R01CA256199
Project Grant
Overview
Grant Description
A Premalignant Chronology of Cell-State Variability in Basal-Like Breast Cancer - Project Summary/Abstract
Basal-like carcinoma is a rapidly-progressing and highly variable subtype of breast cancer that arises spontaneously (often in African Americans) or in genetically predisposed women. Such tumors are believed to arise from the functional loss of the BRCA1 and TP53 tumor suppressors in uncommitted basoluminal progenitors of the breast. However, it has been challenging to dissect the origins of the disease for lack of appropriate tools, making it difficult to conceive of how the cell-state variability of premalignant mutants gives rise to basal-like breast cancer.
The long-term goal of this work is to identify the critical cellular and molecular transitions underlying basal-like breast cancer genetics. The current application deploys a novel genetically engineered mouse model called Mosaic Analysis of Double Markers (MADM), which randomly deletes murine BRCA1-TP53 in transit-amplifying progenitors of the mammary gland. In MADM, stochastic deletion is genetically defined by coexpression of GFP, allowing locally expanded premalignant lesions to be visualized within the gland before the onset of basal-like disease.
We found that premalignant expansion is accompanied by extensive recruitment of specific immune subsets, suggesting they play crucial roles in tumorigenesis. Our objective is to combine MADM with innovative methods for dissociation-free transcriptomics that will identify cell-state variabilities within mutant epithelial cells and the infiltrating immune lineages of a premalignancy. The hypothesis is that epithelial-cell plasticity and the stromal microenvironment coordinately diversify mutant lesions, revealing premalignant transcriptional states that ultimately progress to basal-like cancer in the breast and mammary gland.
The aims of the proposal are:
1) To define shared premalignant trajectories of basoluminal diversification triggered by BRCA1-TP53 deficiency in mice and humans.
2) To deconvolve the immune heterogeneities that are locally paired with specific premalignant ecosystems for basal-like breast cancer.
3) To functionally validate cell states important for progression by using genetic, pharmacologic, and paracrine perturbations that homogenize intrinsic or extrinsic variability of premalignant cells ex vivo.
Co-PIs Janes and Zong are thought leaders in their respective fields of intratumor cell-state heterogeneity and genetically engineered mouse modeling with a multi-year track record of collaboration. Together with a pair of senior clinicians, the team is poised to have a significant overall impact on our understanding of basal-like breast tumorigenesis.
Basal-like carcinoma is a rapidly-progressing and highly variable subtype of breast cancer that arises spontaneously (often in African Americans) or in genetically predisposed women. Such tumors are believed to arise from the functional loss of the BRCA1 and TP53 tumor suppressors in uncommitted basoluminal progenitors of the breast. However, it has been challenging to dissect the origins of the disease for lack of appropriate tools, making it difficult to conceive of how the cell-state variability of premalignant mutants gives rise to basal-like breast cancer.
The long-term goal of this work is to identify the critical cellular and molecular transitions underlying basal-like breast cancer genetics. The current application deploys a novel genetically engineered mouse model called Mosaic Analysis of Double Markers (MADM), which randomly deletes murine BRCA1-TP53 in transit-amplifying progenitors of the mammary gland. In MADM, stochastic deletion is genetically defined by coexpression of GFP, allowing locally expanded premalignant lesions to be visualized within the gland before the onset of basal-like disease.
We found that premalignant expansion is accompanied by extensive recruitment of specific immune subsets, suggesting they play crucial roles in tumorigenesis. Our objective is to combine MADM with innovative methods for dissociation-free transcriptomics that will identify cell-state variabilities within mutant epithelial cells and the infiltrating immune lineages of a premalignancy. The hypothesis is that epithelial-cell plasticity and the stromal microenvironment coordinately diversify mutant lesions, revealing premalignant transcriptional states that ultimately progress to basal-like cancer in the breast and mammary gland.
The aims of the proposal are:
1) To define shared premalignant trajectories of basoluminal diversification triggered by BRCA1-TP53 deficiency in mice and humans.
2) To deconvolve the immune heterogeneities that are locally paired with specific premalignant ecosystems for basal-like breast cancer.
3) To functionally validate cell states important for progression by using genetic, pharmacologic, and paracrine perturbations that homogenize intrinsic or extrinsic variability of premalignant cells ex vivo.
Co-PIs Janes and Zong are thought leaders in their respective fields of intratumor cell-state heterogeneity and genetically engineered mouse modeling with a multi-year track record of collaboration. Together with a pair of senior clinicians, the team is poised to have a significant overall impact on our understanding of basal-like breast tumorigenesis.
Funding Goals
TO PROVIDE FUNDAMENTAL INFORMATION ON THE CAUSE AND NATURE OF CANCER IN PEOPLE, WITH THE EXPECTATION THAT THIS WILL RESULT IN BETTER METHODS OF PREVENTION, DETECTION AND DIAGNOSIS, AND TREATMENT OF NEOPLASTIC DISEASES. CANCER BIOLOGY RESEARCH INCLUDES THE FOLLOWING RESEARCH PROGRAMS: CANCER CELL BIOLOGY, CANCER IMMUNOLOGY, HEMATOLOGY AND ETIOLOGY, DNA AND CHROMOSOMAL ABERRATIONS, TUMOR BIOLOGY AND METASTASIS, AND STRUCTURAL BIOLOGY AND MOLECULAR APPLICATIONS.
Grant Program (CFDA)
Awarding / Funding Agency
Place of Performance
Charlottesville,
Virginia
229080001
United States
Geographic Scope
Single Zip Code
Related Opportunity
Analysis Notes
Amendment Since initial award the total obligations have increased 416% from $655,486 to $3,380,840.
Rector & Visitors Of The University Of Virginia was awarded
Cell-State Variability in Basal-Like Breast Cancer Genetics
Project Grant R01CA256199
worth $3,380,840
from National Cancer Institute in January 2021 with work to be completed primarily in Charlottesville Virginia United States.
The grant
has a duration of 5 years and
was awarded through assistance program 93.396 Cancer Biology Research.
The Project Grant was awarded through grant opportunity NIH Research Project Grant (Parent R01 Clinical Trial Not Allowed).
Status
(Ongoing)
Last Modified 12/19/25
Period of Performance
1/1/22
Start Date
12/31/26
End Date
Funding Split
$3.4M
Federal Obligation
$0.0
Non-Federal Obligation
$3.4M
Total Obligated
Activity Timeline
Transaction History
Modifications to R01CA256199
Additional Detail
Award ID FAIN
R01CA256199
SAI Number
R01CA256199-2731391495
Award ID URI
SAI UNAVAILABLE
Awardee Classifications
Public/State Controlled Institution Of Higher Education
Awarding Office
75NC00 NIH National Cancer Institute
Funding Office
75NC00 NIH National Cancer Institute
Awardee UEI
JJG6HU8PA4S5
Awardee CAGE
9B982
Performance District
VA-05
Senators
Mark Warner
Timothy Kaine
Timothy Kaine
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) | $1,403,878 | 100% |
Modified: 12/19/25