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R01CA269967

Project Grant

Overview

Grant Description
Phenotypic marker-guided development of selective antimetastasis therapeutic leads - The lack of effective treatment against cancer metastasis is in large part due to the complexity of the metastatic transformation process and incomplete understanding of the key underlying mechanisms.

The list of genes and pathways associated with carcinogenesis is growing and anti-cancer agents targeting single gene activities have reached clinics and shown primary tumor growth inhibition. However, these agents fall short in effectively treating metastasis, leading to poor long-term patient survival and reinforcing the challenge of cancer complexity.

It has long been a clinical practice to grade the levels of malignancy based on morphological changes of tumor cells and tissues, where a high-grade cancer generally correlates with poor patient outcomes, suggesting cancer specific pathognomonic features can be used as readouts for the malignant potential of cancer tissues.

Here we utilize a "top-down" approach, in which specific subcellular pathognomonic structures unique to metastatic potential are used as surrogate markers for malignancy. We reason that such cellular substructures should reflect the complex and unique malignant properties better than any single gene or gene product.

These structures not only provide an in vitro experimental platform (cell lines) to investigate the key factors important for cancer metastasis (and subsequent in vivo validations), but also serve as a phenotypic marker for anti-cancer drug development.

To this end, we have validated the perinucleolar compartment (PNC), a nuclear body, as such a marker for cancer cell malignant behavior. PNCs are highly prevalent in metastatic tumors and PNC prevalence positively correlates with disease progression and inversely correlates with patient outcomes in several cancers.

Using PNC prevalence reduction as a phenotypic marker for metastasis in a high-content screen, we developed the phase I clinical candidate metarrestin, a potent PNC inhibitor for a large array of cancer cell lines. Metarrestin inhibits invasion in vitro, blocks metastatic development in three mouse models of human cancers, and extends survival of mice in a metastatic pancreatic cancer xenograft model without discernable adverse effects.

This proposal describes a two-pronged approach for the development new anti-metastasis therapeutic leads. We have identified EEF1A2 as a molecular target for metarrestin and will use inter-disciplinary, complementary approaches to leverage interactions with EEF1A2 to develop more potent PNC prevalence inhibitors as next generation therapeutic leads.

In parallel, we will use PNC prevalence as a phenotypic readout to interrogate additional structurally distinct high-throughput screening hits. These hits have been vetted for PNC activity, counterscreened for cytotoxicity and DNA binding, and confirmed to possess efficacy in in vitro migration and invasion experiments.

Both complementary approaches capitalize on the knowledge gained from the development of metarrestin and facilitate the development of new therapeutic leads and chemical tools for investigating the role of EEF1A2 and PNCs in metastasis.
Funding Goals
NOT APPLICABLE
Grant Program (CFDA)
Place of Performance
Chicago, Illinois 606114296 United States
Geographic Scope
Single Zip Code
Analysis Notes
Amendment Since initial award the total obligations have increased 383% from $657,810 to $3,179,597.
Northwestern University was awarded Metarrestin: Selective Antimetastasis Therapeutic Leads Project Grant R01CA269967 worth $3,179,597 from National Cancer Institute in July 2022 with work to be completed primarily in Chicago Illinois United States. The grant has a duration of 5 years and was awarded through assistance program 93.395 Cancer Treatment Research. The Project Grant was awarded through grant opportunity NIH Research Project Grant (Parent R01 Clinical Trial Not Allowed).

Status
(Ongoing)

Last Modified 7/6/26

Period of Performance
7/1/22
Start Date
6/30/27
End Date
80.0% Complete

Funding Split
$3.2M
Federal Obligation
$0.0
Non-Federal Obligation
$3.2M
Total Obligated
100.0% Federal Funding
0.0% Non-Federal Funding

Activity Timeline

Interactive chart of timeline of amendments to R01CA269967

Subgrant Awards

Disclosed subgrants for R01CA269967

Transaction History

Modifications to R01CA269967

Additional Detail

Award ID FAIN
R01CA269967
SAI Number
R01CA269967-502563843
Award ID URI
SAI UNAVAILABLE
Awardee Classifications
Private Institution Of Higher Education
Awarding Office
75NC00 NIH National Cancer Institute
Funding Office
75NC00 NIH National Cancer Institute
Awardee UEI
KG76WYENL5K1
Awardee CAGE
01725
Performance District
IL-05
Senators
Richard Durbin
Tammy Duckworth

Budget Funding

Federal Account Budget Subfunction Object Class Total Percentage
National Cancer Institute, National Institutes of Health, Health and Human Services (075-0849) Health research and training Grants, subsidies, and contributions (41.0) $1,287,328 100%
Modified: 7/6/26