Immunohistochemical detection of factor XIII subunit a in histiocytes of human uterus

As spontaneous abortion is a frequent finding in females with Factor XIII (FXIII) deficiency it has been presumed that this clotting factor is essential to normal pregnancy. FXIII subunit a (FXIII A) has been demonstrated in the homogenate of human uterus, but no information on its cellular distribution has been published, so far. In the present study first FXIII A was detected in paraformaldehyde-fixed, paraffin-embedded sections of human uterus by immunoperoxidase technique. Cells containing FXIII A were localized between collagen fibrils stained by Picrosirius Red F3B in the connective tissue. To characterize them the immunofluorescent detection of FXIII A was combined by the visualization of different marker antigens of monocytes and macrophages recognized by Leu-M3, RFD7, anti-HLA-DR and DAKO-anti-macrophage monoclonal antibodies on frozen sections. The coexpression of FXIII A with monocyte and macrophage differentiation marker antigens clearly proves that cells containing FXIII A in the uterus are monocyte-derived tissue macrophages. The results well agree with our previous findings demonstrating FXIII A in human monocytes and different types of macrophages. On the basis of these results, the presence of FXIII A does not seem to be a specificity of the uterus but a characteristic of monocyte/macrophage cell line including tissue macrophages, in general.     

Characterization of cells containing factor XIII subunita in benign and malignant buccal lesions

Summary In the present study, the distribution pattern and characteristics of cells containing Factor XIII subunita (FXIII A) have been studied in benign and malignant lesions of human buccal mucosa. Tissues from four irritation fibromas and three squamous cell carcinomas were studied by means of double immunofluorescent staining techniques in which the detection of FXIII A was combined with a reaction with CD14 (recognizing a monocyte/macrophage differentiation marker antigen), Mac 387 (reacting with a special subset of macrophages), anti-HLA-DR, Ki-M7 (labelling phagocytosing macrophages) or Ki-67 (visualizing a nuclear antigen associated with cell proliferation) monoclonal antibodies. FXIII A was detected in cells of the connective tissue stroma in both benign and malignant buccal lesions. The number of these FXIII A-reactive cells (FXIII A⁺ cells) increased considerably in the tumour tissues, in particular in those surrounding tumour cell clusters. FXIII A⁺ cells scattered in the fibromatous tissues were spindle-shaped, whereas in the tumour stroma, large stellate cells predominated, and round cells were likewise labelled around blood vessels. FXIII A⁺ cells were labelled with CD14 and Ki-M7 in both fibromatous and tumoural buccal mucosa; however, they failed to show any reaction with Ki-67. FXIII A⁺ cells accumulated in the tumour stroma reacted for HLA-DR as well. These results indicate that in both the benign and malignant buccal lesions FXIII A is contained in a subpopulation of tissue macrophages, which represents a monocyte-derived (CD14⁺) and phagocytosing (KiM7⁺) cell population. The accumulation of the FXIII A⁺ cells in the tumour stroma is believed to be a result of direct migration from the circulating blood. The FXIII A⁺ cells of the tumour stroma may be actively involved in both antigen presentation and matrix remodelling during tumour progression.     

Human mononuclear phagocyte-associated antigens: I. Identification and characterization

Rabbit antisera were produced against a lymphokine-activated human macrophage cell line, U937 (αU937), and human peritoneal macrophages (αPEMØ). After absorption with AB erythrocytes, pooled platelets, and B-lymphoblastoid cell lines, both antisera reacted by microcytotoxicity, indirect immunofluorescence (IF), and radioimmunoassay (RIA) with adherence-purified human peripheral blood monocytes, splenic and peritoneal macrophages, and leukemic myelomonoblasts. A panel of normal human T lymphocytes, B lymphocytes, and erythroid-myeloid or lymphoblastoid cell lines failed to react with both αU937 and αPEMØ. Although both heteroantisera reacted against polymorphonuclear leukocytes (PMNs), after absorption with PMNs specific reactivity against mononuclear phagocytes remained. Absorption of αU937 and αPEMØ with myelomonoblastic leukemia cells (AMML) removed IF and RIA activity against both PMNs and monocytes but not against splenic and peritoneal macrophages. In contrast, absorptions of both heteroantisera preparations with splenic macrophages abolished their IF and RIA reactivity not only to splenic and peritoneal macrophages but also to peripheral blood monocytes and leukemic myelomonoblasts. These results are consistent with (1) both antisera defining specific monocyte/macrophage-associated antigens(s) which are distinct from MHC-coded HLA-A,B,C, and DR antigens, and (2) expression of common monocyte/macrophage-associated antigen(s) and uniquely associated antigen(s) selectively expressed on tissue macrophages. These reagents will be useful in delineating human monocyte/macrophage differentiation as well as the immunological functions of mononuclear phagocytes.     

Accumulation of cells containing factor XIII subunit a around the foci of intense fibrosis in human epulides

Summary On the basis of clinical and biochemical findings, Factor XIII subunita (FXIII A) has been conjectured to play an important role in fibrotic processes. Epulis samples at different stages of fibrotic tissue formation were used as a model system for studying the localization and tissue distribution of FXIII A during the course of connective tissue generation. Marker characteristics of cells containing FXIII A (FXIII A⁺ cells) were determined as well. In double immunofluorescent labelling systems, FXIII A was localized in monocyte-derived (CD-14⁺), activated (HLA-DR⁺), and phagocytosing (Ki-M7⁺) tissue macrophages, which are widely distributed homogeneously in granulation tissues, but start to accumulate around foci of fibrosis as soon as the foci appear. During the relatively long process of fibrosis, FXIII A⁺ macrophages continuously decrease in number, and their morphological appearance changes from stellate to spindle-shaped. The nuclei of these cells were not labelled by Ki-67 monoclonal antibody; this indicating that they represent a non-proliferating cell population in the connective tissue stroma. The present findings may help to link theories concerning the role of FXIII A and those of macrophages in the connective tissue formation so far found separately in the literature.     

Macrophage differentiation and granulomatous inflammation in osteopetrotic mice (op/op) defective in the production of CSF-1

Since the osteopetrotic (op/op) mouse was demonstrated to have a mutation within the coding region of the CSF-1 gene itself, it serves as a model for investigating the differentiation mechanism of macrophage populations in the absence of functional CSF-1. The op/op mice were severely monocytopenic and showed marked reduction and abnormal differentiation of tissue macrophages. Osteoclasts as well as marginal metallophilic macrophages and marginal zone macrophages in the spleen were absent. Most of the tissue macrophages were reduced in number and ultrastructurally immature. However, the degree of reduction in numbers of macrophages in the mutant mice was variable among tissues, suggesting that the heterogeneity of macrophages was generated by their different dependency on CSF-1. After daily CSF-1 injection, the numbers of monocytes, tissue macrophages, and osteoclasts were remarkably increased, and the macrophages showed morphological maturation. However, the numbers of macrophages in the ovary, uterus, and synovial membrane were not increased. In the bone marrow, macrophage precursors detected by monoclonal antibody ER-MP58 proliferated and differentiated into preosteoclasts and osteoclasts. In the spleen, marginal metallophilic macrophages and marginal zone macrophages developed slowly. In this manner, CSF-1 plays an important role in the development, proliferation, and differentiation of certain tissue macrophage populations and osteoclasts. In the op/op mice, Kupffer cells proliferated, transformed into epithelioid cells and multinucleated giant cells, and participated in glucan-induced granuloma formation. In CSF-1-treated op/op mice, the process of granuloma formation was similar to that in normal littermates due to increased monocytopoiesis and monocyte influx into the granulomas. These results indicate that CSF-1 is a potent inducer of the development and differentiation of CSF-1-dependent monocyte/macrophages, and that CSF-1-independent macrophages also play an important role in granuloma formation. Mol Reprod Dev 46:85–91, 1997. © 1997 Wiley Liss, Inc.     

Galectins distinctively regulate central monocyte and macrophage function

Monocytes and macrophages link the innate and adaptive immune systems and protect the host from the outside world. In inflammatory disorders their activation leads to tissue damage. Galectins have emerged as central regulators of the immune system. However, if they regulate monocyte/macrophage physiology is still unknown.Binding of Gal-1, Gal-2, Gal-3 and Gal-4 to monocytes/macrophages, activation, cytokine secretion and apoptosis were determined by FACS, migration by Transwell system and phagocytosis by phagotest. Supernatants from macrophages co-cultured with galectins revealed their influence on T-cell function.In our study Gal-1, Gal-2, Gal-4, and partly Gal-3 bound to monocytes/macrophages. Galectins prevented Salmonella-induced MHCII upregulation. Cytokine release was distinctly induced by different galectins. T-cell activation was significantly restricted by supernatants of macrophages co-cultured in the presence of Gal-2 or Gal-4. Furthermore, all galectins tested significantly inhibited monocyte migration. Finally, we showed for the first time that galectins induce potently monocyte, but not macrophage apoptosis.Our study provides evidence that galectins distinctively modulate central monocyte/macrophage function. By inhibiting T-cell function via macrophage priming, we show that galectins link the innate and adaptive immune systems and provide new insights into the action of sugar-binding proteins.     

Phenotypic differentiation patterns of the human monocyte/macrophage system

Summary In the present study phenotypic properties of non-stimulated and stimulated blood monocytes and of their normal macrophage derivatives were studied applying enzyme cytochemistry, isoenzyme analysis of acid esterase (EC 3.1.1.6), and immunohistochemical staining using a panel of newly established monoclonal antibodies specific for the monocyte/macrophage lineage. Certain marker profiles could be established for the various normal subpopulations within the monocyte/macrophage system, which were also observable in epithelioid cells and U-937 cell line considered as reactive and neoplastic differentiation variants of monocytes, respectively. Alveolar macrophages, in contrast to the other analysed monocyte/macrophage populations, showed a highly activated phenotype comparable to lymphokine stimulated blood monocytes and epithelioid cells. The results underline the concept that the adaptation of monocytes/macrophages to their particular microenvironment is of decisive importance for their definitive differentiation.     

Identification of tissue histiocytes on paraffin sections by a new monoclonal antibody

A mouse monoclonal antibody (MAC 387) with specificity for monocytes and tissue histiocytes was produced by immunization of a BALB/c mouse with peripheral blood monocyte components derived by affinity chromatography of detergent-solubilized monocyte material on Sepharose 4B coupled to rabbit anti-monocyte antibodies. MAC 387 strongly stained the cytoplasm of cells of the monocyte/macrophage series on paraffin sections after controlled trypsinization of sections. The antibody showed broad reactivity for a variety of tissue histiocytes, including infiltrating and reactive histiocytes, alveolar macrophages, Kupffer cells, follicle-center macrophages, splenic red pulp macrophages, tumor-infiltrating macrophages, sinus histiocytes, epithelioid giant cells (variably), and cases of histiocytosis X and dermatopathic lymphadenopathy. Molecular weight data obtained by Western blotting, immunoprecipitation, and immunoaffinity-purification revealed that the antigen was present in different forms in the monocyte and granulocyte. In the granulocyte, free alpha (Mr 12 KD) and beta (Mr 14 KD) chains expressing the MAC 387 epitope were found together with associations of one alpha and one beta chain linked by disulfide bonds to yield a heterodimer of Mr 26 KD. In the monocyte, free alpha and beta chains are not found, but instead the heterodimer and associations of two (Mr 56 KD) and four (Mr 112 KD) heterodimers are disulfide-linked together. This new monoclonal reagent should have particular value for identification of tissue histiocytes in routine paraffin sections and particularly for demonstration of histiocytes in malignant lymphomas.     

Species-dependent regulation of monocyte/macrophage Ia antigen expression and antigen presentation by prostaglandin E

The expression of Ia antigen by various murine and human macrophage populations and the ability of prostaglandins of the E series to regulate Ia antigen expression were explored. Monocytes and macrophages from human and murine populations demonstrated a dichotomy in the expression of Ia antigen. Both human monocytes and macrophages expressed elevated levels of Ia antigen compared to their murine counterpart. Murine macrophages appear to express elevated levels of Ia antigen only when actively interacting with T lymphocytes in vivo or with lymphokines in vitro. Prostaglandins of the E series can suppress murine macrophage Ia antigen expression, but have little effect on the expression of Ia antigen by human monocytes and macrophages. Also, prostaglandins of the E series do not modulate the ability of human monocytes to present antigen to autologous lymphocytes when studied over a broad concentration range. These data suggest that prostaglandin E compounds do not profoundly affect human monocyte/macrophage Ia antigen expression or human monocyte antigen presenting activity.     

Characterization of mononuclear phagocyte subpopulations in the human lung by using monoclonal antibodies: changes in alveolar macrophage phenotype associated with pulmonary sarcoidosis

Current concepts of pulmonary sarcoidosis suggest that the alveolar macrophage plays a central role in the pathogenesis of the disease. To help define the population of alveolar macrophages in sarcoidosis, we compared the surface phenotype of alveolar macrophages from patients with sarcoidosis and from normal individuals by using monoclonal antibodies (63D3, OKM1, M phi P-9, M phi S-1, 61D3, and M phi S-39) that detect surface antigens on cells of monocyte/macrophage lineage. Although almost all blood monocytes expressed surface antigens detected by each of these antibodies, only a minority of normal alveolar macrophages expressed the same surface antigens (p less than 0.05, each comparison). However, in sarcoidosis, the percentage of alveolar macrophages expressing these surface antigens was increased (p less than 0.05, each comparison with normal alveolar macrophages). Several findings supported the conclusion that the increased expression of these monocyte-lineage surface antigens on sarcoid alveolar macrophages resulted from increased recruitment of monocytes to the lung in sarcoidosis and not from abnormal "activation" of alveolar macrophages. First, alveolar macrophages expressing these antigens had an immature morphology. Second, in vitro cultivation of blood monocytes and alveolar macrophages in the presence of immune and inflammatory mediators, including mediators known to be present in the lung in sarcoidosis, did not prevent the loss of expression of monocyte-lineage surface antigens from monocytes or induce reexpression of monocyte-lineage surface antigens on alveolar macrophages. Third, the expression of monocyte-lineage surface antigens was only increased on sarcoid macrophages from patients whose lower respiratory tract contained an increased number of T lymphocytes, cells known to release monocyte chemotactic factor in sarcoidosis. Consistent with the knowledge that corticosteroids usually suppress the alveolitis of active sarcoidosis, when the expression of alveolar macrophage surface antigens was evaluated before and during therapy, the percentage of alveolar macrophages expressing monocyte-lineage surface antigens returned to normal after 1 to 3 mo of therapy.(ABSTRACT TRUNCATED AT 400 WORDS)     

The porcine 2A10 antigen is homologous to human CD163 and related to macrophage differentiation

The mAb 2A10 recognizes a 120-kDa protein with sequence homology to the human CD163 and whose expression is restricted to the cells of the porcine monocyte/macrophage lineage. While most of tissue macrophages express high levels of 2A10 Ag, bone marrow cells and a subset of blood monocytes are negative for this marker. The percentage of 2A10+ blood monocytes ranges between 5-50% depending on the donor. The phenotypic analysis indicates that these cells are more similar to mature macrophages than 2A10- monocytes. 2A10+ monocytes express higher levels of swine histocompatibility leukocyte Ag II, CD16, and the adhesion molecules very late Ag-4 (CD49d) and LFA-1 (CD11a) than 2A10- monocytes, while CD14 and SWC1 expression is lower. Both monocyte subsets also differ in their functional capabilities. 2A10+ monocytes induce a greater allogeneic response on T lymphocytes than 2A10- cells. LPS-stimulated 2A10+ and 2A10- monocytes both produce proinflammatory cytokines (TNF-alpha and IL-1alpha), but antiinflammatory IL-10 is only detected on the latter population. When 2A10- monocytes were cultured in medium containing pig serum, they acquired some phenotypic features of 2A10+ cells, expressing the 2A10 Ag. In contrast, when they were cultured in the presence of L929 supernatant as a source of GM-CSF, the 2A10 Ag expression remained low, scarcely increasing over basal levels. 2A10+ cells cultured with pig serum developed features that resemble monocyte-derived dendritic cells. These results indicate that 2A10+ monocytes could constitute a cell population in a more advanced maturation stage than 2A10- circulating monocytes.     

PPARgamma activation primes human monocytes into alternative M2 macrophages with anti-inflammatory properties

Th1 cytokines promote monocyte differentiation into proatherogenic M1 macrophages, while Th2 cytokines lead to an "alternative" anti-inflammatory M2 macrophage phenotype. Here we show that in human atherosclerotic lesions, the expression of M2 markers and PPARgamma, a nuclear receptor controlling macrophage inflammation, correlate positively. Moreover, PPARgamma activation primes primary human monocytes into M2 differentiation, resulting in a more pronounced anti-inflammatory activity in M1 macrophages. However, PPARgamma activation does not influence M2 marker expression in resting or M1 macrophages, nor does PPARgamma agonist treatment influence the expression of M2 markers in atherosclerotic lesions, indicating that only native monocytes can be primed by PPARgamma activation to an enhanced M2 phenotype. Furthermore, PPARgamma activation significantly increases expression of the M2 marker MR in circulating peripheral blood mononuclear cells. These data demonstrate that PPARgamma activation skews human monocytes toward an anti-inflammatory M2 phenotype.     

Infection of monocytes/macrophages by HIV in vitro

Because of the very important role of the mononuclear phagocyte system in the immunopathogenesis of HIV infection, a culture system for in vitro studies of infection of monocytes/macrophages with HIV was developed. A method is described for the infection of human monocytes/macrophages cultured on hydrophobic membranes (Teflon) with different strains of HIV. The HIV isolates can be characterized according to their replication potential on monocyte/macrophages cultures. The biological properties of some HIV1 and HIV2 isolates are compared in lymphocyte and monocyte/macrophage cultures.     

Colony-stimulating factor-induced monocyte survival and differentiation into macrophages in serum-free cultures

The role of mononuclear phagocyte-specific colony-stimulating factor (CSF-1) in human monocyte to macrophage differentiation was investigated. The addition of 1000 U/ml of CSF-1 to serum-free monocyte cultures resulted in monocyte survival comparable to that in cultures containing 5% AB serum, whereas cells in serum- and CSF-1-free medium lost their viability in 3 to 5 days. The requirement for CSF-1 coincided with the time (40 to 64 hr of culture) when the major changes in morphology and biochemical function took place in monocytes undergoing differentiation into macrophages. If CSF-1 was removed from the cultures before this time, death of the monocytes resulted. In cultures containing CSF-1, as in serum containing cultures, the lysosomal enzyme acid phosphatase was enhanced 10- to 20-fold by day 4 to 5. Superoxide production in response to phorbol myristic acetate was maintained in CSF-1 cultured monocytes, but declined with time in monocytes cultured in serum. The expression of monocyte-macrophage antigens p150.95 (LeuM5), OKM1, LeuM3, Fc receptors (32.2), and HLA-DR had increased in CSF-1 containing cultures at day 4. When antigen expression was analyzed at day 2 to 3, when cell size and 90 degrees scatter characteristics were still identical to control serum-free cultures, only p150.95, HLA-DR and FcR expression were enhanced by CSF-1. Low amounts of lipopolysaccharide (0.1 ng/ml) were found to enhance monocyte survival in the absence of added CSF-1. Lipopolysaccharide-containing cultures were found to produce CSF-1 (up to 450 U/ml, as detected by radioimmunoassay). Lipopolysaccharide (1 microgram/ml), however, did not induce enhanced expression of the maturation-related antigens. Based on these observations we conclude that CSF-1 is enhancing human monocyte survival and is involved in the events leading to the differentiation of monocytes into macrophages.     

Leptin requires canonical migratory signaling pathways for induction of monocyte and macrophage chemotaxis

The growing worldwide obesity epidemic is frequently linked to an increased risk of developing diseases such as diabetes, cardiovascular disease, and cancer. These diseases are associated with the infiltration of macrophages in white adipose tissue (WAT), the artery wall, and tumors, respectively; and these macrophages likely contribute to disease progression and pathogenesis. Abdominal WAT, adipose tissue surrounding the heart and artery wall, as well as carcinoma cells, secrete many factors that could induce macrophage infiltration. Leptin is an adipocyte-secreted hormone, and deficiency of either leptin or its receptor has been shown to cause morbid obesity in animals and in humans. However, what is more commonly noted in human obesity is the presence of central leptin resistance leading to hyperleptinemia. As leptin receptors are present on macrophages, we hypothesized that leptin could act as a monocyte/macrophage chemoattractant. Our current study demonstrates: 1) leptin is a potent chemoattractant for monocytes and macrophages, inducing maximal chemotactic responses at 1 ng/ml; 2) leptin-mediated chemotaxis requires the presence of full-length leptin receptors on migrating cells; 3) leptin causes increased influx of intracellular calcium in macrophages; and 4) activation of janus kinase/signal transducers and activators of transduction (JAK/STAT), mitogen-activated protein kinase (MAPK), and phosphatidylinositol 3-kinase (PI3K) pathways are all necessary for leptin-induced macrophage migration. Taken together, these data demonstrate that leptin is a potent monocyte/macrophage chemoattractant in vitro and that canonical cell motility machinery is activated upon macrophage exposure to leptin. These data have implications for the impact of hyperleptinemia on obesity-related pathophysiological conditions such as diabetes, cardiovascular disease, and cancer.     

In vitro alteration of macrophage phenotype and function by serum lipids

Diabetes (type I and type II) affects approximately 13 million people in the United States. Delayed and incomplete healing of wounds can be a major problem for diabetic patients. Macrophages are an important cell in the complex process of wound repair representing the major source of cytokines throughout the wound-healing process. Cytokines mediate many of the cellular responses critical to timely wound repair. It has been suggested that diabetes impairs wound healing through disruption of local cytokine production. Our previous in vivo studies in rats demonstrated that diabetes-induced and diet-induced hyperlipidemia cause changes in macrophage phenotype and function (Iacopino 1995; Doxey et al. 1998), suggesting that alterations in macrophage cytokine profiles represent the cellular/molecular mechanism responsible for delayed wound healing. The purpose of this study was to investigate how monocyte maturation/differentiation and cytokine production were altered by serum lipids in an in vitro system using human cells. Commercially prepared purified human monocytes were cultured and exposed to serum lipids. Phenotypic analysis of differentiated macrophages was then performed by flow cytometry and fluorescent microscopy using surface antigens specific for various macrophage subsets. Selected cytokines in conditioned medium were assayed using commercial human enzyme-linked immunosorbent assay (ELISA) kits. We demonstrate that serum lipids cause an increase in monocytic differentiation leading to an inflammatory macrophage phenotype rather than a reparative/proliferative phenotype. We also show that serum lipids cause a generalized decrease in macrophage cytokine production using interleukin-1 beta (IL-1β), tumor necrosis factor alpha (TNF-α), platelet-derived growth factor (PDGF), and transforming growth factor beta 1 (TGF-β1) as marker cytokines. Our present in vitro results using human cells confirm our previous in vivo studies in the rat and support the hypothesis that diabetes-induced hyperlipidemia alters the monocyte differentiation process resulting in changes of macrophage subsets and cytokine release at the wound site, ultimately impairing the wound-healing process. Received: 11 August 1998 / Accepted: 19 October 1998     

A monoclonal antibody to a differentiation antigen present on mature human macrophages and absent from monocytes

A monoclonal antibody is described that has been generated in the mouse against cultured human blood monocytes/macrophages. The antibody, designated 25F9, belongs to the IgG1 subclass, detects antigens of m.w. 86,000, and does not react with freshly isolated blood monocytes but reacts with monocytes after 3 days of culture. The expression of the 25F9 antigen on macrophages increases with culture time. Furthermore, the antibody is negative on platelets, granulocytes, lymphocytes, and a large number of human cell lines except the two melanoma lines MeWo and Mel 57. In cryostat sections of normal human tissue (skin, lung, liver, thymus) and of inflammatory or neoplastic tissue (cutaneous lymphoma, eczema, BCG-granuloma, and melanoma), the antibody reacts with scattered macrophages in the dermis but not with epidermal Langerhans cells, with alveolar macrophages, with liver Kupffer cells, and with scattered macrophages in the cortex and medulla of thymus. In eczema, BCG-granuloma, and cutaneous lymphoma, only a few infiltrating macrophages were stained. On the other hand, a large number of macrophages and melanophages reacted positively in melanoma. In some cases melanoma cells also stained weakly positive. Thus, the antibody detects a differentiation antigen preferentially expressed on mature, tissue-fixed macrophages and absent from blood monocytes.     

Neuroinvasion of fluorescein-positive monocytes in acute simian immunodeficiency virus infection

Monocytes and macrophages play a central role in the pathogenesis of human immunodeficiency virus (HIV)-associated dementia. They represent prominent targets for HIV infection and are thought to facilitate viral neuroinvasion and neuroinflammatory processes. However, many aspects regarding monocyte brain recruitment in HIV infection remain undefined. The nonhuman primate model of AIDS is uniquely suited for examination of the role of monocytes in the pathogenesis of AIDS-associated encephalitis. Nevertheless, an approach to monitor cell migration from peripheral blood into the central nervous system (CNS) in primates had been lacking. Here, upon autologous transfer of fluorescein dye-labeled leukocytes, we demonstrate the trafficking of dye-positive monocytes into the choroid plexus stromata and perivascular spaces in the cerebra of rhesus macaques acutely infected with simian immunodeficiency virus between days 12 and 14 postinfection (p.i.). Dye-positive cells that had migrated expressed the monocyte activation marker CD16 and the macrophage marker CD68. Monocyte neuroinvasion coincided with the presence of the virus in brain tissue and cerebrospinal fluid and with the induction of the proinflammatory mediators CXCL9/MIG and CCL2/MCP-1 in the CNS. Prior to neuroinfiltration, plasma viral load levels peaked on day 11 p.i. Furthermore, the numbers of peripheral blood monocytes rapidly increased between days 4 and 8 p.i., and circulating monocytes exhibited increased functional capacity to produce CCL2/MCP-1. Our findings demonstrate acute monocyte brain infiltration in an animal model of AIDS. Such studies facilitate future examinations of the migratory profile of CNS-homing monocytes, the role of monocytes in virus import into the brain, and the disruption of blood-cerebrospinal fluid and blood-brain barrier functions in primates.     

Human cytomegalovirus productively infects primary differentiated macrophages.

Monocytes are one of the predominant cell types in the peripheral blood that are infected by human cytomegalovirus (HCMV). Although virus can be detected in these cells in vivo, HCMV replication in cultured monocytes has been unsuccessful. In this study, we demonstrate efficient HCMV replication in cultured monocytes. HCMV permissiveness in these cells was dependent on nonadherent cell-induced stimulation of the monocyte, with subsequent morphological differentiation into macrophages. Approximately 40% of the cells infected by virus were detected by immunofluorescent staining with both immediate-early and late antibodies. In addition, viral plaque assays demonstrated significant productive infection of macrophages. These observations are consistent with the suggestion that the monocyte/macrophage serves as a source of viral amplification and dissemination.     

Monocyte procollagenase and tissue inhibitor of metalloproteinases. Identification, characterization, and regulation of secretion

Alveolar macrophages have been shown to secrete a procollagenase and the tissue inhibitor of metalloproteinases (TIMP), which are similar or identical to the corresponding proteins of human skin fibroblasts. Little is known, however, about the collagenolytic activity of normal human monocytes. We have applied immunologic, biochemical, and molecular biologic tools to examine the collagenolytic profile of freshly isolated peripheral blood monocytes. Our studies indicate that: 1) monocytes are capable of producing both procollagenase and TIMP that are identical to the corresponding products of skin fibroblasts, alveolar macrophages, and U-937 cells; 2) unstimulated monocytes in vitro secrete high levels of TIMP, but little or no procollagenase; 3) an as yet unidentified component(s) of serum are required for in vitro production of TIMP (but not procollagenase) by monocytes; 4) even when stimulated, monocytes secrete much smaller quantities of procollagenase in comparison with macrophages; and 5) regulation of the secretion of procollagenase and TIMP by monocytes exhibits a high degree of individual variability, but is nevertheless subject to clearly different control mechanisms than our previous findings would indicate for alveolar macrophages. Monocytes thus express a macrophage-like, rather than a neutrophil-like, profile of proteins capable of mediating collagen turnover, the regulation of which is distinct from that of more differentiated alveolar macrophages. Further study of monocyte and macrophage collagenolytic activities may provide insights into both the cell biology of mononuclear phagocyte maturation and the mechanisms by which such cells mediate the turnover of interstitial collagens.