Detalles del proyecto
Descripción
PROJECT SUMMARY
Our long-term goal is to understand the mechanisms of in utero exposure to alcohol in breast cancer etiology
and develop preventative strategies. The objective of this project is to investigate the mechanisms of in utero
exposure to alcohol-induced mammary tumor development with a focus on stem cell deregulation.
Maternal alcohol use during pregnancy has a profound impact on fetal development and disease risk later in
life. Increasing evidence indicates that in utero exposure to certain environmental factors is associated with
amplified breast cancer risk. Previous studies also suggest a link between in utero exposure to alcohol (IUE
alcohol) and increased mammary tumors based on carcinogen-induced models. The underlying mechanisms,
however, remain unclear. We will study the effects of IUE alcohol on mammary tumor risk using the MMTV-
erbB2 transgenic mouse model. Our preliminary data demonstrated that IUE alcohol induces significant pro-
estrogenic changes in mammary development and increased tumor multiplicity in this model system. Microarray
analysis showed that IUE alcohol induces distinctive gene expression associated with receptor tyrosine kinase
signaling pathways in the premalignant mammary tissues. We also found that terminal end bud numbers and
estrogen receptor (ER) and erbB2 pathway signaling were modified in the mammary glands in response to IUE
alcohol. Upon examining the effects of IUE alcohol on mammary epithelial cell differentiation, we found that IUE
alcohol induced the expansion of the basal/myoepithelial and luminal subpopulations in pubertal mammary
glands. To advance our understanding of IUE alcohol-associated breast cancer risk, we propose to investigate
the mechanisms of IUE alcohol-induced deregulation of mammary stem cells (MaSCs)/tumor-initiating cells
(TICs) and crosstalk between ER and erbB2 pathways in mammary tumor development in MMTV-erbB2
transgenic mice. Supported by our preliminary studies, we hypothesize that IUE alcohol promotes mammary
tumor risk through the upregulation of ER-erbB2 crosstalk and the consequent deregulation of
MaSCs/progenitor cells, which leads to cancer stem cell/TIC expansion and tumor development. The specific
aims are: 1) To determine the effects of IUE alcohol on MaSC and TIC expansion and function in mammary
tissues and tumors from MMTV-erbB2 mice and 2) To investigate the role of IUE alcohol-induced ER and Sox2
upregulation in the deregulation of MaSCs and TICs in mammary tissues from erbB2 mice. With this clinically
relevant mouse model, significant health concern, and novel approaches, the results from this project are
expected to have a profound impact on breast cancer etiology and prevention.
Our long-term goal is to understand the mechanisms of in utero exposure to alcohol in breast cancer etiology
and develop preventative strategies. The objective of this project is to investigate the mechanisms of in utero
exposure to alcohol-induced mammary tumor development with a focus on stem cell deregulation.
Maternal alcohol use during pregnancy has a profound impact on fetal development and disease risk later in
life. Increasing evidence indicates that in utero exposure to certain environmental factors is associated with
amplified breast cancer risk. Previous studies also suggest a link between in utero exposure to alcohol (IUE
alcohol) and increased mammary tumors based on carcinogen-induced models. The underlying mechanisms,
however, remain unclear. We will study the effects of IUE alcohol on mammary tumor risk using the MMTV-
erbB2 transgenic mouse model. Our preliminary data demonstrated that IUE alcohol induces significant pro-
estrogenic changes in mammary development and increased tumor multiplicity in this model system. Microarray
analysis showed that IUE alcohol induces distinctive gene expression associated with receptor tyrosine kinase
signaling pathways in the premalignant mammary tissues. We also found that terminal end bud numbers and
estrogen receptor (ER) and erbB2 pathway signaling were modified in the mammary glands in response to IUE
alcohol. Upon examining the effects of IUE alcohol on mammary epithelial cell differentiation, we found that IUE
alcohol induced the expansion of the basal/myoepithelial and luminal subpopulations in pubertal mammary
glands. To advance our understanding of IUE alcohol-associated breast cancer risk, we propose to investigate
the mechanisms of IUE alcohol-induced deregulation of mammary stem cells (MaSCs)/tumor-initiating cells
(TICs) and crosstalk between ER and erbB2 pathways in mammary tumor development in MMTV-erbB2
transgenic mice. Supported by our preliminary studies, we hypothesize that IUE alcohol promotes mammary
tumor risk through the upregulation of ER-erbB2 crosstalk and the consequent deregulation of
MaSCs/progenitor cells, which leads to cancer stem cell/TIC expansion and tumor development. The specific
aims are: 1) To determine the effects of IUE alcohol on MaSC and TIC expansion and function in mammary
tissues and tumors from MMTV-erbB2 mice and 2) To investigate the role of IUE alcohol-induced ER and Sox2
upregulation in the deregulation of MaSCs and TICs in mammary tissues from erbB2 mice. With this clinically
relevant mouse model, significant health concern, and novel approaches, the results from this project are
expected to have a profound impact on breast cancer etiology and prevention.
Estado | Finalizado |
---|---|
Fecha de inicio/Fecha fin | 10/5/22 → 30/4/24 |
Enlaces | https://projectreporter.nih.gov/project_info_details.cfm?aid=10618844 |
Financiación
- National Institute of General Medical Sciences: USD149,834.00
- National Institute of General Medical Sciences: USD149,000.00
!!!ASJC Scopus Subject Areas
- Biotecnología
- Investigación sobre el cáncer
- Oncología
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