CD44 and Hyaluronan in the Regulation of Mammary Gland Development and Breast Cancer Progression

vanGils Louderbough, Jeanne Marguerite

January 2011

Metastasis is the leading cause of death in patients with cancer, and the extracellular matrix is critical to cancer dissemination. The adhesion receptor, CD44, mediates cellular communication with the extracellular matrix by binding to the glycosaminoglycan, hyaluronan (HA). CD44 and HA play critical roles in cancer progression and development. HA is deposited in extracellular and pericellular matrices where it directs intracellular signaling through interactions with cell-surface CD44. CD44-HA interactions, in turn, direct signaling that is relevant to cancer progression. Importantly, these molecules can both promote and inhibit the oncogenic cascade, although the mechanism by which they promote dual and contrasting functions is unknown.Here we show that HA can both activate and suppress EGFR, a critical regulator of oncogenic signaling, in a context-dependent fashion. Using a 3D collagen system in which HA is either polymerized in collagen matrix or provided soluble in the media (sHA) we report that collagen-embedded HA (eHA) inhibits EGFR activation, filopodia formation, and cell spreading on a collagen matrix. Additionally, we show that CD44 is subject to cell-type changes during cancer progression. We have found that CD44 is expressed in the myoepithelium of the developing mammary gland and regulates the normal function of this cell type. The myoepithelial function of CD44 is also relevant to its role in cancer progression as CD44 is expressed in the basal cells of early-stage breast and prostate cancer but undergoes a basal to luminal epithelial switch with increasing tumorigenicity and is strongly expressed by tumor epithelium. These findings demonstrate a novel role for eHA as a protective molecule when encountered in the collagen matrix during cancer progression and highlight the importance of understanding cell-type specific contributions during cancer progression. Taken together, the findings reported in this dissertation point to a mechanism by which CD44 and HA can function in tumor suppression and promotion, depending on cell-type specific expression and modulation of the extracellular matrix.

Breast Cancer

CD44

Hyaluronan

Mammary Gland Development

Estrogen Receptor Beta Is A Negative Regulator Of Mammary Cell Proliferation

Song, Xiaozheng

01 January 2014

The mammary gland cell growth and differentiation are under the control of both systemic hormones and locally produced growth factors. Among all these important hormones and growth factors, estrogen plays a central role in mammary gland development. The biological function of estrogen is mediated by estrogen receptor α (ERα) and estrogen receptor β (ERβ). Both ERα and ERβ are expressed in the mammary gland, but with distinct expression patterns. In the mammary gland, ERα has been proved to be the estrogen receptor that mediates the mitogenic function of estrogen. However the function of ERβ in mammary cell proliferation is less understood and there remains some controversy. Accumulating evidence indicates that ERβ, unlike ERα, is a negative regulator of mammary epithelial cell proliferation. In this dissertation, ERα and ERβ were evaluated for their expression patterns in the mammary gland. In the proestrus phase, ERα was detected in about 20% of mammary epithelial cells; in the diestrus phase, no ERα staining was detected in the mammary gland. ERβ was expressed in more than 50% of mammary epithelial cells and ERβ staining was detected in some stromal cells in the proestrus phase. In the diestrus phase, ERβ staining cells were very limited and the staining intensity was very weak. These data suggest that the expression levels of both ERα and ERβ undergo dynamic changes during the estrous cycle. In the ovariectomised (OVX) rats, both ERα and ERβ were detected in more than 50% of mammary epithelial cells. Compared with the ovary-intact rats, the mammary gland of the OVX rats showed more cells with ERα expression, but the staining intensity was weaker. Taken together, the expression of ERα and ERβ is regulated by estrogen in normal mammary gland, while without estrogen stimulation in the OVX rats, more mammary cells showed ERα expression, but at a lower level in these cells. The effects of ERα and ERβ on mammary cell proliferation were studied by two different approaches, activation of endogenous ERα and ERβ via selective agonists, and overexpression of ERα and ERβ via lentiviral infection. In the first approach, we used ERα and ERβ selective agonists, propylpyrazole-triol (PPT) and diarylpropionitrile (DPN) respectively, to activate endogenous ERα and ERβ in the OVX rats. We found that ERβ selective agonist DPN counteracts the proliferative effect of ERα selective agonist PPT in the mammary gland. In the second approach, ERα and ERβ were ectopically overexpressed in the mammary gland of mature virgin rats by lentivirus infection. We found that ERβ overexpression significantly decreased mammary cell proliferation rate in both the proestrus and diestrus phases, indicating that ERβ, unlike ERα, is a negative regulator for mammary cell proliferation. Collectively, these data supports that in contrast to ERα, ERβ activation or overexpression is able to inhibit mammary cell proliferation.

Breast Cancer

Estrogen Receptor

Hormone Replacement Therapy

Mammary Gland Development

Animal Sciences

Molecular Biology

Role of HGFL-RON Signaling in Mammary Gland Development and Breast Cancer

Ruiz-Torres, Sasha J.

January 2018

No description available.

Cellular Biology

HGFL

Breast Cancer Stem Cells

Breast Cancer

RON

Tumor Microenvironment

Mammary Gland Development

Discerning the Role of FOXA1 in Mammary Gland Development and Breast Cancer

Bernardo, Gina M.

January 2011

No description available.

Biomedical Research

Developmental Biology

Oncology

Pharmacology

FOXA1

ER

GATA3

breast cancer

mammary gland development

luminal

basal

Vitamin D3 Receptor Signaling in Mammary Gland Development and Ron-Mediated Breast Cancer

Johnson, Abby L.

January 2014

No description available.

Developmental Biology

vitamin D3 receptor

Ron

beta-catenin

breast cancer

mammary gland development

Paternal nutrition and cancer programming: the influence of selenium deficiency   or supplementation on the susceptibility of female offspring to chemically-induced mammary carcinogenesis / Nutrição paterna e programação do câncer: influência da deficiência ou suplementação com selênio na susceptibilidade da prole feminina à carcinogênese mamária quimicamente induzida.

Guido, Luiza Nicolosi

14 October 2016

Breast cancer is an important public health problem. As mammary gland development is a dynamic process that initiates in embryonic life, recent evidence show that in-utero life exposure to maternal nutritional factors can alter mammary gland development and program breast cancer risk in adult life. Even tough studies focus on maternal nutrition, recent evidence show that paternal nutritional factors in-utero and during preconception also affects their female offspring mammary gland development and breast cancer susceptibility in adult life. Studies highlight epigenetic modulation of gene expression in the mammary gland as possible breast cancer programming underlying mechanisms. Selenium is a micronutrient with essential role in central aspects of embryogenesis, male fertility and that has been extensively studied as a chemopreventive agent in several breast cancer models. Among selenium possible mechanisms of action, modulation of cell proliferation, apoptosis, DNA damage, gene expression and epigenetic marks are highlighted. Thus, a rat experiment was conducted to evaluate whether paternal selenium deficiency or supplementation during preconception could affect mammary gland development and breast cancer risk, as well as possible molecular mechanisms involved. Four-week old male Sprague-Dawley rats were exposed to experimental diets (AIN93G) containing 0.15 (control), 0.05 (deficient) and 1ppm (supplemented) of selenium as sodium selenate for 9 weeks and mated with control females. At 7-week old, mammary carcinogenesis was induced in their female offspring by oral administration of 7,12 dymethylbenz[a] anthracene and mammary neoplasia development was evaluated. Paternal selenium deficiency during preconception altered mammary gland development as increased terminal end buds (TEBs) number, epithelial elongation and cell proliferation and decreased apoptosis that were associated with increased breast cancer risk (higher incidence and grade tumors). In addition, paternal selenium deficiency during preconception induced molecular alterations in the mammary gland of the female offspring such as global DNA hypomethylation, increased global levels of H3K27me3 and altered expression of genes related to early life and mammary gland development, apoptosis, cell cycle control, and DNA damage repair. Paternal selenium supplementation during preconception on the other hand did not influence breast cancer programing. Our data show that breast cancer risk can be determined in early-life stages trough the male germline molecular modulation and preconception as an important window of opportunity to start breast cancer prevention strategies. Assuring and adequate selenium intake by men could be a possible starting point. / O câncer de mama é um importante problema de saúde pública. O desenvolvimento da glândula mamária é um processo dinâmico que se inicia na vida intrauterina e evidências recentes mostram que a exposição do feto a fatores nutricionais maternos altera o desenvolvimento da glândula mamária e a susceptibilidade ao câncer de mama na vida adulta. Mesmo com um maior foco na nutrição materna, evidências recentes apontam que a nutrição paterna no período intrauterino e de preconcepção também afetam o desenvolvimento da glândula mamária e o risco de câncer de mama da sua prole feminina na vida adulta. Estudos apontam a modulação epigenética da expressão de genes na glândula mamária como possíveis mecanismos envolvidos na programação do câncer de mama. O selênio é um micronutriente com papel essencial em aspectos centrais da embriogênese, fertilidade masculina e que tem sido extensivamente estudado como um agente quimiopreventivo em diferentes modelos de câncer de mama. Dentre os possíveis mecanismos de ação do selênio, destacam-se a capacidade de modulação da proliferação celular, apoptose, danos do DNA e da expressão de genes e mecanismos epigenéticos. Dessa forma, foi conduzido um experimento em ratos para avaliar se a deficiência ou suplementação paterna com selênio durante o período de preconcepção poderia afetar na prole feminina o desenvolvimento da glândula mamária e o risco ao câncer de mama na vida adulta, assim como possíveis mecanismos moleculares envolvidos. Ratos machos da linhagem Sprague-Dawley com 4 semanas de vida foram submetidos à dieta experimental AIN93G contendo 0,15 (controle); 0,05 (deficiente) e 1ppm (suplementada) com selênio na forma de selenato de sódio por 9 semanas e acasalados com fêmeas controle. Com 7 semanas de vida, a carcinogênese mamária foi iniciada na prole feminina através da administração oral do carcinógeno químico 7,12 dimetilbenz[a] antraceno e o desenvolvimento das neoplasias mamárias foi avaliado. A deficiência paterna de selênio causou alterações no desenvolvimento da glândula mamária da prole feminina como aumento no número de terminal end buds (TEBs), aumento da elongação do epitélio mamário, aumento da proliferação celular e diminuição da apoptose que foram associados ao aumento do risco do câncer de mama (maior incidência e agressividade das lesões). Além disso, a deficiência paterna de selênio causou alterações de nível molecular na glândula mamária da prole feminina como hipometilação global, aumento dos níveis globais de H3K27me3 e alteração na expressão de genes relacionados ao desenvolvimento no início da vida e da glândula mamária, apoptose, controle de ciclo celular e reparo de danos no DNA. A suplementação paterna com selênio não foi influenciou o desenvolvimento da glândula mamária e o risco ao câncer de mama na vida adulta. Nossos resultados mostram que o risco do câncer de mama pode ser determinado no início da vida através de influências paternas por meio da modulação de mecanismos moleculares e que o período de preconcepção se caracteriza como uma importante janela de susceptibilidade para iniciar estratégias de diminuição do risco do câncer de mama. Assegurar uma ingestão adequada de selênio por homens pode ser um possível ponto de partida.

Breast cancer

Câncer de mama

Desenvolvimento da glândula mamária

Female offspring

Mammary gland development

Nutrição paterna

Paternal nutrition

Prole feminina

Ratos

Rats

Selênio

Selenium

Due differenti aspetti della genomica: la costruzione di una mappa di ibridi di radiazione ad alta densità e lo studio del coinvolgimento dei mirnas nella ghiandola mammaria / Two Different Aspects of Genomics: the Construction of a High-Density Radiation Hybrid Map and the Study of the Involvement of Mirnas in the Mammary Gland

SILVERI, LICIA

15 February 2007

In questa tesi vengono affrontati due diversi tipi di studio. Il primo tratta della costruzione di una mappa di ibridi bovino-criceto di radiazione di seconda generazione tramite la tipizzazione di un pannello RH, fornito dal Roslin Institut, con un set di Est non ridondanti provenienti da una libreria di cloni a cDNA di cervello bovino. Il secondo soggetto è il coinvolgimento dei microRNA, una nuova classe di piccoli RNA regolatori non codificanti, nello sviluppo della ghiandola mammaria. E' stata analizzata l'espressione di un set di microRNA noti in letteratura nei diversi stadi dello sviluppo dell'organo e sono state costruite librerie di cloni a cDNA di potenziali microRNA a partire da diversi stadi del ciclo dell'organo. / In this thesis two different subjects have been studied. The first is the construction of a second generation high-density RH map of the bovine using the RH panel of the Roslin Institute. The panel have been characterized by PCR with a set of non-redundant EST chosen from a cDNA library of bovine brain. The second work treats about the involvement of miRNAs in the development of mammary gland. A set of 25 known miRNAs have been chosen and their expression have been examined in the different stages of mammary gland development. Libraries of potential miRNAs have been constructed from different stages of mammary gland development and some miRNAs have been validated.

AGR/16: MICROBIOLOGIA AGRARIA

Etude de la fonction de la métalloprotéase matricielle 11 dans l'interaction/dialogue adipocyte-cellule épithéliale de la glande mammaire / Study of matrix métalloprotéases 11 function in adipocyte-epithelial cell interaction/crosstalk in the mammary gland

Tan, Jinxiang

21 September 2012

Dans les tumeurs, les cellules cancéreuses invasives induisent l’expression de la métalloprotéase matricielle 11 (MMP-11) dans les adipocytes adjacents (cancer-associated adipocytes) entrainant leur « dédifférenciation » en fibroblastes, la MMP-11 régulant négativement l’adipogénèse. Au cours de ma thèse, j’ai étudié la fonction de la MMP-11 sur le développement mammaire postnatal. La structure de la glande ainsi que la production de lait sont altérées dans les souris déficientes pour la MMP-11. De plus, la MMP-11 régule l’homéostase du collagène. In vivo, des transplantations montrent une fonction locale paracrine de la MMP-11 essentielle à la morphogenèse mammaire. In vitro, la MMP-11 adipocytaire favorise le branchement d’organoïdes primaires. Ainsi, la MMP-11 est un facteur paracrine majeur pour le développement de la glande mammaire. Enfin, pour poursuivre ces travaux, j’ai établi des souris transgéniques conditionnelles ciblant l’expression de la MMP-11 dans les adipocytes. / In tumors, invasive cancer cells induce matrix metalloproteinase 11 (MMP-11) expression in adjacent adipocytes (cancer-associated adipocytes), leading to their « dedifferentiation » into fibroblast-like cells. Indeed, MMP-11 is a negative regulator of adipogenesis. During my PhD, I have investigated MMP-11 function during postnatal mammary gland development. The ductal tree and alveolar structures, and milk production are reduced in MMP-11-deficient mice. Moreover, MMP-11 plays a role in collagen homeostasis. Transplantation experiments show that MMP-11 exerts an essential local paracrine function for ductal morphogenesis. Using primary mammary organoids, I show that adipocyte-related MMP-11 is a pro-branching factor in vitro. Thus, MMP-11 is a master paracrine factor during mammary gland development. Finally, to further investigate the adipocyte-related MMP-11 function, I have developed conditional transgenic mice targeting MMP-11 expression specifically into adipocytes.

MMP-11

Glande mammaire

Développement

Adipocyte

Cellule épithéliale

Collagène

MMP-11

Mammary gland development

Adipocyte

Epithelial cell

Collagen

Stroma

572.8

616.99

572.6

Paternal nutrition and cancer programming: the influence of selenium deficiency   or supplementation on the susceptibility of female offspring to chemically-induced mammary carcinogenesis / Nutrição paterna e programação do câncer: influência da deficiência ou suplementação com selênio na susceptibilidade da prole feminina à carcinogênese mamária quimicamente induzida.

Luiza Nicolosi Guido

14 October 2016

Breast cancer is an important public health problem. As mammary gland development is a dynamic process that initiates in embryonic life, recent evidence show that in-utero life exposure to maternal nutritional factors can alter mammary gland development and program breast cancer risk in adult life. Even tough studies focus on maternal nutrition, recent evidence show that paternal nutritional factors in-utero and during preconception also affects their female offspring mammary gland development and breast cancer susceptibility in adult life. Studies highlight epigenetic modulation of gene expression in the mammary gland as possible breast cancer programming underlying mechanisms. Selenium is a micronutrient with essential role in central aspects of embryogenesis, male fertility and that has been extensively studied as a chemopreventive agent in several breast cancer models. Among selenium possible mechanisms of action, modulation of cell proliferation, apoptosis, DNA damage, gene expression and epigenetic marks are highlighted. Thus, a rat experiment was conducted to evaluate whether paternal selenium deficiency or supplementation during preconception could affect mammary gland development and breast cancer risk, as well as possible molecular mechanisms involved. Four-week old male Sprague-Dawley rats were exposed to experimental diets (AIN93G) containing 0.15 (control), 0.05 (deficient) and 1ppm (supplemented) of selenium as sodium selenate for 9 weeks and mated with control females. At 7-week old, mammary carcinogenesis was induced in their female offspring by oral administration of 7,12 dymethylbenz[a] anthracene and mammary neoplasia development was evaluated. Paternal selenium deficiency during preconception altered mammary gland development as increased terminal end buds (TEBs) number, epithelial elongation and cell proliferation and decreased apoptosis that were associated with increased breast cancer risk (higher incidence and grade tumors). In addition, paternal selenium deficiency during preconception induced molecular alterations in the mammary gland of the female offspring such as global DNA hypomethylation, increased global levels of H3K27me3 and altered expression of genes related to early life and mammary gland development, apoptosis, cell cycle control, and DNA damage repair. Paternal selenium supplementation during preconception on the other hand did not influence breast cancer programing. Our data show that breast cancer risk can be determined in early-life stages trough the male germline molecular modulation and preconception as an important window of opportunity to start breast cancer prevention strategies. Assuring and adequate selenium intake by men could be a possible starting point. / O câncer de mama é um importante problema de saúde pública. O desenvolvimento da glândula mamária é um processo dinâmico que se inicia na vida intrauterina e evidências recentes mostram que a exposição do feto a fatores nutricionais maternos altera o desenvolvimento da glândula mamária e a susceptibilidade ao câncer de mama na vida adulta. Mesmo com um maior foco na nutrição materna, evidências recentes apontam que a nutrição paterna no período intrauterino e de preconcepção também afetam o desenvolvimento da glândula mamária e o risco de câncer de mama da sua prole feminina na vida adulta. Estudos apontam a modulação epigenética da expressão de genes na glândula mamária como possíveis mecanismos envolvidos na programação do câncer de mama. O selênio é um micronutriente com papel essencial em aspectos centrais da embriogênese, fertilidade masculina e que tem sido extensivamente estudado como um agente quimiopreventivo em diferentes modelos de câncer de mama. Dentre os possíveis mecanismos de ação do selênio, destacam-se a capacidade de modulação da proliferação celular, apoptose, danos do DNA e da expressão de genes e mecanismos epigenéticos. Dessa forma, foi conduzido um experimento em ratos para avaliar se a deficiência ou suplementação paterna com selênio durante o período de preconcepção poderia afetar na prole feminina o desenvolvimento da glândula mamária e o risco ao câncer de mama na vida adulta, assim como possíveis mecanismos moleculares envolvidos. Ratos machos da linhagem Sprague-Dawley com 4 semanas de vida foram submetidos à dieta experimental AIN93G contendo 0,15 (controle); 0,05 (deficiente) e 1ppm (suplementada) com selênio na forma de selenato de sódio por 9 semanas e acasalados com fêmeas controle. Com 7 semanas de vida, a carcinogênese mamária foi iniciada na prole feminina através da administração oral do carcinógeno químico 7,12 dimetilbenz[a] antraceno e o desenvolvimento das neoplasias mamárias foi avaliado. A deficiência paterna de selênio causou alterações no desenvolvimento da glândula mamária da prole feminina como aumento no número de terminal end buds (TEBs), aumento da elongação do epitélio mamário, aumento da proliferação celular e diminuição da apoptose que foram associados ao aumento do risco do câncer de mama (maior incidência e agressividade das lesões). Além disso, a deficiência paterna de selênio causou alterações de nível molecular na glândula mamária da prole feminina como hipometilação global, aumento dos níveis globais de H3K27me3 e alteração na expressão de genes relacionados ao desenvolvimento no início da vida e da glândula mamária, apoptose, controle de ciclo celular e reparo de danos no DNA. A suplementação paterna com selênio não foi influenciou o desenvolvimento da glândula mamária e o risco ao câncer de mama na vida adulta. Nossos resultados mostram que o risco do câncer de mama pode ser determinado no início da vida através de influências paternas por meio da modulação de mecanismos moleculares e que o período de preconcepção se caracteriza como uma importante janela de susceptibilidade para iniciar estratégias de diminuição do risco do câncer de mama. Assegurar uma ingestão adequada de selênio por homens pode ser um possível ponto de partida.

Câncer de mama

Desenvolvimento da glândula mamária

Nutrição paterna

Prole feminina

Ratos

Selênio

Breast cancer

Female offspring

Mammary gland development

Paternal nutrition

Rats

Selenium