Membrane complement receptors specific for bound fragments of C3

Moieties of Complement iC3b Recognized by the I-domain of Integrin αXβ2

Complement fragment iC3b serves as a major opsonin for facilitating phagocytosis via its interaction with complement receptors CR3 and CR4, also known by their leukocyte integrin family names, αMβ2 and αXβ2, respectively. Although there is general agreement that iC3b binds to the αM and αX I-domains of the respective β2-integrins, much less is known regarding the regions of iC3b contributing to the αX I-domain binding. In this study, using recombinant αX I-domain, as well as recombinant fragments of iC3b as candidate binding partners, we have identified two distinct binding moieties of iC3b for the αX I-domain. They are the C3 convertase-generated N-terminal segment of the C3b α'- chain (α'NT) and the factor I cleavage-generated N-terminal segment in the CUBf region of α-chain. Additionally, we have found that the CUBf segment is a novel binding moiety of iC3b for the αM I-domain. The CUBf segment shows about a 2-fold higher binding activity than the α'NT for αX I-domain. We also have shown the involvement of crucial acidic residues on the iC3b side of the interface and basic residues on the I-domain side.

Effect of genetic polymorphisms on therapeutic response in multiple sclerosis relapsing-remitting patients treated with interferon-beta

Treatment with interferon beta (IFNβ) is one of the first-line treatments for multiple sclerosis. In clinical practice, however, many patients present suboptimal response to IFNβ, with the proportion of non-responders ranging from 20 to 50%. This variable response can be affected by genetic factors, such as polymorphisms in the genes involved in the disease state, pharmacodynamics, metabolism or in the action mechanism of IFNβ, which can affect the efficacy of this drug. This review assesses the impact of pharmacogenetics studies on response to IFNβ treatment among patients diagnosed with relapsing-remitting multiple sclerosis (RRMS). The results suggest that the detection of polymorphisms in several genes (CD46, CD58, FHIT, IRF5, GAPVD1, GPC5, GRBRB3, MxA, PELI3 and ZNF697) could be used in the future as predictive markers of response to IFNβ treatment in patients diagnosed with RRMS. However, few studies have been carried out and they have been performed on small sample sizes, which makes it difficult to generalize the role of these genes in IFNβ treatment. Studies on large sample sizes with longer term follow-up are therefore required to confirm these results.

Targeting of G-protein coupled receptors in sepsis

The Third International Consensus Definitions (Sepsis-3) define sepsis as life-threatening multi-organ dysfunction caused by a dysregulated host response to infection. Sepsis can progress to septic shock-an even more lethal condition associated with profound circulatory, cellular and metabolic abnormalities. Septic shock remains a leading cause of death in intensive care units and carries a mortality of almost 25%. Despite significant advances in our understanding of the pathobiology of sepsis, therapeutic interventions have not translated into tangible differences in the overall outcome for patients. Clinical trials of antagonists of various pro-inflammatory mediators in sepsis have been largely unsuccessful in the past. Given the diverse physiologic roles played by G-protein coupled receptors (GPCR), modulation of GPCR signaling for the treatment of sepsis has also been explored. Traditional pharmacologic approaches have mainly focused on ligands targeting the extracellular domains of GPCR. However, novel techniques aimed at modulating GPCR intracellularly through aptamers, pepducins and intrabodies have opened a fresh avenue of therapeutic possibilities. In this review, we summarize the diverse roles played by various subfamilies of GPCR in the pathogenesis of sepsis and identify potential targets for pharmacotherapy through these novel approaches.

Complement C3 and C5 Degradation Products during Hemodialysis Treatment: Study of an Index of Membrane Bioincompatibility

In 10 hemodialyses (HD) with cuprophan (CU) and 10 with polyacrylonitrile (PAN), signs of complement activation were investigated by following arterial and venous levels of C3a, C3d and C5a, in order to propose a marker of bioincompatibility. Despite large individual variabilities, significant increases of these molecules were detected at t 20 min, particularly with CU device in the artery and more marked in the vein except for C3d with PAN. During the later stage of HD, while C3a and C5a levels gradually declined, but remained significantly higher than t 0 in all the patients treated with CU, the C3d concentration reached a plateau suggesting a continuous complement activation throughout HD. HD using PAN membranes were associated with a lower C3a, C3d and C5a generation and fewer dialyses generating these products. In some dialyses the higher arterial level of these molecules suggests an extra-dialyzer complement activation especially with PAN membrane. Although C5a venous levels appeared to be the more significant index of complement activation, for clinical purposes we propose the C3d arterial measurement as a reliable, non-expensive and technically simple indicator of membrane intolerance.

A new mouse anti-mouse complement receptor type 2 and 1 (CR2/CR1) monoclonal antibody as a tool to study receptor involvement in chronic models of immune responses and disease

Although reagents are available to block mouse complement receptor type 2 and/or type 1 (CR2/CR1, CD21/CD35) function in acute or short term models of human disease, a mouse anti-rat antibody response limits their use in chronic models. We have addressed this problem by generating in Cr2−/− mice a mouse monoclonal antibody (mAb 4B2) to mouse CR2/CR1. The binding of murine mAb 4B2 to CR2/CR1 directly blocked C3dg (C3d) ligand binding. In vivo injection of mAb 4B2 induced substantial down regulation of CR2 and CR1 from the B cell surface, an effect that lasted six weeks after a single injection of 2 mg of mAb. The 4B2 mAb was studied in vivo for the capability to affect immunological responses to model antigens. Pre-injection of mAb 4B2 before immunization of C57BL/6 mice reduced the IgG1 antibody response to the T-dependent antigen sheep red blood cells (SRBC) to a level comparable to that found in Cr2−/− mice. We also used the collagen-induced arthritis (CIA) model, a CR2/CR1-dependent autoimmune disease model, and found that mice pre-injected with mAb 4B2 demonstrated substantially reduced levels of pathogenic IgG2a antibodies to both the bovine type II collagen (CII) used to induce arthritis and to endogenous mouse CII. Consistent with this result, mice pre-injected with mAb 4B2 demonstrated only very mild arthritis. This reduction in disease, together with published data in CII-immunized Cr2−/− mice, confirm both that the arthritis development depends on CR2/CR1 receptors and that mAb 4B2 can be used to induce biologically relevant receptor blockade. Thus mAb 4B2 is an excellent candidate for use in chronic murine models to determine how receptor blockage at different points modifies disease activity and autoantibody responses.

Separation of self from non-self in the complement system

The alternative complement pathway is a self-contained and independent recognition and effector pathway that evolved to protect the host from microbes. As such, it must separate self from non-self. Via low grade continuous turnover (tickover) of the pivotal C3 component, the alternative complement pathway is always on guard to defend the host. Activated C3 binds continuously to self tissue and to foreign tissue, if present. There is no apparent discrimination at this initiation step. However, the amplification of C3 deposition on self (but not foreign) tissue, a necessity in establishing the effector functions of this pathway, is inhibited by a series of functionally, structurally and genetically related plasma and membrane glycoproteins which down-regulate complement activation. These regulatory molecules are widely distributed on human tissue. The plasma proteins are preferentially active on fluid-phase components while membrane-bound forms act on cell-bound components. Here, John Atkinson and Timothy Farries discuss these inhibitors of complement activation and suggest that their action explains the ability of the alternative pathway to amplify on foreign tissue but be down-regulated on autologous tissue.

Of macrophages and red blood cells; a complex love story

Macrophages tightly control the production and clearance of red blood cells (RBC). During steady state hematopoiesis, approximately 10¹⁰ RBC are produced per hour within erythroblastic islands in humans. In these erythroblastic islands, resident bone marrow macrophages provide erythroblasts with interactions that are essential for erythroid development. New evidence suggests that not only under homeostasis but also under stress conditions, macrophages play an important role in promoting erythropoiesis. Once RBC have matured, these cells remain in circulation for about 120 days. At the end of their life span, RBC are cleared by macrophages residing in the spleen and the liver. Current theories about the removal of senescent RBC and the essential role of macrophages will be discussed as well as the role of macrophages in facilitating the removal of damaged cellular content from the RBC. In this review we will provide an overview on the role of macrophages in the regulation of RBC production, maintenance and clearance. In addition, we will discuss the interactions between these two cell types during transfer of immune complexes and pathogens from RBC to macrophages.

Purification and characterization of human and mouse complement C3

Complement component C3 is the most abundant complement protein in plasma, central to all three complement activation pathways and essential to complement amplification. Thus, it is one of the most extensively studied complement proteins. This chapter describes the purification of C3 from human and mouse plasma using protein precipitation, followed by classical ion exchange chromatography and gel filtration. The biochemical and functional characteristics of the purified C3 are typically assessed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and hemolysis assays. The hemolysis assay is a standard technique to assess complement activity monitoring the lysis of red blood cells.

Structural insight on the recognition of surface-bound opsonins by the integrin I domain of complement receptor 3

Complement receptors (CRs), expressed notably on myeloid and lymphoid cells, play an essential function in the elimination of complement-opsonized pathogens and apoptotic/necrotic cells. In addition, these receptors are crucial for the cross-talk between the innate and adaptive branches of the immune system. CR3 (also known as Mac-1, integrin αMβ2, or CD11b/CD18) is expressed on all macrophages and recognizes iC3b on complement-opsonized objects, enabling their phagocytosis. We demonstrate that the C3d moiety of iC3b harbors the binding site for the CR3 αI domain, and our structure of the C3d:αI domain complex rationalizes the CR3 selectivity for iC3b. Based on extensive structural analysis, we suggest that the choice between a ligand glutamate or aspartate for coordination of a receptor metal ion-dependent adhesion site-bound metal ion is governed by the secondary structure of the ligand. Comparison of our structure to the CR2:C3d complex and the in vitro formation of a stable CR3:C3d:CR2 complex suggests a molecular mechanism for the hand-over of CR3-bound immune complexes from macrophages to CR2-presenting cells in lymph nodes.

Complement-mediated opsonization of invasive group A Streptococcus pyogenes strain AP53 is regulated by the bacterial two-component cluster of virulence responder/sensor (CovRS) system

Group A Streptococcus pyogenes (GAS) strain AP53 is a primary isolate from a patient with necrotizing fasciitis. These AP53 cells contain an inactivating mutation in the sensor component of the cluster of virulence (cov) responder (R)/sensor (S) two-component gene regulatory system (covRS), which enhances the virulence of the primary strain, AP53/covR(+)S(-). However, specific mechanisms by which the covRS system regulates the survival of GAS in humans are incomplete. Here, we show a key role for covRS in the regulation of opsonophagocytosis of AP53 by human neutrophils. AP53/covR(+)S(-) cells displayed potent binding of host complement inhibitors of C3 convertase, viz. Factor H (FH) and C4-binding protein (C4BP), which concomitantly led to minimal C3b deposition on AP53 cells, further showing that these plasma protein inhibitors are active on GAS cells. This resulted in weak killing of the bacteria by human neutrophils and a corresponding high death rate of mice after injection of these cells. After targeted allelic alteration of covS(-) to wild-type covS (covS(+)), a dramatic loss of FH and C4BP binding to the AP53/covR(+)S(+) cells was observed. This resulted in elevated C3b deposition on AP53/covR(+)S(+) cells, a high level of opsonophagocytosis by human neutrophils, and a very low death rate of mice infected with AP53/covR(+)S(+). We show that covRS is a critical transcriptional regulator of genes directing AP53 killing by neutrophils and regulates the levels of the receptors for FH and C4BP, which we identify as the products of the fba and enn genes, respectively.

The capsule of Streptococcus equi ssp. zooepidemicus is a target for attenuation in vaccine development

Streptococcus equi ssp. zooepidemicus (SEZ) is an important pathogen associated with a wide range of diseases in many mammalian species. The development of novel effective vaccines would be beneficial to control SEZ infection. In the present study, the importance of the SEZ capsule was examined using a newly constructed capsule-deficient mutant ΔhasB strain. Transmission electron microscopy confirmed a decrease in the abundance of extracellular capsular polysaccharide on the mutant SEZ. Compared to the parental wild-type SEZ, the ΔhasB mutant was highly attenuated in mice and provided 100% protection against lethal challenge when administered as a live vaccine. Real-time PCR analysis showed a marked increased in the levels of IL-4 and IFN-γ mRNA in immunized mice. The role that the capsule plays in SEZ pathogenicity was also explored with respect to the mechanistic design of an attenuated vaccine target. The capsule could resist complement C3 deposition on the surface of SEZ cells and aid in preventing complement-mediated opsonization and phagocytosis by cultured macrophages. These results suggest that the capsule of SEZ plays an important role in pathogenicity and may serve as a target for attenuation in vaccine development.

Complement and its role in innate and adaptive immune responses

The complement system plays a crucial role in the innate defense against common pathogens. Activation of complement leads to robust and efficient proteolytic cascades, which terminate in opsonization and lysis of the pathogen as well as in the generation of the classical inflammatory response through the production of potent proinflammatory molecules. More recently, however, the role of complement in the immune response has been expanded due to observations that link complement activation to adaptive immune responses. It is now appreciated that complement is a functional bridge between innate and adaptive immune responses that allows an integrated host defense to pathogenic challenges. As such, a study of its functions allows insight into the molecular underpinnings of host-pathogen interactions as well as the organization and orchestration of the host immune response. This review attempts to summarize the roles that complement plays in both innate and adaptive immune responses and the consequences of these interactions on host defense.

Histochemical contributions to the binding mechanism of complement (CR1, CR2) receptors

Complement receptors (CR1, CR2, CR3), and their ligands (C3b, C3d, iC3b) are essentially involved in germinal center development and in binding, trapping, and retaining immunocomplexes. Methods studying complement receptor (CR1/CR2)-ligand (C3b/C3d) interactions mostly involve coating of sheep erythrocytes (E), sheep erythrocyte-antisheep erythrocyte antibody (EA complexes) and whole human (h) or mouse (m) sera as a source of complement, EACh/m complexes, as reagents. The observation of Dukor et al. (1970), that EACm complexes in native cryostat sections bind selectively and very strongly to the B lymphocyte regions of lymphoid organs allowed the topo-histochemical analysis of receptor (CR1/CR2)-ligand (C3b/C3d) interactions in such an immunologically important area as the germinal centers. The main finding of this study is, that periodic acid pretreatment of unfixed cryostat tonsil sections-oxidizing vicinal glycol groups of polysaccharide chains into dialdehydes-completely abolished the binding of all EAC/EC complexes to germinal center area. It may suggest the involvement of receptor carbohydrate in C3 receptor/ligand binding. In addition to, the subsequent sodium borohydride reduction-converting aldehydes (produced by periodic acid oxidation) into primary alcohols-restored selectively the binding of all applied EAC/EC complexes to follicular centers. These in vitro topo-histochemical studies give a strong hint for the participation of-OH groups of sugar residues in CR1/CR2 ligand (C3b/C3d) binding.

Complement inhibition reduces injury in the type 2 diabetic heart following ischemia and reperfusion

Chronic inflammation exacerbates the cardiovascular complications of diabetes. Complement activation plays an important role in the inflammatory response and is known to be involved in ischemia-reperfusion (I/R) injury in the nondiabetic heart. The purpose of this study was to determine if increased complement deposition explains, in part, the increased severity of neutrophil-mediated I/R injury in the type 2 diabetic heart. Nondiabetic Zucker lean control (ZLC) and Zucker diabetic fatty (ZDF) rats underwent 30 min of coronary artery occlusion followed by 120 min of reperfusion. Another group of ZDF rats was treated with the complement inhibitor FUT-175 before reperfusion. Left ventricular (LV) tissue samples were stained for complement deposition and neutrophil accumulation following reperfusion. We found significantly more complement deposition in the ZDF LV compared with the ZLC ( P < 0.05), and complement deposition was associated with significantly greater neutrophil accumulation. In whole blood samples taken preischemia and at 120 min reperfusion, neutrophils exhibited significantly more CD11b expression in the ZDF group compared with the ZLC group ( P < 0.05). Furthermore, intracellular adhesion molecule (ICAM)-1 expression following I/R was increased significantly in ZDF hearts compared with ZLC hearts ( P < 0.001). These results indicate that, in the ZDF heart, increased ICAM-1 and polymorphonuclear neutrophil (PMN) CD11b expression play a role in increasing PMN accumulation following I/R. The infarct size of the ZDF was significantly greater than ZLC ( P < 0.05), and treatment with FUT-175 significantly decreased infarct size, complement deposition, and PMN accumulation in the diabetic heart. These findings indicate an exacerbated inflammatory response in the type 2 diabetic heart that contributes to the increased tissue injury observed following ischemia and reperfusion.

Immune complex binding by immunocamouflaged [poly(ethylene glycol)-grafted] erythrocytes

Immune complexes (IC) are constantly formed at low levels in normal individuals. In humans, the red blood cell (RBC) complement receptor 1 (CR1) plays the dominant role in the IC binding and clearance. Over the last several years, we have investigated the potential utility of immunocamouflaged (methoxypoly(ethylene glycol) [mPEG] grafted) RBC to attenuate the risk of alloimmunization. Because the grafted polymer nonspecifically camouflages membrane proteins, its effects on CR1 detection and IC binding were assessed. The dose dependent (0-2.5 mM) effects of activated mPEG (CmPEG, 5 kDa; and BTCmPEG, 5 and 20 kDa) on CR1 detection and the binding of artificially generated IC [C3b coated alkaline phosphatase and antialkaline phosphatase complexes] to control and pegylated RBC was investigated by flow cytometry. In contrast to selected non-ABO blood group antigens, grafted mPEG did not effectively camouflage CR1. Surprisingly, however, even very low grafting concentrations of mPEG (>or=0.3 mM) resulted in a >or=95% loss in IC binding. Further reductions in grafting concentration (0.15 and 0.03 mM mPEG) still yielded decreased IC binding of approximately 60 and 40%, respectively. Importantly, unactivated mPEG had minimal effects on IC binding. These data demonstrate that even small amounts of grafted mPEG interfere with the multivalent CR1-IC interaction necessary for high affinity IC binding, hence large volume transfusions of mPEG-RBC may be contraindicated in patients with pre-existing IC disease. Whether this concern is of clinical significance in healthy humans is less clear due to dilutional effects and the presence of secondary clearance pathways.

Macrophage complement receptors and pathogen clearance

Phagocytosis, an important mechanism of the host-defence system and a primary function of macrophages, is facilitated by opsonization, a process by which serum components tag pathogens for recognition by neutrophils and macrophages. Complement component C3 is central to opsonization. Its first cleavage product, C3b, forms the multisubunit enzyme, C3bBb, which proteolytically cleaves additional C3 molecules on the pathogen surface. C3b is further degraded to iC3b, C3c and C3dg, products that serve as ligands for selective complement receptors on leukocytes. This receptor-ligand interaction subsequently modulates immune responses or directly targets the pathogen for clearance by phagocytosis. Although a central role for C3 in phagocytosis of certain pathogens is well accepted, the receptors orchestrating the phagocytic response have not been well characterized. The recent structures of C3 and its breakdown products have increased our insights into the molecular basis of complement activation and recognition by their receptors. Here we review the biology of macrophage receptors for C3 fragments and discuss their role in the host response to pathogens.

Effects of adacolumn selective leukocytapheresis on plasma cytokines during active disease in patients with active ulcerative colitis

AIM: To investigate the relationship between ulcerative colitis (UC) clinical activity index (CAI) and circulating levels of IL-1ra, IL-10, IL-6 and IL-18.

METHODS: Blood levels of IL-1ra, IL-10, IL-6 and IL-18 were measured in 31 patients with active UC, the mean CAI was 11.1, ranging from 5-25; and 12 healthy individuals as controls. Patients were given granulocyte and monocyte adsorptive apheresis (GMA) with Adacolumn. Leucocytes which bear the FcγR and complement receptors were adsorbed to the column leucocytapheresis carriers. Each patient could receive up to 11 GMA sessions over 8 wk.

RESULTS: We found strong correlations between CAI and IL-10 (r = 0.827, P < 0.001), IL-6 (r = 0.785, P < 0.001) and IL-18 (r = 0.791, P < 0.001). IL-1ra was not correlated with CAI. Following GMA therapy, 24 of the 31 patients achieved remission and the levels of all 4 cytokines fell to the levels in healthy controls. Further, blood levels of IL-1ra and IL-10 increased at the column outflow and inflow at 60 min suggesting release from leucocytes that adhered to the carriers.

CONCLUSION: Elevated blood levels of IL-6 and IL-18 together with peripheral blood granulocytes and monocytes/macrophages in patients with active UC show activative behaviour and increased survival time can be pro-inflammatory and the targets of GMA therapy.

CSMD1 is a novel multiple domain complement-regulatory protein highly expressed in the central nervous system and epithelial tissues

In this study, we describe the identification and in vitro functional activity of a novel multiple domain complement regulatory protein discovered based on its homology to short consensus repeat (SCR)-containing proteins of the regulators of complement activation (RCA) gene family. The rat cDNA encodes a predicted 388-kDa protein consisting of 14 N-terminal CUB domains that are separated from each other by a SCR followed by 15 tandem SCR domains, a transmembrane domain, and a short cytoplasmic tail. This protein is the homolog of the human protein of unknown function called the CUB and sushi multiple domains 1 (CSMD1) protein. A cloning strategy that incorporates the two C-terminal CUB-SCR domains and 12 of the tandem SCR repeats was used to produce a soluble rat CSMD1 protein. This protein blocked classical complement pathway activation in a comparable fashion with rat Crry but did not block alternative pathway activation. Analysis of CSMD1 mRNA expression by in situ hybridization and immunolabeling of neurons indicates that the primary sites of synthesis are the developing CNS and epithelial tissues. Of particular significance is the enrichment of CSMD1 in the nerve growth cone, the amoeboid-leading edge of the growing neuron. These results suggest that CSMD1 may be an important regulator of complement activation and inflammation in the developing CNS, and that it may also play a role in the context of growth cone function.

Adacolumn for selective leukocytapheresis as a non-pharmacological treatment for patients with disorders of the immune system: an adjunct or an alternative to drug therapy?

Inflammatory and/or autoimmune diseases like ulcerative colitis (UC) or Crohn's disease (CD) are debilitating chronic disorders that poorly respond to pharmacological interventions. Further, drug therapy has adverse effects that add to disease complications. The current thinking is that disorders like inflammatory bowel disease (IBD) reflect an over exuberant immune activation driven by cytokines including TNF-alpha. Major sources of cytokines include myeloid leukocytes (granulocytes, monocytes/macrophages), which in IBD are elevated with activation behavior and are found in vast numbers within the inflamed intestinal mucosa. Accordingly, myeloid cells should be the targets of therapy. Adacolumn is filled with cellulose acetate beads that selectively adsorb and deplete myeloid cells and a small fraction of lymphocytes (FcgammaR and complement receptors bearing cells). In one study, 20 steroid naive patients with moderate (n = 14) or severe (n = 6) UC according to Rachmilewitz despite 1.5-2.25 g/day of 5-aminosalicylic acid received 6 to 10 Adacolumn sessions at 2 sessions/week. Efficacy was assessed 1 week after the last session. The majority of patients responded to 6 sessions, 17 (85%) achieved remission. In 2 of the 3 non-responders, CAI was 8 and 12 in 1; all 3 had deep colonic ulcers at study initiation. Decreases were seen in total leukocytes (P = 0.003), % neutrophils (P = 0.003), % monocytes (P = 0.004), an increase in lymphocytes (P = 0.001), decreases in C-reactive protein (P = 0.0002), and rises in blood levels of soluble TNF-alpha receptors I (P = 0.0007), II (P = 0.0045). In a separate study, a case with very severe steroid refractory UC who received up to 11 sessions responded well and avoided colectomy. Further, myeloid cell purging with Adacolumn has been associated with the release of IL-1 receptor antagonist, suppression of TNF-alpha, IL-1beta, IL-6, IL-8, down-modulation of L-selectin and the chemokine receptor CXCR3. In conclusion, selective depletion of myeloid cells appears to induce anti-inflammatory effects and represents a non-pharmacological treatment for patients with active IBD. The treatment has a clear drug-sparing role. Changes in blood levels of inflammatory and anti-inflammatory factors are thought to contribute to the efficacy of this procedure.

Selective granulocyte and monocyte apheresis as a new adjunct to enhance the efficacy of interferon-alpha + ribavirin in patients with high plasma hepatitis C virus

BACKGROUND AND AIM

Selective granulocyte and monocyte/macrophage adsorptive apheresis is to increase the turnover of infected leucocytes and has increased CD4+ T cells, which are necessary for actions of interferon-alpha on hepatitis C virus. Therefore, granulocyte and monocyte apheresis was to enhance the efficacy of interferon + ribavirin.

METHODS

Fifteen patients, 12 had interferon resistant hepatitis C virus and 3 were interferon naive. Hepatitis C virus genotype was 1b in 11 and 2a in 4. The mean plasma HCV-RNA was 728.3 kU/mL and alanine aminotransferase was 107.5 U/L. Granulocyte and monocyte apheresis was with the Adacolumn, which contains carriers that adsorb granulocytes and monocytes/macrophages. After five consecutive granulocyte and monocyte apheresis sessions over 5 days, interferon daily 6 million units for 4 weeks, then three times/week for 20 weeks+ribavirin (600-800 mg per patient per day) were given and followed for another 24 weeks.

RESULTS

During granulocyte and monocyte apheresis, plasma HCV-RNA transiently fell by up to 55%. Similarly, incubation of blood with the Adacolumn carriers caused a significant fall in HCV-RNA. Four patients were unavailable for efficacy evaluation. In the other 11, alanine aminotransferase normalised and at 11 weeks, plasma HCV-RNA was negative; six of these (55%) maintained their remission during the follow up.

CONCLUSION

Granulocyte and monocyte apheresis appears to deplete extra-hepatic hepatitis C virus reservoirs and generate active complement opsonins, which contribute to hepatitis C virus killing. Additional mechanism(s) are also likely and need to be elucidated in future studies with larger cohort of patients.

Complement and parasitic trematodes

The complement (C) system acts as a barrier to protect our bodies against invading pathogens. It may react to cytophilic antibodies or directly to foreign molecules presented by the intruder. As well as their cytotoxic activity, C components can attract and attach leucocytes to the surface of the foreign body, and activate them to kill it. Zvi Fishelson describes various strategies used by a parasitic trematode to escape immune damage in the face of potent immune surveillance by C and other effector mechanisms.

Correlation of serum soluble TNF-alpha receptors I and II levels with disease activity in patients with ulcerative colitis

OBJECTIVES

TNF-alpha has a major role in inflammatory bowel disease via two receptors, p55 (RI) and p75 (RII) expressed on many cell types, in particular neutrophils and monocytes (GM). Upon activation of these leukocytes, RI and RII are shed into the medium and can neutralize TNF. Accordingly, soluble RI and RII (s-RI/RII) are believed to have potent antiinflammatory actions. Further, in active UC, GM are elevated with activation behavior and recently adsorptive GM apheresis (GMA) in patients with severe UC was associated with a dramatic efficacy. In this study, we investigated the effects of GMA on serum s-RI/RII.

METHODS

Thirty-one patients with UC, clinical activity index (CAI) 11.1 were treated with GMA by using the Adacolumn. In the column, leukocytes which bear the FcgammaR and complement receptors adhere to the column apheresis carriers (neutrophils, monocytes, and a small fraction of lymphocytes). One GMA session was 60 min at 30 mL/min and each patient could receive up to 11 sessions over 8 wk. Serum s-RI/II were measured in the blood at the column inflow (peripheral blood, time 0 and 60 min) and outflow at 60 min.

RESULTS

Serum s-RI/RII showed strong correlation with CAI, r = 0.849 (p < 0.001) and r = 0.867 (p < 0.001), respectively and were greater than when patients were in remission or the levels in controls (p < 0.001). s-RI/RII at the column outflow were higher compared with inflow (p < 0.05) suggesting that RI/RII were shed from leukocytes which adhere to the carriers. Similarly s-RI/RII were significantly increased in the peripheral blood at the end of the 60 min GMA session compared with time 0. After 11 GMA sessions, CAI fell to remission level in 26 of 31 patients accompanied by falls of s-RI/RII.

CONCLUSIONS

The sources of s-RI/RII are believed to be activated monocytes and neutrophils with further release when these leukocytes adhere to the column carriers. s-RI/RII released during GMA should contribute to the clinical efficacy of this procedure.

ß-glucan affects leukocyte navigation in a complex chemotactic gradient

BACKGROUND

Polymorphonuclear leukocytes (PMNs) must traverse endogenous chemotactic gradients (interleukin 8 [IL-8]) before reaching target chemoattractants (fMLP [N-formylmethionine-leucine-phenylalanine], C5a) produced at a site of bacterial infection. Complement receptor 3 (CR3; CD11b/CD18) contains 2 distinct binding sites, one that mediates adhesion and a lectin-like domain (LLD) that binds polysaccharides of microbial origin. This laboratory previously reported an increase in the chemotactic capacity of PMNs toward fMLP upon ligation of the CR3 LLD with beta-glucan, a CR3 agonist. Current studies sought to determine the effect of beta-glucan on PMN navigation toward other chemoattractants alone and in a competing chemotactic environment.

METHODS

Migration was assessed by serum agarose overlay with the use of chambered slides containing or not, beta-glucan. Migration of human PMNs at 37 degrees C for 2 hours was evaluated toward C5a or IL-8 alone and in competing gradients. Selected groups were treated with anti-CR3-blocking antibodies. The number of chemotactic cells was quantified by microscopy.

RESULTS

beta-glucan significantly enhanced chemotaxis toward C5a and suppressed that toward IL-8 in a CR3-dependent fashion. In the competing chemotactic gradient assays (C5a vs IL-8), beta-glucan further enhanced migration toward C5a while not affecting that toward IL-8.

CONCLUSIONS

beta-glucan selectively upregulates PMN chemotaxis toward C5a while suppressing chemotaxis toward IL-8.

Granulocyte and Monocyte Adsorptive Apheresis for Patients with Chronic Hepatitis C Virus Infection: A Report on Six Cases with High Plasma Viremia

Granulocytes and monocytes/macrophages (GM) are known to constitute extra-hepatic sites for hepatitis C virus (HCV) replication and dissemination. Accordingly, we thought that selective GM adsorptive apheresis (GMA) might contribute to the treatment of HCV in patients with high viremia (HCV-RNA > 100 kIU/mL). Of six patients (three males and three females), mean age 62.2 years, five had not responded to interferon-alpha (INF-alpha) and one was INF-alpha naïve. Each patient received five GMA sessions, once a week for 5 weeks. The two antecubital veins were used as blood access and return lines and the apheresis was performed at 30 mL/min for 60 min. Treatment efficacy was assessed by monitoring changes in plasma HCV-RNA and aminotransferase. Granulocyte and monocyte/macrophage adsorptive apheresis was well tolerated. During each GMA, there was on average a 52.9% fall in plasma HCV-RNA, but HCV-RNA increased again during the time before the next GMA. There was no marked change in either aminotransferase during GMA. Furthermore, beyond the last GMA, HCV-RNA increased together with worsening aminotransferase in three of six patients. In conclusion, it would appear that GMA can partially reduce plasma HCV and GMA at a frequency of one session/week for 5 consecutive weeks but that this was inadequate to induce a sustained decrease in plasma HCV-RNA in patients with high viremia without simultaneous administration of antiviral medications. The most effective frequency of GMA needs to be determined in future clinical studies.

Direct Binding of Herpes Simplex Virus Type 1 Virions to Complement C3

Glycoprotein C (gC) of type 1 herpes simplex virus (HSV-1) binds the human complement C3 as purified proteins, or when expressed on the surface of infected cells. However, it is not clear whether the purified HSV virion binds directly to C3. In this study, direct binding of purified virions, HSV-1(KOS) or HSV-1(hrR3), to C3-coated plate was demonstrated by an enzyme-linked immunosorbent assay (ELISA). Captured virions on C3-coated plates were still infectious as determined by adding Vero cells to allow for infection to occur. The binding of virions to C3 was abolished if C3 was heat-inactivated, confirming a requirement for complement. In addition, the interaction was inhibited by preincubation of purified virions with heparin. In conclusion, a direct interaction of C3 with the HSV-1 virions was demonstrated.

Complement activation in chromosome 13 dementias. Similarities with Alzheimer's disease

Chromosome 13 dementias, familial British dementia (FBD) and familial Danish dementia (FDD), are associated with neurodegeneration and cerebrovascular amyloidosis, with striking neuropathological similarities to Alzheimer's disease (AD). Despite the structural differences among the amyloid subunits (ABri in FBD, ADan in FDD, and Abeta in AD), these disorders are all characterized by the presence of neurofibrillary tangles and parenchymal and vascular amyloid deposits co-localizing with markers of glial activation, suggestive of local inflammation. Proteins of the complement system and their pro-inflammatory activation products are among the inflammation markers associated with AD lesions. Immunohistochemistry of FBD and FDD brain sections demonstrated the presence of complement activation components of the classical and alternative pathways as well as the neo-epitope of the membrane attack complex. Hemolytic experiments and enzyme-linked immunosorbent assays specific for the activation products iC3b, C4d, Bb, and C5b-9 indicated that ABri and ADan are able to fully activate the complement cascade at levels comparable to those generated by Abeta1-42. ABri and ADan specifically bound C1q with high affinity and formed stable complexes in physiological conditions. Activation proceeds approximately 70-75% through the classical pathway while only approximately 25-30% seems to occur through the alternative pathway. The data suggest that the chronic inflammatory response generated by the amyloid peptides in vivo might be a contributing factor for the pathogenesis of FBD and FDD and, in more general terms, to other neurodegenerative conditions.

Gram-negative bacteria and phagocytic cell interaction mediated by complement receptor 3

Complement receptor 3 (CR3) is an integrin that recognizes several different ligands. Binding to CR3 in phagocytic cells activates signaling pathways involved in cytoskeleton rearrangement, regulation of cell motility, alteration of gene expression and phagocytosis of complement-opsonized as well as of some non-opsonized particles and pathogenic bacteria. However, CR3-mediated phagocytosis of some Gram-negative bacteria does not induce bacterial clearance. Pseudomonas aeruginosa, Salmonella and Escherichia coli are eliminated after phagocytic cell-bacteria interaction mediated by CR3. However, Bordetella takes advantage of the CR3 function and uses it to enter into macrophages leading to bacterial survival. The final fate of the pathogen is determined by combinations of host and bacterial factors, in which molecular interactions between CR3 and bacterial ligands are involved.

Retention of antigen on follicular dendritic cells and B lymphocytes through complement-mediated multivalent ligand-receptor interactions: theory and application to HIV treatment

In HIV-infected patients, large quantities of HIV are associated with follicular dendritic cells (FDCs) in lymphoid tissue. During antiretroviral therapy, most of this virus disappears after six months of treatment, suggesting that FDC-associated virus has little influence on the eventual outcome of long-term therapy. However, a recent theoretical study using a stochastic model for the interaction of HIV with FDCs indicated that some virus may be retained on FDCs for years, where it can potentially reignite infection if treatment is interrupted. In that study, an approximate expression was used to estimate the time an individual virion remains on FDCs during therapy. Here, we determine the conditions under which this approximation is valid, and we develop expressions for the time a virion spends in any bound state and for the effect of rebinding on retention. We find that rebinding, which is influenced by diffusion, may play a major role in retention of HIV on FDCs. We also consider the possibility that HIV is retained on B cells during therapy, which like FDCs also interact with HIV. We find that virus associated with B cells is unlikely to persist during therapy.

Complement activation in the human brain after traumatic head injury

The complement cascade has been suggested to be involved in the development of secondary brain injuries following brain contusions, based on animal experiments. The aim of the present study was to examine the possible involvement of the complement cascade following traumatic head injury in the human brain. Sixteen patients were included in this study, 12-77 years of age, treated at the neurointensive care unit for traumatic brain contusions. All of these patients were operated with frontal or temporal lobe resection due to intractable intracranial hypertension. The resected tissue was analyzed with regard to components related to complement activation. The time interval between accident and operation was 2-82 h. Brain tissue from three patients operated with hippocampectomy due to epilepsy, including temporal lobe resection, were used as controls. We found increased immunoreactivity for complement components C1q, C3b, and C3d and the membrane attack complex (MAC), C5b-9, in the immediate vicinity of neurons in the penumbra area of the contusion. These findings constitute histological evidence for activation of the complement cascade in the penumbra of cortical contusions in the human brain. Using in situ hybridization, we also found C3-mRNA in the penumbra, suggesting a local synthesis of complement. Furthermore, upregulation of the endogenous complement regulator clusterin was found in some neurons in the same area. We suggest that unknown compounds in the debris from injured neurons or myelin breakdown products trigger complement activation, including formation of C5b-9. Activated complement components may stimulate accumulation of inflammatory cells and formation of brain edema, as well as having membrane destructive effects by the end product MAC, thereby being mediators in the development of secondary brain damage.

Quantitative, phenotypic, and functional evaluation of basophils in myelodysplastic syndromes

BACKGROUND

The myelodysplastic syndromes (MDS) are a group of clonal haematological disorders characterized by cytopenia(s), reduced differentiation-capacity of myeloid cells, and impaired leukocyte function. However, little is known so far about basophil granulocytes in MDS.

DESIGN

We have compared the numbers, phenotype and function of basophils in MDS patients with those in healthy subjects. A total numer of 23 patients with MDS (refractory anaemia, n = 8; refractory anaemia with ringsideroblasts, n = 7; refractory anaemia with excess of blasts/refractory anaemia with excess of blasts in transformation, n = 8) and 20 healthy donors were included.

RESULTS

The numbers of blood basophils in MDS patients (34.6 +/- 62.9 microL-1) was lower compared to healthy controls (58.6 +/- 64.9 microL-1). Correspondingly, whole blood histamine levels were lower in MDS patients (MDS 34.1 +/- 29.1 ng mL-1 vs. normal donors 72.0 +/- 36.9 ng mL-1). Like "normal" basophils, basophils in MDS expressed interleukin-3 receptor alpha (CD123), E-NPP3 (CD203c), CR1 (CD35), CR3 (CD11b), CR4 (CD11c), membrane co-factor protein (CD46), decay-accelerating factor (CD55) and membrane attack complex inhibitory factor (CD59), as well as receptors for C3a, C5a (CD88), and IgE. Recombinant human (rh) C5a and anti-IgE induced significant release of histamine from basophils in both groups of donors without significant differences between MDS and healthy controls.

CONCLUSIONS

The absolute numbers of basophils in MDS patients are lower than in normal donors. However, basophils in MDS do not differ from their "normal counterparts" in terms of complement receptor expression, IgE-receptor expression, or functional responses to respective ligands.

Self antigen prognostic for human immunodeficiency virus disease progression

We have recently found that an extracellular protein, alpha(1) proteinase inhibitor (alpha(1)PI; alpha(1) antitrypsin), is required for in vitro human immunodeficiency virus (HIV) infectivity outcome. We show here in a study of HIV-seropositive patients that decreased viral load is significantly correlated with decreased circulating alpha(1)PI. In the asymptomatic category of HIV disease, 100% of patients manifest deficient levels of active alpha(1)PI, a condition known to lead to degenerative lung diseases and a dramatically reduced life span. Further, HIV-associated alpha(1)PI deficiency is correlated with circulating anti-alpha(1)PI immunoglobulin G. These results suggest that preventing HIV-associated alpha(1)PI deficiency may provide a strategic target for preventing HIV-associated pathophysiology.

Reduced CD43 expression on the neutrophils of MDS patients correlates with an activated phenotype of these cells

CD43 (also known as leukosialin and sialophorin) is a surface sialoglycoprotein expressed at high levels on most leukocytes implicated in adhesion, antiadhesion, and activation/proliferation mechanisms. We studied the expression of this molecule on the leukocytes of patients with myelodysplastic syndromes (MDSs) in an effort to detect acquired deficiencies of this molecule. We used immunofluorescence flow cytometry in analyzing whole blood and isolated neutrophils from 49 MDS patients, 33 men and 16 women aged 33 to 85 years (median, 75 years), and 18 healthy individuals aged 35 to 80 years (median, 72 years). According to French-American-British classification criteria, 13 patients had refractory anemia, 18 had refractory anemia with ringed sideroblasts, 9 had refractory anemia with excess of blasts, 4 had refractory anemia with excess of blasts in transformation to acute leukemia, and 5 had chronic myelomonocytic leukemia. We found decreased expression of CD43 on the neutrophils of these patients, and we correlated this finding with the activation status of these cells as it is defined by their phenotypes. We studied the expression of CD11b, CD18, CD35, CD67, CD69, CD44, and CD53 molecules known to be changed in the activated form of neutrophils. CD43 expression correlated positively with CD53 and CD44 expression and negatively with CD11b, CD18, CD35, CD67, and CD69 expression. Additionally, increased levels of soluble vascular cell adhesion molecules were detected in these patients, suggesting endothelial cell activation. In conclusion, we believe that the decreased expression of CD43 on the neutrophils of MDS patients is associated with activation of these cells and is probably due to cleavage of the molecule from the cell surface and that the same mechanism is possibly responsible for the parallel down-regulation of CD44 and CD53.

Utilization of CD11b knockout mice to characterize the role of complement receptor 3 (CR3, CD11b/CD18) in the growth of Mycobacterium tuberculosis in macrophages

Using CD11b knockout mice as a source of macrophages (Mphi;), we show that complement receptor 3 (CR3) mediates approximately 40-50% of nonopsonic binding and 50-60% of serum-mediated binding of Mycobacterium tuberculosis to resident Mphi;. We demonstrate that opsonic binding of M. tuberculosis to Mphi; is mediated by an immunoglobulin-independent, heat-labile component of serum, in both the presence and the absence of CD11b. The survival and replication of M. tuberculosis in an in vitro Mphi; model and an in vivo mouse model of infection were not significantly affected by the absence of CD11b, indicating that CR3-mediated uptake of M. tuberculosis is not a major factor in controlling the subsequent intracellular survival of the mycobacteria. However, whether a mycobacterium will gain access to the intracellular environment, and the type of M&phi; that the bacterium enters, is significantly affected by the presence or absence of CR3.

Clearance of anti-double-stranded DNA antibodies: the natural immune complex clearance mechanism

OBJECTIVE

To develop an in vitro model for investigating the mechanism by which autoantibodies in immune complexes (ICs) that are bound to primate erythrocytes via antigen-based heteropolymers (AHPs) are cleared from the circulation and localized to the liver.

METHODS

IgG anti-double-stranded DNA (anti-dsDNA) antibodies in ICs with dsDNA were bound to human erythrocytes via complement receptor 1 (CR1) either by opsonization with normal human serum as a complement source or through the use of an AHP, which consists of an anti-CR1 monoclonal antibody (mAb) that is chemically crosslinked with dsDNA. We performed parallel investigations of the mechanism of transfer of both types of erythrocyte-bound ICs to a monocytic cell line (U937). Erythrocytes with CR1-bound ICs were incubated with U937 cells under a variety of conditions, and subsequently, the levels of IgG anti-dsDNA, CR1, AHP, or C3b on both erythrocytes and U937 cells were measured by flow cytometry with appropriate fluorescently labeled probes.

RESULTS

In the presence of U937 cells, both the AHP-anti-dsDNA and C3b-opsonized ICs were rapidly removed from the erythrocytes; at 37 degrees C, more than half of the complexes were removed in 2 minutes. Monomeric mouse IgG2a mAb blocked the transfer of both types of complexes by 75%, suggesting that Fcgamma receptor type I (FcgammaRI) is the main phagocyte receptor responsible for the removal of ICs from erythrocytes. Levels of CR1 on the erythrocyte surface were reduced during transfer of the AHP-anti-dsDNA ICs, suggesting that transfer involves a concomitant removal of CR1, presumably by proteolysis.

CONCLUSION

Transfer of AHP-anti-dsDNA ICs from erythrocyte CR1 to model phagocytes occurs by a mechanism that is similar to the natural mechanism of IC clearance, involving recognition by FcgammaRI and removal of erythrocyte CR1 as key steps.

Influence of follicular dendritic cells on HIV dynamics

In patients infected with human immunodeficiency virus type 1 (HIV-1), a large amount of virus is associated with follicular dendritic cells (FDCs) in lymphoid tissue. To assess the influence of FDCs on viral dynamics during antiretroviral therapy we have developed a mathematical model for treatment of HIV-1 infection that includes FDCs. Here, we use this model to analyse measurements of HIV-1 dynamics in the blood and lymphoid tissue of a representative patient, who was treated with a combination of HIV-1 reverse transcriptase and protease inhibitors. We show that loss of virus from FDCs during therapy can make a much larger contribution to plasma virus than production of virus by infected cells. This result challenges the notion that long-lived infected cells are a significant source of HIV-1 during drug therapy. Due to release of FDC-associated virus, we find that it is necessary to revise upward previous estimates of c, the rate at which free virus is cleared, and delta, the rate at which productively infected cells die. Furthermore, we find that potentially infectious virus, present before treatment, is released from FDCs during therapy and that the persistence of this virus can be affected by whether therapy includes reverse transcriptase inhibitors.

The effect of the antithyroid drug propylthiouracil on the alternative pathway of complement in rats

The effect of propylthiouracil (PTU) on the lytic activity of complement in rat serum was investigated in vivo. Rats (180+/-10 g) were treated daily by gavage with PTU doses of 1-50 mg/200 g body weight for time intervals ranging from 1 to 30 days. Serum classical pathway (CP) and alternative pathway (AP) activities were determined 24 h after the last dose. A single dose of 50 mg/200 g body weight was administered to additional groups and the animals were sacrificed after periods of 1-48 h. The results showed a relatively small reduction ( approximately 30%) in CP activity, evident only in animals treated with 50 mg of PTU for three weeks. However, a clear and opposite effect of PTU, an increase in lytic activity reaching values up to 180% of controls, was observed on AP activity. This effect was seen at all PTU doses used, and occurred within 4 days of treatment with the highest dose. Maximum activity was observed at intermediate intervals, depending on the PTU dose, with a return to control levels occurring after the longer periods of treatment. The lytic activity of serum from animals treated with a single PTU dose of 50 mg/200 g body weight and sacrificed 1-48 h after dosing did not differ from controls. Serum levels of thyroid hormone (triiodo L-thyronine, T3, and thyroxine, T4) were determined in representative groups of treated animals (injected with 5 mg of PTU/200 g body weight/day). These were either undetectable or considerably lower than those of controls. The serum PTU levels of these rats increased for up to 22 days, reaching values of 2-4 microg/ml.PTU is described in the literature as a modulator of both cellular immune responses and antibody production. Upon complement activation fragments of complement components bind to immune complexes and to specific receptors on cells of the immune system. Thus, alteration in AP activity caused by PTU treatment suggests a possible mechanism by which the drug exerts its modulatory effect. Increased complement AP activity might affect events as antigen presentation and hence the onset and course of the immune response.

Preliminary studies on the immunomodulatory effect of the C3 binding glycoprotein isolated from Cuscuta europea

This study investigates the immunomodulatory effect of a C3 binding glycoprotein (C3bgp), isolated from the parasitic plant Cuscuta europea. When BALB/c mice, immunized with sheep red blood cells (SRBC), were given a single intraperitoneal injection of C3bgp a dose-dependent immunostimulation was observed. The stimulation was assessed by an increase in the number of haemolytic plaque forming cells (PFC) and haemaglutination titres. The induction was time dependent in respect to the administration of both the C3bgp and SRBC. When C3bgp was applied 24 h before SRBC at a dose of 30 microg per mouse (1.2 mg/kg), a well expressed immunostimulation was found. It was also found that giving C3bgp to mice, which had previously been treated with the immunosuppressive drug cyclophosphamide (CY), produced an increase in PFC. The immune response was also restored in vitro experiments were performed using human whole blood cultures stimulated with 30 microg/ml C3bgp in the presence or absence of egg albumin (OVA) as antigen for 72 to 168 h. In C3bgp stimulated cultures it was found that after 120 h there was a high expression of the CD 19+ subset of the activation antigen CD25 (IL-2R) as assessed by flow cytometric phenotype analysis. Supernatants from cultures with different stimuli were assayed by a solid phase ELISA for the determination of OVA-specific IgM at 120, 144 and 168 h. It was found that C3bgp application alone, failed to enhance OVA specific IgM, but significantly high levels of IgM in cultures containing C3bgp and OVA, were detected. Overall it has been shown that the C3 binding glycoprotein, as obtained from the parasitic plant Cuscuta europea, has strong immunostimulatory properties both in vivo and in vitro.

Dissociation of HIV-1 from follicular dendritic cells during HAART: mathematical analysis

Follicular dendritic cells (FDC) provide a reservoir for HIV type 1 (HIV-1) that may reignite infection if highly active antiretroviral therapy (HAART) is withdrawn before virus on FDC is cleared. To estimate the treatment time required to eliminate HIV-1 on FDC, we develop deterministic and stochastic models for the reversible binding of HIV-1 to FDC via ligand-receptor interactions and examine the consequences of reducing the virus available for binding to FDC. Analysis of these models shows that the rate at which HIV-1 dissociates from FDC during HAART is biphasic, with an initial period of rapid decay followed by a period of slower exponential decay. The speed of the slower second stage of dissociation and the treatment time required to eradicate the FDC reservoir of HIV-1 are insensitive to the number of virions bound and their degree of attachment to FDC before treatment. In contrast, the expected time required for dissociation of an individual virion from FDC varies sensitively with the number of ligands attached to the virion that are available to interact with receptors on FDC. Although most virions may dissociate from FDC on the time scale of days to weeks, virions coupled to a higher-than-average number of ligands may persist on FDC for years. This result suggests that HAART may not be able to clear all HIV-1 trapped on FDC and that, even if clearance is possible, years of treatment will be required.

Effect of plasmapheresis on ligand binding capacity and expression of erythrocyte complement receptor type 1 (CR1) of patients with systemic lupus erythematosus (SLE)

The functional activity and the expression of CR1 on the erythrocytes (E) of patients with SLE were, respectively, determined by measuring the binding to E of either complement-opsonized bovine serum albumin (BSA)-anti-BSA immune complexes (ICC) or specific anti-ECR1 MoAbs. We found that both the functional activity and levels of ECR1 in SLE patients homozygous for ECR1 high density allele were significantly lowered compared with healthy controls having the same allele. Soon after plasmapheresis there was a significant increase in E ICC binding activity, and this increased functional activity was stable. Moreover, plasmapheresis reduced the level of immune complexes demonstrable in the circulation of the patients. The expression of ECR1 determined with several different anti-CR1 MoAbs was also elevated as a consequence of plasmapheresis. This elevation was observed for both MoAb 1B4, which competes for the ICC binding site of ECR1, and for MoAb HB8592, which does not, but the time course for the increase in binding of the two MoAbs was different, in that the epitope recognized by MoAb 1B4 increased more rapidly. The present results, considered in the context of previous findings, suggest that more than one mechanism may be operative with respect to the effects of the plasmapheresis in increasing ECR1 levels defined by different epitopes on the molecule.

Interaction with complement receptor 1 (CD35) leads to amelioration of sepsis-triggered mortality but aggravation of arthritis during Staphylococcus aureus infection

The aim of this study was to assess the importance of complement receptor 1 (CR1, CD35) in Staphylococcus aureus arthritis and sepsis. The murine model of haematogenously acquired septic arthritis was used, injecting toxic shock syndrome toxin 1 (TSST-1)-producing S. aureus LS-1 intravenously. CR1 was blocked using immunoglobulin G (IgG) rat antimouse CR1 monoclonal antibody (MoAb) (8C12). Evaluation of arthritis was performed clinically and histopathologically. In addition, the effect of blocking CR1 was assessed on the phagocytic activity of leucocytes and on T-cell dependent and independent inflammation. Seven days after inoculation with bacteria, 96% of CR1 MoAb-treated mice had clinical symptoms of arthritis compared with 58% of the control animals (P < 0.01). The severity of arthritis, expressed as mean arthritic index, was 2.9 +/- 0.5 and 1.4 +/- 0.5, respectively (P = 0.004). Fifteen days after bacterial inoculation, all CR1 MoAb-treated mice had severe arthritis (mean arthritic index 6.3 +/- 0.6), while only 77% of controls were affected (mean arthritic index 2.9 +/- 0.6; P = 0.002). The potential explanation of these findings is that treatment with CR1 MoAb significantly increases the polymorphonuclear cell-dependent inflammatory response as a result of enhanced vasodilatation in treated animals. We conclude that treatment with CR1 MoAb leads to amelioration of sepsis-induced mortality during S. aureus infection, possibly as a result of the increased phagocytic activity of peripheral phagocytes.

Mechanism of complement-dependent haemolysis via the lectin pathway: role of the complement regulatory proteins

Mannan-binding lectin (MBL) is an acute phase protein which activates the classical complement pathway at the level of C4 and C2 via two novel serine proteases homologous to C1r and C1s. We recently reported that haemolysis via this lectin pathway requires alternative pathway amplification. The present experiments sought to establish the basis for this requirement, and hence focused on the activity and regulation of the C3 convertases. Complement activation was normalized between the lectin and classical pathways such that identical amounts of bound C4 and of haemolytically active C4,2 sites were present on the indicator cells. Under these conditions, there was markedly less haemolysis, associated with markedly less C3 and C5 deposited, via the lectin pathway than via the classical pathway, particularly when alternative pathway recruitment was blocked by depletion of factor D. Lectin pathway activation was associated with enhanced binding in the presence of MBL of complement control proteins C4bp and factor H to C4b and C3b, respectively, with decreased stability of the C3-converting enzyme C4b,2a attributable to C4bp. Immunodepletion of C4bp and/or factor H increased lectin pathway haemolysis and allowed lysis to occur in absence of the alternative pathway. Thus, the lectin pathway of humans is particularly susceptible to the regulatory effects of C4bp and factor H, due at least in part to MBL enhancement of C4bp binding to C4b and factor H binding to C3b.