Distinct genes encode 6 human receptors for IgG (hFc␥Rs), 3 of which have 2 or 3 polymorphic variants. The specificity and affinity of individual hFc␥Rs for the 4 human IgG subclasses is unknown. This information is critical for antibodybased immunotherapy which has been increasingly used in the clinics. We investigated the binding of polyclonal and monoclonal IgG1, IgG2, IgG3, and IgG4 to Fc␥RI; Fc␥RIIA, IIB, and IIC; Fc␥RIIIA and IIIB; and all known polymorphic variants. Wild-type and low-fucosylated IgG1 anti-CD20 and anti-RhD mAbs were also examined. We found that (1) IgG1 and IgG3 bind to all hFc␥Rs; (2) IgG2 bind not only to Fc␥RIIA H131 , but also, with a lower affinity, to Fc␥RIIA R131 4 Other FcRs are inserted in the outer layer of the plasma membrane by a glycosylphosphatidylinositol (GPI) anchor and contain no signaling motif. 5 FcRs have been associated with many antibodydependent diseases 6 and are key molecules in antibody-based immunotherapy. These include the treatment, for instance, of non-Hodgkin lymphomas by mouse/human chimeric IgG1 anti-CD20 antibodies 7 and the prevention of hemolytic disease of the newborn by a mixture of polyclonal IgG1 and IgG3 anti-RhD antibodies (eg, Rophylac). Therapeutic antibodies are, however, potentially harmful, as exemplified by a recent clinical trial using IgG4 anti-CD28 antibodies.Four human subclasses of IgG are produced in different amounts in response to various antigens. T-dependent protein antigens elicit primarily IgG1 and IgG3 antibodies, whereas T-independent carbohydrate antigens elicit primarily IgG2 antibodies. Chronic antigen stimulation, as in allergic desensitization, elicits IgG4 antibodies. The biological activities of each subclass of IgG are poorly known. IgG receptors (Fc␥Rs) are strikingly numerous in humans. They comprise high-affinity and low-affinity receptors. 8 Both high-affinity and low-affinity Fc␥Rs bind IgGimmune complexes with a high avidity, but only high-affinity Fc␥Rs bind monomeric IgG. There is one high-affinity IgG receptor in humans, hFc␥RI (CD64), and 2 families of low-affinity IgG receptors, hFc␥RIIA, IIB, and IIC (CD32), and hFc␥RIIIA and IIIB (CD16). hFc␥RI and hFc␥RIIIA are FcR␥-associated activating receptors, hFc␥RIIA and hFc␥RIIC are single-chain activating receptors, hFc␥RIIB are single-chain inhibitory receptors, and hFc␥RIIIB are GPI-anchored receptors whose function is uncertain. 1 The multiplicity of hFc␥Rs is further increased by a series of polymorphisms in their extracellular domains (reviewed in van Sorge et al 9 ). Two alleles of the gene encoding hFc␥RIIA generate 2 variants differing at position 131, named low-responder (H 131 ) and high-responder (R 131 ). 10 The H 131 and R 131 alleles are differentially distributed in whites, Japanese, and Chinese. 11 Two alleles of the gene-encoding hFc␥RIIIA generate 2 variants differing at 23 and hFc␥RIIIB NA2 to SLE in Japanese people. 24 The subclass specificity of hFc␥Rs has been investigated since the 1980s, that is, at a time when the complexity of hFc␥R...
Cytotoxic T lymphocytes and natural killer cells are essential effectors of anti-tumor immune responses in vivo. Dendritic cells (DC) 'prime' tumor antigen-specific cytotoxic T lymphocytes; thus, we investigated whether DC might also trigger the innate, NK cell-mediated anti-tumor immunity. In mice with MHC class I-negative tumors, adoptively transferred- or Flt3 ligand-expanded DC promoted NK cell-dependent anti-tumor effects. In vitro studies demonstrated a cell-to-cell contact between DC and resting NK cells that resulted in a substantial increase in both NK cell cytolytic activity and IFN-gamma production. Thus, DC are involved in the interaction between innate and adaptive immune responses.
It is widely believed that self-tolerance of natural killer (NK) cells occurs because each NK cell expresses at least one inhibitory receptor specific for a host major histocompatibility complex (MHC) class I molecule. Here we report that some NK cells lack all known self-MHC-specific inhibitory receptors, yet are nevertheless self-tolerant. These NK cells exhibit a normal cell surface phenotype and some functional activity. However, they respond poorly to class I-deficient normal cells, tumor cells, or cross-linking of stimulatory receptors, suggesting that self-tolerance is established by dampening stimulatory signaling. Thus, self- IntroductionNatural killer (NK) cells attack transformed, infected, and allogeneic cells. Target cell recognition depends on stimulatory receptors with various specificities and inhibitory receptors specific for major histocompatibility complex (MHC) class I molecules. [1][2][3] The stimulatory receptors associate with signaling adapter molecules including DNAX activating protein 12 (DAP12), CD3, or Fc receptor ␥ (FcR␥), which contain immunoreceptor tyrosine-based activation motifs (ITAMs), whereas the inhibitory receptors contain cytoplasmic immunoreceptor tyrosine-based inhibitory motifs (ITIMs). The balance of stimulatory and inhibitory signaling determines whether target cells are lysed and stimulate cytokine production.NK stimulatory receptors 3 recognize pathogen-encoded molecules (eg, Ly49H ligand 4,5 ) or host molecules that are up-regulated in transformed or infected cells (eg, NKG2D ligands 6 ). Because NK cells attack certain uninfected and untransformed cell types, such as bone marrow cells or lymphoblasts from MHC-deficient or allogeneic animals, it is believed that even these normal cells express a ligand that is recognized by an NK stimulatory receptor (reviewed in Raulet et al 7 ).There are 3 different families of MHC-specific inhibitory receptors that have been defined: Ly49, a family of approximately 10 lectinlike receptors expressed by murine NK cells 8 ; killer immunoglobulin (Ig)-like receptors (KIRs), a family of approximately 10 Ig-like receptors expressed by human NK cells 2,9 ; and CD94/NKG2A, a lectinlike receptor heterodimer expressed by both human and murine NK cells. 10,11 Ly49 receptors and KIRs bind to classical class Ia MHC molecules. In contrast, CD94/ NKG2A interacts with a nonclassical class Ib molecule called Qa-1 in mice and HLA-E in humans. The Qa-1/HLA-E molecules are 2-microglobulin (2m)-dependent and present a conserved peptide from the cleaved signal sequences of certain class Ia MHC molecules, which is recognized by CD94/NKG2A. Therefore, the CD94/NKG2A receptor indirectly recognizes class Ia molecules. All 3 types of inhibitory NK receptors distinguish subgroups of MHC class I molecules and all are expressed in a variegated fashion such that each NK cell expresses a more or less random set of receptors, with an average number per cell of 2 to 3. 12,13 Whether a target cell inhibits a given NK cell depends on whether the NK cell express...
*Inhibitory receptors that engage self-MHC class I molecules enable NK cells to detect disease-associated loss of MHC class I on surrounding cells. Previous studies showed that some NK cells lack all receptors for self-MHC class I, yet fail to exhibit autoimmunity because they are generally hyporesponsive to stimulation. We asked whether NK cells exist in only two states, responsive and hyporesponsive, corresponding to cells that express or fail to express inhibitory receptors for self-MHC class I. The alternative model is that NK cells vary continuously in their responsiveness, based on variations in the number of different inhibitory and stimulatory receptors they express, which is known to vary. In this study, we show in the murine system that NK cell responsiveness increases quantitatively with each added self-MHC-specific inhibitory receptor. Genetic analysis demonstrated that interactions of each of the receptors with self-MHC class I were necessary to observe augmented responsiveness. These findings suggest that NK cell responsiveness is comparable to a rheostat: it is tuned to an optimal set point depending on the inhibitory and stimulatory interactions encountered in the normal environment, so as to ensure self-tolerance and yet optimize sensitivity to changes in normal cells.
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