Lay Abstract
While some aspects of individual desmoid tumors are shared between patients, each tumor has unique molecular and clinical characteristics. This means that selecting the right therapies for future patients with desmoid tumors requires a special type of map. This map, which we call a “dependency map,” would enable a clinician in the future to know therapy(ies) to prescribe based on the genetic characterization of that individual patient’s tumor. In our project, we aim to produce freely available foundational resources and develop a pilot version of a desmoid tumor dependency map that the entire scientific community can use. We will first test a large number (>6,000) of existing drugs that might be repurposed for desmoid tumors. But, we hypothesize that the most promising future drugs for desmoid tumors likely don’t yet exist. So, in our project we will focus on using new genetic tools, including a special type of molecular “scissors” called CRISPR/Cas9 to disable every gene in the genome in a systematic fashion and look for evidence of desmoid tumor cell killing in the laboratory. These experiments will prioritize the best targets to ensure drug companies know which targets to work on for desmoid tumors and ensure they include desmoid tumors in future drug discovery programs that might be focused otherwise on other tumor types. At the end of our project, we will complete (1) an inventory of nearly 20 desmoid tumor laboratory models that will be fully genomically characterized and available at a third-party distributor for all scientists to access, and (2) an initial prioritization of existing drugs and drug targets for desmoid tumors. This effort will help us understand what size and scale of a full Desmoid Tumor Dependency Map will ultimately be needed until we can make accurate dependency predictions for each patient.
Scientific Abstract
The success of cancer precision medicine is contingent on the ability to determine an optimal therapeutic strategy given the molecular classification of a patient’s tumor. While desmoid tumors are relatively homogenous at the genomic level, we do not yet know to what extent this homogeneity induces dependency on a limited or an expansive number of cellular targets for survival and whether such targets are shared with other common cancers. Here, we hypothesize that desmoid tumors have a finite number of cellular dependencies and that a fraction of these are shared with other common cancers with active b-catenin signaling. We propose creating a pilot version of an experimental map of such dependencies in a manner that can be fully integrated with data emerging from common cancers to provide sufficient statistical power to prioritize dependencies driven by b-catenin mutations in desmoid tumors. To do this, we will perform genome-wide CRISPR/Cas9 viability screens and test over 6,100 existing therapeutics that have been developed for any human disease for evidence of desmoid tumor cell killing, with all data going into the public domain pre-publication to serve the entire desmoid tumor research community. This resource project will yield a reference map to nominate high priority targets for drug discovery, and may support the inclusion of desmoid tumors as inclusion criteria for ongoing clinical studies.
