Mammary epithelial cell: influence of extracellular matrix composition and organization during development and tumorigenesis

Stromal-epithelial interactions regulate mammary gland development and are critical for the maintenance of tissue homeostasis. The extracellular matrix, which is a proteinaceous component of the stroma, regulates mammary epithelial growth, survival, migration and differentiation through a repertoire of transmembrane receptors, of which integrins are the best characterized. Integrins modulate cell fate by reciprocally transducing biochemical and biophysical cues between the cell and the extracellular matrix, facilitating processes such as embryonic branching morphogenesis and lactation in the mammary gland. During breast development and cancer progression, the extracellular matrix is dynamically altered such that its composition, turnover, processing and orientation change dramatically. These modifications influence mammary epithelial cell shape, and modulate growth factor and hormonal responses to regulate processes including branching morphogenesis and alveolar differentiation. Malignant transformation of the breast is also associated with significant matrix remodeling and a progressive stiffening of the stroma that can enhance mammary epithelial cell growth, perturb breast tissue organization, and promote cell invasion and survival. In this review, we discuss the role of stromal-epithelial interactions in normal and malignant mammary epithelial cell behavior. We specifically focus on how dynamic modulation of the biochemical and biophysical properties of the extracellular matrix elicit a dialogue with the mammary epithelium through transmembrane integrin receptors to influence tissue morphogenesis, homeostasis and malignant transformation.     

Effects of epidermal growth factor,estrogen, and progestin on DNA synthesis in mammary cells in vivo are determined by the developmental state of the gland

Estrogen (E), progesterone (P), and epidermal growth factor (EGF) are involved in the growth and development of the normal mammary gland. While studies have been carried out to investigate the in vivo effects of EGF in the immature mammary gland, nothing is known about the growth effects of EGF or its potential interactions with E and/or P in the adult mammary gland. The present studies were undertaken to investigate the effects of EGF, E, and P on mammary cell proliferation in immature, peripubertal vs. adult, sexually mature mice. We have found that EGF promotes epithelial and stromal cell proliferation in both the immature and adult mammary glands. In the immature gland, the end bud epithelium is most responsive to the proliferative effects of EGF and there is no apparent interaction between EGF, E, and/or P. In contrast, in the mature gland EGF adds to the proliferative effects of E+P in the ductal epithelium resulting in more extensive ductal sidebranching. Thus these results demonstrate that the developmental state of the mammary gland determines the nature and extent of the interactions between EGF, E, and P in growth and development. © 1993 Wiley-Liss, Inc.     

Regulation of mammary epithelial cell function: a role for stromal and basement membrane matrices

Summary Interactions between epithelial cells and their environment are critical for normal function. Mammary epithelial cells require hormonal and extracellular matrix (ECM) signalling for the expression of tissue specific characteristics. With regard to ECM, cultured mammary epithelial cells synthesize and secrete milk proteins on stromal collagen I matrices. The onset of function coincides both with morphogenesis of a polarized epithelium and with deposition of basement membrane ECM basal to the cell layer. Mammary specific morphogenesis and biochemical differentiation is induced if mammary cells are cultured directly on exogenous basement membrane (EHS). Thus ECM may effect function by the concerted effect of permissivity for cell shape changes and the direct biochemical signalling of basement membrane molecules.A model is discussed where initial ECM control of mammary epithelial cell function originates in the interstitial matrix of stroma and subsequently transfers to the basement membrane when the epithelial cells have accumulated and deposited an organized basement membrane matrix.Dedicated to Professor Stuart Patton on the occasion of his 70th birthday.     

Estrogen receptor alpha is required for mammary development and the induction of mammary hyperplasia and epigenetic alterations in the aromatase transgenic mice

Aromatase transgenic mice exhibit hyperplastic and dysplastic changes, attesting to the importance of local estrogen in breast carcinogenesis. These mice also show increased levels of the estrogen receptor and β (ER, ERβ) suggesting that this receptor may play an important role in the initiation of estrogen-mediated mammary hyperplasia observed in these mice. To address the specific role of ER in the mammary development and in the induction of estrogen-mediated hyperplasia in aromatase transgenic mice, we have generated MMTV-aromatase × ER knockout cross (referred as aromatase/ERKO). Even though ERβ is expressed in aromatase/ERKO mice, lack of ER leads to impaired mammary growth in these mice. The data suggest that ER plays an important role in the mammary gland development as well as in the induction of mammary hyperplasia in aromatase transgenic mice. Lack of ER expression in the aromatase/ERKO mice resulted in a decrease in the expression of Cyclin D1, PCNA and TGFβ relative to the aromatase parental strain. The studies involving aromatase/ERKO mice show that lack of ER results in impaired mammary development even in the presence of continuous tissue estrogen, suggesting estrogen/ER-mediated actions are critical for mammary development and carcinogenesis.     

Autocrine regulation of mammary cell differentiation

Summary Milk secretion and mammary function in dairy animals are regulated by local mechanisms sensitive to the frequency or efficiency of milking. Acute local control of milk secretion occurs through autocrine feedback inhibition by a milk protein. Sustained changes in milking frequency and milk secretion are associated with longer-term adaptations in the degree of differentiation and, ultimately, the number of mammary epithelial cells. Differentiation of cultured mammary cells is suppressed by a milk fraction containing the inhibitor, suggesting that intra-mammary regulation of differentiation in vivo is elicited by the same autocrine regulator subsequent to its acute effect on milk secretion. The autocrine factor may affect mammary cell differentiation by modulating the number of cell surface hormone receptors for prolactin, thereby changing their sensitivity to circulating hormones.Dedicated to Professor Stuart Patton on the occasion of his 70th birthday.     

Effect of cyproterone acetate,d-norgestrel and progesterone on the canine mammary gland

Summary The effects of short-term (8 weeks) treatment with different doses of cyproterone acetate (CPA), d-norgestrel (d-N) and progesterone (PRO) on the mammary gland were studied in cycle-synchronized beagle bitches (first anoestrus). Mammary glands from non-treated primiparous beagle bitches in the 6th and 9th weeks of pregnancy were also included. The results were evaluated using the whole-mount technique, histologic, histochemical and biochemical methods. CPA, d-N and PRO were shown to cause dose-dependent mammary growth accompanied by an increase in the mammary weight, DNA content and activity of several histochemically demonstrable dehydrogenases. These changes resembled in some aspects mammary development observed in the last third of pregnancy. A single human oral contraceptive dose (HCD) of CPA as well as a dose as low as 1.0mg/kg/day subcutaneously of PRO was capable of stimulating complete mammary development. A comparable effect was first observed as a result of treatment with as much as 100 times the HCD of d-N. However, d-N and CPA were shown to be more effective than PRO in stimulating ductal proliferative activity. These structural and biochemical responses indicate that quantitative and/or qualitative differences may exist between PRO, the synthetic progesterone derivative CPA and the synthetic nortestosterone progestagen d-N with regard to their growth-promoting effect on the canine mammary gland. This may be explained by possible differences in their potency and range of biological activity, pharmacodynamics and effects on pituitary hormone secretion.The authors are grateful to Dr. Christel Schöbel and Mrs. P. Kurth for carrying out the experimental work on animals, to Dr. Y. Nishino and Mr. M. Leidecker for biochemical determination of DNA, to Dr. J. Kaufmann for statistical analysis, to Miss E. Fallenbacher, Mrs. B. Schilk, Mrs. G. Soulioti and Miss. U. Tüshaus for their excellent technical assistance, and to Dr. P. Günzel for his advice and encouragement     

Morphogenesis of the developing mammary gland: Stage-dependent impact of adipocytes

Mammary gland development is critically dependent on the interactions between the stromal and the epithelial compartments within the gland. These events are under the control of a complex interplay of circulating and locally acting hormones and growth factors. To analyze the temporal and quantitative contributions of stromal adipocytes, we took advantage of the FAT-ATTAC mice (apoptosis through triggered activation of caspase-8), a model of inducible and reversible loss of adipocytes. This loss can be achieved through the induced dimerization of a caspase-8 fusion protein. In the context of female mice, we can achieve ablation of mammary adipocytes relatively selectively without affecting other fat pads. Under these conditions, we find that adipocytes are essential for the formation of the extended network of ducts in the mammary gland during puberty. Beyond their role in development, adipocytes are also essential to maintain the normal alveolar structures that develop during adulthood. Loss of adipose tissue initiated 2 weeks after birth triggers fewer duct branching points and fewer terminal end buds (TEBs) and also triggers changes in proliferation and apoptosis in the epithelium associated with the TEBs. The reduced developmental pace that adipocyte-ablated glands undergo is reversible, as the emergence of new local adipocytes, upon cessation of treatment, enables the ductal epithelium to resume growth. Conversely, loss of local adipocytes initiated at 7 weeks of age resulted in excessive lobulation, indicating that adipocytes are critically involved in maintaining proper architecture and functionality of the mammary epithelium. Collectively, using a unique model of inducible and reversible loss of adipocytes, our observations suggest that adipocytes are required for proper development during puberty and for the maintenance of the ductal architecture in the adult mammary gland.     

Organoid models for mammary gland dynamics and breast cancer

The mammary gland is a highly dynamic tissue that undergoes repeated cycles of growth and involution during pregnancy and menstruation. It is also the site from which breast cancers emerge. Organoids provide an in vitro model that preserves several of the cellular, structural, and microenvironmental features that dictate mammary gland function in vivo and have greatly advanced our understanding of glandular biology. Their tractability for genetic manipulation, live imaging, and high throughput screening have facilitated investigation into the mechanisms of glandular morphogenesis, structural maintenance, tumor progression, and invasion. Opportunities remain to enhance cellular and structural complexity of mammary organoid models, including incorporating additional cell types and hormone signaling.     

Influence of estradiol on mammary tumor collagen solubility in DMBA-induced rat mammary tumors

Estradiol plays a vital role in the growth and development of mammary glands. It is a potent stimulator of metabolic processes in normal and carcinoma breast. A critical factor in determining mammary glandular morphology is the stroma. Collagen is a predominant component of the extracellular matrix and cell-collagen interactions are essential carcinogenesis. The present investigation explored the influence of estradiol on collagen solubility and metabolism in mammary tumors during tumor progression and regression. A single injection of 20 mg of 9,10-dimethyl-1,2-benzanthracene was given to rats at 7 weeks of age. With the appearance of the first palpable mammary tumor, the rats were treated with 0.5 microg estradiol or 50 microg tamoxifen daily for 30 days. The rats were sacrificed 24 h after 30 days of treatment. Estradiol appears to stimulate the synthesis of new collagens and thus contributes to the enlargement of the mammary tumors. This might have created a potential microenvironment by increasing the synthesis of suitable matrix that sustains the growth of the mammary tumors. In short, the present findings emphasize a definite mediatory role for collagen in estradiol promoted mammary tumor growth.     

Use of magnetic resonance imaging in the study of goat mammary glands in vivo

A technique is described for the in-vivo determination of mammary gland size and gross composition in goats by using nuclear magnetic resonance imaging (MRI). The volume of test objects determined with MRI had an error of +0.4 +/- 1.6% of the actual volume. In lactating goats the in-vivo MRI estimate of mammary parenchymal volume was significantly greater than, but highly significantly correlated with, the weight of parenchyma determined post mortem (for the whole udder, r = 0.88, P less than 0.001; for individual glands, r = 0.85, P less than 0.001). MRI-determined estimates of the volume of fluid within the mammary gland were within 1.2% of the volume of milk removed from the udders after imaging. The spin-lattice (T1) relaxation time of the whole udder correlated closely with the volume of fluid within the udder. The T1 relaxation time of parenchymal tissue measured in vivo did not differ significantly from that determined immediately after post-mortem excision.     

Chronic caprine mastitis in Nigerian goat breeds: microbiological flora and histopathological findings

In a study involving lactating does with normal-sized and enlarged pendulous udders, 85.5% of milk samples obtained from does with unilateral udder enlargement and 84.8% of samples from bilaterally enlarged udders indicated the presence of intramammary inflammation based on results of the modified Whiteside test. In contrast, only 47.6% of milk samples obtained from normal-sized udders showed evidence of intramammary inflammation. Bacterial cultures were performed on all milk samples which showed evidence of intramammary inflammation. 16 species of bacteria and other microorganisms were cultured from these samples. Bilaterally enlarged udders collectively yielded 13 different microbial isolates, while unilaterally enlarged udders yielded 11, and normal-sized udders yielded 9. The most frequent isolates in all groups were Staphylococcus spp. and Corynebacterium spp. On histopathologic examination, severe pathological changes in the teat and udder tissues of enlarged pendulous udders were observed. Lesions in parenchymatous tissues showed mild to severe inflammation with involution of the parenchyma of glands. This led to shrinkage of the alveoli and in severe cases, their complete disappearance and replacement by fibrous connective tissue which was observed to have a high degree of proliferation. Sections of non-pendulous udder tissue showed proper arrangement of alveoli with hypertrophic epithelial cells, indicating active secretory activity. The results provide some definitive evidence that enlarged pendulous udder development in some Nigerian breeds of goats is not spontaneous but occurs largely as a result of incursion of the mammary glands by pathogenic organisms which may cause mastitis resulting in progressive dysfunction of mammary tissue. In chronic cases, there is severe atrophy of glandular tissue leading to fibrosis.     

Database of cattle candidate genes and genetic markers for milk production and mastitis

A cattle database of candidate genes and genetic markers for milk production and mastitis has been developed to provide an integrated research tool incorporating different types of information supporting a genomic approach to study lactation, udder development and health. The database contains 943 genes and genetic markers involved in mammary gland development and function, representing candidates for further functional studies. The candidate loci were drawn on a genetic map to reveal positional overlaps. For identification of candidate loci, data from seven different research approaches were exploited: (i) gene knockouts or transgenes in mice that result in specific phenotypes associated with mammary gland (143 loci); (ii) cattle QTL for milk production (344) and mastitis related traits (71); (iii) loci with sequence variations that show specific allele-phenotype interactions associated with milk production (24) or mastitis (10) in cattle; (iv) genes with expression profiles associated with milk production (207) or mastitis (107) in cattle or mouse; (v) cattle milk protein genes that exist in different genetic variants (9); (vi) miRNAs expressed in bovine mammary gland (32) and (vii) epigenetically regulated cattle genes associated with mammary gland function (1). Fourty-four genes found by multiple independent analyses were suggested as the most promising candidates and were further in silico analysed for expression levels in lactating mammary gland, genetic variability and top biological functions in functional networks. A miRNA target search for mammary gland expressed miRNAs identified 359 putative binding sites in 3'UTRs of candidate genes.     

Bidirectional signaling of mammary epithelium and stroma: implications for breast cancer--preventive actions of dietary factors

The mammary gland is composed of two major cellular compartments: a highly dynamic epithelium that undergoes cycles of proliferation, differentiation and apoptosis in response to local and endocrine signals and the underlying stroma comprised of fibroblasts, endothelial cells and adipocytes, which collectively form the mammary fat pad. Breast cancer originates from subversions of normal growth regulatory pathways in mammary epithelial cells due to genetic mutations and epigenetic modifications in tumor suppressors, oncogenes and DNA repair genes. Diet is considered a highly modifiable determinant of breast cancer risk; thus, considerable efforts are focused on understanding how certain dietary factors may promote resistance of mammary epithelial cells to growth dysregulation. The recent indications that stromal cells contribute to the maintenance of the mammary epithelial ‘niche’ and the increasing appreciation for adipose tissue as an endocrine organ with a complex secretome have led to the novel paradigm that the mammary stromal compartment is itself a relevant target of bioactive dietary factors. In this review, we address the potential influence of dietary factors on mammary epithelial-stromal bidirectional signaling to provide mechanistic insights into how dietary factors may promote early mammary epithelial differentiation to decrease adult breast cancer risk.     

IGFBP-2 and ?5: important regulators of normal and neoplastic mammary gland physiology

The insulin-like growth factor (IGF) axis plays an important role in mammary gland physiology. In addition, dysregulation of this molecular axis may have a causal role in the aetiology and development of breast cancer (BC). This report discusses the IGF axis in normal and neoplastic mammary gland with special reference to IGF binding proteins (IGFBPs) -2 and −5. We describe how these high affinity binders of IGF-1 and IGF-2 may regulate local actions of growth factors in an autocrine and/or paracrine manner and how they also have IGF-independent effects in mammary gland. We discuss clinical studies which investigate both the prognostic value of IGFBP-2 and −5 expression in BC and possible involvement of these genes in the development of resistance to adjuvant endocrine therapies.     

Tubulin increases with lactation in rat and guinea pig mammary alveolar cells

Summary Changes in mammary gland tubulin were studied immunocytochemically during transition from late pregnancy to lactation. Indirect immunofluorescence was used to localize tubulin in mammary glands from late pregnant, early lactating and peak lactating guinea pigs. Whole rabbit antiserum against guinea pig brain tubulin and affinity-purified antibody indicated increases in alveolar cell tubulin content from late pregnancy through peak lactation coincident with the development of lactation. Only alveolar cells displayed high, specific fluorescence or underwent a developmental increase. Tubulin was concentrated apically, in association with secretory structures. In a second study comparing mammary tissues from 18 days pregnant and 10 days lactating rats, EM immunogold was used with three commercial antitubulins ranging from a rabbit polyclonal antiserum against chick brain MTs to a monoclonal mouse anti-alpha tubulin. Gold particle counts indicated 2- to 5- fold tubulin increases in alveolar cells with lactation and development of an apicobasal (high apical) tubulin gradient. Variations among the three anti-tubulins is discussed. The results confirmed previous observations of whole gland tubulin increases based on colchicine binding assays and localized the site of the increase primarily in alveolar cells.Abbreviations EM electron microscope-(ic) - GAM goat anti-mouse - GAR goat anti-rabbit - Ig immunoglobulin - MC monoclonal - MT microtubule - PAGE polyacrylamide gel electrophoresis - PIPES 1,4-piperazine diethane sulfonic acid - PBS phosphate buffered saline - PC polyclonal - Rb rabbit - SDS sodium dodecyl sulfate Dedicated to Professor Stuart Patton on the occasion of his 70th birthday.     

A genome‐wide association study reveals a QTL influencing caudal supernumerary teats in Holstein cattle

Supernumerary teats represent a common abnormality of the bovine udder. A genome‐wide association study was performed based on the proportion of the occurrence of supernumerary teats in the daughters of 1097 Holstein bulls. The heritability of caudal supernumerary teats without mammary gland in this study was 0.604. The largest proportion of the heritability was attributable to BTA 20. The strongest evidence for association was with five SNPs on chromosome 20, referred to as a QTL. The mode of inheritance at this QTL was dominant. These findings reveal that the occurrence of caudal supernumerary teats without mammary gland in Holstein cattle is influenced by a QTL on chromosome 20 and a polygenic part. The data support the high potential of the SNPs in the QTL region as markers for breeding against caudal supernumerary teats.     

Binational evaluation of type traits from Germany and France with a single-trait MACE animal model

Binational genetic evaluation between Germany and France were performed for each type trait using a single-trait MACE (multiple across-country evaluation) model. Daughter yield deviations (DYD) of bulls having 30 equivalent daughter contributions or more were the data for parameter estimation. Full pedigree information of bulls was used via sire and dam relationships. In general, across-country genetic correlation estimates were in agreement with what is observed by Interbull. The estimated correlations were over 0.93 for stature, rump angle, udder depth, front teat placement, teat length and rear teat placement. These traits have been classified in both countries for a long period of time. However, some other type traits were included later in the French type classification system (most of them since 2000): chest width, body depth, angularity, rump width, rear leg rear view, fore udder and rear udder height. The estimated correlations for these traits were relatively low. In order to check changes in genetic correlations over time, data from bulls born until the end of 1995 were discarded. Higher genetic correlation estimates between both countries were obtained by using more recent data especially for traits having lower genetic correlation, e.g. body depth correlation increased from 0.55 to 0.83. Once genetic correlations were estimated, binational genetic evaluation between Germany and France were performed for each type trait using DYD of bulls. The rankings of bulls obtained from this evaluation had some differences with Interbull rankings but a similar proportion of bulls from each country was found. Finally, more computationally demanding binational evaluations were performed using yield deviations of cows for binational cow comparison. The rankings obtained were influenced by the number of daughters per bull and heritabilities used in each country.