Myxoma virus M141R expresses a viral CD200 (vOX-2) that is responsible for down-regulation of macrophage and T-cell activation in vivo

M141R is a myxoma virus gene that encodes a cell surface protein with significant amino acid similarity to the family of cellular CD200 (OX-2) proteins implicated in the regulation of myeloid lineage cell activation. The creation of an M141R deletion mutant myxoma virus strain (vMyx141KO) and its subsequent infection of European rabbits demonstrated that M141R is required for the full development of a lethal infection in vivo but is not required for efficient virus replication in susceptible cell lines in vitro. Minor secondary sites of infection were detected in the majority of rabbits infected with the M141R deletion mutant, demonstrating that the M141R protein is not required for the dissemination of virus within the host. When compared to wild-type myxoma virus-infected rabbits, vMyx141KO-infected rabbits showed higher activation levels of both monocytes/macrophages and lymphocytes in situ through assessments of inducible nitric oxide synthase-positive and CD25(+) infiltrating cells in infected and lymphoid tissues. Purified peripheral blood mononuclear cells from vMyx141KO-infected rabbits demonstrated an increased ability to express gamma interferon upon activation by phorbol myristate acetate plus ionomycin compared to cells purified from wild-type myxoma virus-infected rabbits. We concluded that the M141R protein is a bona fide CD200-like immunomodulator protein which is required for the full pathogenesis of myxoma virus in the European rabbit and that its loss from the virus results in increased activation levels of macrophages in infected lesions and draining lymph nodes as well as an increased activation level of circulating T lymphocytes during infection. We propose a model whereby M141R transmits inhibitory signals to tissue macrophages, and possibly resident CD200R(+) dendritic cells, that reduce their ability to antigenically prime lymphocytes and possibly provides anergic signals to T cells directly.     

A small hairpin RNA targeting myeloid cell leukemia-1 enhances apoptosis in host macrophages infected with <Emphasis Type="Italic">Mycobacterium tuberculosis</Emphasis>

Myeloid cell leukemia-1 (Mcl-1) plays an important role in various cell survival pathways. Some studies indicated that the expression of Mcl-1 was upregulated in host cells during infection with the virulent Mycobacterium tuberculosis strain, H37Rv. The present study was designed to investigate the effect of inhibiting Mcl-1 expression both in vivo and in vitro on apoptosis of host macrophages infected with M. tuberculosis using a small hairpin (sh)RNA. Mcl-1 expression was detected by the real time-polymerase chain reaction, western blotting, and immunohistochemistry. Flow cytometry and transmission electron microscopy were used to measure host macrophage apoptosis. We found elevated Mcl-1 levels in host macrophages infected with M. tuberculosis H37Rv. The expression of Mcl-1 was downregulated efficiently in H37Rv-infected host macrophages using shRNA. Knockdown of Mcl-1 enhanced the extent of apoptosis in H37Rv-infected host macrophages significantly. The increased apoptosis correlated with a decrease in M. tuberculosis colony forming units recovered from H37Rv-infected cells that were treated with Mcl-1-shRNA. Reducing Mcl-1 accumulation by shRNA also reduced accumulation of the anti-apoptotic gene, Bcl-2, and increased expression of the pro-apoptotic gene, Bax, in H37Rv-infected host macrophages. Our results showed that specific knockdown of Mcl-1 expression increased apoptosis of host macrophages significantly and decreased the intracellular survival of a virulent strain of M. tuberculosis. These data indicate that interference with Mcl-1 expression may provide a new avenue for tuberculosis therapy.     

Bronchopulmonary macrophage activation in the pathogenesis of hypersensitivity pneumonitis

Repeated intratracheal (IT) inoculation of rabbits with a homogenized, saline suspension of Micropolspora faeni produced bronchopulmonary (BP) histologic lesions resembling those of human hypersensitivity pneumonitis. With an in vitro phagocytic and bactericidal assay, an analysis of BP macrophages from M. faeni-injected rabbits demonstrated activation at both 2 and 4 weeks after the initiation of immunization. No BP macrophage activation was observed in immunized rabbits 6 weeks post-inoculation. BP macrophage activation was capable of recall after 6 weeks in M. faeni-sensitized animals that received a booster IT injection (2 mg) that did not activate "normal" alveolar wash cells. This recall of BP macrophage activation was accompanied by both a marked migration of mononuclear cells into the lung and positive delayed hypersensitivity skin reactions after intradermal injection of M. faeni antigen. Pulmonary histologic examination of sensitized, boosted rabbits suggested an enhanced cellular parenchymal infiltrate when compared with appropriate controls. The above observations confirm the occurrence of immunologically activated BP macrophages in rabbits inoculated witn M. faeni via the respiratory tract route and suggest a correlation between macrophage activation and histopathology.     

Study of the functional activity of the macrophages of animals immunized with staphylococcal alpha-anatoxin]

A study was made by histochemical methods of the activity of the enzymatic systems of macrophages from normal rabbits and those immunized with staphylococcus alpha-toxoid per se and infected with the strains of staphylococcus--producers of alpha-toxin or leukocydin. Immunization of rabbits was accompanied by a reduction in macrophages of the activity of the group of lysosomal enzymes and by an increase in the activity of the redox enzymes. In infection of "immune" macrophages with the living culture of the alpha-toxigenic strains the mentioned changes were more pronounced; no such changes were found after the infection with the leukocydin-active strain. The data obtained suggested that the lysosomal enzymes played a definite role in the process of phagocytosis.     

肥胖与脂肪组织巨噬细胞的研究进展

肥胖被认为是一种慢性促炎症疾病。近年来巨噬细胞在肥胖的发生过程中起的重要作用越来越被研究者们所重视。研究发现脂肪组织巨噬细胞(ATMs)的极化和招募在肥胖的发生过程中扮演着重要角色:在肥胖的脂肪组织中,巨噬细胞M1/M2的比例出现失衡即M1促炎巨噬细胞比例上调M2抑炎巨噬细胞比例下调导致脂肪组织慢性炎症;脂肪组织的局部炎症发生时周边组织巨噬细胞招募至脂肪组织也能够促进肥胖的发展进程。本文就肥胖的发生与脂肪组织巨噬细胞的极化和招募的关系作一综述。     

Replication of Murine Cytomegalovirus in Differentiated Macrophages as a Determinant of Viral Pathogenesis

Blood monocytes or tissue macrophages play a pivotal role in the pathogenesis of murine cytomegalovirus (MCMV) infection, providing functions beneficial to both the virus and the host. In vitro and in vivo studies have indicated that differentiated macrophages support MCMV replication, are target cells for MCMV infection within tissues, and harbor latent MCMV DNA. However, this cell type presumably initiates early, antiviral immune responses as well. In addressing this paradoxical role of macrophages, we provide evidence that the proficiency of MCMV replication in macrophages positively correlates with virulence in vivo. An MCMV mutant from which the open reading frames M139, M140, and M141 had been deleted (RV10) was defective in its ability to replicate in macrophages in vitro and was highly attenuated for growth in vivo. However, depletion of splenic macrophages significantly enhanced, rather than deterred, replication of both wild-type (WT) virus and RV10 in the spleen. The ability of RV10 to replicate in intact or macrophage-depleted spleens was independent of cytokine production, as this mutant virus was a poor inducer of cytokines compared to WT virus in both intact organs and macrophage-depleted organs. Macrophages were, however, a major contributor to the production of tumor necrosis factor alpha and gamma interferon in response to WT virus infection. Thus, the data indicate that tissue macrophages serve a net protective role and may function as "filters" in protecting other highly permissive cell types from MCMV infection. The magnitude of virus replication in tissue macrophages may dictate the amount of virus accessible to the other cells. Concomitantly, infection of this cell type initiates the production of antiviral immune responses to guarantee efficient clearance of acute MCMV infection.     

The dependence of the functional activity of "immune" macrophages on T-cells

The dependence of the functional activity of the peritoneal macrophages of mice immunized with Francisella tularensis vaccine strain on the presence of T-cells in the culture has been studied. The elimination of "immune" macrophages and sensitized T-lymphocytes by means of anti-Thy-1-2-serum has been shown to lead to a sharp decrease in both ingestive and digestive functions of the phagocytic mononuclears of peritoneal exudate to the level of the activity of macrophages isolated from intact animals.     

Intimal lining layer macrophages but not synovial sublining macrophages display an IL-10 polarized-like phenotype in chronic synovitis

Introduction

Synovial tissue macrophages play a key role in chronic inflammatory arthritis, but the contribution of different macrophage subsets in this process remains largely unknown. The main in vitro polarized macrophage subsets are classically (M1) and alternatively (M2) activated macrophages, the latter comprising interleukin (IL)-4 and IL-10 polarized cells. Here, we aimed to evaluate the polarization status of synovial macrophages in spondyloarthritis (SpA) and rheumatoid arthritis (RA).

Methods

Expression of polarization markers on synovial macrophages, peripheral blood monocytes, and in vitro polarized monocyte-derived macrophages from SpA versus RA patients was assessed by immunohistochemistry and flow cytometry, respectively. The polarization status of the intimal lining layer and the synovial sublining macrophages was assessed by double immunofluorescence staining.

Results

The expression of the IL-10 polarization marker cluster of differentiation 163 (CD163) was increased in SpA compared with RA intimal lining layer, but no differences were found in other M1 and M2 markers between the diseases. Furthermore, no significant phenotypic differences in monocytes and in vitro polarized monocyte-derived macrophages were seen between SpA, RA, and healthy controls, indicating that the differential CD163 expression does not reflect a preferential M2 polarization in SpA. More detailed analysis of intimal lining layer macrophages revealed a strong co-expression of the IL-10 polarization markers CD163 and cluster of differentiation 32 (CD32) but not any of the other markers in both SpA and RA. In contrast, synovial sublining macrophages had a more heterogeneous phenotype, with a majority of cells co-expressing M1 and M2 markers.

Conclusions

The intimal lining layer but not synovial sublining macrophages display an IL-10 polarized-like phenotype, with increased CD163 expression in SpA versus RA synovitis. These differences in the distribution of the polarized macrophage subset may contribute to the outcome of chronic synovitis.     

Characterization of "abp38" in cytoskeleton of mouse myeloid leukemia cells and distribution of abp38 in various tissues

A specific antibody was prepared against "abp38," a 38 kDa-dimer protein purified from mouse myeloid leukemia cells (M1 cells), that induce gelation of actin filaments in a K+-dependent manner. Immunochemically, the total content of abp38 in undifferentiated M1 cells was found to be 0.89% of the total protein (10.7 micrograms/10(7) cells). This content increased about 8-fold (89.5 micrograms/10(7) cells) after the M1 cells had differentiated into macrophages. When the cells before differentiation were extracted with Triton solution containing 150 mM KCl, almost all abp38 in the cytoskeleton was removed, whereas in cells after differentiation, amount of abp38 remaining in the cytoskeleton was 4.5 micrograms per 10(7) cells. The amount of cytoskeleton-bound abp38 of M1 cells and mouse peritoneal macrophages decreased with increase in K+ concentration in the extraction solution. Immunoreactive molecules against abp38 antibody were present in various tissues and cultured cell lines except for skeletal muscle and erythrocytes. Furthermore, actin binding protein with a molecular size of 38 kDa was found in bovine brain. These data suggest that abp38 is a ubiquitous protein present in various tissues and species.     

Alternative Activation of Macrophages in Rhesus Macaques (Macaca mulatta) with Endometriosis

Endometriosis is one of the most frequently encountered gynecologic diseases and a common cause of chronic pelvic pain and infertility. The pathophysiology of this syndrome can best be described as the presence of ectopic endometrium and a pelvic inflammatory process with associated immune dysfunction and alteration in the peritoneal environment. Macrophages play an important role in the progression and propagation of endometriosis. Alternative macrophage activation occurs in rodents and women with endometriosis but had not been examined previously in nonhuman primates. This case–control study aimed to characterize macrophage polarization in the ectopic and eutopic endometrial tissue of nonhuman primates with and without endometriosis. In addition, circulating cytokines in endometriosis cases and normal controls were investigated in an effort to identify serum factors that contribute to or result from macrophage polarization. Endometriosis lesions demonstrated increased infiltration by macrophages polarized toward the M2 phenotype when compared with healthy control endometrium. No serum cytokine trends consistent with alternative macrophage activation were identified. However, serum transforming growth factor α was elevated in macaques with endometriosis compared with healthy controls. Findings indicated that the activation state of macrophages in endometriosis tissue in nonhuman primates is weighted toward the M2 phenotype. This important finding enables rhesus macaques to serve as an animal model to investigate the contribution of macrophage polarization to the pathophysiology of endometriosis.Abbreviations: HLA, human leukocyte antigen; Iba1, ionized calcium binding adaptor molecule 1; M1, classically activated macrophage; M2, alternatively activated macrophage; sCD40L, soluble cluster of differentiation 40 ligand; TGF, transforming growth factor; VEGF, vascular endothelial growth factorEndometriosis is a common cause of chronic pelvic pain and infertility and affects more than 5.5 million women in North America alone.⁴¹ Although endometriosis is one of the most frequently encountered gynecologic health problems among women of reproductive age, the pathophysiology of this disease remains elusive due to its complexity and multifactorial etiology. The presence of functional endometrial glands and stroma outside the uterine cavity defines endometriosis. Currently, the most widely accepted theory for the origin of ectopic endometrial tissue is a combined effect of retrograde menstruation and associated implantation of endometrial fragments at an ectopic site. Progression of endometriosis lesions is thought to then be supported by peritoneal factors that allow cell adhesion and growth.⁴⁴ Although endometriosis is not a neoplastic disease, it exhibits aggressive features such as cellular proliferation, invasion, and vascular proliferation.¹² Strong evidence indicates that endometriosis involves a pelvic inflammatory process, with immune dysfunction and alteration in the peritoneal environment.^13,27 Numerous studies have demonstrated marked increases in macrophage populations and activity in the peritoneum of endometriosis patients.^6,54,59 Although macrophages are integral to homeostasis of the peritoneal environment, during endometriosis they mediate inflammation and facilitate the establishment and maintenance of the disease.Macrophages can be classified into 2 main populations: classically activated macrophages (M1), whose activating stimuli include IFNγ and LPS, and alternatively activated macrophages (M2), whose activating stimuli includes IL4, IL13, IL10, and transforming growth factor (TGF) β.⁵⁵ These polar phenotypes are not expressed together, but the activation state of tissue macrophages can change over time. This phenotypic switch is possible because macrophages retain plasticity, resulting in macrophage polarization that is transient and reversible.⁴⁰ A key component in determining the phenotype of the differentially activated macrophage is their response to microenvironmental signals, and this response allows for expression of a spectrum ranging from the M1 to M2 extremes.⁵¹ M1- and M2-activated macrophages perform different functions by producing pro- or antiinflammatory factors. M1 macrophages have enhanced endocytic functions and an enhanced ability to kill intracellular pathogens; they also secrete large amounts of proinflammatory cytokines such as IL1α, IL6, IL12, and TNFα.⁷ In contrast, M2 macrophages are involved in resolution of inflammation and promotion of tissue repair, and they secrete antiinflammatory and immunosuppressive cytokines including IL10 and TGFβ.³² M2 cells also express proangiogenic factors, such as coagulation factor XIII and vascular endothelial growth factor (VEGF) and have been associated with a high degree of vascularization in vivo.¹ The pathogenesis of endometriosis is therefore a likely combination of inappropriate or sustained polarization, leading to tissue damage (increased M1 response) and immune dysfunction (increased M2 response) and allowing for persistence of ectopic endometrial tissue.The use of animal models in endometriosis research is crucial. Work done with rodents involves the study of induced disease.⁵³ Despite this caveat, rodent models have been the basis for important contributions. Global macrophage depletion in a rat model of endometriosis effectively inhibits the initiation and growth of endometriosis implants.¹⁵ Attenuation of endometriosis has recently also been demonstrated in a mouse model of endometriosis.⁴ In that study, systemic depletion of macrophages was associated with failure of endometrial lesion development and defective angiogenesis of established lesions. Further evaluation of specific roles of differentially activated macrophages in that study⁴ showed that adoptive transfer of alternatively activated macrophages (M2) was associated with enhanced endometriosis progression. Conversely, adoptive transfer of inflammatory macrophages (M1) was associated with abrogated progression. In addition to evaluating murine lesions, the authors of the cited study⁴ investigated markers for alternative macrophage activation in women with endometriosis and matched controls which revealed increased expression of CD163 and CD206 (2 markers of M2 polarized macrophages) in endometriosis lesions as compared with disease-free peritoneum. Although many studies have been published about the pivotal role of macrophages in the pathophysiology of endometriosis, only a few have dealt with activation of the M1 and M2 macrophage phenotypes.^4,57 Furthermore, few studies have examined tissue infiltration of macrophages in eutopic endometrium of human subjects with endometriosis.^6,23 An exhaustive literature search failed to identify studies that investigate the role of M1 and M2 macrophage populations in eutopic endometrium.The current study uses rhesus macaques, which have been studied extensively in reproductive medicine.⁵⁸ Because spontaneous development of the disease requires menstrual shedding, endometriosis occurs naturally only in some nonhuman primate species, making development of lesions more comparable to the establishment of disease in humans.¹⁴ Compared with rodents, the nonhuman primate model of endometriosis is advantageous due to a close recapitulation of human disease and physiology. Work characterizing M1 and M2 macrophage activation in a species with spontaneous disease development may reflect a closer immunologic characterization to humans. In the current study, macrophage populations were evaluated in archival tissue collected from rhesus macaques with a diagnosis of endometriosis as confirmed by histologic examination. To characterize the phenotype of endometrial tissue macrophages in ectopic endometriosis lesions and eutopic endometrium of both cases and controls, immunohistochemistry was used to quantify cells expressing M1- and M2-specific markers. We hypothesized that endometriosis lesions and eutopic endometrium of rhesus macaques would be associated with a polarized macrophage infiltration consisting of increased numbers of M2 macrophages. This increase in M2 response may cause reduced immune clearance of ectopic endometrial cells, facilitating their implantation and growth. Further we speculated that M2 polarization would be associated with increased serum cytokines including IL10 and VEGF and decreased production of IL6, IL12, and TNFα. The lack of findings that support our hypotheses may suggest that the micro- or peritoneal environment is more important for lesion development or that another component of the systemic milieu is the determining factor in the development of endometriosis.     

Overexpression of IL-10 in C2D Macrophages Promotes a Macrophage Phenotypic Switch in Adipose Tissue Environments

Adipose tissue macrophages are a heterogeneous collection of classically activated (M1) and alternatively activated (M2) macrophages. Interleukin 10 (IL-10) is an anti-inflammatory cytokine, secreted by a variety of cell types including M2 macrophages. We generated a macrophage cell line stably overexpressing IL-10 (C2D-IL10) and analyzed the C2D-IL10 cells for several macrophage markers after exposure to adipocytes compared to C2D cells transfected with an empty vector (C2D-vector). C2D-IL10 macrophage cells expressed more CD206 when co-cultured with adipocytes than C2D-vector cells; while the co-cultured cell mixture also expressed higher levels of Il4, Il10, Il1β and Tnf. Since regular C2D cells traffic to adipose tissue after adoptive transfer, we explored the impact of constitutive IL-10 expression on C2D-IL10 macrophages in adipose tissue in vivo. Adipose tissue-isolated C2D-IL10 cells increased the percentage of CD206⁺, CD301⁺, CD11c⁻CD206⁺ (M2) and CD11c⁺CD206⁺ (M1b) on their cell surface, compared to isolated C2D-vector cells. These data suggest that the expression of IL-10 remains stable, alters the C2D-IL10 macrophage cell surface phenotype and may play a role in regulating macrophage interactions with the adipose tissue.     

Pathogenic Mycobacterium bovis strains differ in their ability to modulate the proinflammatory activation phenotype of macrophages

ABSTRACT: BACKGROUND: Tuberculosis, caused by Mycobacterium tuberculosis or Mycobacterium bovis, remains one of the leading infectious diseases worldwide. The ability of mycobacteria to rapidly grow in host macrophages is a factor contributing to enhanced virulence of the bacteria and disease progression. Bactericidal functions of phagocytes are strictly dependent on activation status of these cells, regulated by the infecting agent and cytokines. Pathogenic mycobacteria can survive the hostile environment of the phagosome through interference with activation of bactericidal responses. To study the mechanisms employed by highly virulent mycobacteria to promote their intracellular survival, we investigated modulating effects of two pathogenic M. bovis isolates and a reference M. tuberculosis H37Rv strain, differing in their ability to multiply in macrophages, on activation phenotypes of the cells primed with major cytokines regulating proinflammatory macrophage activity. RESULTS: Bone marrow- derived macrophages obtained from C57BL/6 mice were infected by mycobacteria after a period of cell incubation with or without treatment with IFN-gamma, inducing proinflammatory type-1 macrophages (M1), or IL-10, inducing anti-inflammatory type-2 cells (M2). Phenotypic profiling of M1 and M2 was then evaluated. The M. bovis strain MP287/03 was able to grow more efficiently in the untreated macrophages, compared with the strains B2 or H37Rv. This strain induced weaker secretion of proinflammatory cytokines, coinciding with higher expression of M2 cell markers, mannose receptor (MR) and arginase-1 (Arg-1). Treatment of macrophages with IFN-gamma and infection by the strains B2 and H37Rv synergistically induced M1 polarization, leading to high levels of inducible nitric oxide synthase (iNOS) expression, and reduced expression of the Arg-1. In contrast, the cells infected with the strain MP287/03 expressed high levels of Arg-1 which competed with iNOS for the common substrate arginine, leading to lower levels of NO production. CONCLUSIONS: The data obtained demonstrated that the strain, characterized by increased growth in macrophages, down- modulated classical macrophage activation, through induction of an atypical mixed M1/M2 phenotype.     

Changes in virulence, M protein and IgG Fc receptor activity in a type 12 group A streptococcal strain during mouse passages

A type 12 group A strain (1800) was passaged serially through mice 25 times. The ability to servive in normal human blood dropped from a growth index of 52 after the first passage to 1 after four passages. After 14 passages the growth index increased again and stabilized above 30. The virulence for mice increased from a LD100 of 10(8) colony forming units (CFU) to 10-100 CFU after 7 passages and then remained constant. The Mqw antigen disappeared after 4 passages as tested by immunodiffusion, electroimmunoassay and indirect bactericidal tests. Three antisera, raised in rabbits against strains originally belonging to types M3, M12 and M46 but devoid of type antigens after mouse passages showed high bactericidal indices against the 1800 strain after 14 or more passages on mice. Anti-type M1 serum was also found bactericidal for the passaged strains. The IgG Fc-receptor activity of the strain isolated after each mouse passage was tested in hemagglutination experiments with human red blood cells coated with "incomplete" anti-Rh and hot hydrochloric acid extracts of the strains. The capacity to agglutinate "Ripley"-coated cells increased gradually during the first 12 passages and subsequently the titres of the extracts stabilized between 1:160 and 1:320. The HUN coat, useful for detection of the G3m (5) maraker gave titraes increasing with the number of passages while the titres for IgG1 coats kept at 1:4 or below. On background of these results, the possible role of the IgG Fc-receptor as a virulence factor is discussed.     

Serum Amyloid P Therapeutically Attenuates Murine Bleomycin-Induced Pulmonary Fibrosis via Its Effects on Macrophages

Macrophages promote tissue remodeling but few mechanisms exist to modulate their activity during tissue fibrosis. Serum amyloid P (SAP), a member of the pentraxin family of proteins, signals through Fcγ receptors which are known to affect macrophage activation. We determined that IPF/UIP patients have increased protein levels of several alternatively activated pro-fibrotic (M2) macrophage-associated proteins in the lung and monocytes from these patients show skewing towards an M2 macrophage phenotype. SAP therapeutically inhibits established bleomycin-induced pulmonary fibrosis, when administered systemically or locally to the lungs. The reduction in aberrant collagen deposition was associated with a reduction in M2 macrophages in the lung and increased IP10/CXCL10. These data highlight the role of macrophages in fibrotic lung disease, and demonstrate a therapeutic action of SAP on macrophages which may extend to many fibrotic indications caused by over-exuberant pro-fibrotic macrophage responses.     

Tumor-associated macrophages in breast cancer: distinct subsets, distinct functions

Macrophages display remarkable plasticity, allowing these cells to adapt to changing microenvironments and perform functions as diverse as tissue development and homeostasis, inflammation, pathogen clearance and wound healing. Macrophage activation can be triggered by Th1 cytokines and pathogen-associated or endogenous danger signals, leading to the formation of classically activated or M1 macrophages. On the other hand, anti-inflammatory mediators, including IL-4, IL-10, TGF-β and M-CSF, induce diverse anti-inflammatory types of macrophages, known under the generic term M2. In human breast carcinomas, tumor-associated macrophage (TAM) density correlates with poor prognosis. In mouse models of breast cancer, eliminating macrophages from the tumor site, either via genetic or therapeutic means, results in retarded tumor progression. Over the years, multiple signals from the mammary tumor microenvironment have been reported to influence the TAM phenotype and TAM have been propagated as anti-inflammatory M2-like cells. Recent developments point to the existence of at least two distinct TAM subpopulations in mammary tumors, based on a differential expression of markers such as CD206 or MHC II and different in vivo behaviour: perivascular, migratory TAM which are less M2-like, and sessile TAM found at tumor-stroma borders and/or hypoxic regions that resemble more M2-like or "trophic" macrophages. Hence, a further refinement of the molecular and functional heterogeneity of TAM is an avenue for further research, with a potential impact on the usefulness of these cells as therapeutic targets.     

Surface hydrophobicity of "rheumatogenic" and "nephritogenic" strains of group A streptococci and the ultrastructural surface feature of pharyngeal cells exposed to group A streptococci.

The present study was carried out to determine the surface hydrophobicity of group A streptococcal strains responsible for rheumatic fever (RF), "rheumatogenic" strains (RG strains) and strains causing glomerulonephritis, "nephritogenic" strains (NG strains) in relation to their adhesion to human pharyngeal cells. Scanning electronmicroscopic (SEM) studies were carried out to the difference, if any, in the adherence of group A streptococci (M type 5) to pharyngeal and buccal cells (PEC and BEC). By employing two techniques for hydrophobicity determination, salt aggregation titre (SAT) and n-hexadecane binding technique, it was observed that RG strains (M5, M1 and M6) were more hydrophobic than NG strain, M49. However, NG strain M12 was almost equally as hydrophobic as RG strains. The adherence of RG strains, except M1 and M24, to PEC was greater in number than that of NG strains. Although M1 strain was hydrophobic, its adherence to PEC was less. Pepsin and trypsin treatment with streptococci reduced the hydrophobicity and adherence of RG and NG strains to PEC. SEM studies revealed firmly adhered indigenous bacteria on PEC and BEC. Streptococci (M5) adhered more to PEC than to BEC. SEM studies also showed that PEC had a peculiar ultrastructural surface feature to which streptococci adhered. These findings suggest that streptococcal hydrophobicity alone does not determine their adhesion to PEC. The surface nature of PEC might be a characteristic feature of the epithelial cells that allows streptococci to adhere and colonize or it might be a consequence of streptococcal adhesion.