Antimicrobial activities of dialysate-elicited and resident human peritoneal macrophages

Recent insights into the characteristics and role of peritoneal macrophages from ascites of cirrhotic patients

Macrophages are a diverse myeloid cell population involved in innate and adaptive immune responses, embryonic development, wound repair, and regulation of tissue homeostasis. These cells link the innate and adaptive immunities and are crucial in the development and sustainment of various inflammatory diseases. Macrophages are tissue-resident cells in steady-state conditions; however, they are also recruited from blood monocytes after local pathogen invasion or tissue injury. Peritoneal macrophages vary based on their cell complexity, phenotype, and functional capabilities. These cells regulate inflammation and control bacterial infections in the ascites of decompensated cirrhotic patients. Our recent work reported several phenotypic and functional characteristics of these cells under both healthy and pathological conditions. A direct association between cell size, CD14/CD16 expression, intracellular level of GATA-6, and expression of CD206 and HLA-DR activation/maturation markers, indicate that the large peritoneal macrophage CD14^highCD16^high subset constitutes the mature phenotype of human resident peritoneal macrophages during homeostasis. Moreover, elevated expression of CD14/CD16 is related to the phagocytic capacity. The novel large CD14^highCD16^high peritoneal subpopulation is increased in the ascites of cirrhotic patients and is highly sensitive to lipopolysaccharide (LPS)-induced activation, thereby exhibiting features of inflammatory priming. Thus, phosphorylation of ERK1/2, PKB/Akt, and c-Jun is remarkably increased in response to LPS in vitro, whereas that of p38 MAPK is reduced compared with the monocyte-derived macrophages from the blood of healthy controls. Furthermore, in vitro activated monocyte-derived macrophages from ascites of cirrhotic patients secreted significantly higher levels of IL-6, IL-10, and TNF-α and lower amounts of IL-1β and IL-12 than the corresponding cells from healthy donor’s blood. Based on these results, other authors have recently reported that the surface expression level of CD206 can be used to identify mature, resident, inflammatory peritoneal macrophages in patients with cirrhosis. Soluble CD206 is released from activated large peritoneal macrophages, and increased concentrations in patients with cirrhosis and spontaneous bacterial peritonitis (SBP) indicate reduced odds of survival for 90 d. Hence, the level of soluble CD206 in ascites might be used to identify patients with SBP at risk of death. In conclusion, peritoneal macrophages present in ascites of cirrhotic patients display multiple phenotypic modifications characterized by reduced ratio of cells expressing several membrane markers, together with an increase in the ratios of complex and intermediate subpopulations and a decrease in the classic-like subset. These modifications may lead to the identification of novel pharmaceutical targets for prevention and treatment of hepatic damage.

The Role of Peritoneal Macrophages in Endometriosis

Endometriosis is an estrogen-dependent gynecological disorder, defined as the growth of endometrial stromal cells and glands at extrauterine sites. Endometriotic lesions are more frequently located into the abdominal cavity, although they can also be implanted in distant places. Among its etiological factors, the presence of immune dysregulation occupies a prominent place, pointing out the beneficial and harmful outcomes of macrophages in the pathogenesis of this disease. Macrophages are tissue-resident cells that connect innate and adaptive immunity, playing a key role in maintaining local homeostasis in healthy conditions and being critical in the development and sustainment of many inflammatory diseases. Macrophages accumulate in the peritoneal cavity of women with endometriosis, but their ability to clear migrated endometrial fragments seems to be inefficient. Hence, the characteristics of the peritoneal immune system in endometriosis must be further studied to facilitate the search for new diagnostic and therapeutic tools. In this review, we summarize recent relevant advances obtained in both mouse, as the main animal model used to study endometriosis, and human, focusing on peritoneal macrophages obtained from endometriotic patients and healthy donors, under the perspective of its future clinical translation to the role that these cells play on this pathology.

Oxidative Metabolism of Polymorphonuclear Leukocytes in Continuous Ambulatory Peritoneal Dialysis

Objective

To evaluate the oxidative metabolism of polymorphonuclear leukocytes (PMNL) in continuous ambulatory peritoneal dialysis (CAPD) patients compared with those of hemodialysis (HD) patients, chronic renal failure (CRF) patients not yet on dialysis, and healthy controls; and to discover factors contributing to the oxidative function in CAPD patients.

Patients

Thirty-five CAPD, 22 HD, 11 CRF patients were assessed; all were free from infections at the time of examination. Thirty-one healthy volunteers served as controls.

Methods

The oxidative metabolism was estimated by the production of superoxide anion, which was detected by luminol-dependent zymosan stimulated chemiluminescence (CL) with whole blood assessment. The volume of superoxide production equivalent to 1 mL of circulating blood (T-CL), that equivalent to 104 neutrophils (CL/N) and the velocity of superoxide production (V-CL), were measured as parameters for the oxidative function of PMNL.

Results

There were no differences in all CL parameters between CAPD and HD patients. T -CL and CL/N of dialysis patients were equal to controls but those of CRF patients were significantly decreased. V-CL of dialysis patients, as well as CRF patients, was smaller than that of controls but the difference was not significant. Among nutritional status, degree of anemia, dialytic efficacy and duration of dialysis in CAPD patients, only serum albumin concentration (Alb) correlated well to all CL parameters. Hypoalbuminemic patients(Alb <3.6 gldL, n=20) had significantly decreased T -CL and CL/N compared to normoalbuminemic patients(Alb ?: 3.6 g/dL, n=15), and decreased CL/N and V-CL compared to controls. No differences in CL parameters were observed between the patients with a history of peritonitis (n=15) and without a history of peritonitis (n=20).

Conclusions

Oxidative metabolism of PMNL in CAPD patients was maintained with respect to superoxide productive volume, while the oxidative velocity was relatively impaired. Furthermore, it seems that albumin has a great influence on the oxidative metabolism of PMNL in CAPD patients.

Defective Opsonic Activity of Peritoneal Effluent during Continuous Ambulatory Peritoneal Dialysis (CAPD): Importance and Prevention

To evaluate peritoneal immunological defenses and to find a way to prevent peritonitis we have studied the capacity of peritoneal dialysis effluent (PDE) to opsonize bacteria, and the phagocytic activity of peritoneal macrophages (PM). The subjects were 40 uremic patients followed for a mean period of 36 months and 40 normal women who underwent laparoscopy (controls).

Opsonic capacity for Staphylococcus epidermidis of undiluted PDE from CAPD patients with low peritonitis incidence (LPI) proved to be similar to that of 10% control serum. However, the capacity of effluent from patients with a high peritonitis incidence (HPI) was noticeably inferior. In these cases, IgG concentration in PDE was lower than in LPI patients.

There was a significant correlation between opsonization capacity for bacteria and IgG concentration values in PDE. We found inverse correlations between opsonic capacity of PDE and number of episodes of peritonitis.

Phagocytic capacity of PM from CAPD patients was similar to that of control PM when micro-organisms were preopsonized by control serum.

Treatment with intraperitoneal intmunoglobulin raised PDE opsonization capacity and lowered the incidence in those with previous HPI, thus demonstrating the importance of abnormal opsonization in CAPD peritonitis and the possibility of preventing infection by prophylaxis with intraperitoneal immunoglobulin. Intravenous immunoglobulin does not reduce the incidence of infection.

Host Defense Mechanisms in the Peritoneal Cavity of Continuous Ambulatory Peritoneal Dialysis Patients: First of Two Parts

This article provides a review of studies on peritoneal white blood cells (WBC) in CAPD patients. To some extent these studies support the concept that the peritoneal cavity of these patients contains adequate-functioning WBC that can provide effective antimicrobial defenses when they are studied in dialysate-free media. Commercially available dialysis solutions significantly impair WBC function. In some patients with high incidences of peritonitis, there appears to be reduced bactericidal capacity of their peritoneal macrophages. CAPD seems to contribute to a state of both macrophage and lymphocyte activation in the peritoneal cavity. The clinical consequences of this chronic activation are not known.

Characteristics of Peripheral and Peritoneal Lymphocytes from Continuous Ambulatory Peritoneal Dialysis Patients

The role of peritoneal lymphocytes in host immunity for continuous ambulatory peritoneal dialysis (CAPD) patients Is just beginning to be understood. CAPD therapy Increases the proportion of peritoneal lymphocytes, most of which demonstrate signs of activation. There are decreased peritoneal T cells and increased peritoneal B cells as compared to the patients’ peripheral blood. When studies examine Immunophenotypes of peripheral and peritoneallymphocytes over time, no significant changes are found. Although changes in peritoneal lymphocyte subsets occur during peritonitis episodes, there are no changes In peripheral blood lymphocytes. The purpose of this article Is to provide a brief review of research that has studied lymphocytes In CAPD patients.

Capd Peritonitis Induces the Production of a Novel Peptide, Daintain/Allograft Inflammatory Factor-1

← Objectives

To study the occurrence of a novel macrophage-derived peptide, daintain/allograft inflammatory factor-1 (AIF-1), in dialysate from continuous ambulatory peritoneal dialysis (CAPD) patients at commencement and after a follow-up period of therapy and during peritonitis. In addition, we studied peptide production in response to bacterial stimulation of monocytes and macrophages.

← Design

Peritoneal fluid and supernatants from cells stimulated with different bacteria were analyzed for daintain/AIF-1.

← Patients and Setting

Peritoneal fluid was obtained from 5 patients at commencement of CAPD therapy and during 8 weeks follow-up, and from 14 patients (10 males, 4 females) during CAPD peritonitis and during the noninfected steady state. All patients were admitted to the Karolinska Hospital. A human monocyte cell-line, THP-1 was differentiated to macrophages, and both monocytes and macrophages were stimulated with live and heat-inactivated Escherichia coli, Staphylococcus aureus, and S. epidermidis Cells were also stimulated with interleukin (IL)-1β and interferon gamma (IFNγ). Daintain/AIF-1 was analyzed with radioimmunoassay technique and IL-8 with enzyme immunoassay technique.

← Results

An increased production of daintain/AIF-1 was observed in the first spent dialysate in the newly started CAPD patients, with a decrease during the follow-up period ( p < 0.05). During peritonitis, the first spent dialysate revealed significantly higher levels of daintain/AIF-1 (3.9 ng/mL) compared to the noninfected state (0.8 ng/mL), with production normalizing after 9 – 12 days. Bacterial stimulation with E. coli, S. aureus or S. epidermidi sinduced higher daintain/AIF-1 response in monocytes compared to macrophages ( p < 0.05). Live bacteria induced higher production of the peptide compared to heat-inactivated bacteria ( p < 0.05). Interleukin-1β and IFNγ were used to stimulate monocytes and macrophages; however, no daintain/AIF-1 production was found, although increased IL-8 levels were detected.

← Conclusion

CAPD peritonitis induces a high and prominent daintain/AIF-1 response. Bacteria are able to induce a response of the peptide from monocytes and macrophages, and it is likely that the virulent parts of the bacteria are heat-labile structures. The early rise in daintain/AIF-1 might be used as a marker of CAPD peritonitis.

Peritoneal macrophage heterogeneity is associated with different peritoneal dialysis outcomes

Peritonitis remains the major obstacle for the maintenance of long-term peritoneal dialysis and dysregulated host peritoneal immune responses may compromise local anti-infectious defense, leading to treatment failure. Whilst, tissue mononuclear phagocytes, comprising macrophages and dendritic cells, are central to a host response to pathogens and the development of adaptive immune responses, they are poorly characterized in the human peritoneum. Combining flow cytometry with global transcriptome analysis, the phenotypic features and lineage identity of the major CD14⁺ macrophage and CD1c⁺ dendritic cell subsets in dialysis effluent were defined. Their functional specialization was reflected in cytokine generation, phagocytosis, and antigen processing/presentation. By analyzing acute bacterial peritonitis, stable (infection-free) and new-starter patients receiving peritoneal dialysis, we identified a skewed distribution of macrophage to dendritic cell subsets (increasing ratio) that associated with adverse peritonitis outcomes, history of multiple peritonitis episodes, and early catheter failure, respectively. Intriguingly, we also noted significant alterations of macrophage heterogeneity, indicative of different maturation and activation states that were associated with different peritoneal dialysis outcomes. Thus, our studies delineate peritoneal dendritic cells from macrophages within dialysate, and define cellular characteristics associated with peritoneal dialysis treatment failure. These are the first steps to unravelling the detrimental adaptive immune responses occurring as a consequence of peritonitis.

Antibacterial responses by peritoneal macrophages are enhanced following vitamin D supplementation

Patients with chronic kidney disease (CKD), who usually display low serum 25-hydroxyvitamin D (25D) and 1,25-dihydroxyvitamin D (1,25D), are at high risk of infection, notably those undergoing peritoneal dialysis (PD). We hypothesized that peritoneal macrophages from PD patients are an important target for vitamin D-induced antibacterial activity. Dialysate effluent fluid was obtained from 27 non-infected PD patients. Flow cytometry indicated that PD cells were mainly monocytic (37.9±17.7% cells CD14+/CD45+). Ex vivo analyses showed that PD cells treated with 25D (100 nM, 6 hrs) or 1,25D (5 nM, 6 hrs) induced mRNA for antibacterial cathelicidin (CAMP) but conversely suppressed mRNA for hepcidin (HAMP). PD cells from patients with peritonitis (n = 3) showed higher baseline expression of CAMP (18-fold±9, p<0.05) and HAMP (64-fold±7) relative to cells from non-infected patients. In 12 non-infected PD patients, oral supplementation with a single dose of vitamin D2 (100,000 IU) increased serum levels of 25D from 18±8 to 41±15 ng/ml (p = 0.002). This had no significant effect on PD cell CD14/CD45 expression, but mRNA for HAMP was suppressed significantly (0.5-fold, p = 0.04). Adjustment for PD cell CD14/CD45 expression using a mixed linear statistical model also revealed increased expression of CAMP (mRNA in PD cells and protein in effluent) in vitamin D-supplemented patients. These data show for the first time that vitamin D supplementation in vitro and in vivo promotes innate immune responses that may enhance macrophage antibacterial responses in patients undergoing PD. This highlights a potentially important function for vitamin D in preventing infection-related complications in CKD.

Peritoneal macrophages from patients with cirrhotic ascites show impaired phagocytosis and vigorous respiratory burst

Cirrhotic patients (CPs) are susceptible to spontaneous bacterial peritonitis (SBP). Aim of this study was to examine if this susceptibility was related to peritoneal macrophages' (PMs) altered host defence. Absorbance of phagocytosed particles by PMs from CPs was lower than that of control (31.88% vs. 77.2%). Particle opsonisation increased the absorbance to 41% in CPs' PMs, and this value remains lower than the control; 77.2%. Respiratory burst (RB) was expressed as fluorescence index values, and these were higher in PMs from CPs than in controls (82 vs. 41, 73 vs. 26 and 71 vs. 26). IFN-γ made no further increase of RB values in PMs from CPs. CD14 expression was also higher in CPs' PMs. IFN-γ significantly downregulated CD14 expression in both CPs' PMs and control. Reduced phagocytosis by predominantly CD14-positive PMs from CPs could be related to intense RB. Findings suggest altered host defence that could contribute to susceptibility to SBP.

Factors Contributing to Peritoneal Tissue Remodeling in Peritoneal Dialysis

Peritoneal dialysis (PD) is associated with functional and structural changes of the peritoneal membrane. In this review we describe factors contributing to peritoneal tissue remodeling, including uremia, peritonitis, volume loading, the presence of a catheter, and the PD fluid itself. These factors initiate recruitment and activation of peritoneal cells such as macrophages and mast cells, as well as activation of peritoneal cells, including mesothelial cells, fibroblasts, and endothelial cells. We provide an overview of cytokines, growth factors, and other mediators involved in PD-associated changes. Activation of downstream pathways of cellular modulators can induce peritoneal tissue remodeling, leading to ultrafiltration loss. Identification of molecular pathways, cells, and cytokines involved in the development of angiogenesis, fibrosis, and membrane failure may lead to innovative therapeutic strategies that can protect the peritoneal membrane from the consequences of long-term PD.

Fas expression on peritoneal macrophages during continuous ambulatory peritoneal dialysis peritonitis

BACKGROUND

Peritonitis is a common complication of end stage renal failure (ESRF) patients receiving continuous ambulatory peritoneal dialysis (CAPD). Peritoneal macrophage may participate in the activation of specific T cells and in the generation of local cell-mediated immunity to various pathogens. The purpose of this study is to investigate the possible role of macrophage in CAPD patients with peritonitis.

METHODS

We evaluated the expression of Fas receptor (CD95), ICAM-1 (CD54), CD25, and CD69 by two-color flow cytometry on extravasted macrophages from 16 ESRF patients on CAPD with peritonitis (peritonitis-positive) and compared them to 11 ESRF patients on CAPD without peritonitis (peritonitis-negative) and normal controls.

RESULTS

We found an increased expression of CD95, CD54, and CD25 on macrophage in peritonitis-positive group compared to controls (all p < 0.001). In the peritonitis-positive group, the CD95 expression was significantly higher than that of the peritonitis-negative group (p < 0.001). The expression of CD54, CD25, and CD69, however, was not significantly different between the peritonitis-positive and peritonitis-negative CAPD subgroups.

CONCLUSION

We found an abnormally increased percentage of macrophage-expressing Fas receptor and ICAM-1, and the percentage of CD95+ macrophage, but not those of other markers, were increased among the subset of CAPD patients with peritonitis. The later finding suggests that this macrophage phenotype is associated with peritonitis occurring in CAPD.

Host defenses in APD

The incidence of peritonitis in peritoneal dialysis (PD) has further decreased after the introduction of automated peritoneal dialysis (APD) into clinical routine. Technical advances such as a reduction in the number of connections, more motivated patients, and improved host defense mechanisms in APD have been described. We found that the long daytime interval without dialysate exchanges leads to a higher absolute number of peritoneal macrophages which are capable of an improved first-line host defense. This is demonstrated by a higher release of cytokines of peritoneal macrophages after stimulation with lipopolysaccharides. The dry "day" in nightly intermittent PD seems to have no relevant additional positive effects on peritoneal host defense compared to continuous cyclic peritoneal dialysis. The regeneration of peritoneal cell populations induced by intervals without PD remains relevant even in times when more "biocompatible" PD solutions become available.

Infections in patients undergoing peritoneal dialysis

Considering experience acquired in the past years, it seems as though physicians have reached a plateau in the frequency of peritonitis. A peritonitis rate of 1 every 2 patient years may be acceptable. Further reduction of this peritonitis rate will require inordinately large efforts on all fronts. One will have to consider what are the acceptable costs and risks of peritonitis in patients on peritoneal dialysis. New developments in catheter technology, improved connections, better understanding of patient selection and training programs, improved diagnostic and therapeutic methods in the management of peritonitis, and understanding of the infectious and immune processes are eagerly awaited developments.

Human peritoneal monocytic cells: lipoprotein uptake and foam cell formation

Human peritoneal cells isolated from dialysis effluent have in vivo maturated human macrophages that could serve as a model for studying lipoprotein metabolism and foam cell formation. We previously characterized the low density lipoprotein (LDL) and acetylated LDL (acetyl-LDL) receptor activities of human total peritoneal cells. Now, we provide evidence that both LDL and acetyl-LDL stimulate acylCoA cholesterol:acyl transferase (ACAT) activity of peritoneal cells. Prolonged incubation of cells with LDL results in suppression of ACAT activity, while incubation with acetyl-LDL results in elevated and sustained enzyme activity. When human peritoneal cells were analyzed using flow cytometry, the cell population showed reactivity for CD2, CD4, CD8, CD20, CD14 and HLA-DR antigens. Purified human peritoneal mononuclear cells degraded LDL. Human peritoneal macrophages formed foam cells when exposed to LDL or acetyl-LDL in culture, and lipid deposition increased with incubation time. Macrophages incubated in the presence of butylated hydroxy toluene and LDL did not form foam cells.

Macrophages in resistance to candidiasis

Candida albicans, an increasingly common opportunistic pathogenic fungus, frequently causes disease in immunodeficient but not immunocompetent hosts. Clarifying the role of the phagocytic cells that participate in resistance to candidiasis not only is basic to understanding how the host copes with this dimorphic pathogen but also will expedite the development of innovative prophylactic and therapeutic approaches for treating the multiple clinical presentations that candidiasis encompasses. In this review, we present evidence that a diverse population of mononuclear phagocytes, in different states of activation and differentiation and from a variety of host species, can phagocytize C. albicans blastoconidia via an array of opsonic and nonopsonic mechanisms and can kill C. albicans blastoconidia and hyphae by means of oxygen-dependent and -independent mechanisms. Reactive nitrogen intermediates should now be added to the well-established candidacidal reactive oxygen intermediates of macrophages. Furthermore, what were thought to be two independent pathways, i.e., nitric oxide and superoxide anion, have now been shown to combine to form a potent macrophage candidacidal molecule, peroxynitrite. In contrast to monocytes and neutrophils, which are important in resistance to early stages of C. albicans infections, more differentiated macrophages activated by cytokines such as gamma interferon participate in the acquired resistance of hosts with C. albicans-specific, cell-mediated immunity. Evidence presented in this review demonstrates that mononuclear phagocytes, in some instances in the absence of other professional phagocytes such as neutrophils, play an import role in resistance to systemic and mucosal candidiasis.

Macrophage-mediated candidacidal activity is augmented by exposure to eosinophil peroxidase: a paradigm for eosinophil-macrophage interaction

Various disease states are associated with eosinophilia and the release of eosinophil peroxidase (EPO) into the microenvironment. The present study targets the effects of low levels of EPO on macrophage (M phi) phagocytosis and intracellular killing of Candida albicans as well as M phi oxidative activity measured as the luminescence product of luminol dioxygenation. Resident murine peritoneal M phi were exposed to various concentrations of EPO. Chemiluminescence data indicate that nanomolar concentrations of EPO markedly enhanced the dioxygenation activity (respiratory burst) of M phi. In other studies, the exposure of M phi to 0.17 microM EPO for 10 min. enhanced M phi-mediated candidacidal activity 10 fold. The above data indicate that EPO enhances certain M phi functions. Also the results illustrate a previously un-recognized interaction between eosinophils and M phi and implicate yet another possible role for EPO in host defenses against disease.

Disturbed host defense in peritoneal cavity during CAPD: characterization of responsible factors in dwell fluid

In this study, the factors in overnight dwell fluid (8 to 10 hr dwell) depressing granulocyte (GC) NAD(P)H-oxidase dependent radical species production are characterized. At present, most studies have essentially focused on fresh, unspent dialysate and on peritoneal macrophages. The response to Staphylococcus aureus (Staph A) was dose-dependently depressed for both GC CO2 production (from 91.3 +/- 8.4 to 9.0 +/- 1.5 dpm/10(3) GC, P < 0.01) and chemiluminescence (CL) (peak from 7.3 +/- 0.8 to 1.6 +/- 0.8 cps x 10(3)/GC, P < 0.01). Stimulation with formyl-methionine-leucine-phenylalanine (f-MLP), phorbol myristic acid (PMA), Staphylococcus epidermidis (Staph Epi), E. coli, latex and zymosan revealed a parallel depression, pointing to an intrinsic metabolic defect, rather than failure of particle ingestion. The addition of glucose to the normal cell medium to obtain the same concentration as in the CAPD effluent (2.9 +/- 0.3 mg/dl) depressed function but not to the same extent as the genuine PD effluent. Opsonization of Staph A and E. coli induced a partial correction. No effect of pH or osmolality was observed. HPLC fractionation of CAPD effluent on a polarity based gradient revealed an elution of depressive factors in hydrophobic fractions with a nadir in F7 and F12. Analysis of the elution pattern of various uremic solutes revealed elution in F12 of p-cresol, a solute with known inhibitory effect on GC function. These events may be related to recent peritonitis (CL in response to Staph A 0.3 +/- 0.1 in effluent of 6 patients with recent peritonitis versus 2.6 +/- 0.8 cps x 10(3)/GC in 12 patients without recent peritonitis (P < 0.01). We conclude that the GC response is depressed in the presence of CAPD effluent due to excess glucose, lack of opsonization, and uremic solutes of which p-cresol is one of the responsible compounds.

Lipoprotein metabolism in human peritoneal cells

The feasibility of using human cells isolated from peritoneal dialysis effluent as a model for studying lipoprotein and cholesterol metabolism was investigated. Human peritoneal cells degraded low density lipoproteins (LDL) and acetylated LDL (acetyl-LDL) by saturable, high affinity receptor-mediated processes. Positive correlations of the percentage of macrophage cells with degradation rates of LDL (r = 0.742; p < 0.05) and acetyl-LDL (r = 0.931; p < 0.01) indicated that macrophage cells significantly contributed to lipoprotein degradation. LDL receptor-mediated degradation was calcium dependent, and sensitive to pronase and chloroquine treatments. The receptor exhibited specificity for lipoproteins containing apolipoprotein B (apoB) or apolipoprotein E (apoE). Exposure of cells to LDL for 24 hrs significantly down-regulated LDL receptor-mediated degradation. Acetyl-LDL receptor-mediated degradation was calcium independent, inhibited by chloroquine, and was sensitive to pronase and fucoidin treatments. The scavenger receptor exhibited specificity for only acetyl-LDL. These results demonstrate that human peritoneal cells can provide a source of human tissue macrophages suitable for studies of cholesterol and lipoprotein metabolism and offer the opportunity for comparison of metabolic characteristics of in vivo maturated macrophages with available macrophage-like cell lines.

Host defences in continuous ambulatory peritoneal dialysis and the genesis of peritonitis

Continuous ambulatory peritoneal dialysis (CAPD) has come to be extensively used for the treatment of end-stage renal failure in children, and especially infants, such that now more than half of children on dialysis worldwide receive treatment by this means. Peritonitis, however, is commoner in children than in adults receiving treatment, and is a major source of morbidity and treatment failure in children started on CAPD. Only recently has the immunology of the normal peritoneum been studied extensively, with the need to assess the impact of the installation of large volumes of fluid into the peritoneal sac during dialysis. The main phagocytic defences of the peritoneum depend upon a unique set of macrophages which are present free in the peritoneal fluid but also in the submesothelium and in perivascular collections together with B lymphocytes in the submesothelial area. Both the number of macrophages per unit volume and the concentration of opsonic proteins, such as IgG, complement and fibronectin, are reduced to between only 1% and 5% when dialysis fluid is continuously present in the peritoneal sac. In addition, the fluids used for CAPD are toxic to both macrophages and to mesothelial cells. Thus minor degrees of contamination frequently lead to peritonitis and in addition the majority of patients have catheters inserted in their peritoneum which become colonised with organisms capable of producing exopolysaccharide (slime), which promotes adhesion of the organism to the plastic and protects them against phagocytic attack and the penetration of antibiotics. Thus the peritoneum is in a state of continual inflammation, as well as being a markedly more vulnerable site than the normal peritoneum to the entry of organisms. Whether clinical peritonitis appears in this state of chronic contamination probably depends on perturbation in the balance between host defences and the organism. Whilst Staphylococcus epidermidis is the commonest cause of peritonitis, Staphylococcus aureus and Gram-negative organisms are much more serious and more frequently lead either to temporary catheter removal or discontinuation of dialysis altogether. This review describes the peritoneal defences in relation to the genesis of peritonitis.

Methods for studying immuno-effector functions and antigen presenting activity of human macrophages

Macrophages are now recognized as cells that perform a variety of functions making them important cells in both the specific and non-specific immune responses. In the inflammatory response mature monocytes leave the bloodstream to enter macrophages and then migrate to the site of infection. This process is usually co-ordinated by the production of so-called chemotaxins that direct the movements of the macrophages. This can be measured in vitro by a chemotaxis assay that separates macrophages from the chemotactic fluid by a micropore filter. After incubation migrated cells are counted at the other side of the filter and indicate the chemotactic response. At the inflammatory site phagocytosis and killing of invading bacterial micro-organisms is an important feature of macrophages. We describe an assay to measure phagocytosing capacity using IgG-coated sheep red blood cells and a bacterial killing assay. In addition a tumor killing assay is briefly introduced. Finally, the specific immune response is initiated by presentation of antigen to antigen specific T cells by specialized cells such as dendritic cells that are closely related to macrophages. An enrichment procedure for macrophages and dendritic cells is outlined and antigen presentation assays are described.

Antigen-presenting capacity of macrophages and dendritic cells in the peritoneal cavity of patients treated with peritoneal dialysis

In this study the antigen-presenting capacity of human peritoneal cells and the influence of continuous ambulant peritoneal dialysis (CAPD) were studied. On average 6% of the peritoneal cells were dendritic cells (DC), with no difference between CAPD and control peritoneal cells. DC were enriched by selecting for non-adherent, Fc receptor-negative, low density cells. A typical spot-like CD68 positivity was seen in DC, in contrast to the pancytoplasmic staining pattern in macrophages. Peritoneal DC morphologically and functionally showed features of cells belonging to the DC lineage. Peritoneal DC were superior antigen-presenting cells for both allo-antigen, and Candida albicans antigen or purified protein derivative. CAPD peritoneal macrophages were two- to three-fold better stimulator cells for allogeneic T cells compared with control macrophages. The level of integrins/adhesins or MHC class I or II, as measured semi-quantitatively on the FACS, could not account for this phenomenon. In addition, a double chamber system showed that dialysate-activated macrophages produced soluble factors that could enhance DC-induced allogeneic T cell proliferation. In conclusion, human peritoneal cells contain a relatively high percentage of classical DC. CAPD treatment does not impair the antigen-presenting capacity of peritoneal cells, but instead upregulates the allo-antigen-presenting capacity of peritoneal macrophages.

Immuno-effector characteristics of peritoneal cells during CAPD treatment: a longitudinal study

Peritoneal cells (PC) from 75 patients were immuno-phenotypically and functionally characterized during the first year of CAPD treatment (PCcapd) and compared to PC obtained by laparoscopy of healthy women (control peritoneal cells). Patients were divided, according to their peritonitis incidence (PI), into a high PI (HPI) and a low PI group (LPI). The yield of PCcapd decreased significantly over the year. The differential cell count and immunophenotype of PCcapd remained unchanged in the LPI group, but the percentage of macrophages decreased over the year in the HPI group. Macrophages in the PCcapd, when compared to control peritoneal cells, had a less mature phenotype as measured by RFD7 expression but a higher Fc-receptor expression. The PCcapd showed a higher percentage of B cells, CD4 positive T cells and activated T cells bearing HLA-DR/DQ when compared to the control peritoneal cells. Over the year a decrease in chemotactic activity of the PCcapd towards 10(-8) M N-formylmethionyl-leucyl-phenylalanine and dialysis effluent was observed in LPI patients but not in HPI patients. After one year of treatment, a significantly higher percentage of phagocytosing macrophages in the PCcapd of HPI patients was found when compared to LPI patients. During the year there was an increase of immunophagocytosis of PCcapd independent of PI. In conclusion, the CAPD peritoneal cellular immune system showed signs of both immaturity and activation. The decrease in the yield and in the chemotactic activity of PCcapd suggests an adaptation to the chronic stimulus of the dialysis fluid.(ABSTRACT TRUNCATED AT 250 WORDS)

Peritoneal defense in continuous ambulatory versus continuous cyclic peritoneal dialysis

Several centers have reported a lower rate of peritonitis among adult patients on continuous cyclic peritoneal dialysis (CCPD) as compared to those undergoing continuous ambulatory peritoneal dialysis (CAPD). Preliminary results of our ongoing prospective randomized study comparing CAPD-Y with CCPD also suggest a lower peritonitis incidence among CCPD-treated patients. To investigate whether the two dialysis regimens could result in differences in local host defense, we studied peritoneal macrophage (PMO) function and effluent opsonic activity in eight patients established on CAPD-Y matched with eight chronic CCPD patients. Since short and long dwell times are inherent to both dialysis modalities, and we previously found that dwell time has an impact on PMO function and effluent opsonic activity, patients were studied after both a short (4 hr) and a long (15 hr) dwell time. In both groups PMO phagocytic capacity increased significantly with dwell time (39 +/- 3.3% at 4 hr vs. 58 +/- 4.2% at 15 hr in CAPD patients, and 40 +/- 3.9 vs. 72 +/- 3.3% in CCPD patients; P less than 0.01), as did PMO peak chemiluminescence response (31 +/- 4.9 vs. 77 +/- 7.2 counts.min-1/10(4) cells in CAPD, and 22 +/- 3.9 vs. 109 +/- 21.2 counts.min-1/10(4) cells in CCPD; P less than 0.01) and effluent opsonic activity (41 +/- 7.6 vs. 73 +/- 5.8% in CAPD and 39 +/- 6.2 vs. 70 +/- 5.9% in CCPD; P less than 0.01). However, no significant difference was found in either variable between CAPD and CCPD patients when dwell times were equal.(ABSTRACT TRUNCATED AT 250 WORDS)

Specific opsonic activity for staphylococci in peritoneal dialysis effluent during continuous ambulatory peritoneal dialysis

In a prospective study of intraperitoneal opsonins in 30 patients undergoing continuous ambulatory peritoneal dialysis (CAPD), the IgG concentration, the fibronectin concentration, the specific antistaphylococcal antibody level, and the opsonic activity against Staphylococcus epidermidis were measured in peritoneal dialysis effluent from the initiation of CAPD and monthly for 6 months. Significant correlation was found between the four assays, but the interindividual and intraindividual variations were considerable. No statistically significant correlation was observed between susceptibility of the patients to CAPD-related infectious peritonitis and any of the above-mentioned parameters of humoral defense. We conclude that at the present time it is not feasible to use these assays for the establishment of prognosis with regard to peritonitis in CAPD.

Release of hydrogen peroxide and expression of HLA-DR and transferrin receptors by monocytes and peritoneal macrophages from patients undergoing continuous ambulatory peritoneal dialysis and normal controls

Peritoneal macrophages from patients on continuous ambulatory peritoneal dialysis (CAPD) were investigated with respect to their ability to release H2O2 and express HLA-DR and transferrin receptors (TfR). Release of H2O2 and the proportion of cells expressing HLA-DR were significantly reduced in CAPD macrophages compared with normal peritoneal macrophages but were both similar to blood monocytes. In contrast, about 17% of CAPD peritoneal macrophages and 23% of CAPD blood monocytes expressed TfR but normal peritoneal macrophages and blood monocytes were always negative. These results suggest that the peritoneal macrophages from CAPD patients are relatively immature cells, possibly due to the rapid turnover of cells in CAPD.

Activation of immunocompetent cells in the peritoneum of patients treated with CAPD

Chemiluminescence and flow cytometry, employing a number of monoclonal antibodies, was used to investigate activation of immunocompetent cells in the blood and peritoneum of patients treated with CAPD. Increased expression of HLA-DR and RFD7, both markers of macrophage maturation, was observed on peritoneal macrophages, 78% and 33.5% cells positive, when compared to blood monocytes, which were 46% and 5.3%, respectively (P less than 0.001). Macrophage chemiluminescent response to opsonized zymosan was greater than that of circulating blood monocytes in CAPD patients, whereas the inverse was true for normal controls. Enhanced expression of IL-2 receptor and surface IgG by peritoneal macrophages were 24.9% and 65.3% cells positive compared with monocytes, 5.7% and 12.3% (P less than 0.01), and also suggests their activation. There was a marked increase in the HLA-DR expression by peritoneal lymphocytes from CAPD patients (32% cells positive) compared with those from CAPD blood (13.8%), normal blood (11.3%) and normal peritoneal fluid (14.5%), P less than 0.001. This was partially accounted for by increased numbers of B cells (18%) and activated T cells bearing HLA-DR. TFR and IL-2 receptor expression by CAPD peritoneal lymphocytes was similar to that of blood lymphocytes, implying the lack of an organized immune response within the peritoneum. Taken together, these results suggest that peritoneal macrophages from CAPD treated patients have features of maturation and activation, while changes in the lymphocyte populations are compatable with the actions of IL-1, indicating activity of the cellular immune system within the peritoneum.

Fungicidal mechanisms of activated macrophages: evidence for nonoxidative mechanisms for killing of Blastomyces dermatitidis

The mechanism(s) by which lymphokine-activated peritoneal macrophages kill Blastomyces dermatitidis was studied. Resident peritoneal macrophages from BALB/cByJ mice, when treated overnight with lymph node cells plus concanavalin A, supernatants from concanavalin A-stimulated spleen cells, or recombinant gamma interferon, were then able to kill a virulent B. dermatitidis isolate (ATCC 26199) (at levels of 25% +/- 4%, 28% +/- 8%, and 21% +/- 5%, respectively). Killing was not significantly decreased or enhanced in the presence of superoxide dismutase (450 U/ml), catalase (20,000 U/ml), dimethyl sulfoxide (300 mM), or azide (1 mM). Viable B. dermatitidis elicited a brisk oxidative burst and superoxide anion production in activated macrophages as measured by lucigenin-enhanced chemiluminescence, e.g., 10(4) cpm. However, these responses were not significantly different from those of control macrophages. Luminol-enhanced chemiluminescence responses by activated or control macrophages were meager (less than or equal to 10(2) cpm). These results indicate that activated macrophages kill B. dermatitidis by a mechanism(s) independent of products of the oxidative burst.

Intraperitoneal immunoglobulin (IG) treatment in prophylaxis of bacterial peritonitis in CAPD

To evaluate peritoneal immunological defences and to find a possible cure for alterations in the mechanism, we studied the capacity of peritoneal dialysis effluent (PDE) to opsonize bacteria and the phagocytic activity of peritoneal macrophages (PM). Subjects were 40 uremic patients followed for a mean period of 36 months and 40 normal women who underwent laparoscopy (Controls). Opsonic capacity for S.epidermidis of undiluted PDE from CAPD patients with low peritonitis occurrence (LPI) proved similar to that of 10% control serum. It was, however, noticeably inferior when patients were of high peritonitis incidence (HPI). In these cases IgG concentration in PDE was lower than in patients of LPI. A significant correlation was revealed between opsonization capacity for bacteria and IgG concentration values in PDE. We found inverse correlation between opsonic capacity of PDE and number of episodes of peritonitis. Phagocytic capacity of PM from CAPD patients was similar to that of control PM when microorganisms were preopsonized by control serum. Intraperitoneal Immunoglobulin treatment raised PDE opsonization capacity and lowered peritonitis incidence in patients of previously HPI, thus demonstrating the importance of abnormal organization in CAPD peritonitis and the possibility of preventing infections by intraperitoneal Immunoglobulin treatment. These prevention results do not occur with intravenous Immunoglobulin treatment.