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Completed NON-SBIR/STTR RPGS NIH (US)

Defining cellular states of quiescence in human brain tumors

$1.84M USD

Funder NATIONAL INSTITUTE OF NEUROLOGICAL DISORDERS AND STROKE
Recipient Organization Fred Hutchinson Cancer Research Center
Country United States
Start Date Feb 15, 2021
End Date Mar 31, 2022
Duration 409 days
Number of Grantees 1
Roles Principal Investigator
Data Source NIH (US)
Grant ID 10349459
Grant Description

PROJECT SUMMARY The most aggressive type of brain tumor, grade IV glioma known as glioblastoma (GBM), is one of the few tumor types with both a poor outcome and minimal improvement in survival in the past decades. For GBM, like other solid cancers, intratumoral heterogeneity is likely an important factor in mediating therapeutic response. In

particular, quiescent, G0-like subpopulations may engender tumors with more robust responses to treatment regimens and allow for tumor regrowth after standard of care (SOC). However, G0-like tumor populations are currently ill-defined, even after application of single cell genomics to GBM. Our failure to fully comprehend and

experimentally model quiescent/G0-like states represents a critical knowledge gap, but also a key opportunity, for glioma and other cancers, as neutralizing G0 cells could effectively prevent chemoradiotherapy resistance and tumor recurrence. The purpose of this grant is to provide a functional and molecular definition of G0-like states in GBM tumors and

their responses to SOC. In Aim 1, we will define molecular networks governing long- and short-term quiescent states in GBM patient tumors using a novel G0 reporter system in combination with single cell genomic analysis. In Aim 2, we will test the hypothesis that dormant G0 GBM cells have unique RNA and chromatin signatures

required for SOC survival and tumor regrowth. In Aim 3, we will study and nominate the NuA4/KAT5 lysine acetyltransferase complex as a key regulator of G0-like states in GBM and candidate therapeutic target. The Aims are built on strong preliminary data, including: the creation of a machine learning-based method for

identifying G0-like cells in gliomas, integrated analysis of single cell RNA and chromatin analysis of primary and PDX GBM tumors with standard of care, a functional genomic screen to identify regulators of GBM G0, and key experimental models to functionally dissect G0 states in GBM tumor models. If successful, this grant will produce a new working model for GBM G0-like states, provide key genes and gene

networks associated with G0, and analysis tools for identifying G0-like states in clinical samples. It will also define how these populations respond to SOC and shift tumor dynamics during recurrence. Finally, it will provide data for a new therapeutic strategy, "downgrading", where grade IV tumors are made less aggressive by

triggering extended or permanent G0-like states in tumor cells.

All Grantees

Fred Hutchinson Cancer Research Center

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