Estrogen is a major mitogenic stimulus to established breast cancer. Estrogen sources include ovarian, extraglandular sites and breast tissue. Which source primarily maintains benign and breast cancer tissue estrogen concentrations remains unclear. While macrophages may comprise up to 50% of the mass of breast carcinomas, previous studies neglected to study them as possible sources of estrogen. We present evidence that breast macrophages constitute an in situ source of estradiol and that the amount produced is sufficient to mediate cellular proliferation. We utilized immunohistochemistry and RT-PCR to study cell-specific aromatase expression in (i) 29 breast biopsies, (ii) human monocytes/macrophages and (iii) a myeloid cell line (THP-1) capable of differentiating into macrophages. Use of a breast cancer cell line (MCF-7) provided biologic confirmation of the role of aromatization in cell proliferation. We demonstrated considerable amounts of immunoreactive-aromatase (irARO) in breast tissue macrophages and a positive correlation between the proportion of irARO present in macrophages and lesion severity. Using in vitro techniques, we demonstrated that monocytes and THP-1 cells require differentiation into macrophages to produce aromatase in amounts approaching placental levels. The amount of estrogen produced by THP-1 cells stimulated MCF-7 cells to proliferate, an effect blocked by aromatase inhibitors. Estrogen production by macrophages in breast tissue appears sufficient to stimulate the proliferation of adjacent epithelial cells and to autoregulate cytokine production. These findings represent a new dimension of cellular regulation in breast tissue with major biologic implications, amenable to pharmacological manipulation. 相似文献
Microglia are the resident macrophages of the central nervous system that survey the microenvironment for signals of injury or infection. The response to such signals induces an inflammatory response involving macrophages derived from both resident microglia and recruited circulating monocytes. Although implicated as contributors to autoimmune‐mediated injury, microglia/ macrophages have recently been shown to be critical for the important central nervous system regenerative process of remyelination. This functional dichotomy may reflect their ability to be polarized along a continuum of activation states including the well‐characterized cytotoxic M1 and regenerative M2 phenotypes. Here, we review the roles of microglia, monocytes and the macrophages which they give rise to in creating lesion environments favourable to remyelination, highlighting the specific roles of M1 and M2 phenotypes and how the pro‐regenerative role of the innate immune system is altered by ageing.
Tissue-resident macrophages play an important role in maintaining tissue homeostasis and innate immune defense against invading microbial pathogens. Brain-resident macrophages can be classified into microglia in the brain parenchyma and non-parenchymal brain macrophages, also known as central nervous system-associated or border-associated macrophages, in the brain-circulation interface. Microglia and non-parenchymal brain macrophages, including meningeal, perivascular, and choroid plexus macrophages, are mostly produced during embryonic development, and maintained their population by self-renewal. Microglia have gained much attention for their dual roles in the maintenance of brain homeostasis and the induction of neuroinflammation. In particular, diverse phenotypes of microglia have been increasingly identified under pathological conditions. Single-cell phenotypic analysis revealed that microglia are highly heterogenous and plastic, thus it is difficult to define the status of microglia as M1/M2 or resting/activated state due to complex nature of microglia. Meanwhile, physiological function of non-parenchymal brain macrophages remain to be fully demonstrated. In this review, we have summarized the origin and signatures of brain-resident macrophages and discussed the unique features of microglia, particularly, their phenotypic polarization, diversity of subtypes, and inflammasome responses related to neurodegenerative diseases. 相似文献
Many infectious diseases are associated with parasite persistence, often restricted to certain tissue sites, yet the determinants of such persistence are poorly understood. Infection with the protozoan parasite Leishmania donovani has proved a useful experimental tool to address how immune responses can be differentially effective in clearing parasites from different tissues and, conversely, it might also provide a good model for understanding the basis of parasite persistence. This article reviews recent studies on the determinants and consequences of persistent parasite infection in the spleen and suggest that some of the messages to emerge could have important implications for the study of a broad range of infectious diseases. 相似文献
Macrophages within the tumor microenvironment facilitate angiogenesis and extracellular-matrix breakdown and remodeling and promote tumor cell motility. Recent studies reveal that direct communication between macrophages and tumor cells leads to invasion and egress of tumor cells into the blood vessels (intravasation). Thus, macrophages are at the center of the invasion microenvironment and are an important drug target for cancer therapy. 相似文献
Summary Delayed-type hypersensitivity (DTH) reactions in mouse feet were depressed by irradiation and by treatment with carrageenan, niridazole, or reserpine. Specific resistance of immunized mice to footpad challenge with a syngeneic methylcholanthrene-induced fibrosarcoma was also depressed by irradiation, carrageenan, niridazole, and reserpine. Growth of the tumor in the feet of normal mice was unaffected by irradiation or niridazole. It could be inhibited or enhanced by carrageenan treatment, depending on the dose of tumor cells injected. Paradoxically, treatment with reserpine inhibited tumor growth in the feet of nonimmune mice. It is suggested that: (a) specific, acquired resistance to this tumor is strongly akin to DTH; (b) mice offer some natural resistance to this tumor; (c) the establishment of an isograft of this tumor may depend on the occurrence of some degree of inflammation.This work was carried out pursuant to Research Contract NO1-CB-63973 with the U.S. National Cancer Institute. It was supported in part by a grant from the Australian National Health and Medical Research Council 相似文献
Macrophages are not only phagocytic cells but also secrete a plethora of growth factors that are potentially important for regeneration. This review will examine the emerging evidence of a likely contribution by macrophages to axonal regeneration. 相似文献
