Molecular signatures suggest a major role for stromal cells in development of invasive breast cancer

Casey, Theresa; Bond, Jeffrey P.; Tighe, Scott; Hunter, Tim; Lintault, Laura; Patel, Osman V.; Eneman, Jonathan; Crocker, Abigail; White, Jeffrey H.; Tessitore, Joseph; Stanley, Mary; Harlow, Seth P.; Weaver, Donald L.; Muss, Hyman B.; Plaut, Karen

doi:10.1007/s10549-008-9982-8

Cited by 197 publications

(184 citation statements)

References 92 publications

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“…separated by laser capture microdissection (from n = 28 human breast cancer patients). 42 As shown in Table 1, important functional components involved in both mitochondrial biogenesis and/or mitochondrial translation were all transcriptionally upregulated in human breast cancer epithelial cells and, hence, downregulated in adjacent stromal cells. Only gene transcripts upregulated by > 1.5-fold are shown.…”

Section: Resultsmentioning

confidence: 99%

Mitochondria “fuel” breast cancer metabolism: Fifteen markers of mitochondrial biogenesis label epithelial cancer cells, but are excluded from adjacent stromal cells

et al. 2012

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Section: Resultsmentioning

confidence: 99%

Mitochondria “fuel” breast cancer metabolism: Fifteen markers of mitochondrial biogenesis label epithelial cancer cells, but are excluded from adjacent stromal cells

et al. 2012

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“…to determine if PGC1a/NrF1 activity is upregulated in human breast cancers, we performed a bioinformatics analysis. Briefly, we re-interrogated a set of n = 28 human breast cancer patient samples 83 in which the tumor stroma and epithelial cancer cells were separated by laser-capture microdissection. the transcriptional profiles of these two cellular compartments (epithelia vs. stroma) were used to generate a list of genes that were upregulated in epithelial cancer cells, relative to adjacent stromal tissue (2,901 transcripts upregulated > 2-fold; p < 0.05).…”

Section: Discussionmentioning

confidence: 99%

“…Here, to determine if PGC1a and NRF1 (nuclear respiratory factor 1) activity is upregulated in human breast cancers, we performed a bioinformatics analysis using existing published data sets. For this purpose, we re-interrogated a set of n = 28 human breast cancer patient samples 83 in which the tumor stroma and epithelial cancer cells were physically separated by laser recent study directly showed that targeted deletion of PGC1a in mice prevents carcinogen-induced epithelial tumorigenesis in the liver and the colon. 78 Conversely, overexpression of PGC1a in cancer cells dramatically increases tumor growth in murine animal models.…”

Section: Visualizing Two-compartment Tumor Metabolism: Hyperactivatiomentioning

confidence: 99%

Is cancer a metabolic rebellion against host aging? In the quest for immortality, tumor cells try to save themselves by boosting mitochondrial metabolism

et al. 2012

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“…Heparanase and MMP-9 apprear to be involved in this regulation. These results broaden the view of cancer, which is at present focused on oncogenes and tumor suppressor genes, to include the viewpoint that the tumoral microenvironment co-evolves and interacts in a dynamic and reciprocal way with mutated epithelium (24,25). The experimental model presented is in keeping with the characteristics of the physiological environment of breast epithelial cells in terms of both the soluble and insoluble factors present and the stromal structure per se.…”

Section: Discussionmentioning

confidence: 78%

Adipocyte differentiation influences the proliferation and migration of normal and tumoral breast epithelial cells

Creydt

Sacca²,

Tesone³

et al. 2010

Mol Med Rep

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Abstract. Stromal tissue regulates the development and differentiation of breast epithelial cells, with adipocytes being the main stromal cell type. The aim of the present study was to evaluate the effect of adipocyte differentiation on proliferation and migration, as well as to assess the activity of heparanase and metalloproteinase-9 (MMP-9), in normal (nMuMG) and tumoral (lM3) murine breast epithelial cells. nMuMG and lM3 cells were grown on irradiated 3T3-l1 cells (stromal support, SS) at various degrees of differentiation [preadipocytes (prea), poorly differentiated adipocytes (pda) and mature adipocytes (Ma)] and/or were incubated in the presence of conditioned medium (cM) derived from each of these three types of differentiated cells. cells grown on a plastic support or in fresh medium served as the controls. cell proliferation was measured with a commercial colorimetric kit, and the motility of the epithelial cells was evaluated by means of a wound-healing assay. Heparanase activity was assessed by quantifying heparin degradation, and the expression of MMP-9 was determined using Western blotting. The results indicate that cell proliferation was increased after 24 and 48 h in the nMuMG and lM3 cells grown on prea, pda and Ma SS. in the nMuMG cells cultured on SS in the presence of all three types of cM, proliferation was enhanced. lM3 cell migration was increased in the presence of all three types of cM and in cells grown on prea SS. Heparanase activity was increased in the nMuMG cells incubated with all three types of cM, and in the lM3 cells incubated with the cM from pda and Ma. Both the nMuMG and lM3 cell lines presented basal expression of MMP-9; however, a significant increase in MMP-9 expression was observed in the lM3 cells incubated with each of the three types of cM. in conclusion, adipocyte differentiation influences normal and tumoral breast epithelial cell proliferation and migration. Heparanase and MMP-9 appear to be involved in this regulation. The experimental model presented in this study is in keeping with the characteristics of the physiological environment of breast epithelial cells, in terms of both the soluble and insoluble factors present and the stromal structure per se.

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Molecular signatures suggest a major role for stromal cells in development of invasive breast cancer

Cited by 197 publications

References 92 publications

Mitochondria “fuel” breast cancer metabolism: Fifteen markers of mitochondrial biogenesis label epithelial cancer cells, but are excluded from adjacent stromal cells

Mitochondria “fuel” breast cancer metabolism: Fifteen markers of mitochondrial biogenesis label epithelial cancer cells, but are excluded from adjacent stromal cells

Is cancer a metabolic rebellion against host aging? In the quest for immortality, tumor cells try to save themselves by boosting mitochondrial metabolism

Adipocyte differentiation influences the proliferation and migration of normal and tumoral breast epithelial cells

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