Gemma Molyneux scite author profile

Breast cancers in BRCA1 mutation carriers frequently have a distinctive basal-like phenotype. It has been suggested that this results from an origin in basal breast epithelial stem cells. Here, we demonstrate that deleting Brca1 in mouse mammary epithelial luminal progenitors produces tumors that phenocopy human BRCA1 breast cancers. They also resemble the majority of sporadic basal-like breast tumors. However, directing Brca1 deficiency to basal cells generates tumors that express molecular markers of basal breast cancers but do not histologically resemble either human BRCA1 or the majority of sporadic basal-like breast tumors. These findings support a derivation of the majority of human BRCA1-associated and sporadic basal-like tumors from luminal progenitors rather than from basal stem cells. They also demonstrate that when target cells for transformation have the potential for phenotypic plasticity, tumor phenotypes may not directly reflect histogenesis. This has important implications for cancer prevention strategies.

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Identification of cellular and genetic drivers of breast cancer heterogeneity in genetically engineered mouse tumour models

Melchor

Molyneux

Mackay

et al. 2014

The Journal of Pathology

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The heterogeneous nature of mammary tumours may arise from different initiating genetic lesions occurring in distinct cells of origin. Here, we generated mice in which Brca2, Pten and p53 were depleted in either basal mammary epithelial cells or luminal oestrogen receptor (ER)-negative cells. Basal cell-origin tumours displayed similar histological phenotypes, regardless of the depleted gene. In contrast, luminal ER-negative cells gave rise to diverse phenotypes, depending on the initiating lesions, including both ER-negative and, strikingly, ER-positive invasive ductal carcinomas. Molecular profiling demonstrated that luminal ER-negative cell-origin tumours resembled a range of the molecular subtypes of human breast cancer, including basal-like, luminal B and 'normal-like'. Furthermore, a subset of these tumours resembled the 'claudin-low' tumour subtype. These findings demonstrate that not only do mammary tumour phenotypes depend on the interactions between cell of origin and driver genetic aberrations, but also multiple mammary tumour subtypes, including both ER-positive and -negative disease, can originate from a single epithelial cell type. This is a fundamental advance in our understanding of tumour aetiology.

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Nicastrin regulates breast cancer stem cell properties and tumor growth in vitro and in vivo

Lombardo

Filipović

Molyneux

et al. 2012

Proc. Natl. Acad. Sci. U.S.A.

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Nicastrin (NCT) is a crucial component of the γ-secretase (GS) enzyme, which prompted investigations into its biological role in cancer. We have previously shown that nicastrin is overexpressed in breast cancer (BC), conferring worse overall survival in invasive, ERα negative patients. Here, we used 2D and 3D Matrigel, anchorage-independent growth conditions and a breast cancer xenograft mouse model to assess the impact of nicastrin on breast cancer stem cell (BCSC) propagation and invasion in vitro and tumor growth in vivo. Stable knockdown of nicastrin in HCC1806 breast cancer cells reduced cell invasion by 51.4 ± 1.7%, accompanied by a morphological change to a rounded cell phenotype and downregulation of vimentin, Snail, Twist, MMP2, and MMP9. We observed a reduction of the pool of CD44 + /CD24 − and ALDH1 high breast cancer stem cells by threefold and twofold, respectively, and a reduction by 2.6-fold of the mammospheres formation. Nicastrin overexpression in nontransformed MCF10A cells caused an induction of epithelial to mesenchymal regulators, as well as a fivefold increased ALDH1 activity, a threefold enrichment for CD44 + /CD24 − stem cells, and a 3.2-fold enhanced mammosphere-forming capacity. Using the γ-sescretase inhibiton, Notch1/4 siRNA, and Akt inhibition, we show that nicastrin regulates breast cancer stem cells partly through Notch1 and the Akt pathway. Exploiting serial dilution transplantation of the HCC1806 cells expressing nicastrin and HCC1806 stably depleted of nicastrin, in vivo, we demonstrate that nicastrin inhibition may be relevant for the reduced tumorigenicity of breast cancer cells. These data could serve as a benchmark for development of nicastrin-targeted therapies in breast cancer. metastasis | mammary tumor

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Gemma Molyneux

BRCA1 Basal-like Breast Cancers Originate from Luminal Epithelial Progenitors and Not from Basal Stem Cells

Identification of cellular and genetic drivers of breast cancer heterogeneity in genetically engineered mouse tumour models

Nicastrin regulates breast cancer stem cell properties and tumor growth in vitro and in vivo

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