Ultrastructure of human fetal mammary gland

Human breast cancer cells educate macrophages toward the M2 activation status

Introduction

The immune system plays a major role in cancer progression. In solid tumors, 5-40 % of the tumor mass consists of tumor-associated macrophages (TAMs) and there is usually a correlation between the number of TAMs and poor prognosis, depending on the tumor type. TAMs usually resemble M2 macrophages. Unlike M1-macrophages which have pro-inflammatory and anti-cancer functions, M2-macrophages are immunosuppressive, contribute to the matrix-remodeling, and hence favor tumor growth. The role of TAMs is not fully understood in breast cancer progression.

Methods

Macrophage infiltration (CD68) and activation status (HLA-DRIIα, CD163) were evaluated in a large cohort of human primary breast tumors (562 tissue microarray samples), by immunohistochemistry and scored by automated image analysis algorithms. Survival between groups was compared using the Kaplan-Meier life-table method and a Cox multivariate proportional hazards model. Macrophage education by breast cancer cells was assessed by ex vivo differentiation of peripheral blood mononuclear cells (PBMCs) in the presence or absence of breast cancer cell conditioned media (MDA-MB231, MCF-7 or T47D cell lines) and M1 or M2 inducing cytokines (respectively IFN-γ, IL-4 and IL-10). Obtained macrophages were analyzed by flow cytometry (CD14, CD16, CD64, CD86, CD200R and CD163), ELISA (IL-6, IL-8, IL-10, monocyte colony stimulating factor M-CSF) and zymography (matrix metalloproteinase 9, MMP-9).

Results

Clinically, we found that high numbers of CD163⁺ M2-macrophages were strongly associated with fast proliferation, poor differentiation, estrogen receptor negativity and histological ductal type (p<0.001) in the studied cohort of human primary breast tumors. We demonstrated ex vivo that breast cancer cell-secreted factors modulate macrophage differentiation toward the M2 phenotype. Furthermore, the more aggressive mesenchymal-like cell line MDA-MB231, which secretes high levels of M-CSF, skews macrophages toward the more immunosuppressive M2c subtype.

Conclusions

This study demonstrates that human breast cancer cells influence macrophage differentiation and that TAM differentiation status correlates with recurrence free survival, thus further emphasizing that TAMs can similarly affect therapy efficacy and patient outcome.

Electronic supplementary material

The online version of this article (doi:10.1186/s13058-015-0621-0) contains supplementary material, which is available to authorized users.

Human breast development

This review is intended to give an overview of current knowledge on human breast development. It focuses on the limitations of our understanding on the origins of human breast cancer in the context of this mainly morphological and static assessment of what is known about human breast development. The world literature is very limited and caution is needed in drawing analogies with the mouse. There is an increasing emphasis on research to understand normal stem cells in the breast on the assumption that these are the targets for the initiation of breast cancer. It is thus a priority to understand normal human breast development, but there are major obstacles to such studies mainly due to ethical considerations and to tissue acquisition.

Septic disruption of lactiferous ducts with heterogeneous carcinoma of the breast in a lactating woman

This report documents the diagnostic histopathological features of heterogeneous breast carcinoma following sepsis and disruption of the lactiferous ducts in a lactating woman and discusses the pathogenesis. Sections from the nipple revealed disrupted collecting lactiferous ducts presenting with intraduct precarcinoma and carcinoma of the epidermoid type, and attached reparative sprouts lined by lactiferous cells. Breast lobules showed generalised benign adenotic change with various foci of carcinoma microscopically identifiable as intraduct primitive lactiferal ectodermal carcinoma, lactating carcinoma, primitive neuroendocrine carcinoma and myoepithelioid granulomatous carcinoma. The findings led to the conclusion that the lactiferous ducts are susceptible to sepsis and disruption, which may predispose a patient to breast carcinoma. The pattern of carcinoma suggested that lactiferous epithelial cells behaved colonially, with different metaplastic changes, precarcinoma and carcinoma.

Basal cells of second trimester fetal breasts: immunohistochemical study of myoepithelial precursors

The molecular characterization of human mammary myoepithelial cells is incomplete, hindering our understanding of its importance in breast physiology and pathology. Because data on the precursors of this cell lineage remain scarce and often contradictory, basal epithelial cells of second trimester fetal breasts were studied by light microscopy (LM) and immunohistochemistry (IHC). Up to 20 wk of gestational age, the mammary rudiments only comprised roundish primary outgrowths, "primary buds," more likely to represent immature nipples than true mammary tissue. At 21 wk secondary outgrowths, "projections," extended from enlarged primary buds into well-vascularized layers of dense mesenchyme. Basal projection cells had a partial myoepithelial-like phenotype: they reacted with CD29, CD49f, CD104, keratin 14, vimentin, S100beta protein, and p63; furthermore, many became positive for keratin 17, alpha-smooth muscle actin, and CD10 (but not for keratin 19) between wk 21 and 25. The continuous basement membrane associated with the fetal mammary rudiments was strongly positive for collagens type IV and VII, and for laminin 5. Consistently strong and basally polarized staining for hemidesmosomal components suggested that although incompletely differentiated, most second trimester myoepithelial precursors might already mediate local epithelial-mesenchymal interactions, i.e., complex signaling pathways which are crucial for both orderly growth during development and maintenance of homeostasis during adult life. Because they are likely implicated in the phenomenon of menstrual cycle-related growth spurts in the adult resting breast, the strategically positioned cells of the myoepithelial lineage might constitute critical protagonists in defective epithelial-mesenchymal signaling associated with cancer progression.

Human breast development

This review presents an atlas of the histology of the normal physiological states of the human breast including prenatal, prepubertal, and pubertal development, adult resting gland, pregnancy, lactation, and postinvolution. The aim is to produce a pictorial overview of the main stages in development and the common findings in the adult that are considered to be within the range of normality. Unlike inbred strains of animals, in humans it is clear that the chronology of ductal and lobular development is not predictable, either in the fetus, the infant, the peripubertal breast, or the adult. This is probably due to the individual variation in hormone levels both in utero and after birth. For many of the developmental time points there are very little data available. In this review we indicate the current state of knowledge of human breast development and some of the main similarities and differences with the rodent, the main animal model. The major phases of growth and development are described and accompanied by photographs that are representative of each stage. Stress is placed on terminology as there is confusion in the literature. This article is written as an accessory to the companion review on breast cancer.

Immunolocalisation of cell surface peptidases in the developing human breast

The immunocytochemical distribution of three cell surface peptidases was investigated in samples of developing infant breast ranging in age from newborn to 9.5 months. We have previously demonstrated that in the adult breast these enzymes identify subpopulations of epithelial cells and fibroblasts. We therefore wished to address two questions: (a) At what stage in breast development can fibroblast subpopulations be identified, and (b) Is the distribution of these peptidases related to cellular differentiation and morphogenesis? At the histological level there was a cuff of stromal cells closely associated with the developing ductular and lobular structures. At all stages of ductular and lobular development the fibroblasts in this layer were consistently negative for dipeptidyl peptidase IV (DPP IV) and clearly distinguished from the fibroblasts in the surrounding matrix, some of which expressed DPP IV in an age-dependent manner. Within the infant breast aminopeptidase N (APN) was localised to luminal epithelial cells and all fibroblasts, whilst neutral endopeptidase (NEP) was specifically localised to myoepithelial cells. These results are considered in relation to the role of stromal-epithelial interactions during morphogenesis and the proposed function of these enzymes.

Growth and development of the human infant breast

Seventy-two samples of infant breasts, aged from newborn to 2 years, were collected at necropsy. Whole-mount preparations and histological sections were made. A system of classification was devised to study the extent of the structural development of the ductal system (morphological types I, II, and III) and the functional differentiation of the lining epithelium (functional stages I to V). There was no correlation between the age of the infant and the type of development of the ductal system. In contrast, the epithelial differentiation followed a chronological pattern, starting with secretory changes and apparently going through a period characterized by apocrine metaplasia before post-secretory involution. These epithelial changes were not associated with the morphological type of the ductal system. There were no distinguishing features between the breasts from the two sexes. Immunoperoxidase staining for actin and kappa-casein was carried out to study the myoepithelial cells and secretory cells, respectively. Myoepithelial cells were present at all stages and prominent staining for casein was observed up to 2 months of age. Embryonic-type adipose tissue was seen in 7 cases, in one of which it was associated closely with the developing ductal system. Extramedullary hematopoiesis was observed in the periductal connective tissue until 4 months of age. This paper describes the most extensive anatomical and histological study of the human infant breast to date and lays the foundation for a detailed study of the epithelial and stromal changes that take place during human breast development.

Rats with mammary cancer treated with toremifene and interferon: morphometry and needle aspiration biopsy for determination of ATP and 14C-fluorodeoxyglucose content

The combined and separate action of the antiestrogen toremifene (TOR) and recombinant rat gamma interferon (RIF) was studied in rat mammary cancer induced by dimethylbenzanthracene (DMBA). The content of ATP and 14C-fluorodeoxyglucose (FDG) was also determined from fine needle aspiration biopsies (FNAB). RIF alone had no antitumor activity, when measured as the average number of new tumors appearing in RIF and control animals (2.4 vs 2.4 new tumors per animal), while TOR and TOR + RIF had a significant effect (1.2, P less than 0.05 and 0.6, P less than 0.01). Morphometrically, there was a significant decrease in the amount of epithelium in the tumors of the RIF + TOR animals (65% vs 82% in the controls, P less than 0.05); there was conversely an increase in the stromal component (25% vs 14%, NS). It appears that an increase of the stromal compartment is part of the healing process. The feasibility of the FNAB-technique was shown by the finding that there was a close correlation between FDG and ATP content in almost all the groups before and after treatment. Thus, FDG and ATP measure the same phenomenon, i.e., energy content. There was a large variation in the contents of ATP and FDG within and among the groups, which invalidated considerations regarding the predictive value of ATP and FDG content in tumors subject to treatment.