Roger J. Kurlander

The Binding of Human Immunoglobulin G1 Monomer and Small, Covalently Cross-Linked Polymers of Immunoglobulin G1 to Human Peripheral Blood Monocytes and Polymorphonuclear Leukocytes

Covalently cross-linked dimers and oligomers composed of 2-4 subunits of monoclonal human IgG1 were prepared by incubation of purified monomeric IgG1 with glutaraldehyde followed by gelfiltration chromatography. Monomers, dimers, and oligomers then were labeled with (125)I and used to compare the binding properties of IgG Fc receptors on human peripheral blood monocytes and polymorphonuclear leukocytes (PMN). Binding of IgG1 to monocytes at 37 degrees C and of IgG1 polymers to PMN at 4 degrees C could be readily measured and were found to be reversible and saturable. Scatchard plots of binding were linear in each instance. Monocytes bound a mean of 20,200+/-6,800 molecules/cell of IgG1 monomer at saturation and comparable amounts of dimer or oligomer. The mean association constant (Ka) for binding of IgG1 monomer to monocytes was 8.6 x 10(8)M(-1) and the Ka for binding of dimer and oligomer were three-to fivefold greater.In contrast, PMN bound a mean of 460,000+/-130,000 molecules of IgG1 dimer at saturation and comparable amounts of oligomer. The Ka of binding in both cases was 100-1,000-fold lower than the Ka for binding of the same preparations to monocytes. Binding of labeled IgG1 to both cell types was more potently inhibited by unlabeled IgG1 and IgG3 than by IgG4 or IgG2. Binding of labeled polymers of IgG1 to monocytes was 10-100-fold more easily inhibited by monomeric IgG1 than was binding to PMN. Thus, there are significant quantitative and qualitative differences between the binding properties of Fc receptors present on monocytes and PMN.

Role of Human CD36 in Bacterial Recognition, Phagocytosis, and Pathogen-Induced JNK-Mediated Signaling

Scavenger receptor CD36 mediates Staphylococcus aureus phagocytosis and initiates TLR2/6 signaling. We analyzed the role of CD36 in the uptake and TLR-independent signaling of various bacterium, including Escherichia coli, Klebsiella pneumoniae, Salmonella typhimurium, S. aureus, and Enterococcus faecalis. Expression of human CD36 in HeLa cells increased the uptake of both Gram-positive and Gram-negative bacteria compared with the control mock-transfected cells. Bacterial adhesion was associated with pathogen phagocytosis. Upon CD36 transfection, HEK293 cells, which demonstrate no TLR2/4 expression, acquired LPS responsiveness as assessed by IL-8 production. The cells demonstrated a marked 5- to 15-fold increase in cytokine release upon exposure to Gram-negative bacteria, while the increase was much smaller (1.5- to 3-fold) with Gram-positive bacteria and lipoteichoic acid. CD36 down-regulation utilizing CD36 small interfering RNA reduced cytokine release by 40–50% in human fibroblasts induced by both Gram-negative and Gram-positive bacteria as well as LPS. Of all MAPK signaling cascade inhibitors tested, only the inhibitor of JNK, a stress-activated protein kinase, potently blocked E. coli/LPS-stimulated cytokine production. NF-κB inhibitors were ineffective, indicating direct TLR-independent signaling. JNK activation was confirmed by Western blot analyses of phosphorylated JKN1/2 products. Synthetic amphipathic peptides with an α-helical motif were shown to be efficient inhibitors of E. coli- and LPS-induced IL-8 secretion as well as JNK1/2 activation/phosphorylation in CD36-overexpressing cells. These results indicate that CD36 functions as a phagocytic receptor for a variety of bacteria and mediates signaling induced by Gram-negative bacteria and LPS via a JNK-mediated signaling pathway in a TLR2/4-independent manner.

CD36 Is a Novel Serum Amyloid A (SAA) Receptor Mediating SAA Binding and SAA-induced Signaling in Human and Rodent Cells

Serum amyloid A (SAA) is a major acute phase protein involved in multiple physiological and pathological processes. This study provides experimental evidence that CD36, a phagocyte class B scavenger receptor, functions as a novel SAA receptor mediating SAA proinflammatory activity. The uptake of Alexa Fluor® 488 SAA as well as of other well established CD36 ligands was increased 5–10-fold in HeLa cells stably transfected with CD36 when compared with mock-transfected cells. Unlike other apolipoproteins that bind to CD36, only SAA induced a 10–50-fold increase of interleukin-8 secretion in CD36-overexpressing HEK293 cells when compared with control cells. SAA-mediated effects were thermolabile, inhibitable by anti-SAA antibody, and also neutralized by association with high density lipoprotein but not by association with bovine serum albumin. SAA-induced cell activation was inhibited by a CD36 peptide based on the CD36 hexarelin-binding site but not by a peptide based on the thrombospondin-1-binding site. A pronounced reduction (up to 60–75%) of SAA-induced pro-inflammatory cytokine secretion was observed in cd36−/− rat macrophages and Kupffer cells when compared with wild type rat cells. The results of the MAPK phosphorylation assay as well as of the studies with NF-κB and MAPK inhibitors revealed that two MAPKs, JNK and to a lesser extent ERK1/2, primarily contribute to elevated cytokine production in CD36-overexpressing HEK293 cells. In macrophages, four signaling pathways involving NF-κB and three MAPKs all appeared to contribute to SAA-induced cytokine release. These observations indicate that CD36 is a receptor mediating SAA binding and SAA-induced pro-inflammatory cytokine secretion predominantly through JNK- and ERK1/2-mediated signaling.

Comparison of intravenous gamma globulin and a monoclonal anti-Fc receptor antibody as inhibitors of immune clearance in vivo in mice.

Fc-receptor-mediated clearance and nonspecific phagocytic clearance were assessed after the infusion of monomeric human IgG, heat-aggregated human IgG, and a monoclonal anti-mouse macrophage FcII receptor antibody (2.4G2) into normal mice. Each agent blocked Fc-receptor function in vivo, but 2.4G2 was much more potent per microgram than the other agents. Monomeric IgG in blocking doses did not affect other aspects of immune function. In contrast, aggregated IgG, and to a lesser extent, 2.4G2 reduced serum complement levels. In addition, these agents also caused moderate reductions in nonspecific phagocytic function. Monoclonal anti-mouse macrophage C3bi receptor antibody (Mac-1), another monoclonal antibody which binds to macrophage CR3 receptors without interfering with Fc-receptor function, also reduced serum complement and inhibited nonspecific phagocytic function. Complement depletion alone (produced by infusion of cobra venom factor) could not account for the observed changes in Fc receptor or nonspecific phagocytic function. We conclude that both monomeric IgG and anti-Fc-receptor antibodies can markedly inhibit Fc-receptor function in vivo; however, the pattern of physiologic changes produced by these agents differs.

Quantitative influence of antibody and complement coating of red cells on monocyte-mediated cell lysis.

Monocyte-mediated lysis in vitro of human red cells coated with measured amounts of immunoglobulin G (IgG) or complement were studied. 1,000-1,500 molecules of IgG anti-D are necessary to effect measurable lysis, and lysis increases linearly with increasing levels of antibody sensitization. 100 microgram/ml of IgG1 abolished lysis even at maximal levels of anti-D sensitization (15,000 molecules/cell). Two isoimmune IgG anti-A or anti-B antisera were 5 to 10-fold less efficient in promoting phagocytosis or lysis per molecule of IgG bound; however, because of the greater antigen density of A or B, more than 100,000 molecules IgG/cell could be bound, producing equivalent lysis to anti-D-coated cells. Although inhibition by IgG1 was similar at equivalent levels of sensitization with anti-A, anti-B, or anti-D at high levels of coating with anti-A or anti-B (not attainable with anti-D), lysis was not inhibited by IgG1. Cells coated with human complement components alone were not lysed by monocytes; however, complement coating augmented IgG-mediated lysis and reduced the quantity of anti-D necessary to produce lysis to less than 1,000 molecules/cell. After thorough degradation of C3b by serum to C3d, complement augmentation persisted.

Comparison of the efficacy of a two-day and a five-day schedule for infusing intravenous gamma globulin in the treatment of immune thrombocytopenic purpura in adults

The standard schedule for treating immune thrombocytopenia purpura in adults with intravenous immunoglobulin G infusion (IVIG), 400 mg/kg per day for five days, was compared with a shorter schedule using 1,000 mg/kg per day for two days. Both schedules were found to be effective in correcting thrombocytopenia. Eleven of the 17 patients treated with the five-day regimen and nine of 10 patients treated with the two-day regimen had significant responses. Patients with an initial platelet count of less than 20,000 platelets/mm3 or with an estimated in vivo platelet survival in excess of 90 hours were less likely to have a response than were other patients. There were no serious side effects in either group, but thrombophlebitis was observed in some patients receiving the five-day regimen when a single intravenous catheter was used for more than three days. Headaches and, less commonly, low-grade fever were noted in some patients receiving the two-day regimen when infusions were given at flow rates in excess of 0.04 ml/kg/minute. Since the two-day regimen requires shorter hospitalization and corrects thrombocytopenia slightly faster than the five-day course, it may be particularly useful in correcting thrombocytopenia in hospitalized patients requiring splenectomy or other surgery.

Human peritoneal macrophages possess two populations of IgG Fc receptors

To characterize the binding properties of the Fc receptors on human macrophages, the binding of radiolabeled human IgG1 to peritoneal macrophages was assessed. Cells were obtained at the time of diagnostic laparoscopy from women undergoing evaluation of infertility. Macrophages bound on the average more IgG1 monomer than monocytes but the avidity with which both types of cells bound IgG1 monomer was comparable. By contrast, macrophages bound much more IgG1 dimers than monocytes. Scatchard plots of the binding of dimer to monocytes were linear, but plots of binding to macrophages were markedly curvilinear. This curvilinearity was not an artifact of extensive ligand internalization or catabolism by cells, since 80% of binding was reversible and there was very little catabolism of ligand in the medium. Assuming that the observed curvilinearity was due to the presence of two independent subpopulations of receptors, an objective estimate for the number of receptors per cell and of the avidity with which each subpopulation bound IgG1 dimer was obtained using a previously described computer program (Scatfit). The analysis of the binding of dimer to macrophages from six donors suggested the presence of 42,000 +/- 33,000 high avidity receptors per cell which bind IgG1 dimer with a mean Ka of 2.7 X 10(9) M-1 and 218,000 +/- 127,000 low avidity receptors which bind the same ligand with a Ka of 1.1 X 10(7) M-1. ADCC of IgG antibody-coated sheep red blood cells mediated by macrophages was less readily inhibited by soluble IgG1 monomer than ADCC mediated by peripheral blood monocytes. This provides further evidence for the presence of low avidity receptors which bind monomeric IgG1 poorly and also suggests that these sites are functionally active in triggering antibody-dependent immune clearance.

Rejection of kidney allografts by MHC class I-deficient mice

To evaluate the requirement for CD8+ T cells in kidney transplant rejection, we studied class I-deficient (class I-) mice that had received vascularized renal allografts. Because of the absence of MHC class I expression, these mice are grossly deficient in CD4-CD8+ alpha beta TCR+ cells. Despite the deficiency of CD8+ T cells in naive class I- mice, kidney allografts transplanted into class I- recipients developed significant reductions in renal blood flow and glomerular filtration rate to levels comparable to allograft controls. This functional deterioration was associated with histologic changes consistent with cellular rejection. There were no significant differences in the pattern, severity, or phenotypic character of the cellular infiltrate in allografts transplanted into class I- recipients compared to controls. In fact, substantial numbers of CD8+ T cells were present in these allografts, and the intensity and pattern of anti-CD8 staining was not different from controls. Virtually all of the CD8+ cells in the kidney grafts were class I- and CD4- and co-expressed CD8 alpha and beta chains; the majority were alpha beta TCR+. The CD8+ infiltrating cells were cytotoxic to donor targets but also exhibited activity against class I+ cells bearing self-MHC. Despite the marked CD8+ T cell infiltration of grafts, CD8+ T cells could not be detected by flow cytometry in freshly isolated splenocytes from the class I- recipients of allografts. High levels of circulating anti-class I antibodies were present in the serum of class I- recipients of kidney allografts, and these antibodies had unusual specificity in that they appeared to recognize framework epitopes of MHC class I. Thus, class I- mice readily reject kidney allografts. Although the number of CD8+ alloreactive precursors is substantially reduced in class mice, and their specificities are atypical, the pattern and character of the intra-graft CD8+ cellular response is not significantly altered. Thus, factors unrelated to precursor frequency determine the dimension of the intra-graft CD8+ response. Such factors might include cellular and/or biochemical properties of microenvironment within the graft.

Effect of anti-CD4 antibody treatment on inflammatory arthritis in MRL-lpr/lpr mice.

MRL-lpr/lpr mice develop an inflammatory arthritis in association with other manifestations of autoimmunity. Although a variety of immune cell disturbances have been described in these mice, the relationship of these abnormalities to the pathogenesis of arthritis has not yet been determined; the role of T cells is especially unclear since synovial hypertrophy and joint erosions have been noted in some studies in the absence of a significant T cell infiltrate. Therefore, to determine if T cells are required for arthritis in MRL-lpr/lpr mice, we evaluated the effects of prolonged treatment with a monoclonal anti-CD4 antibody. Knee joints from treated mice had markedly reduced arthritis compared to saline-treated control animals as measured by the degree of synovial hypertrophy and inflammation. Nephritis in these mice was concomitantly reduced. In contrast, rheumatoid factor levels were not affected by CD4+ cell depletion, despite significant effects on anti-DNA. These results indicate that in MRL-lpr/lpr mice anti-CD4 therapy can inhibit arthritis, suggesting an important role of T cells in the pathogenesis of this lesion.

Genetic control of inflammatory arthritis in congenic Ipr mice

To determine the genetic requirements for the development of inflammatory arthritis in MRL-lpr/lpr mice, clinical, serologic, and pathologic features of lpr/lpr and +/+ mice of MRL, B6, C3H, and AKR strains were studied. Arthritis was evaluated by histopathologic examination of the knee joint, while sera were tested for the presence of rheumatoid factor (RF) and anti-DNA activity by ELISA. Of the strains tested to age 7 months, only the MRL-lpr/lpr mice developed histologic evidence of arthritis. All lpr mice, however, produced both IgM RF and IgG RF, although amounts varied among strains. These results indicate that the lpr gene as well as another gene(s) in the MRL background are necessary for the development of inflammatory arthritis and that this lesion may be independent of RF production.