Cancer research and treatment have greatly benefited from advances in DNA sequencing methods, which have accelerated the discovery of genes that, when mutated, promote tumorigenesis. The protein products of some of these oncogenes have served as direct targets for groundbreaking new medicines. Many oncogenes, however, code for proteins that lack chemical probes and are even considered undruggable. In these cases, our understanding of the molecular basis of cancer has not yet translated into effective new therapies. A similar gap can be found in cancer-related immunology (or immuno-oncology), where human genetics is discovering proteins that play fundamental roles in innate and adaptive immunity; yet, again, most of these proteins lack chemical probes. A critical challenge has thus emerged in cancer research ? how can the massive gains in understanding of cancer and immunology bequeathed by modern human genetics be translated into new therapies for cancer? The goal of this research program is to leverage and extend our lab?s innovative activity- based protein profiling (ABPP) technology to radically expand the druggable content of the human proteome and develop high-quality chemical probes for genetically-defined protein targets in cancer and immuno- oncology. We have recently introduced advanced ABPP platforms that evaluate small-molecule interactions across thousands of proteins in parallel directly in native biological systems. By combining proteome-wide druggability maps of human cancer and immune cells furnished by ABPP with human genetic information, we have identified several high-priority cancer targets poised for chemical probe development. Optimized chemical probes will be used by our lab and a set of expert biology collaborators to characterize the functional relevance of protein targets in cancer and cancer-related immunology. We will also describe plans for continued technology innovation to further enhance chemical probe and target discovery by ABPP, including the following objectives ? i) identify newly druggable E3 ligase systems capable of supporting targeted protein degradation in cancer cells; ii) discover chemical probes that selectively engage modified states of protein targets in cancer cells; and iii) generate advanced chemical libraries for ABPP to further increase the druggable fraction of the human cancer proteome. In summary, our research program should deliver high-quality chemical probes for, and pharmacological validation of, biologically compelling human cancer targets, providing critical knowledge to direct the future development of transformative cancer therapeutics. More generally, we envision that our research program will inspire chemical and cancer biologists to embrace the potential druggability of any human protein, as well as provide an experimental roadmap to realize this goal, for the benefit of both basic and translational research.

Public Health Relevance

Modern human genetics has provided remarkable insights into the molecular basis of cancer, but many genetically-defined cancer targets lack chemical probes and are even considered potentially undruggable. The goal of this research program is to leverage our lab?s pioneering chemical proteomic technologies to radically expand the druggable content of human cancer cells for the creation of chemical probes and, ultimately, therapeutics for biologically compelling human cancer targets.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Unknown (R35)
Project #
5R35CA231991-02
Application #
9774008
Study Section
Special Emphasis Panel (ZCA1)
Program Officer
Fu, Yali
Project Start
2018-09-01
Project End
2025-08-31
Budget Start
2019-09-01
Budget End
2020-08-31
Support Year
2
Fiscal Year
2019
Total Cost
Indirect Cost
Name
Scripps Research Institute
Department
Type
DUNS #
781613492
City
La Jolla
State
CA
Country
United States
Zip Code
92037