U01CA263684
Cooperative Agreement
Overview
Grant Description
AGING-ASSOCIATED MAMMARY CANCER-INITIATING CELLS - PROJECT SUMMARY
Our long-term goal is to determine how age-related breast cancer can be prevented. Aging is the leading risk factor for breast cancer, and the aging population in the US is steadily expanding. This is an unanswered question largely because the cellular and molecular mechanisms underlying the age-related increase in breast cancer incidence are poorly understood.
We recently published that the percentage of CD49FHI mammary stem cells (MaSCs), which can form basal-like mammospheres in vitro and regenerate mammary ducts in vivo, increased steadily during aging. The age-related increase of CD49FHI basal-like cells occurs in both luminal and basal layers and is associated with an increased percentage of mammary ducts with pre-/early-neoplastic lesions in mammary glands of older (25- to 32-month-old) mice.
Recent studies showed that MaSC-enriched CD49FHI human mammary epithelial cells are much more prone to be transformed by oncogenes than luminal progenitor cells and mature luminal cells. Indeed, mammary glands regenerated in vivo by older mouse CD49FHI MaSCs showed significantly more hyperplastic and dysplastic lesions than those regenerated by CD49FHI MaSCs from young (2- to 6-month-old) mice.
Whole genome RNA sequencing and gene ontology analysis revealed a significantly elevated senescence-associated inflammatory response in older mouse mammary gland cells. Senescent cells are known to have increased mTORC1 activity, which in turn can promote a senescence-associated secretory phenotype. Significantly, in our clinical trial, short-term low-dose rapamycin treatment significantly reduced CD49FHI MaSC frequency and biomarkers associated with cellular senescence, inflammation, and proliferation in breast tissue from postmenopausal patients.
These novel observations led us to hypothesize that a positive feedback loop between cellular senescence and increased mTORC1 activity in aging mammary gland promotes the transformation of, and tumorigenesis by, CD49FHI stem-like cells, which can be abrogated by pharmacological interventions.
In this proposal, we will test various mouse models of aging and primary organoid cultures of human mammary epithelial cells from pre- and postmenopausal women to identify mechanisms that generate the aging-associated CD49FHI MaSCs and their lineage origin. We will also determine whether long-term intermittent treatment with rapamycin and/or fisetin, a senolytic agent, can abrogate the aberrant CD49FHI MaSCs and prevent mammary tumorigenesis.
If successful, our research will reveal the lineage of the aberrant CD49FHI MaSCs, how they were generated, and whether they can be abrogated for the long-term by pharmacologic interventions. This work will provide essential information for future clinical studies of using rapamycin-like senolytics for the prevention of breast cancer, particularly the triple-negative breast cancer, for which there is no preventive strategy.
Our long-term goal is to determine how age-related breast cancer can be prevented. Aging is the leading risk factor for breast cancer, and the aging population in the US is steadily expanding. This is an unanswered question largely because the cellular and molecular mechanisms underlying the age-related increase in breast cancer incidence are poorly understood.
We recently published that the percentage of CD49FHI mammary stem cells (MaSCs), which can form basal-like mammospheres in vitro and regenerate mammary ducts in vivo, increased steadily during aging. The age-related increase of CD49FHI basal-like cells occurs in both luminal and basal layers and is associated with an increased percentage of mammary ducts with pre-/early-neoplastic lesions in mammary glands of older (25- to 32-month-old) mice.
Recent studies showed that MaSC-enriched CD49FHI human mammary epithelial cells are much more prone to be transformed by oncogenes than luminal progenitor cells and mature luminal cells. Indeed, mammary glands regenerated in vivo by older mouse CD49FHI MaSCs showed significantly more hyperplastic and dysplastic lesions than those regenerated by CD49FHI MaSCs from young (2- to 6-month-old) mice.
Whole genome RNA sequencing and gene ontology analysis revealed a significantly elevated senescence-associated inflammatory response in older mouse mammary gland cells. Senescent cells are known to have increased mTORC1 activity, which in turn can promote a senescence-associated secretory phenotype. Significantly, in our clinical trial, short-term low-dose rapamycin treatment significantly reduced CD49FHI MaSC frequency and biomarkers associated with cellular senescence, inflammation, and proliferation in breast tissue from postmenopausal patients.
These novel observations led us to hypothesize that a positive feedback loop between cellular senescence and increased mTORC1 activity in aging mammary gland promotes the transformation of, and tumorigenesis by, CD49FHI stem-like cells, which can be abrogated by pharmacological interventions.
In this proposal, we will test various mouse models of aging and primary organoid cultures of human mammary epithelial cells from pre- and postmenopausal women to identify mechanisms that generate the aging-associated CD49FHI MaSCs and their lineage origin. We will also determine whether long-term intermittent treatment with rapamycin and/or fisetin, a senolytic agent, can abrogate the aberrant CD49FHI MaSCs and prevent mammary tumorigenesis.
If successful, our research will reveal the lineage of the aberrant CD49FHI MaSCs, how they were generated, and whether they can be abrogated for the long-term by pharmacologic interventions. This work will provide essential information for future clinical studies of using rapamycin-like senolytics for the prevention of breast cancer, particularly the triple-negative breast cancer, for which there is no preventive strategy.
Funding Goals
NOT APPLICABLE
Grant Program (CFDA)
Awarding / Funding Agency
Place of Performance
San Antonio,
Texas
782293901
United States
Geographic Scope
Single Zip Code
Related Opportunity
Analysis Notes
Amendment Since initial award the total obligations have increased 287% from $381,903 to $1,478,597.
The University Of Texas Health Science Center At San Antonio was awarded
Aging-associated mammary cancer-initiating cells
Cooperative Agreement U01CA263684
worth $1,478,597
from National Cancer Institute in September 2021 with work to be completed primarily in San Antonio Texas United States.
The grant
has a duration of 5 years and
was awarded through assistance program 93.396 Cancer Biology Research.
The Cooperative Agreement was awarded through grant opportunity Aging, Cancer-Initiating Cells, and Cancer Development (U01 Clinical Trial Not Allowed).
Status
(Ongoing)
Last Modified 8/20/24
Period of Performance
9/17/21
Start Date
8/31/26
End Date
Funding Split
$1.5M
Federal Obligation
$0.0
Non-Federal Obligation
$1.5M
Total Obligated
Activity Timeline
Transaction History
Modifications to U01CA263684
Additional Detail
Award ID FAIN
U01CA263684
SAI Number
U01CA263684-734708039
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
C3KXNLTAAY98
Awardee CAGE
0NJ12
Performance District
TX-20
Senators
John Cornyn
Ted Cruz
Ted Cruz
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) | $748,532 | 100% |
Modified: 8/20/24