Abstract

This application aims to demonstrate that Scanning Unnatural Protease Resistant (SUPR) peptides provide a general solution to the problem of targeting traditionally undruggable proteins. To do this, we will use mRNA display with an expanded genetic code to create a new class highly stabilized, membrane-permeant peptides that can block or modulate protein-protein interactions for two of the most important intracellular proteins conferring the oncogenic phenotype-the activated form of Ras and the Stat3 protein. Our three Specific Aims are: 1) To design stabilized SUPR peptides targeting intracellular undruggable proteins involved in cancer transformation or maintenance, 2) To characterize and enhance selected SUPR peptide functions towards cancer drug applications, and 3) To evaluate in vivo characteristics and assess the therapeutic potential of optimized SUPR peptide drug candidates for cancer treatment in mice. Overall, this project is intended to develop novel molecules as well as a general approach to target cancer-relevant proteins that have proved challenging up to this point-so much so that the proteins may be called undruggable.

Public Health Relevance

The development of novel technologies to inhibit undruggable therapeutic cancer targets is an important public health priority. It can expand our abilities to discover new cancer drugs and improve our abilities to manage cancer. Successful completion of the proposed studies will not only offer many new treatment opportunities for cancer, but also provide new tools for cancer drug discovery.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA170820-04
Application #
8874750
Study Section
Special Emphasis Panel (ZCA1)
Program Officer
Yovandich, Jason L
Project Start
2012-09-17
Project End
2017-06-30
Budget Start
2015-07-01
Budget End
2017-06-30
Support Year
4
Fiscal Year
2015
Total Cost
Indirect Cost

  Institution

Name
University of Southern California
Department
Chemistry
Type
Schools of Arts and Sciences
DUNS #
072933393
City
Los Angeles
State
CA
Country
United States
Zip Code
90032

  Publications

Cheng, Zhi; Wei, Runhong; Ma, Qiuling et al. (2018) In Vivo Expansion and Antitumor Activity of Coinfused CD28- and 4-1BB-Engineered CAR-T Cells in Patients with B Cell Leukemia. Mol Ther 26:976-985
Rohrs, Jennifer A; Zheng, Dongqing; Graham, Nicholas A et al. (2018) Computational Model of Chimeric Antigen Receptors Explains Site-Specific Phosphorylation Kinetics. Biophys J 115:1116-1129
Bryson, Paul D; Han, Xiaolu; Truong, Norman et al. (2017) Breast cancer vaccines delivered by dendritic cell-targeted lentivectors induce potent antitumor immune responses and protect mice from mammary tumor growth. Vaccine 35:5842-5849
Siegler, Elizabeth L; Kim, Yu Jeong; Chen, Xianhui et al. (2017) Combination Cancer Therapy Using Chimeric Antigen Receptor-Engineered Natural Killer Cells as Drug Carriers. Mol Ther 25:2607-2619
Han, Xiaolu; Bryson, Paul D; Zhao, Yifan et al. (2017) Masked Chimeric Antigen Receptor for Tumor-Specific Activation. Mol Ther 25:274-284
Han, Xiaolu; Cinay, Gunce E; Zhao, Yifan et al. (2017) Adnectin-Based Design of Chimeric Antigen Receptor for T Cell Engineering. Mol Ther 25:2466-2476
Siegler, Elizabeth; Li, Si; Kim, Yu Jeong et al. (2017) Designed Ankyrin Repeat Proteins as Her2 Targeting Domains in Chimeric Antigen Receptor-Engineered T Cells. Hum Gene Ther 28:726-736
Cetin, Mehmet; Evenson, William E; Gross, Garrett G et al. (2017) RasIns: Genetically Encoded Intrabodies of Activated Ras Proteins. J Mol Biol 429:562-573
Fang, Jinxu; Xiao, Liang; Joo, Kye-Il et al. (2016) A potent immunotoxin targeting fibroblast activation protein for treatment of breast cancer in mice. Int J Cancer 138:1013-23
Fiacco, Stephen V; Kelderhouse, Lindsay E; Hardy, Amanda et al. (2016) Directed Evolution of Scanning Unnatural-Protease-Resistant (SUPR) Peptides for in Vivo Applications. Chembiochem 17:1643-51

Showing the most recent 10 out of 24 publications