Role of p38 mitogen-activated protein kinase phosphorylation and Fas-Fas ligand interaction in morphine-induced macrophage apoptosis

In this study, we evaluated the molecular mechanisms involved in morphine-induced macrophage apoptosis. Both morphine and TGF-beta promoted P38 mitogen-activated protein kinase (MAPK) phosphorylation, and this phosphorylation was inhibited by SB 202190 as well as by SB 203580. Anti-TGF-beta Ab as well as naltrexone (an opiate receptor antagonist) inhibited morphine-induced macrophage P38 MAPK phosphorylation. Anti-TGF-beta Ab also attenuated morphine-induced p53 as well as inducible NO synthase expression; in contrast, N(G)-nitro-L-arginine methyl ester, an inhibitor of NO synthase, inhibited morphine-induced P38 MAPK phosphorylation and Bax expression. Morphine also enhanced the expression of both Fas and Fas ligand (FasL), whereas anti-FasL Ab prevented morphine-induced macrophage apoptosis. Moreover, naltrexone inhibited morphine-induced FasL expression. In addition, macrophages either deficient in FasL or lacking p53 showed resistance to the effect of morphine. Inhibitors of both caspase-8 and caspase-9 partially prevented the apoptotic effect of morphine on macrophages. In addition, caspase-3 inhibitor prevented morphine-induced macrophage apoptosis. These findings suggest that morphine-induced macrophage apoptosis proceeds through opiate receptors via P38 MAPK phosphorylation. Both TGF-beta and inducible NO synthase play an important role in morphine-induced downstream signaling, which seems to activate proteins involved in both extrinsic (Fas and FasL) and intrinsic (p53 and Bax) cell death pathways.     

Transforming growth factor-beta 1 inhibits scavenger receptor activity in THP-1 human macrophages.

The macrophage scavenger receptor, a 220-kDa trimeric membrane glycoprotein, mediates the internalization of modified forms of low density lipoprotein (LDL) such as acetyl-LDL and oxidized-LDL and thus is likely to play a key role in atheroma macrophage foam cell formation. In addition, recent evidence suggests that the scavenger receptor may be an important macrophage binding site for lipopolysaccharide involved in lipopolysaccharide scavenging by macrophages. However, little is known about the regulation of this important receptor. We now report that the induction of scavenger receptor activity (as measured by acetyl-LDL stimulation of intracellular cholesterol esterification) seen in phorbol ester-differentiated THP-1 human macrophages was completely suppressed to the level seen in undifferentiated THP-1 monocytes by picomolar concentrations of transforming growth factor-beta 1 (TGF-beta 1). 125I-Acetyl-LDL degradation was inhibited in a dose-dependent manner by TGF-beta 1, with maximal inhibition (approximately 70%) occurring at 24 pM TGF-beta 1. Scatchard analysis revealed that TGF-beta 1 treatment resulted in a approximately 2-fold decrease in receptor number, and Northern blot analysis of RNA isolated from differentiated THP-1 macrophages demonstrated approximately 2-fold less scavenger receptor mRNA in TGF-beta 1-treated cells compared with that in macrophages not treated with TGF-beta 1. Since TGF-beta 1 is thought to be present in both atherosclerotic and inflammatory lesions, the above findings may have physiological relevance regarding the regulation of atheroma foam cell formation and/or the regulation of lipopolysaccharide clearance by macrophages.     

Down-regulation of miR-20a-5p triggers cell apoptosis to facilitate mycobacterial clearance through targeting JNK2 in human macrophages

Induction of cell apoptosis is one of the major host defense mechanisms through which macrophages control Mycobacterium tuberculosis (Mtb) infection. However, the mechanisms underlying macrophage apoptosis triggered by Mtb infection are still largely unknown. In this study, a microarray profiling survey revealed 14 miRNAs were down-regulated in CD14+ monocytes from active pulmonary tuberculosis patients, and only the reduction of miR-20a-5p could be reversed after successful anti-tuberculosis treatment. Validation of miR-20a-5p expression was confirmed using real time qPCR. Moreover, miR-20a-5p expression also decreased in differentiated THP-1 macrophages after mycobacterial infection in vitro. Functional assays through forced or inhibited expression of miR-20a-5p in THP-1 macrophages demonstrated that miR-20a-5p functioned as a negative regulator of mycobacterial-triggered apoptosis. Importantly, inhibition of miR-20a-5p expression resulted in more efficient mycobacterial clearance from infected THP-1 macrophages while miR-20a-5p overexpression promoted mycobacterial survival. Mechanistically, miR-20a-5p was demonstrated to regulate Bim expression in a JNK2-dependent manner, unlike Bcl2, and luciferase assay showed JNK2 was a novel direct target of miR-20a-5p. Together, our findings indicate that downregulation of miR-20a-5p triggers macrophage apoptosis as a novel mechanism for host defense against mycobacterial infection.     

Accelerated Fas-mediated apoptosis of monocytes and maturing macrophages from patients with systemic lupus erythematosus: relevance to in vitro impairment of interaction with iC3b-opsonized apoptotic cells.

Impaired handling of apoptotic cells has been suggested as an important factor in the development of systemic lupus erythematosus (SLE), and a role for complement in the removal of apoptotic cells was shown recently. We studied the in vitro function of macrophages from 40 patients with SLE and their matched controls in the removal of heterologous apoptotic cells opsonized by iC3b. Interaction index of apoptotic cells opsonized by iC3b was significantly lower in patients with SLE and averaged 71% +/- 37 of that of healthy individuals (p < 0.002) and 69% +/- 35 of patients with rheumatoid arthritis (p < 0.007). SLE patients had increased apoptosis of both freshly isolated monocytes (p < 0.001) and maturing macrophages (p < 0.04) that led to decreased density of monocyte-derived macrophages. Apoptosis was inhibited by adding soluble Fas receptor indicating Fas-mediated apoptosis. As demonstrated in both healthy controls and patients with SLE, decreased macrophage density by itself caused significant decreased uptake of apoptotic cells by the remaining macrophages. Maintaining normal density in SLE patients either by an increased initial density or by using soluble Fas restored the interaction capacity of the individual macrophages in the majority of patients. We concluded that impaired in vitro interaction of iC3b-opsonized apoptotic cells with macrophages from patients with SLE was mainly associated with Fas-dependent accelerated apoptosis of the monocytes/macrophages. Accelerated apoptosis of phagocytes may represent a novel in vitro mechanism of impairment of interaction with apoptotic cells that, apart from reducing the number of professional phagocytes, alters the function of the remaining macrophages.     

Decorin reverses the repressive effect of autocrine-produced TGF-beta on mouse macrophage activation

Several cytokines or growth factors induce macrophages to proliferate, become activated, differentiate, or die through apoptosis. Like the major macrophage activator IFN-gamma, the extracellular matrix protein decorin inhibits proliferation and protects macrophages from the induction of apoptosis. Decorin enhances the IFN-gamma-induced expression of the IAalpha and IAbeta MHC class II genes. Moreover, it increases the IFN-gamma- or LPS-induced expression of inducible NO synthase, TNF-alpha, IL-1beta, and IL-6 genes and the secretion of these cytokines. Using a number of extracellular matrix proteins, we found a negative correlation between adhesion and proliferation. However, the effects of decorin on macrophage activation do not seem to be mediated through its effect on adhesion or proliferation. Instead, this proteoglycan abolishes the binding of TGF-beta to macrophages, as shown by Scatchard analysis of (125)I-labeled TGF-beta, which, in the absence of decorin, showed a K(d) of 0.11 +/- 0.03 nM and approximately 5000 receptors/cell. This was confirmed when we treated macrophages with Abs to block the endogenously produced TGF-beta, which enhanced macrophage activation in a way similar to decorin. The increase in activation mediated by decorin demonstrates that macrophages are under negative regulation that can be reversed by proteins of the extracellular matrix.     

The influence of stress and methionine-enkephalin on macrophage functions in two inbred rat strains

The aim of our current study was to investigate the effect of acute exposure to electric tail shock stress (ES) and to a stress witnessing procedure (SW), as models for physical and psychological stress paradigms, respectively, on phagocytosis and H(2)O(2) production in peritoneal macrophages isolated from Albino Oxford (AO) and Dark Agouti (DA) rats. In addition, we studied the in vitro effects of methionine-enkephalin (ME) on phagocytosis and H(2)O(2) production in peritoneal macrophages isolated from both AO and DA rats that had been exposed to ES and SW procedures. The results showed that peritoneal macrophages isolated from DA rats were less sensitive to the suppressive effects of ES and SW than macrophages isolated from AO rats. In vitro treatment of macrophages isolated from AO rats with ME mimicked to some extent the suppressive effects of ES and SW on phagocytosis and H(2)O(2) production and additionally diminished H(2)O(2) release in macrophages isolated from AO rats previously exposed to ES or SW. ME did not have any effect on phagocytosis in macrophages isolated from DA rats, but changed H(2)O(2) production in a concentration-dependent manner. In macrophages isolated from DA rats previously exposed to stress the effect of ME was dependent on the macrophage function tested and the particular stress paradigm employed. Our results emphasise the fact that both beneficial and detrimental effects of stress on immune system functions could be attributed to the individual variations in the macrophage's response to stress mediators.     

Macrophage activation in rat models of inflammation and arthritis: determination of markers of stages of activation

Disease-associated alterations in macrophage functions were assessed by investigating the stages of activation of peritoneal macrophages obtained from adjuvant-induced arthritic rats. The stages of activation were established by defining several functional parameters in macrophages obtained from normal, sterile-irritant injected and Propionibacterium acnes injected animals. Peritoneal macrophages taken from arthritic rats 17 days post adjuvant injection displayed parameters characteristic of activated, but not elicited or resident macrophages. Specifically, an increased number of macrophages was recovered from arthritic rats which spread readily in culture, exhibited enhanced Fc receptor-mediated phagocytosis, increased leucine aminopeptidase ectoenzyme activity, enhanced secretion of prostaglandin E2 and interleukin 1, and ability to lyse tumor cells spontaneously. In addition, these macrophages were impaired in their ability to secrete superoxide anion. These data demonstrate distinct differences in parameters of peritoneal macrophage activation in rats compared to mice and that macrophage activation is associated with disease progression in adjuvant-induced arthritic rats.     

Transforming growth factor-beta enhances the M-CSF and GM-CSF-stimulated proliferation of macrophages.

Transforming growth factor-beta (TGF-beta) has been shown to regulate the proliferation and function of several different cell types in the immune system. We have examined the effect of TGF-beta on the proliferation of murine macrophages in liquid culture. TGF-beta by itself did not induce proliferation of differentiated (7 days in culture) bone marrow-derived macrophages (BMM). In the presence of M-CSF, TGF-beta enhanced the proliferation of differentiated BMM and elicited peritoneal macrophages but had an inhibitory effect on the proliferation of nonadherent BMM (3 days in culture). The effect of TGF-beta was not restricted to M-CSF-dependent proliferation but was also observed for GM-CSF-dependent proliferation. The autocrine production of TGF-beta appeared to contribute to the proliferation of BMM. The addition of antibody against TGF-beta inhibited M-CSF- and GM-CSF-dependent proliferation 32% and 28%, respectively. In bone marrow, TGF-beta may be an important negative regulator of macrophage proliferation; whereas, in the tissues, TGF-beta may enhance macrophage proliferation.     

Enhanced interleukin 1 (IL-1) production mediated by mouse serum amyloid P component

Purified serum amyloid P component (SAP), the major acute-phase reactant of mice, induces enhanced interleukin 1 (IL-1) production by elicited monocytes/macrophages in vitro. SAP also enhanced IL-1 elaboration by macrophages from lipopolysaccharide (LPS)-low responder mice and in the presence of polymyxin B, indicating that the small amounts of LPS present in the SAP preparation did not augment IL-1 production. Concentrations of SAP of 0.1 to 10.0 micrograms/ml enhanced IL-1 production by elicited and bacillus Calmette-Guerin (BCG)-activated peritoneal macrophages, but not by resident peritoneal macrophages. The inflammation-induced monocyte/macrophage population displayed selective binding of SAP. The mouse macrophage line P388D1, also could bind SAP and display enhanced IL-1 production in response to SAP. SAP did not bind to the macrophage cell line RAW264.7 nor did it enhance IL-1 secretion by this line. The results suggest that this acute-phase reactant has the potential to enhance inflammatory and immunological events mediated by IL-1.     

Inhibition of interleukin-12 production by Trypanosoma brucei in rat macrophages

The immune response of a host infected with Trypanosoma brucei is modulated by trypomastigotes. We examined the changes in cytokine production in T. brucei gambiense (Wellcome strain; WS) infected rats and the influence on production of interleukin (IL)-12 by macrophages. The blood concentration of interferon-gamma, tumor necrosis factor-alpha, and IL-10 increased beginning the second day after infection. However, an increase in IL-12p40 was not observed until 4 days after infection. When spleen macrophages and Kupffer cells harvested from uninfected rats and HS-P cells (a rat macrophagelike cell line) were cocultured with WS, IL-12p40 production did not change. When HS-P cells were cultured with WS, transport of nuclear factor-kappaB into the nucleus increased. Levels of macrophage colony-stimulating factor (M-CSF) and granulocyte macrophage colony-stimulating factor mRNA in the spleens and livers of WS-infected rats were high in comparison with uninfected rats, suggesting that the WS promotes macrophage proliferation. The level of IL-12p40 mRNA in HS-P cells cocultured with WS increased in response to transfection with a small interfering RNA against M-CSF or addition of anti-M-CSF antibody. These results suggest that the WS inhibits IL-12p40 mRNA production by promoting production of macrophage colony-stimulating factor by macrophages.     

Binding of recombinant HIV coat protein gp120 to human monocytes

Inasmuch as the exact level of CD4 Ag expression on macrophages is controversial and because HIV may interact with macrophages in a manner different from that on T cells, we analyzed the binding of gp120 to freshly isolated and cultured monocytes. rgp120 was iodinated using the lactoperoxidase method to a sp. act. of 600 Ci/mmol. Highly purified monocytes (greater than 90%) were isolated from the leukapheresed blood of normal volunteers by Ficoll-Hypaque sedimentation followed by countercurrent centrifugal elutriation and cultured 7 days in DMEM supplemented with 1000 U/ml macrophage CSF in 10% human serum. Whereas MOLT/4 cells consistently bound freshly prepared 125I-rgp120 at 80% specificity with 5100 +/- 700 mol/cell, MCSF cultured monocytes bound rgp120 at only 0 to 20% specificity and 420 +/- 200 mol/cell. Most of the radioactivity bound by these cells could not be blocked by the addition of unlabeled rgp120. In contrast, the U937 myeloid cell line bound rgp120 with 50% specificity and about 2500 mol/cell. Whereas the antibody OKT4a (anti-CD4) blocked 80% of the binding on MOLT/4 cells and 50% on U937 cells, binding was only inhibited on the average of 6% on cultured monocytes. When soluble rCD4 was used as an inhibitor, binding to MOLT/4 cells was blocked by 80%. In contrast, binding to cultured monocytes was inhibited by 28%. HIV infectivity was blocked by similar concentrations of OKT4a. These observations suggest that although most binding of gp120 to cultured monocytes is not to the CD4 determinant, several hundred molecules do bind to a CD4-like molecule which promotes virus entry and replication.     

Potential role of apoptotic macrophages in pulmonary inflammation and fibrosis

Induction of apoptosis has been associated with a variety of exposures which result in inflammatory and fibrotic lung disorders. Macrophages are key regulatory cells in the lung; however, the role of apoptotic macrophages in those pulmonary disorders is not well characterized. In the present investigation, apoptotic macrophages were instilled into the lungs of rats to study directly the pulmonary responses to apoptotic cells. The effects of apoptotic macrophages on lung inflammation and fibrosis, as well as associated protein expression of TNF-alpha, TGF-beta, and matrix metalloproteinases (MMPs) were examined. Induction of macrophage apoptosis was carried out in vitro using a variety of known apoptosis inducers. Intratracheal administration of apoptotic macrophages (5 x 10(6) cells/rat) into the lung of rats caused an increase in pulmonary infiltration of macrophages and lung cell apoptosis 4 weeks after the treatment as indicated by terminal deoxynucleotidyl transferase-mediated dUTP nick end-labeling (TUNEL) assay. In contrast, pulmonary instillation of saline or normal control macrophages had no effect. Histological analysis of lung sections showed collagen deposition and fibrotic lesions after apoptotic cell treatment but not in control groups. Immunohistochemical studies revealed increased expression of TNF-alpha, TGF-beta, MMP2, and MMP9 in the treatment group 4 weeks after the treatment. These results suggest a role for macrophage apoptosis in the initiation of these lung disorders. This study provides direct evidence that apoptotic macrophages can induce lung inflammation and fibrosis and that this induction may be associated with increased expression of TNF-alpha, TGF-beta, MMP2, and MMP9. Published 2002 Wiley-Liss, Inc.     

Ginsenoside Rb1 enhances atherosclerotic plaque stability by skewing macrophages to the M2 phenotype

Atherosclerosis (AS) is characterized as progressive arterial plaque, which is easy to rupture under low stability. Macrophage polarization and inflammation response plays an important role in regulating plaque stability. Ginsenoside Rb1 (Rb1), one of the main active principles of Panax Ginseng, has been found powerful potential in alleviating inflammatory response. However, whether Rb1 could exert protective effects on AS plaque stability remains unclear. This study investigated the role of Rb1 on macrophage polarization and atherosclerotic plaque stability using primary peritoneal macrophages isolated from C57BL/6 mice and AS model in ApoE^?/? mice. In vitro, Rb1 treatment promoted the expression of arginase‐I (Arg‐I) and macrophage mannose receptor (CD206), two classic M2 macrophages markers, while the expression of iNOS (M1 macrophages) was decreased. Rb1 increased interleukin‐4 (IL‐4) and interleukin‐13 (IL‐13) secretion in supernatant and promoted STAT6 phosphorylation. IL‐4 and/or IL‐13 neutralizing antibodies and leflunomide, a STAT6 inhibitor attenuated the up‐regulation of M2 markers induced by Rb1. In vivo, the administration of Rb1 promoted atherosclerotic lesion stability, accompanied by increased M2 macrophage phenotype and reduced MMP‐9 staining. These data suggested that Rb1 enhanced atherosclerotic plaque stability through promoting anti‐inflammatory M2 macrophage polarization, which is achieved partly by increasing the production of IL‐4 and/or IL‐13 and STAT6 phosphorylation. Our study provides new evidence for possibility of Rb1 in prevention and treatment of atherosclerosis.     

Isolation of Murine Peritoneal Macrophages to Carry Out Gene Expression Analysis Upon Toll-like Receptors Stimulation

During infection and inflammation, circulating monocytes leave the bloodstream and migrate into tissues, where they differentiate into macrophages. Macrophages express surface Toll-like receptors (TLRs), which recognize molecular patterns conserved through evolution in a wide range of microorganisms. TLRs play a central role in macrophage activation which is usually associated with gene expression alteration. Macrophages are critical in many diseases and have emerged as attractive targets for therapy. In the following protocol, we describe a procedure to isolate murine peritoneal macrophages using Brewer’s thioglycollate medium. The latter will boost monocyte migration into the peritoneum, accordingly this will raise macrophage yield by 10-fold. Several studies have been carried out using bone marrow, spleen or peritoneal derived macrophages. However, peritoneal macrophages were shown to be more mature upon isolation and are more stable in their functionality and phenotype. Thus, macrophages isolated from murine peritoneal cavity present an important cell population that can serve in different immunological and metabolic studies. Once isolated, macrophages were stimulated with different TLR ligands and consequently gene expression was evaluated.     

Cannabinoid (CB2) receptor deficiency reduces the susceptibility of macrophages to oxidized LDL/oxysterol-induced apoptosis

Macrophage apoptosis is an important process in the pathophysiology of atherosclerosis. Oxidized low-density lipoproteins (OxLDL) are a major component of lesions and potently induce macrophage apoptosis. Cannabinoid receptor 2 (CB2), the predominant macrophage cannabinoid receptor, modulates several macrophage processes associated with ongoing atherosclerosis; however, the role of CB2 in macrophage apoptosis is unknown. To determine if CB2 influences a macrophage apoptotic pathway relevant to atherosclerosis, we examined the effect of CB2 deficiency on OxLDL-induced macrophage apoptosis. In situ terminal transferase-mediated dUTP nick end labeling (TUNEL) analysis of resident peritoneal macrophages detected significantly fewer apoptotic CB2(-/-) macrophages than CB2(+/+) macrophages after incubation with OxLDL (27.9 +/- 4.7% vs. 61.9 +/- 8.5%, P < 0.001) or 7-ketocholesterol (7KC) (18.9 +/- 10.5% vs. 54.1 +/- 6.9%, P < 0.001), an oxysterol component of OxLDL. Caspase-3 activity; proteolytic conversion of procaspase-3; and cleavage of a caspase-3 substrate, PARP, were also diminished in 7KC-treated CB2(-/-) macrophages. Furthermore, the deactivation of the prosurvival kinase, Akt, in response to 7KC was impaired in CB2(-/-) macrophages. These results suggest that CB2 expression increases the susceptibility of macrophages to OxLDL-induced apoptosis, in part, by modulating the effect of oxysterols on the Akt survival pathway and that CB2 may influence atherosclerosis by modulating lesional macrophage apoptosis.     

Expression of nitric oxide synthase and transforming growth factor-beta in crush-injured tendon and synovium

This study examined the expression of inducible nitric oxide synthase (iNOS) and transforming growth factor-beta (TGF-beta) in macrophage infiltrates within crush-injured digital flexor tendon and synovium of control rats and rats treated with N(G)-nitro-1-arginine methyl ester (L-NAME) (5 mg/kg). Release of TGF-beta from organ cultures of tendon, muscle, and synovium, and the effects of L-NAME treatment (in vitro and in vivo), on adhesion of peritoneal macrophages to epitenon monolayers were also investigated. The results showed that during normal tendon healing the levels of TGF-beta are high at first and gradually decrease after 3 weeks of injury to slightly above control uninjured levels. However, when L-NAME was administered at the time of injury, the macrophage infiltrates were expressing high levels of TGF-beta even at 5 weeks after the injury, with no evidence of reduction. In the standard injury, iNOS activity was greatest at the acute phase of the inflammatory response and then gradually returned to normal. Treatment with L-NAME, however, resulted in inhibition of iNOS activity at 3 days and a reduction in the activity at the later time points examined after injury. We also found greatly increased levels of adhesion of peritoneal macrophages from L-NAME-treated rats to epitenon monolayers in vitro, which reflect a chronic imbalance in expression of TGF-beta, which is overexpressed, and nitric oxide, which is underexpressed. The results of the current study show that formation of nitric oxide is an important event in the course of tendon healing since its inhibition results in chronic inflammation and fibrosis due to an imbalance in TGF-beta expression in vivo.     

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.     

Fas death receptor signaling represses monocyte numbers and macrophage activation in vivo

Over 1 billion monocytes are produced daily, with a small percentage differentiating into macrophages, suggesting that excess monocytes are deleted through a tightly regulated process. Although the in vivo mechanism governing monocyte/macrophage homeostasis is unknown, deletion of monocytes in culture is mediated by the Fas death pathway and is blocked by M-CSF. To determine the in vivo significance of Fas in monocyte development, mice lacking Fas (lpr/lpr) and mice deficient in Fas and M-CSF were examined. Compared with congenic control C57BL/6 (B6) mice, lpr/lpr mice displayed increased numbers of circulating monocytes. The lack of Fas in M-CSF-deficient mice resulted in an enhanced percentage, but not total numbers, of monocytes. Fas deficiency led to an increase in myeloid bone marrow progenitor potential only in M-CSF-intact mice. Although lpr/lpr and B6 mice had similar numbers of tissue macrophages, the loss of Fas in M-CSF-deficient mice was sufficient to increase the number of macrophages in a subset of tissues. Additionally, after stimulation with thioglycolate, lpr/lpr and B6 mice showed equivalent numbers of peritoneal macrophages. However, Fas-deficient peritoneal macrophages displayed a marked increase in spontaneous and LPS-induced proinflammatory molecule production. Moreover, Fas-deficient mice showed enhanced systemic inflammatory arthritis associated with up-regulation of IL-1beta and CCL2 secretion, elevated numbers of inflammatory monocytes, and increased numbers of tissue macrophages. Collectively, these data suggest that Fas may be required for maintaining circulating monocytes and for suppressing macrophage activation and recruitment that are stimulus dependent.     

Alterations in Fc receptor function of macrophages from streptozotocin-induced diabetic rats

The presence of elevated levels of circulating immune complexes in diabetic humans and animals suggests impaired phagocyte function. To evaluate FcR-mediated phagocytosis, resident peritoneal macrophages were harvested from control, streptozotocin-induced diabetic, and insulin-treated diabetic rats. FcR number and avidity were determined from Scatchard analysis of binding of 125I-labeled aggregated rat IgG (ARG) to macrophages. The total and fractional catabolic capacity were determined by quantitating the digestion of ARG as a percent of the total ARG added and as a percent of ARG bound. Insulin-deficient diabetic rats had an increase in the number of FcR per cell (26.8 +/- 3.5 X 10(4)) as compared with control animals (13.1 +/- 1.2 X 10(4)) (p less than 0.01). In contrast, insulin-treated diabetic animals had a reduction in the number of FcR per cell (9.8 +/- 1.4 X 10(4)) (p less than 0.01). FcR of macrophages from insulin-deficient diabetic rats had a lower avidity (Kd = 6.9 +/- 1.8 X 10(-10)M) when compared with control (3.7 +/- 0.6 X 10(-10)M) and insulin-treated diabetic rats (3.6 +/- 0.9 X 10(-10)M) (p less than 0.01). Total catabolism of ARG by macrophages from both insulin-deficient and insulin-treated diabetic rats was reduced (31.0% +/- 3.4 and 17.5% +/- 3, respectively) when compared with controls (49.6% +/- 5.2) (p less than 0.01). Fractional catabolism by macrophages from insulin-deficient diabetic rats was significantly reduced (21% +/- 1.9 and 4.6% +/- 0.9/10(4) FcR) when compared with results from control rats (26% +/- 1.3 and 6.7% +/- 0.7/10(4) FcR) (p less than 0.01), whereas the results from insulin-treated diabetic rats (32% +/- 2.4 and 10.8% +/- 1.0/10(4) FcR) (p less than 0.01) were greater than those from controls. These studies demonstrate that FcR-mediated phagocytosis of soluble, "model" immune complexes is impaired in macrophages from both insulin-deficient and insulin-treated diabetic rats; however, different mechanisms account for this impairment in phagocytosis. Despite an increase in FcR number of macrophages from insulin-deficient diabetic rats, the depression of post-receptor-mediated catabolism results in a net depression in phagocytic activity. In contrast, macrophages from insulin-treated diabetic rats display augmented post-receptor-mediated catabolism; however, this does not overcome the low initial binding of ARG to the cell that results from the depression of FcR number.