qian Zhang, Joann P. Palma, Edward K. Han, Lora A. Tucker, Louie Naumovski, Jieyi Wang, Mark G. Anderson, Erwin R. Boghaert, Anatol Oleksijew, and Edward B. Reilly

Subjects

0301 basic medicine, Regulation of gene expression, Cancer Research, Antibody-drug conjugate, C-Met, biology, Cancer, Pharmacology, medicine.disease, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, 0302 clinical medicine, Cell killing, Oncology, chemistry, Cell culture, 030220 oncology & carcinogenesis, Cancer cell, Cancer research, biology.protein, medicine, Antibody

Abstract

Purpose: Despite the importance of the MET oncogene in many malignancies, clinical strategies targeting c-Met have benefitted only small subsets of patients with tumors driven by signaling through the c-Met pathway, thereby necessitating selection of patients with MET amplification and/or c-Met activation most likely to respond. An ADC targeting c-Met could overcome these limitations with potential as a broad-acting therapeutic. Experimental Design: ADC ABBV-399 was generated with the c-Met–targeting antibody, ABT-700. Antitumor activity was evaluated in cancer cells with overexpressed c-Met or amplified MET and in xenografts including patient-derived xenograft (PDX) models and those refractory to other c-Met inhibitors. The correlation between c-Met expression and sensitivity to ABBV-399 in tumor and normal cell lines was assessed to evaluate the risk of on-target toxicity. Results: A threshold level of c-Met expressed by sensitive tumor but not normal cells is required for significant ABBV-399–mediated killing of tumor cells. Activity extends to c-Met or amplified MET cell line and PDX models where significant tumor growth inhibition and regressions are observed. ABBV-399 inhibits growth of xenograft tumors refractory to other c-Met inhibitors and provides significant therapeutic benefit in combination with standard-of-care chemotherapy. Conclusions: ABBV-399 represents a novel therapeutic strategy to deliver a potent cytotoxin to c-Met–overexpressing tumor cells enabling cell killing regardless of reliance on MET signaling. ABBV-399 has progressed to a phase I study where it has been well tolerated and has produced objective responses in c-Met–expressing non–small cell lung cancer (NSCLC) patients. Clin Cancer Res; 23(4); 992–1000. ©2016 AACR.

Published

2017

49. A 'Prozone-Like' Effect Influences the Efficacy of the Monoclonal Antibody ABT-700 against the Hepatocyte Growth Factor Receptor

Author

Qian Zhang, Kedar S. Vaidya, Christine M Grinnell, Mark G. Anderson, Anatol Oleksijew, Sasmita Mishra, Lora A. Tucker, Jieyi Wang, Joann P. Palma, William N. Pappano, Erwin R. Boghaert, Sarah J Heighton, Michael J. Mitten, and Edward B. Reilly

Subjects

0301 basic medicine, medicine.drug_class, Mice, Nude, Mice, SCID, Monoclonal antibody, Cell Line, Mice, 03 medical and health sciences, 0302 clinical medicine, In vivo, Antineoplastic Combined Chemotherapy Protocols, Animals, Humans, Medicine, Growth factor receptor inhibitor, Pharmacology, Cisplatin, biology, business.industry, Antibodies, Monoclonal, General Medicine, Proto-Oncogene Proteins c-met, In vitro, Regimen, 030104 developmental biology, Hepatocyte Growth Factor Receptor, 030220 oncology & carcinogenesis, Hepatocytes, biology.protein, Cancer research, Antibody, business, medicine.drug

Abstract

ABT-700 is a therapeutic antibody against the hepatocyte growth factor receptor (MET). At doses or regimens that lead to exposures exceeding optimum in vivo, the efficacy of ABT-700 is unexpectedly reduced. We hypothesized that this reduction in efficacy was due to a “prozone-like” effect in vivo. A prozone-like effect, which is a reduction in efficacy beyond optimum exposure, is caused due a mechanism similar to the generation of false negative flocculation tests by excessive antibody titres. In vitro, we demonstrate that at higher ABT-700 concentrations, this “prozone-like” effect is mediated by a progressive conversion from bivalent to ineffective monovalent binding of the antibody. In vivo, the efficacy of ABT-700 is dependent on an optimum range of exposure as well. Our data suggest that the “prozone-like” effect is operative and independent of target expression. ABT-700 dose, regimen, exposure, and tumor burden are interdependent variables influencing the “prozone-like” effect and mediating and in vivo efficacy. By optimization of dosage and regimen we demonstrate that the “prozone-like” effect can be alleviated and ABT-700 efficacy at varying tumor loads can be further extended in combination with cisplatin. Our results suggest that optimization of exposure taking tumor burden into account may alleviate “prozone-like” effects without compromising efficacy.

Published

2017

50. Effects of Buprenorphine in a Preclinical Orthotopic Tumor Model of Ovarian Carcinoma in Female CB17 SCID Mice

Author

Bratcher, Natalie A, primary, Frost, David J, additional, Hickson, Jonathan, additional, Huang, Xin, additional, Medina, Letty M, additional, Oleksijew, Andrew, additional, Ferguson, Debra C, additional, and Bolin, Susan, additional

Published

2019