Modulation of Bax and mTOR for Cancer Therapeutics

Rui Li; Chunyong Ding; Jun Zhang; Maohua Xie; Dongkyoo Park; Ye Ding; Guo Chen; Guojing Zhang; Melissa Gilbert-Ross; Wei Zhou; Adam I Marcus; Shi-Yong Sun; Zhuo G. Chen; Gabriel Sica; Suresh S Ramalingam; Andrew T. Magis; Haian Fu; Fadlo Khuri; Walter J Curran; Taofeek K Owonikoko; Dong M Shin; Jia Zhou; Xingming Deng

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Corresponding Author: Xingming Deng, Division of Cancer Biology, Department of Radiation Oncology, Emory University School of Medicine, Winship Cancer Institute of Emory University, Atlanta, GA 30322, USA. Phone: (404)778-3398, xdeng4@emory.edu, Fax: (404)778-1909;

Jia Zhou, Chemical Biology Program, Department of Pharmacology and Toxicology, University of Texas Medical Branch, Galveston, TX 77555. Phone: (409) 772-9748, jizhou@utmb.edu, Fax: (409) 772-9648;

Dong M. Shin, Department of Hematology and Medical Oncology, Emory University School of Medicine, Winship Cancer Institute of Emory University, Atlanta, Ga 30322, USA. Phone:(404)778-5990. dmshin@emory.edu, Fax:404-778-5220

Authors' Contributions: R. Li, C. Ding, and J. Zhang are the co-first authors of this article

Conception and design: W. Zhou, S.S. Ramalingam, F.R. Khuri, W.J. Curran, D.M. Shin, J. Zhou, X. Deng

See publication for full list of author contributions

We thank Anthea Hammond for editing of the manuscript

Disclosure of Potential Conflicts of Interest: S.S. Ramalingam is a consultant/advisory board member for Abbvie and Novartis and T.K. Owonikoko is a consultant/advisory board member for Novartis.

No potential conflicts of interest were disclosed by the other authors.

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Research Funding:

This work was supported by National Institutes of Health grants 2R01CA136534-06 (X. Deng), R01CA193828 (X. Deng), 1R01CA200905-01A1 (X. Deng), R01CA140571 (W. Zhou), P50 CA097007 (J. Zhou), P30 DA028821 (J. Zhou) and T32CA160040 (D.M. Shin) as well as R. A. Welch Foundation Chemistry and Biology Collaborative Grant from Gulf Coast Consortia (GCC) for Chemical Genomics, Cancer Prevention and Research Institute of Texas (CPRIT) awards (J. Zhou), and John Sealy Memorial Endowment Fund (J. Zhou).

Research reported in this publication was also supported in part by by the Winship Research Pathology and Intergrated Cellular Imaging shared resource, the cores supported by the Winship Cancer Institute of Emory University (P30CAJ 38292), and by the Winship Fashion a Cure Research Scholar Award (X. Deng), a philanthropic award provided by the Winship Cancer Institute of Emory University.

The costs of publication of this article were defrayed in part by the payment of page charges.

This article must therefore be hereby marked advertisement in accordance with 18 U.S.C. Section 1734 solely to indicate this fact.

Keywords:

Science & Technology
Life Sciences & Biomedicine
Oncology
CELL LUNG-CANCER
MAMMALIAN TARGET
PHASE-II
BCL-XL
PROAPOPTOTIC FUNCTION
EVEROLIMUS RAD001
INHIBITION
APOPTOSIS
THERAPY
MODELS

Modulation of Bax and mTOR for Cancer Therapeutics

Rui Li, Emory University

Chunyong Ding, University of Texas

Jun Zhang, Emory University

Maohua Xie, Emory University

Dongkyoo Park, Emory University

Ye Ding, University of Texas

Guo Chen, Emory University

Guojing Zhang, Emory University

Melissa Gilbert-Ross, Emory University

Wei Zhou, Emory University

Adam I Marcus, Emory University

Shi-Yong Sun, Emory University

Zhuo G. Chen, Emory University

Gabriel Sica, Emory University

Suresh S Ramalingam, Emory University

Andrew T. Magis, Institute for Systems Biology

Haian Fu, Emory University

Fadlo Khuri, Emory University

Walter J Curran, Emory University

Taofeek K Owonikoko, Emory University

Dong M Shin, Emory University

Jia Zhou, University of Texas

Xingming Deng, Emory University

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Journal Title:

Cancer Research

Volume:

Volume 77, Number 11

Publisher:

American Association for Cancer Research | 2017-04-05, Pages 3001-3012

Type of Work:

Article | Post-print: After Peer Review

Permanent URL:

https://pid.emory.edu/ark:/25593/sqdkt

Publisher DOI:

http://doi.org/10.1158/0008-5472.CAN-16-2356

Abstract:

A rationale exists for pharmacologic manipulation of the serine (S)184 phosphorylation site of the proapoptotic Bcl2 family member Bax as an anticancer strategy. Here, we report the refinement of the Bax agonist SMBA1 to generate CYD-2-11, which has characteristics of a suitable clinical lead compound. CYD-2-11 targeted the structural pocket proximal to S184 in the C-terminal region of Bax, directly activating its proapoptotic activity by inducing a conformational change enabling formation of Bax homooligomers in mitochondrial membranes. In murine models of small-cell and non-small cell lung cancers, including patient-derived xenograft and the genetically engineered mutant KRAS-driven lung cancer models, CYD-2-11 suppressed malignant growth without evident significant toxicity to normal tissues. In lung cancer patients treated with mTOR inhibitor RAD001, we observed enhanced S184 Bax phosphorylation in lung cancer cells and tissues that inactivates the propaoptotic function of Bax, contributing to rapalog resistance. Combined treatment of CYD-2-11 and RAD001 in murine lung cancer models displayed strong synergistic activity and overcame rapalog resistance in vitro and in vivo. Taken together, our findings provide preclinical evidence for a pharmacologic combination of Bax activation and mTOR inhibition as a rational strategy to improve lung cancer treatment.

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Modulation of Bax and mTOR for Cancer Therapeutics

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