Differential recruitment of accessory molecules by FcgammaRI during monocyte differentiation

Aggregation of the human high-affinity receptor for immunoglobulin G, FcgammaRI, results in initiation of intracellular signaling cascades. However, as the receptor contains no known signaling motif, it is required to recruit an accessory molecule. The gamma chain has been proposed to fulfil this role. Here, we show that in U937 cells differentiated to a more macrophage-like phenotype with dibutyryl cAMP, FcgammaRI no longer signals through the gamma chain but rather uses FcgammaRIIa to initiate tyrosine phosphorylation. Expression of the gamma chain is, however, increased in the dbcAMP-induced cells, but here the gamma chain specifically associates with the IgA receptor, FcalphaRI. Recruitment of the gamma chain either by FcgammaRI in cytokine-primed cells or by FcalphaRI in dbcAMP-induced cells couples ligand binding to the activation of phosphatidyl choline-specific phospholipase D.     

The monocyte Fcgamma receptors FcgammaRI/gamma and FcgammaRIIA differ in their interaction with Syk and with Src-related tyrosine kinases

There are important differences in signaling between the Fc receptor for immunoglobulin G (IgG) FcgammaRIIA, which uses the Ig tyrosine-activating motif (ITAM) within its own cytoplasmic domain, and FcgammaRI, which transmits signals by means of an ITAM located within the cytoplasmic domain of its associated gamma-chain. For example, in transfected epithelial cells and COS-1 cells, FcgammaRIIA mediates phagocytosis of IgG-coated red blood cells more efficiently than does FcgammaRI/gamma, and enhancement of phagocytosis by Syk kinase is more pronounced for FcgammaRI/gamma than for FcgammaRIIA. In addition, structure/function studies indicate that the gamma-chain ITAM and the FcgammaRIIA ITAM have different requirements for mediating the phagocytic signal. To study the differences between FcgammaRIIA and FcgammaRI/gamma, we examined the interaction of FcgammaRIIA and the FcgammaRI/gamma chimera FcgammaRI-gamma-gamma (extracellular domain-transmembrane domain-cytoplasmic domain) with Syk kinase and with the Src-related tyrosine kinases (SRTKs) Hck and Lyn in transfected COS-1 cells. Our data indicate that FcgammaRIIA interacts more readily with Syk than does FcgammaRI-gamma-gamma and suggest that one consequence may be the greater phagocytic efficiency of FcgammaRIIA compared with FcgammaRI/gamma. Furthermore, individual SRTKs affect the efficiency of phagocytosis differently for FcgammaRI-gamma-gamma and FcgammaRIIA and also influence the ability of these receptors to interact with Syk kinase. Taken together, the data suggest that differences in signaling by FcgammaRIIA and FcgammaRI-gamma-gamma are related in part to interaction with Syk and Src kinases and that individual SRTKs play different roles in FcgammaR-mediated phagocytosis.     

Fc gamma receptors differ in their structural requirements for interaction with the tyrosine kinase Syk in the initial steps of signaling for phagocytosis

Receptors for the constant region of IgG, Fc gamma receptors, are expressed on the surface of hematopoietic cells, where they mediate signaling events, such as phagocytosis, essential for host defense. Fc gamma receptors also play a role in the pathophysiology of autoimmune diseases. We have demonstrated that members of each of the three classes of human Fc gamma receptors, Fc gamma RI, Fc gamma RII, and Fc gamma RIII, mediate phagocytosis, but that important differences exist in their requirements for phagocytic signaling. For example, the Fc gamma receptors Fc gamma RI and Fc gamma RIIIA induce signaling largely by association with a gamma subunit containing a conserved cytoplasmic motif (ITAM) whose tyrosines are phosphorylated following receptor stimulation. Fc gamma RIIA contains a similar motif in its own cytoplasmic domain and does not require the gamma chain for phagocytic signaling. The tyrosine kinase Syk associates with the cytoplasmic domain of both the Fc gamma receptor gamma chain and Fc gamma RIIA and is required for phagocytosis by both Fc gamma receptor systems. To elucidate the differences in phagocytic signaling by the gamma chain and Fc gamma RIIA, we investigated the requirements for Fc gamma receptor/Syk co-immunoprecipitation, tyrosine phosphorylation, and phagocytosis. Both Fc gamma RIIA and the human gamma chain contain a tyrosine seven amino acids upstream of the ITAM motif. We observed that the upstream tyrosine plays a role in Fc gamma RIIA phagocytic signaling but is not involved in phagocytic signaling by the human gamma chain. Our data also indicate that the two ITAM tyrosines of the human gamma chain and Fc gamma RIIA do not contribute equally to Fc gamma receptor association with Syk kinase and phagocytic signaling. The data indicate that the carboxy-terminal tyrosine of the receptor cytoplasmic domain is especially important both for the interaction with Syk kinase and for phagocytosis. Elucidating such differences in gamma chain and Fc gamma RIIA signaling may be valuable in designing strategies for therapeutic intervention in hematopoietic and immunological disorders.     

Lysosomal routing of Fc gamma RI from early endosomes requires recruitment of tyrosine kinases.

The high-affinity receptor for immunoglobulin G (Fc gamma RI) plays a central role in the clearance of immune complexes by mediating their internalization and delivery to lysosomes. In monocytic U937 cells, receptor internalization is independent of tyrosine kinase activity. However, the tyrosine kinase inhibitor, genistein, prevents further progress of the receptor to lysosomes and traps it in a sub-plasma membrane early endosome. Similarly, Fc gamma RI expressed in COS cells is able to internalize immune complexes but is unable to translocate to lysosomes. This suggests that Fc gamma RI, whose cytoplasmic tail is devoid of known signalling motifs, must recruit tyrosine kinases via its gamma-chain to achieve lysosomal delivery. We show that a chimera of the extracellular domain of Fc gamma RI and the cytoplasmic tail of the gamma-chain is both internalized and efficiently trafficked to lysosomes. Our study suggests that a key function of the gamma-chain is recruitment of tyrosine kinases to initiate the intracellular signalling pathways required to target Fc gamma RI following immune complex aggregation to lysosomes and not to initiate endocytosis per se.     

Canine mast cell activation via human IgG1 and IgG4

BACKGROUND: We have reported that canine mastocytoma-derived CM-MC cells are activated via canine IgG and express a high-affinity IgG receptor (canine FcgammaRI). The predicted amino acid sequence of the canine FcgammaRI alpha subunit was found to be 72% similar to that of humans. These results suggest that canine FcgammaRI have binding activity with human IgG and led us to investigate CM-MC activation via canine FcgammaRI and human IgG. METHODS: The binding of human IgG to canine FcgammaRI was examined by flow cytometry using FITC-conjugated human IgG. [Ca2+]i increase or histamine release via canine FcgammaRI and the four human IgG subclasses was measured following aggregation of IgG-bound FcgammaRIs by anti-human IgG. To determine the binding activity of canine FcgammaRI with human IgG1 or IgG3, the displacement of 125I-labeled canine IgG from canine FcgammaRI was examined by unlabeled human IgG1 or IgG3. RESULTS: The fluorescence intensity of CM-MC cells was markedly (about 50 times) elevated by incubation with FITC-human IgG compared with the fluorescence of the control cells. A significant (p < 0.01) calcium response and histamine release were observed following aggregation of canine FcgammaRIs bound with human IgG1 or IgG4. 125I-labeled canine IgG was displaced from canine FcgammaRI by preincubation with unlabeled total human IgG or human IgG1 dose-dependently, whereas no displacement was detected by preincubation with human IgG3. CONCLUSIONS: Canine FcgammaRI possesses a significant binding activity with human IgG1 or IgG4, while IgG2 or IgG3 did not significantly react with canine FcgammaRI on CM-MC cells.     

FcgammaRIIa expression with FcgammaRI results in C-reactive protein- and IgG-mediated phagocytosis

C-reactive protein (CRP) is a pattern-recognition molecule, which can bind to phosphorylcholine and certain phosphorylated carbohydrates found on the surface of a number of microorganisms. CRP has been shown recently to bind human Fc receptor for immunoglobulin G (IgG; FcgammaR)I and mediate phagocytosis and signaling through the gamma-chain. To date, binding of monomeric CRP to FcgammaRII has been contentious. We demonstrate that erythrocytes opsonized with CRP bind FcgammaRIIa-transfected COS-7 cells. In addition, we demonstrate that FcgammaRI can use FcgammaRIIa R131 and H131 to phagocytose erythrocytes coated with IgG or purified or recombinant CRP in the absence of the gamma-chain. COS-7 cells expressing FcgammaRIIa or FcgammaRI alone did not phagocytose opsonized erythrocytes. Such phagocytosis required the cytoplasmic domain of FcgammaRIIa, as mutation of tyrosine at position 205 and truncation of the cytoplasmic domain from the end of the transmembrane region (position 206), resulting in the loss of the immunoreceptor tyrosine activatory motif, abrogated phagocytosis. FcgammaRIIa R131 was more efficient than FcgammaRIIa H131 at mediating CRP-dependent phagocytosis.     

FcgammaRI (CD64) contributes substantially to severity of arthritis, hypersensitivity responses, and protection from bacterial infection

The high-affinity receptor for IgG, FcgammaRI, shares its capacity to bind IgG2a immune complexes (IgG2a-IC) with the low-affinity receptor FcgammaRIII and complement factors, hampering the definition of its biological role. Moreover, in vivo, FcgammaRI is occupied by monomeric IgG2a, reducing its accessibility to newly formed IgG2a-IC. By using a variety of FcgammaR(-/-) mice, we demonstrate that in the absence of FcgammaRI, the IgG2a-IC-induced cellular processes of phagocytosis, cytokine release, cellular cytotoxicity, and antigen presentation are impaired. FcgammaRI(-/-) mice showed impaired hypersensitivity responses, strongly reduced cartilage destruction in an arthritis model, and impaired protection from a bacterial infection. We conclude that FcgammaRI contributes substantially to a variety of IgG2a-IC-dependent immune functions and immunopathological responses.     

Immune complexes suppress IFN-gamma signaling by activation of the FcgammaRI pathway

Antigen-driven immune responses are modulated by immune complexes (ICs), in part through their ability to inhibit IFN-gamma-dependent MHC Class II expression. We have demonstrated previously that ICs dramatically inhibit IFN-gamma-induced activation of human monocytes through the suppression of the JAK/STAT signaling pathway. In the current study, we further explore the mechanisms by which ICs regulate IFN-gamma activation of human monocytes. Consistent with previous studies in monocytes pretreated with ICs, there was a reduction in steady-state levels of RNA by real-time RT-PCR of the IFN-inducible protein 10 gene as well as the FcgammaRI gene. Pull-down assays confirm that IC pretreatment inhibits IFN-gamma-induced STAT1 phosphorylation without affecting the ability of STAT1 to bind to the STAT1-binding domain of the IFN-gamma receptor. In addition, the inhibitory function of ICs was reduced when cells from the FcR common gamma-chain knockout mice were used, supporting the role of the FcgammaRI in this inhibitory pathway. It is unexpected that ICs also require the phosphatase Src homology-2-containing tyrosine phosphatase 1 (SHP-1) to inhibit IFN-gamma induction, as demonstrated by studies with cells from the SHP-1 knockout (motheaten) mice. These data suggest a mechanism of IC-mediated inhibition of IFN-gamma signaling, which requires the ITAM-containing FcgammaRI, as well as the ITIM-dependent phosphatase SHP-1, ultimately resulting in the suppression of STAT1 phosphorylation.     

Fcgamma receptor I- and III-mediated macrophage inflammatory protein 1alpha induction in primary human and murine microglia

Microglial cell phagocytic receptors may play important roles in the pathogenesis and treatment of several neurological diseases. We studied microglial Fc receptor (FcR) activation with respect to the specific FcgammaR types involved and the downstream signaling events by using monoclonal antibody (MAb)-coated Cryptococcus neoformans immune complexes as the stimuli and macrophage inflammatory protein 1alpha (MIP-1alpha) production as the final outcome. C. neoformans complexed with murine immunoglobulin G (IgG) of gamma1, gamma2a, and gamma3, but not gamma2b isotype, was effective in inducing MIP-1alpha in human microglia. Since murine gamma2b binds to human FcgammaRII (but not FcgammaRI or FcgammaRIII), these results indicate that FcgammaRI and/or FcgammaRIII is involved in MIP-1alpha production. Consistent with this, an antibody that blocks FcgammaRII (IV.3) failed to inhibit MIP-1alpha production, while an antibody that blocks FcgammaRIII (3G8) did. An anti-C. neoformans MAb, 18B7 (IgG1), but not its F(ab')(2), induced extracellular signal-regulated kinase (ERK) mitogen-activated protein kinase kinase phosphorylation, and MIP-1alpha release was suppressed by the ERK inhibitor U0126. C. neoformans plus 18B7 also induced degradation of I-kappaBalpha, and MIP-1alpha release was suppressed by the antioxidant NF-kappaB inhibitor pyrrolidine dithiocarbamate. To confirm the role of FcR more directly, we isolated microglia from wild-type and various FcR-deficient mice and then challenged them with C. neoformans plus 18B7. While FcgammaRII-deficient microglia showed little difference from the wild-type microglia, both FcgammaRI alpha-chain- and FcgammaRIII alpha-chain-deficient microglia produced less MIP-1alpha, and the common Fc gamma-chain-deficient microglia showed no MIP-1alpha release. Taken together, our results demonstrate a definitive role for FcgammaRI and FcgammaRIII in microglial chemokine induction and implicate ERK and NF-kappaB as the signaling components leading to MIP-1alpha expression. Our results delineate a new mechanism for microglial activation and may have implications for central nervous system inflammatory diseases.     

Heat shock effect upon dengue virus replication into U937 cells

The molecules involved in dengue virus entry into human cells are currently unknown. We have previously shown that two surface heat shock proteins (Hsps), Hsp90 and Hsp70 are part of a receptor complex in monocytic cells. In the present report, the effect of heat shock (HS) on dengue virus infection is analyzed. We have documented a more than twofold increase in dengue virus infectivity after HS treatment in monocytic cells U937; this effect correlates mainly with an increase in viral entry due to a major presence of both Hsps on the surface of monocytic cells, particularly in membrane microdomains. Interestingly, since heat shock treatment at 6h post-infection also increased viral yields, it is likely that HS also modulates positively dengue virus replication.     

Evidence for two mechanisms of dengue virus infection of adherent human monocytes: trypsin-sensitive virus receptors and trypsin-resistant immune complex receptors.

Trypsin treatment of adherent human monocytes greatly reduced or eliminated the ability of these cells to support dengue virus replication. However, addition of dilute (nonneutralizing) antibody to the inoculum and the culture medium resulted in viral yields similar to those from monocytes not treated with trypsin. These results suggested that viral entry was facilitated by phagocytosis of immune complexes via Fc receptors on the monocytes. This concept was tested by (i) pretreating monocytes with aggregated gamma globulin, which resulted in a 40-fold reduction of viral yields after infection with dilute antibody-virus complexes and (ii) forming an immune complex with virus, antivirus F(ab')2 fragments, and rabbit anti-human Fab. Whereas F(ab')2 fragments alone would not enhance virus replication in trypsin-treated monocytes, the immune complex containing a rabbit Fc piece did increase the yield of dengue virus. These results suggest that dengue virus can infect a cultured monocyte in two ways: (i) through a viral receptor that is trypsin sensitive or (ii) through an Fc receptor that is not trypsin sensitive.     

C-reactive protein-mediated phagocytosis and phospholipase D signalling through the high-affinity receptor for immunoglobulin G (FcgammaRI)

C-reactive protein (CRP) is the prototypic acute-phase protein in man which performs innate immune functions. CRP-mediated phagocytosis may be indirect, through activation of complement and complement receptors, or direct, through receptors for the Fc portion of immunoglobulin G (IgG; FcgammaRs) or even a putative CRP-specific receptor. No strong evidence has been shown to indicate which receptors may be responsible for phagocytosis or signalling responses. Using BIAcore technology, we confirm that CRP binds directly to the extracellular portion of FcgammaRI with a threefold higher affinity than IgG (KD = 0.81 x 10-9 m). Binding is Ca2+ dependent and is inhibited by IgG1 but not by phosphorylcholine (PC). CRP opsonization (using CRP concentrations within the normal human serum range) of PC-conjugated sheep erythrocytes increased phagocytosis of these particles by COS-7 cells transfected with FcgammaRI-II chimaera or FcgammaRI/gamma-chain. Interferon-gamma-treated U937 cells, which signal through FcgammaRI to activate phospholipase D (PLD) in response to cross-linked IgG, were also activated by CRP without any requirement for further cross-linking. These studies indicate that CRP is capable of binding to and cross-linking FcgammaRI thereby resulting in PLD activation and increased phagocytosis. Uptake by FcgammaRI has been reported to promote various acquired immune responses suggesting that CRP could act in a similar way.     

A single amino acid distinguishes the high-responder from the low-responder form of Fc receptor II on human monocytes.

The low-affinity Fc receptor on human peripheral blood monocytes (Fc gamma RIIA) is polymorphic with respect to its ability to bind murine IgG1. The two allelic forms of the receptor, high responder (HR) and low responder (LR), yield characteristic patterns after isoelectric focusing and react differently with the anti-Fc gamma RII monoclonal antibody (mAb), 41H16. We recently cloned cDNA encoding the extracellular domains of Fc gamma RIIA on monocytes from one HR and two LR donors, and found that they differed at only a single base. The cDNA isolated from the HR donor had a G at position 519 and would be expected to encode an aginine at residue 133 in the mature protein, while the cDNA isolated from both LR donors had an A at position 519 and would be expected to encode a histidine at the same residue. To determine whether this single amino acid substitution actually accounts for the functional polymorphism involving Fc gamma RIIA, we transfected COS cells with full-length HR and LR Fc gamma RIIA cDNA, and examined them for their ability to react with anti-Fc gamma RIIA mAb and to bind red blood cells (RBC) coated with either murine IgG2b or murine IgG1. Whereas COS cells transfected with either the HR cDNA or the LR cDNA reacted with the anti-Fc gamma RII mAb, IV.3, and bound murine IgG2b-coated RBC, only COS cells transfected with the HR cDNA formed rosettes with murine IgG1-coated RBC and reacted strongly with mAb 41H16. A total of nine LR donors were identified, and all were homozygous for the A substitution at position 519. We conclude that at an A at position 519 in the cDNA encoding Fc gamma RIIA is the primary molecular basis for the LR form of the receptor, and that the amino acid at residue 133 determines whether Fc gamma RIIA efficiently binds murine IgG1.     

A dominant role for FcgammaRII in antibody-enhanced dengue virus infection of human mast cells and associated CCL5 release

Dengue virus is a major mosquito-borne human pathogen with four known serotypes. The presence of antidengue virus antibodies in the serum of individuals prior to dengue virus infection is believed to be an important risk factor for severe dengue virus disease as a result of the phenomenon of antibody-dependent enhancement operating on Fc receptor (FcR)-bearing cells. In addition to blood monocytes, mast cells are susceptible to antibody-enhanced dengue virus infection, producing a number of inflammatory mediators including IL-1, IL-6, and CCL5. Using the human mast cell-like lines KU812 and HMC-1 as well as primary cultures of human cord blood-derived mast cells (CBMC), we aimed to identify the participating FcRs in antibody-enhanced mast cell dengue virus infection, as FcRs represent a potential site for therapeutic intervention. CBMC expressed significant levels of FcgammaRI, FcgammaRII, and FcgammaRIII, and mast cell-like HMC-1 and KU812 cells expressed predominantly FcgammaRII. All four serotypes of dengue virus showed antibody-enhanced binding to KU812 cells. Specific FcgammaRII blockade with mAb IV.3 was found to significantly abrogate dengue virus binding to KU812 cells and CBMC in the presence of dengue-specific antibody. Dengue virus infection and the production of CCL5 by KU812 cells were also inhibited by FcgammaRII blockade.     

Hyperexpression of FcgammaRI and Toll-like receptor 4 in the intestinal mast cells of Crohn's disease patients

We previously reported that human mast cells (MCs) express high affinity IgG receptor (FcgammaRI) and Toll-like receptor 4 (TLR4) in response to interferon (IFN)-gamma in vitro. The number of MCs is known to increase in Crohn's disease (CD) and ulcerative colitis (UC). We aimed to examine the expression and function of the receptors in these diseases by immunohistochemistry of the colonic mucosae and by in vitro experiments. The density of MCs expressing FcgammaRI, TLR4, or both proteins was significantly higher in CD than in UC or control samples. The density of TNF-alpha(+) MCs expressing FcgammaRI or TLR4 was significantly higher in CD than in control samples. LPS and IgG1 cross-linking synergistically induced a high level of TNF-alpha production in IFN-gamma-treated human MCs. Hyperexpression of FcgammaRI and TLR4 on MCs was related to the high frequency of TNF-alpha expression in CD, suggesting the activation of MCs via these receptors in vivo.     

Dengue virus infection and immune response in humanized RAG2(-/-)gamma(c)(-/-) (RAG-hu) mice

Dengue viral (DENV) pathogenesis and vaccine studies are hampered by the lack of an ideal animal model mimicking human disease and eliciting an adaptive human immune response. Although currently available animal models have been very useful in dissecting some key aspects of disease pathogenesis, a major limitation with these is the lack of a human immune response. In this study, we sought to overcome this difficulty by utilizing a novel mouse model that permits multi-lineage human hematopoiesis and immune response following transplantation with human hematopoietic stem cells. To generate immunocompetent humanized mice, neonatal RAG2(-/-)gamma(c)(-/-) mice were xenografted with human CD34+ hematopoietic stem cells, resulting in de novo development of major functional cells of the human adaptive immune system. To evaluate susceptibility to dengue viral infection, humanized mice were challenged with DEN-2 serotype. Viremia lasting up to 3 weeks was detected in infected mice with viral titers reaching up to 10(6.3) RNA copies/ml. Fever characteristic of dengue was also noted in infected mice. Presence of human anti-dengue antibodies was evaluated using an antibody capture ELISA. Anti-dengue IgM was first detected by 2 weeks post-infection followed by IgG at 6 weeks. Sera from some of the infected mice were also found to be capable of dengue virus neutralization. Infected mouse sera showed reactivity with the viral envelope and capsid proteins in immunoprecipitation assay. These results demonstrate for the first time that humanized mice are capable of dengue viral primary human immune responses thus paving the way for new dengue immunopathogenesis and vaccine studies.     

Expression of low-affinity Fc gamma receptor by a human metastatic melanoma line

The class IIa of low-affinity receptors for the Fc region of IgG, Fc gamma RIIa, are expressed on immune cells. The cross-linking of Fc gamma RIIa by complexed IgG triggers activation of protein tyrosine kinase and internalization of immune complexes. In this report, we demonstrate the expression of Fc gamma RIIa by a human melanoma cell line (VIO) derived from a metastasis of a patient with regressive melanoma. The analysis of Fc gamma RIIa functions was performed in VIO cells and Fc gamma RlIa- or Fc gamma RIlb-transfected human melanoma cells (A375). The Fc gamma RIIa cross-linking induced protein tyrosine phosphorylation, including Fc gamma RIIa phosphorylation, and led to its internalization in a clathrin-independent way in human melanoma cells. Moreover, we showed that a part of internalized Fc gamma RIIa migrates in late endosomes, lysosomes and class II-containing compartments. These results suggest that melanoma cells can express functional Fc gamma RII, which might play a role in tumor-host relationships.     

Regulation and targeting of T-cell immune responses by IgE and IgG antibodies.

A set of chimeric antibodies with identical F(ab')2 fragments specific for the hapten 5-iodo-4-hydroxyl-3-nitrophenacetyl (NIP), but with different human Fc parts (gamma 1, gamma 2, gamma 3, gamma 4, epsilon), was used to compare the role of IgG and IgE antibodies in antigen presentation by human Epstein-Barr virus (EBV) B cells. Two or three molecules of NIP were coupled to one molecule of Der pI (Der pI-(3)NIP), a major allergen of Dermatophagoides pteronyssinus. Both monomeric IgG and performed complexes of various Der pI/IgG ratios failed to bind significantly to the Fc receptor for IgG on B cells (Fc gamma RII; CD32). Binding of IgG3 (> IgG1)-containing complexes (optimal ratio of antigen to antibody = 1:1) could be enhanced by increasing the number of haptens per Der pI molecule to nine or more. However, antigen presentation mediated by IgG and CD32 was not seen with either pulsed B cells or B cells that were allowed to capture the IgG complexes during the whole stimulation period. IgE binding to CD23 and subsequent IgE-mediated antigen presentation was seen under all conditions tested. Even monomeric immune complexes (IC) (Der pI-(3)NIP/IgE), in the absence of CD23 cross-linking, induced an immune response. As the number of natural epitopes for human antibodies on Der pI was less than five, we conclude that, in vivo, complexes consisting of Der pI/IgG will be directed to antigen-presenting cells expressing the high-affinity receptor for IgG (CD64), whereas IgE will allow antigen presentation by CD23-expressing cells, including B cells.     

Dengue virus entry into liver (HepG2) cells is independent of hsp90 and hsp70

Recently, several stress-related proteins including GRP78, hsp70, and hsp90 have been implicated as dengue virus receptors in various cell types, with hsp90/70 being implicated as a receptor complex in monocytes and macrophages, while GRP78 has been implicated as a liver cell expressed dengue virus receptor. To assess whether the hsp90/70 complex plays a role in the internalization of the dengue viruses into liver cells, we undertook infection inhibition studies with lipopolysaccharide and antibodies directed against both hsp70 and hsp90, individually and in combination. No inhibition of any dengue serotype was seen in the presence of lipopolysaccharide or antibodies directed against either hsp70 or hsp90 either singly or in combination. A moderate inhibition of dengue virus serotype 2 entry into liver cells was observed in the presence of antibodies directed against GRP78. These results confirm a proposed role for GRP78 as a dengue virus serotype 2 receptor protein and suggest that the recently identified hsp90/70 complex does not play a role in dengue virus internalization into liver cells.     

Both Fcgamma receptor I and Fcgamma receptor III mediate disease in accelerated nephrotoxic nephritis

Recognition of immune complexes in glomeruli by activator Fcgamma receptors (FcgammaRI and FcgammaRIII) is an important step in the development of glomerulonephritis. The low-affinity receptor (FcgammaRIII) has previously been shown to be important in passive heterologous immune complex glomerulonephritis. However, most forms of human glomerulonephritis involve an active immune response, and the relative importance of FcgammaRI (high-affinity receptor) and FcgammaRIII in an active model of glomerulonephritis is not known. We have now studied accelerated nephrotoxic nephritis in FcgammaRIII-/- mice and FcgammaRI/III double-deficient mice, and compared them with matched wild-type controls and FcRgamma chain-deficient (FcRgamma-/-) mice. Mice were immunized against sheep IgG and injected with sheep anti-mouse glomerular basement membrane antibody 5 days later. Both FcgammaRI/III double-deficient mice and FcRgamma-/- mice were strongly protected from renal injury. In contrast, FcgammaRIII-/- mice developed substantial nephritis, although there was a dose-dependent partial protection from glomerular crescents and thrombosis. Despite this histological protection from injury, the macrophage infiltrate was not reduced, implying a dissociation of macrophage accumulation from activation in the absence of activatory FcgammaRIII. Therefore, both FcgammaRI and FcgammaRIII play a role in this active model of glomerulonephritis, because both had to be deficient to protect markedly from disease.