Intracellular cleavage of newly synthesized low affinity Fc epsilon receptor (Fc epsilon R2) provides a second pathway for the generation of the 28-kDa soluble Fc epsilon R2 fragment

It has been reported that the 45-kDa low affinity Fc epsilon R (Fc epsilon R2) on B cells is cleaved spontaneously from the cell surface to release a 28-kDa soluble fragment (sFc epsilon R2). This study demonstrates an additional mechanism by which B cells generate this fragment. Data from 35S methionine pulse-chase experiments with the Fc epsilon R2 bearing human B lymphoblastoid cell line, RPMI 8866, and immunoprecipitations of cell lysates and culture supernatants with an Fc epsilon R2 specific mAb, mAb 25, demonstrates the existence of a cell-associated 28-kDa Fc epsilon R2 fragment. This fragment was shown by partial amino(NH2)-terminal sequence analysis to be identical to the previously described 28-kDa sFc epsilon R2. The resistance to cell treatment with trypsin indicated that it was located intracellularly. Its appearance early in the biosynthesis of the Fc epsilon R2 (within a 10-min pulse), before the Fc epsilon R2 reached the cell surface, suggested that some of this fragment was generated intracellularly. Neutralization of acidic organelles with NH4Cl inhibited the formation of this intracellular fragment, strongly suggesting that it was a produce of intracellular cleavage of the Fc epsilon R2. Finally, this 28-kDa intracellular fragment was shown to be released into the culture supernatant, suggesting an intracellular mechanism by which the cells generate sFc epsilon R2.     

Salt stimulation of the activation of latent protein phosphatase, Fc.M, by Mn++ and by Mn/trypsin

The activation of porcine heart latent protein phosphatase (Fc.M) by pretreatment with Mn++ followed by trypsin (Mn/trypsin) can be stimulated 2.5-fold by including NaCl or KCl in the activation mixtures. The salts also stimulated the activation of the enzyme by Mn++ to the same level as that obtained by Mn/trypsin pretreatment in the absence of salt. The presence of salt in both the Mn++ and Mn/trypsin activations decreased the Mn++ requirement 10-fold in each case. Treatment of latent Fc.M by Mn/trypsin in the presence of 0.2 M NaCl or KCl offers a convenient method of expressing the full potential activity of the protein phosphatase.     

FcγR expressed on T-cell hybrids: Specificity,behavior and relationship with Ia antigens

The fine specificity of receptor for the Fc portion of IgG (FcγR) expressed on T-cell hybrids secreting soluble FcγR (sFcγR) which suppresses antibody production, was investigated. FcγR was found to bind IgG from mouse, human, and rabbit species. It reacted with mouse IgG1 and IgG2a but not IgG2b, and human IgG1 and IgG3 but not IgG4. Mouse IgG and their subclasses bound more avidly to FcγR than human and rabbit IgG. FcγR of T-cell hybrids was sensitive to pronase and resistant to trypsin. In kinetics experiments, the behavior of FcγR on the membrane of T-cell hybrids was analyzed and compared to that of I-region-coded antigens expressed on these hybrids. Upon incubation at 37 °C in balanced salt solution (BSS), T-cell hybrids released FcγR into the medium. The reexpression of FcγR, after pronase cleavage or shedding, was complete within 3 hr of incubation in culture medium and required protein synthesis. I-A-coded antigens, present on these hybrids, disappeared simultaneously with FcγR upon incubation of cells at 37 °C in BSS. Within 3 hr of incubation in culture medium, although the reexpression of Fc°R was complete, no Ia antigens could be detected. They were reexpressed later, as tested after 19 hr of culture. During a single growth cycle, the expression of FcγR was maximal during log phase.     

The generation of active fragments of complement receptor type 2 by trypsin digestion

B lymphocytes and Raji cells express the complement receptor type 2 (CR2) of 145 kDa which recognises the C3d fragment of C3. When intact cells are treated with trypsin, CR2 is degraded. There is a parallel loss in C3d-mediated rosetting and in proteins which bind to C3d-Sepharose. Initially 97 and then 83 kDa fragments of CR2 are produced which retain C3d binding activity. These fragments are associated with the cell surface and mediate rosetting. Purified 125I-labelled CR2, solubilised in detergent, produces fragments of apparently identical size on treatment with trypsin. The 83 kDa fragment produced by trypsin treatment closely resembles the major C3d binding protein spontaneously released into Raji cell culture medium.     

Fc receptor heterogeneity: immunofluorescent studies of B, T, and "third population" lymphocytes in human blood with rabbit IgG b4/anti-b4 complexes.

IgG Fc receptors on human peripheral blood lymphocytes (PBL) were characterized by immunofluorescence studies with defined rabbit IgG b4 allotype/anti-allotype complexes. Three discrete types of Fc receptor-bearing cells, totaling approximately 33% of PBL, were identified. Fc receptors of the three types differed in their sensitivity to trypsin and in either absolute or localized density (topography) as determined by variable requirements for anti-IgC cross-linking in order to visualize bound complexes microscopically. The question of additional heterogeneity related to differences in individual Fc receptor affinity for complexed IgG was not approached in this study. Ten to 15% of PBL had pronase-sensitive, trypsin-resistant Fc receptors readily detected by direct immunofluorescence by using large fluorescein-conjugated complexes prepared near equivalence. Double label and lymphocyte fractionation experiments established this population to be largely distinct from suface IgM+ B cells and T cells, and identical to EA Ripley rosette-forming cells. Approximately 50% of surface IgM+ B cells and approximately 10% of T cells had lower density Fc receptors identified by indirect immunofluorescence with small complexes prepared in antigen excess or by cross-linking fluorescein-conjugated complexes with anti-rabbit IgG anti-serum. An additional approximately 15% peripheral T and B cells had very low density Fc receptors detectable by complexing the IgG on the cell surface by sequential incubations of cells with b4 IgG and anti-b4. Fc receptors on B and T cells were sensitive to both pronase and trypsin digestion. The heterogeneity of IgG Fc receptors on different lymphocyte subpopulations as defined by these these experiments may be of relevance for further analysis of normal and abnormal immune function.     

Effect of trypsin on the cell surface proteins of hepatoma tissue culture cells. Characterization of a carbohydrate-rich glycopeptide released from a calcium binding membrane glycoprotein.

Concentrations of trypsin that bring about aggregation of hepatoma tissue culture (HTC) cells also release from the cell surface an Mr = 55,000 glycopeptide fragment. This glycopeptide fragment also accumulates in the medium, including serum-free medium, as a normal consequence of membrane protein turnover. The trypsin-released glycopeptide is labeled when cells are grown in the presence of fucose or leucine before treatment of the cells with the protease. Similarly, the glycopeptide fragment can be labeled by reacting cells in situ by lactoperoxidase-catalyzed radioiodination or by tritiated borohydride reduction of cells treated first with neuraminidase and galactose oxidase. The tryptic glycopeptide fragment was purified by concanavalin A-Sepharose chromatography, and hydroxyapatite chromatography in the presence of dodecyl sulfate. The amino acid and carbohydrate composition was determined, as was the sensitivity of the purified glycopeptide to a variety of endo- and exoglycosidases. The purified glycopeptide contains an average of 17 sialic acid residues and hence, shows charge heterogeneity after electrophoresis in isoelectric focusing gels. The charge heterogeneity can be eliminated completely by treatment with neuraminidase. The glycopeptide after this treatment is homogeneous. The trypsin-sensitive membrane glycoprotein which is the source of the Mr = 55,000 glycopeptide was identified by two-dimensional gel electrophoretic analysis of labeled cells, treated or not treated with trypsin. This glycoprotein, which has an apparent molecular weight of 85,000 and forms a homodimer in the presence of calcium ions, was purified and its identity as the parent of the Mr = 55,000 glycopeptide was confirmed by showing that the same Mr = 55,000 fragment was released by trypsin from the purified glycoprotein as was released from the intact cells.     

Monomeric IgG1 Fc molecules displaying unique Fc receptor interactions that are exploitable to treat inflammation-mediated diseases

The IgG1 Fc is a dimeric protein that mediates important antibody effector functions by interacting with Fcγ receptors (FcγRs) and the neonatal Fc receptor (FcRn). Here, we report the discovery of a monomeric IgG1 Fc (mFc) that bound to FcγRI with very high affinity, but not to FcγRIIIa, in contrast to wild-type (dimeric) Fc. The binding of mFc to FcRn was the same as that of dimeric Fc. To test whether the high-affinity binding to FcγRI can be used for targeting of toxins, a fusion protein of mFc with a 38 kDa Pseudomonas exotoxin A fragment (PE38), was generated. This fusion protein killed FcγRI-positive macrophage-like U937 cells but not FcγRI-negative cells, and mFc or PE38 alone had no killing activity. The lack of binding to FcγRIIIa resulted in the absence of Fc-mediated cytotoxicity of a scFv-mFc fusion protein targeting mesothelin. The pharmacokinetics of mFc in mice was very similar to that of dimeric Fc. The mFc's unique FcγRs binding pattern and related functionality, combined with its small size, monovalency and the preservation of FcRn binding which results in relatively long half-life in vivo, suggests that mFc has great potential as a component of therapeutics targeting inflammation mediated by activated macrophages overexpressing FcγRI and related diseases, including cancer.     

Human natural killer cells analyzed by B73.1, a monoclonal antibody blocking Fc receptor functions. II. Studies of B73.1 antibody-antigen interaction on the lymphocyte membrane

In this paper, we characterize the antigen recognized by the monoclonal antibody B73.1 and the modification occurring at the membrane of the positive cells after interaction with the antibody. The B73.1-defined antigen is a protein of 50,000 to 72,000 daltons that is sensitive to pronase but not to trypsin treatment. B73.1 antibody, and its F(ab')2 fragment, directly block, at high concentrations, the binding of IgG antibody-sensitized erythrocytes to the Fc receptors (FcR) of a subpopulation of lymphocytes and neutrophils. B73.1 antibody dissociates rapidly from the positive cells, but concomitant modulation of both B73.1 antigen and FcR is induced when cells are incubated in the continuous presence of antibody or when B73.1 antibody is cross-linked at the cell membrane with an anti-mouse immunoglobulin antiserum. Reaction of lymphocytes with immune complexes also induces modulation of both FcR and B73.1 antigen, without affecting the expression of other antigens on the positive cells. The possibility that the antigen is internalized and digested by the cell after reaction with the antibody is discussed. B73.1 antibody inhibits antibody-dependent cytotoxicity mediated by lymphocytes (K cells) and neutrophils, whereas it does not affect spontaneous cytotoxicity of NK cells. These results suggest the B73.1-defined antigen might be the FcR or a structure closely related to it on K/NK cells.     

Blockade of Fc receptor-mediated binding to U-937 cells by murine monoclonal antibodies directed against a variety of surface antigens

The effect of murine IgG hybridoma antibodies directed against leukocyte antigens on the Fc receptor function of human cells was studied. For this purpose, the specific binding of 125I-labeled monomeric human IgG1 to a macrophage-like cell-line (U-937) was quantitated before and after incubation in the presence of murine monoclonal hybridoma antibodies. Four monoclonal hybridoma antibodies (A1G3, 23D6, 4F2, and 3A 10), each of which binds to different antigens on the surface of U-937 cells, rapidly and potently inhibited the specific binding of labeled IgG1 to these cells. Inasmuch as inhibition was mediated only by IgG antibodies with an intact Fc fragment and antibody activity against surface antigens found on U-937, inhibition appears to have resulted from the formation of a three-component complex composed of antibody bound by its Fab portion to antigen and by its Fc fragment to a Fc receptor. Equilibrium binding studies performed on treated cells confirmed that reduced Fc receptor-mediated binding was due to a reduction in the number of available receptors. Binding studies employing double isotope labeling methods demonstrated that about 0.5 to 1.0 Fc receptor was blocked for each molecule of intact antibody bound to a U-937 cell. Using several techniques, it was shown that most of the monoclonal antibody bound to cells and the Fc receptors blocked by antibody remained on the cell surface despite incubation at 37 degrees C for 3 hr. Thus, the loss of receptor function observed in these experiments was almost exclusively due to reversible receptor blockade rather than receptor internalization or degradation. The antibodies identified in these studies also markedly inhibited Fc receptors on one other human cell line (HL-60) as well as those on normal human peripheral blood monocytes.     

Hemagglutination Activity and Localization of Fc Receptor of Group A and G Streptococci

The IgG-Fc binding activity and binding sites on the cell surface of streptococci, strains AR1 (group A) and G148 (group G), and Staphylococcus aureus strain Cowan I were examined by hemagglutination (HA) and immunoelectron microscopic methods. No distinct difference was observed in the HA activity among these three strains. However, the strains differed in the distribution of Fc receptor. Cowan I cells (having protein A) were heavily covered with two layers of ferritin particles, whereas AR1 cells were heavily covered with a single, rough layer of ferritin particles. G148 cells (having protein G) were labeled with a relatively thin, rough ferritin layer. The trypsin susceptibility of the Fc receptors of the AR1 strain was much higher than that of the G148 strain. These results suggest that both streptococcal strains are distinctly different in the arrangement or in the conformation of the Fc receptor from the Cowan I strain. It is also suggested that the Fc receptor molecules of the streptococcal strains differ from each other not only in conformation but also in trypsin susceptibility.     

Proteolysis induces increased binding affinity of the monocyte type II FcR for human IgG

Human monocytes express two types of IgG FcR, Fc gamma RI and Fc gamma RII. These can be assayed by using indicator E sensitized by human IgG (EA-human IgG) or mouse IgG1, (EA-mouse IgG1), respectively. On mouse macrophages, Fc gamma RI is sensitive to trypsin, whereas Fc gamma RII is trypsin resistant. We studied the effects of the proteolytic enzymes pronase and trypsin on human monocyte Fc gamma R. Neither enzyme caused a decrease in rosetting mediated by monocyte Fc gamma RI. Human Fc gamma RII is polymorphic, and monocytes interact either strongly or weakly with mouse IgG1. The interaction of low responder monocytes with mouse IgG1 was dramatically increased (to the level exhibited by high responder monocytes) by protease treatment. The effects of proteases on Fc gamma RII were investigated in more detail by using monocytes from which Fc gamma RI was selectively modulated by using immobilized immune complexes. Proteolysis of such modulated monocytes induced an increased interaction with EA-human IgG. Fc gamma RII appears to mediate this interaction. This conclusion is supported by the observation that after proteolysis, the Fc gamma RII-mediated binding of EA-mouse IgG1 becomes susceptible to inhibition by (monomeric) human IgG. To quantify the effect of proteolytic enzymes on Fc gamma RII, we performed binding studies with cell line K562, that expresses only Fc gamma RII. A significant increase in Ka of Fc gamma RII for dimeric human IgG complexes was observed when K562 cells were treated with protease. To elucidate the mechanism of this enhancement of Ka by proteolysis, we performed immunoprecipitation studies. Neither m.w., nor IEF pattern of Fc gamma RII were influenced by proteolysis. Moreover, the expression of Fc gamma RII was not affected by proteolysis as evidenced by immunofluorescence studies and Scatchard analysis, and neither were Fc gamma RI or Fc gamma RIII induced. We conclude that proteolysis increases the affinity of Fc gamma RII for human IgG, and speculate that such a proteolysis-induced change may also occur in vivo, e.g., at inflammatory sites.     

Proteases as mitogens : The effect of trypsin and pronase on mouse and human lymphocytes

Treatment of mouse spleen lymphocytes with trypsin (from 0.1 to 1.0 μg/ml) was found to cause a significant stimulation of the incorporation of ³H-thymidine. When spleen cells from nude (congenitally athymic) mice were incubated with trypsin in the absence of serum for 3 days, very high levels of incorporation were noted (stimulation index of 10 to 20). Trypsin was without effect on thymic lymphocytes of the mouse but caused significant activation of human peripheral blood lymphocytes. The stimulatory effect of trypsin was a consequence of its enzymatic activity. Prolonged treatment with pronase also caused small but significant increases in the incorporation of labelled thymidine (stimulation index of 2 to 4) into the thymic and splenic lymphocytes of the mouse and into human lymphocytes. The evidence suggests that trypsin stimulates the B-derived lymphocytes.     

Interference with tolerance induction of primed B cells by the Fc fragment of immunoglobulin

The capacity to interfere with tolerance induction in primed B cells was examined. Previous work had shown that TNP-specific splenic B cells from mice primed and boosted with TNP-KLH are highly susceptible to in vitro tolerization upon a brief exposure to TNP on a carrier unrelated to KLH. In the present work it was found that tolerance induction in these primed B cells could be partially disrupted by addition of the Fc fragment of immunoglobulin, a B-cell mitogen, and adjuvant, during exposure of the B cells to tolerogen. Addition of Fc fragments prepared by papain digestion of human IgG interfered with tolerization routinely in approximately 30-60% of the spleen cells susceptible to tolerogen. Addition of whole IgG or Fab fragments had no effect on tolerance induction. As little as 5 micrograms/ml of the Fc fragment preparation significantly interfered with tolerization and 32-64 micrograms/ml was optimal. Disruption of tolerization was most effective when the Fc fragment was added to the spleen cells either 4 hr prior to tolerogen or simultaneously with tolerogen; addition of the Fc fragment 4 hr after exposure to tolerogen was significantly less effective. Disruption of tolerization by the Fc fragment was not through polyclonal activation of B cells, as antigen was required for generation of significant numbers of PFC to TNP. Also, disruption was not through expansion of low avidity clones of B cells insusceptible to tolerogen, as the avidity of the antibody produced with and without Fc fragments present was approximately the same. These results show that the Fc fragment of IgG can partially interfere with tolerization of primed B cells. The manner in which Fc fragments may function to prevent tolerization through its lymphoid cell stimulatory capacities is discussed.     

Human B cell differentiation by Fc fragment. III. Effect of IL-1 and IL-2 on differentiation of human B lymphocytes induced by Fc fragments of human IgG

The human Fc fragment of IgG, when added to blood mononuclear cells in vitro, induces B cell differentiation after 6 days of culture. This activity requires the presence of T cells and monocytes. This work explores the roles of interleukin 1 (IL-1) and interleukin 2 (IL-2) in B cell differentiation induced by Fc fragments. Peripheral blood mononuclear cells (PBMC) from normal donors were examined for plasma cell differentiation following stimulation with Fc fragment (15 and 30 micrograms/ml) with or without IL-1 (6 U/ml) or IL-2 (2 U/ml). Results indicate that both IL-1 and IL-2 accelerated B cell differentiation by the Fc fragment to 3 days of culture, compared to 6 days required with the Fc fragment alone. The time required for differentiation was not further shortened when both IL-1 and IL-2 were present in culture; both IL-1 and IL-2 were able to partially induce B differentiation alone at 6 days of culture. The importance of IL-2 in B cell differentiation was further supported by the finding that antibodies specific for the IL-2 receptor blocked B cell differentiation induced by Fc fragments, with or without additional IL-1 or IL-2. The depletion of monocytes also blocked B cell differentiation and the requirement for monocytes could not be replaced by exogenous IL-1; however, Fc fragments were shown to induce monocytes to secrete IL-1 beta after 24 hr in culture. These results suggest that accelerated differentiation of B cells into plasma cells requires a double signal provided by Fc fragments and IL-1 or IL-2. Monocytes are necessary for Fc fragment-induced differentiation and cannot be replaced by either IL-1 or IL-2.     

Adenylate cyclase stimulation by trypsin.

Adenylate cyclase activity of a rat embryo fibroblast cell line (F111) is markedly increased by brief treatment with 1:300 trypsin. The degree of stimulation depends upon the length of time the cells are treated and the concentration of trypsin. Crystalline trypsin produced a stimulation similar to that obtained with 1:300 trypsin. Further, the addition of soybean trypsin inhibitor blocked the stimulation of adenylate cyclase by 1:300 trypsin. Trypsin-treated adenylate cyclase responds to PGE1, but there is no increase over that of untreated enzyme. This result and the increase in fluoride-stimulated levels of activity suggest that the trypsin is acting upon the catalytic unit of the enzyme.     

Activation of ornithine decarboxylase in monolayer cells treated with trypsin

When monolayer Chinese hamster cells are treated with trypsin for short periods of time, ornithine decarboxylase (ODCase) activity increases two- to fourfold. This increase can be blocked by aprotinin, a protease inhibitor, and is not observed when cultures are dislodged from substrate mechanically prior to contact with exogenous trypsin. The trypsin-induced increase in ornithine decarboxylase activity is not due to degradation of enzyme or inhibitor molecules or to new enzyme synthesis. Immunoprecipitable protein, radiolabeled with [3H]alpha-difluoromethylornithine in vitro, is the same molecular weight in cells harvested with or without trypsin. Protein-bound levels of this specific enzyme-activated irreversible inhibitor of ornithine decarboxylase are unchanged by trypsin treatments that increase enzyme activity. Trypsin treatment of rat embryonic fibroblasts, transformed by a temperature-sensitive mutant of Rous sarcoma virus, increases ODCase activity in cells growing at the nonpermissive, but not at the permissive, temperature for the transformed phenotype. These results suggest that ornithine decarboxylase can be activated by exogenous trypsin treatment in a manner that is dependent on cell adhesion properties, which are modified in transformed cells.     

丙型肝炎病毒与人IgG,Fc片段的特异性结合

使用亲和捕获PCR法研究丙型肝炎病毒（HCV）和人IgG的相互作用,发现HCV能与IgG及完整的IgGFc片段结合,但不与Fab片段结合。这种结合可以被Fc片段所竞争抑制,而不能被Fab片段所抑制。HCVRNA阴性血浆不能阻断Fc片段与HCV的结合,推测这是一种HCV颗粒与IgGFc片段之间的特异性结合。本研究揭示了HCV与IgG之间的相互作用,探讨了HCV引起免疫复合物疾病的机理及丙型肝炎的慢性化倾向。     

Site of binding of IgG2b and IgG2a by mouse macrophage Fc receptors by using cyanogen bromide fragments

Cyanogen bromide fragments of murine IgG2b and IgG2a immunoglobulins were used to localize the sequences that are bound by specific IgG2b and IgG2a Fc receptors on murine macrophages. One fragment from the CH2 domain of IgG2b bound to the gamma 2b Fc receptor. Two fragments from IgG2a--one one from the CH2 domain, differing by only four amino acids from the homologous IgG2b fragment, and the other from the CH3 domain--specifically bound to the gamma 2a Fc receptor. In both a rosetting assay and a radioactive binding assay, these two fragments from IgG2a competed with intact IgG2a: however, they did not compete with each other. Rather, binding of the fragment from the CH3 domain of IgG2a augmented the binding of the fragment from the CH2 domain of IgG2a but not that of the homologous fragment from IgG2b. The binding of both IgG2a fragments was abolished by trypsin treatment of macrophages. These data suggest that 1) a sequence in the CH2 domain of IgG2b is sufficient for binding to the gamma 2b Fc receptor, 2) sequences from both the CH2 and CH3 domains of IgG2a bind to the gamma 2a Fc receptor, and 3) the binding of sequences from the CH3 domain of IgG2a may induce a conformational change in the gamma 2a Fc receptor that leads to enhanced binding of sequences from the CH2 domain.     

采用多种抗原测定静注人免疫球蛋白(pH4)中抗体Fc段生物学活性的初探

目的初步探讨采用多种抗原测定静注人免疫球蛋白(IVIG)(pH4)中抗体的Fc段生物学活性,了解IVIG中抗体的Fc段生物学活性。方法采用补体活化的经典途径中免疫复合物激活补体的方法,将不同浓度的麻疹病毒、风疹病毒、乙肝表面抗原(HBsAg)、破伤风类毒素、脑膜炎球菌P64k外膜蛋白和白喉类毒素6种抗原分别致敏人O型血红细胞形成红细胞-抗原结合物;然后,6种致敏红细胞分别与IVIG孵育,与特异性抗体形成红细胞-抗原-抗体复合物;最后,此复合物与补体反应,在541 nm波长处读取吸光值,并绘制溶血反应动力学曲线,分别计算IVIG中针对上述6种抗原IgG的Fc段生物学活性。采用此方法,用6种抗原致敏的红细胞测定IVIG的Fc段生物学活性10次,验证此方法的重复性。结果麻疹病毒、风疹病毒、HBsAg、破伤风类毒素和脑膜炎球菌P64k外膜蛋白致敏的红细胞分别与供试品和补体反应后,测定的溶血反应动力学曲线较平缓,而白喉类毒素致敏的红细胞与供试品和补体反应后,测定的溶血反应动力学曲线下降明显,呈典型的"S"型曲线。计算结果显示,IVIG中针对此六种抗原的抗体Fc段生物学活性相对于参考品均大于80%。Fc段生物学检测方法重复性较好。结论采用多种抗原分别致敏红细胞,可以用来检测IVIG中多种抗体的Fc段生物学活性,为深入了解IVIG制品中的多种抗体的Fc段生物学活性奠定了基础。