Project description:The objective of this study was to determine the effect of Thyroid Hormone Responsive Protein Spot14 (Spot14) loss on the gene expression profiles of tumors from MMTV-Polyomavirus middle-T antigen (PyMT) mice. MMTV-PyMT/S14-heterozygous mice were crossed with S14-heterozygous mice and 1 cm tumors from MMTV-PyMT control (wild-type S14) or MMTV-PyMT/S14-null offspring were profiled using Affymetrix gene arrays. Tumor latency was not different between groups; however, tumors lacking S14 grew significantly slower than control tumors. Loss of S14 also decreased the levels of de novo synthesized fatty acids in mammary tumors. In additional studies, performed on MMTV-Neu mice, we found that S14 overexpression was associated with increased tumor cell proliferation and elevated levels of tumor fatty acids. Gene expression profiling revealed that S14 loss and overexpression in mouse mammary tumors altered pathways associated with proliferation and metabolism. This study provides important information about the role of S14 in mammary tumorigenesis and tumor metabolism. Microarray analysis was performed on 4 mammary tumors from MMTV-PyMT mice and 4 tumors from MMTV-PyMT/S14-null mice.

Project description:The objective of this study was to determine the effect of Thyroid Hormone Responsive Protein Spot14 (Spot14) loss on the gene expression profiles of tumors from MMTV-Polyomavirus middle-T antigen (PyMT) mice. MMTV-PyMT/S14-heterozygous mice were crossed with S14-heterozygous mice and 1 cm tumors from MMTV-PyMT control (wild-type S14) or MMTV-PyMT/S14-null offspring were profiled using Affymetrix gene arrays. Tumor latency was not different between groups; however, tumors lacking S14 grew significantly slower than control tumors. Loss of S14 also decreased the levels of de novo synthesized fatty acids in mammary tumors. In additional studies, performed on MMTV-Neu mice, we found that S14 overexpression was associated with increased tumor cell proliferation and elevated levels of tumor fatty acids. Gene expression profiling revealed that S14 loss and overexpression in mouse mammary tumors altered pathways associated with proliferation and metabolism. This study provides important information about the role of S14 in mammary tumorigenesis and tumor metabolism.

Project description:Effect of Spot14 Overexpression on Gene Expression Profile of MMTV-Neu Mouse Tumors

Project description:Loss of E2F transcription factos alters metastatic capacity of MMTV-PyMT tumors. We used microarrays to futher characterize the effects of E2F loss on mammary tumorigenesis in MMTV-PyMT mice.

Project description:Expression profiling of MMTV-PyMT tumors retrovirally over-expressing GATA-3

Project description:Whole genome transcriptional profile of PyMT/SIRT6 vs PyMT mammary tumors

Project description:To investigate the gene expression profile of different cancer associated fibroblasts (CAF) subpopulations, we harvested tumors and sorted 4 CAF populations from 3 FVB background 10-week-old MMTV-PyMT mice.

Project description:In this experiment, we have tested the effect of microRNA-203 as a potential differentiation inducer in breast cancer organoids, derived from the PyMT mouse model. MMTV-PyVT transgenic mice express the Polyoma Virus middle T antigen under the direction of the mouse mammary tumor virus promoter/enhancer. Hemizygous MMTV-PyMT females develop palpable mammary tumors which metastasize to the lung. These mice have high penetrance of early onset of mammary cancer compared to other mammary tumor models. PyMT mice were crossed with miR-203 knock-in mice, where miR-203 expression is induced upon DOX treatment. Thus, organoids derived from the mammary gland tumors of such mouse model where evaluated in vitro. miR-203 expression was therefore induced by Doxycycline in vitro, and compared to other well-defined differentiation media for breast cancer tissue, such as the mammary epithelial cell culture media and kit (CC-2551B; Lonza).

Project description:We aimed to understand the transcriptome patterns of organ-derived cancer cell isolates from MMTV-PyMT mice. Tissues from primary tumors and organs harboring distal metastases were harvested from cancer bearing female mice. Although metastatic progression from primary tumors to lung tissue is well studied in the MMTV-PyMT model, metastases to other distal organs and the significance of intratumor heterogeneity across metastases from distal organs remain unclear.   To gain insight, we established an array of metastatic cell lines harvested from the MMTV-PyMT breast cancer mouse model. Sequencing at bulk and single-cell level were performed and used to examine the effects of cell heterogeneity on metastases and organ tropism

Project description:In this study, radiation therapy was performed on mouse breast cancer spontaneous gene mice (MMTV-PyMT) to obtain radiation therapy model of breast cancer mice. To simulate clinical breast cancer radiotherapy and study the differential proteins of breast cancer radiotherapy resistance. MMTV-PyMT mice were randomly divided into two groups, and the radiotherapy group was given the same dose 5 times (3GY, once every 2 days) when the breast cancer tumor grew to an appropriate size (200mm3). The protein extracted from mouse tumor was analyzed by mass spectrometry.