Activation of human monocytes occurs on cross-linking monocytic antigens to an Fc receptor

Murine mAb to CD13, CD14, and class II MHC, are able to mobilize calcium in normal human monocytes and enhance superoxide production in primed cells. Antibodies to CD35 (CR1) also cause a minor calcium response in some individuals. Antibodies to CD11a, CD11b, CD11c, CD15, CD17, CD18, and CD45 do not activate monocytes. The ability of mAb to cause monocyte activation is not only dependent on the Ag with which they react but also on the isotype of the antibodies and the individual from whom the monocytes were obtained. It is shown that this is because the mAb that activate monocytes do so by formation of Ag-antibody-FcR complexes. F(ab')2 fragments of mAb to CD13 and CD14 do not therefore activate monocytes even when cross-linked with F(ab')2 anti-mouse Ig but do so when cross-linked with intact anti-mouse Ig. These data indicate that activation via the FcR requires perturbation of this receptor but does not necessarily require cross-linking of one FcR to another. Antibody-coated particles or cells able to bind to cell surface receptors on monocytes other than the FcR would thus augment FcR-mediated activation.     

Monoclonal antibodies to Fc receptors for IgG on human mononuclear phagocytes. Antibody characterization and induction of superoxide production in a monocyte cell line

We have utilized monoclonal antibodies against the two IgG Fc receptors (p40 and p72) of U937 cells to stimulate the release of superoxide. The monoclonal antibody (mAb) specific for p40 (IV3) has been described elsewhere. A murine IgG1 mAb specific for the high affinity p72 Fc receptor (designated mAb FcR32 or simply mAb 32) bound to the same p72 precipitated by Sepharose-human IgG as shown by preclearing experiments and by identical isoelectric focussing patterns. Binding of mAb 32 to p72 was independent of the Fc region of the antibody since Fab' fragments of mAb 32 affinity adsorbed p72. The binding of both mAb 32 and human IgG1 to the intact U937 cell was not reciprocally inhibitory, indicating that mAb 32 does not interfere with the ligand binding site of p72. mAb 32 bound to human monocytes, U937, and HL60 cells, but not to granulocytes or lymphocytes. U937 cells cultured in gamma-interferon and 1,25-dihydroxycholecalciferol generated superoxide when incubated with mAb 32 or IV3 followed by cross-linking with F(ab')2 anti-murine Ig. Incubation with mAb 32 or IV3 alone or with 3 of 5 other anti-U937 mAbs cross-linked with anti-murine Ig did not result in superoxide generation. Immune complex-mediated superoxide production was inhibited 80% by IgG, but not by mAb 32 or IV3.     

Different isoforms of human FcRII distinguished by CDw32 antibodies

The Third and Fourth International Workshops on Leucocyte Differentiation Antigens identified six mAb, designated CDw32, reacting with human Ig FcR type II (FcRII). We have examined the immunohistochemical and immunocytologic reactivities of these antibodies and find that the antibodies could be divided into three classes of reactivity: 1) antibodies IV.3, CIKM3, and CIKM5 reacted with monocytes, macrophages and neutrophils; 2) antibodies KB61 and 41H.16 gave strong reactions with B lymphocytes, placental and hepatic endothelium, and weaker reactions with monocytes, macrophages, and neutrophils; 3) antibody 2E1 gave an intermediate reaction pattern. Immunoprecipitation from U937 cell lysates showed that antibodies KB61 and 41H.16 recognized Mr 41,000 and Mr 37,000 molecules whereas the other antibodies detected a Mr 42,000 molecule. Preclearing with antibody KB61 removed the Ag recognized by the other five antibodies confirming the identity of the Ag and demonstrating reactivity of KB61 with the Mr 42,000 molecule. Antibodies KB61 and 41H.16 precipitated a Mr 41,000 molecule from B lymphocytes. Flow cytometry and immunoprecipitation studies of cells transfected with cDNA clones coding for two isoforms of FcRII showed that all six of the antibodies react with both transfectants but the only immunoprecipitations were obtained using KB61 and 41H.16 and one of the transfectants. The protein sequence of KB61 Ag isolated from leukemic B cells showed close homology with the proteins encoded by the cDNA clones but diverged in the intracytoplasmic carboxyl-terminal region. It was concluded that preferential recognition of one or more of the numerous isoforms of FcRII underlies the differing reaction patterns of CDw32 antibodies.     

Induction of intracellular Ca2+ mobilization and cytotoxicity by hybrid mouse monoclonal antibodies. Fc gamma RII regulation of Fc gamma RI-triggered functions or signaling?

We studied the interaction of bispecific mouse mAb with human IgG Fc receptors, and assessed their ability to activate the monocytic cell line U937. Binding of monomeric hybrid anti-HuIgA1/HRP mAb to the high-affinity IgG receptor, Fc gamma RI, on U937 cells was only observed when mAb with one or more mIgG2a H chains (hybrid mIgG1-2a, mIgG2a-2b, and mIgG2a-2a) were used. These Fc gamma RI-bound hybrid mAb were capable of enhancing the internal free cytosolic Ca2+ concentration ([Ca2+]i) in U937 cells only when bound mIgG were cross-linked using F(ab')2 fragments of goat anti-mIg antibody. A hybrid mIgG1-2a mAb were cross-linked using goat anti-mIgG1 antibody, showing that the hybrid mAb themselves mediate the induction of Ca2+ increase. Remarkably, anti-Fc gamma RII mAb IV.3 was able to inhibit the Ca2+ increase induced via mIgG2a-1 or mIgG1-2a hybrid mAb completely, despite the fact that we could not detect any effect of IV.3 on binding of monomeric hybrid mIgG1-2a or mIgG2a-1 mAb to U937. The hybrid mAb were also able to induce lysis of HuIgA1-coated E using U937 effector cells. This lysis was completely inhibited by preincubation of U937 cells with mIgG2a mAb TB-3, which blocks Fc gamma RI via its Fc-part ("Kurlander phenomenon"). In contrast, Fc gamma RII-blocking mAb IV.3 and CIKM5 caused a significant enhancement of the antibody-dependent cellular cytotoxicity (ADCC) activity mediated by hybrid mIgG1-2a and mIgG2a-2b mAb. This enhancement did not occur when the parental anti-HuIgA1/2a or the hybrid anti-HuIgA1/HRP/2a-2a mAb were evaluated for ADCC activity. These findings suggest that hybrid mAb not only can bind to Fc gamma RI, but can mediate functional activation of myeloid cells. Given the effect of mAb IV.3 on [Ca2+]i changes and ADCC triggered through IgG1-2a mAb, we suggest that Fc gamma RII may have a role in the regulation of Fc gamma RI-triggered functions or signaling.     

Phosphatidylinositol-linked FcRIII mediates exocytosis of neutrophil granule proteins, but does not mediate initiation of the respiratory burst

In this report, we present data on the activation of different neutrophil effector functions by two distinct Fc-gamma receptors, FcRII and FcRIII. We and others have shown previously that IgG-dependent activation of phagocytosis and superoxide generation is mediated via FcRII. IgG-dependent exocytosis of granule proteins was assessed with Staphylococcus aureus Oxford opsonized with human IgG or with IgG-coated latex. Both anti-FcRII mAb and anti-FcRIII-F(ab')2 mAb inhibited this release, whereas the combination of these mAb inhibited this process more strongly than either mAb alone. This indicates that both FcRII and FcRIII are involved in IgG-dependent release of granule proteins. Cross-linking of the receptors by anti-FcR mAb and F(ab')2 fragments of goat-anti-mouse-Ig showed again that both FcRII and FcRIII mediate lysozyme release, whereas cross-linking of a control antigen (CD67) did not. By measuring the release of elastase and lactoferrin, we found that cross-linking of either FcRII or FcRIII induced release of both azurophilic and specific granules. Under these conditions, we did not measure any activation of the respiratory burst. When FcRIII was removed by treatment of neutrophils with glycosylphosphatidylinositol-specific phospholipase C, the lysozyme release induced by cross-linking of FcRIII was lower than the release from control neutrophils, whereas the release induced by cross-linking of FcRII was similar. Therefore, we conclude that IgG-dependent activation of neutrophils follows two distinct pathways: one via transmembrane FcRII, activating both the NADPH oxidase and the release of granule proteins (as was demonstrated previously by us and by others), and the other via phosphatidylinositol-linked FcRIII, activating exocytosis of granule proteins.     

A triggering structure recognized by G7 monoclonal antibody on porcine lymphocytes and granulocytes.

Monoclonal antibody (mAb) G7 has been developed and appears to recognize a triggering structure on porcine natural killer (NK) cells and granulocytes. G7 mAb binds to approximately 13% of lymphocytes, 70% of monocytes, and greater than 95% of granulocytes. G7 mAb does not react with B cells. G7 mAb immunoprecipitates a heterodispersed molecule of approximately 40 kDa. Functionally, whole but not F(ab')2 fragments of G7 mAb enhance NK killing of Fc receptor positive K562, U937, and MOLT-4 targets but not Fc receptor negative CEM, WEHI-164, or YAC-1 targets. Both whole and F(ab')2 fragments of G7 mAb inhibit lymphocyte-mediated antibody-dependent cellular cytotoxicity. Interestingly, G7 mAb induces dramatic levels of granulocyte killing against nucleated K562 targets. These results suggest that G7 mAb recognizes a trigger molecule involved in porcine cellular cytotoxicity.     

Cross-linking of B lymphocyte Fc gamma receptors and membrane immunoglobulin inhibits anti-immunoglobulin-induced blastogenesis

The Fc portion of rabbit anti-mouse immunoglobulin (Ig) antibodies interferes with anti-Ig-induced B lymphocyte activation as measured by DNA synthesis on day 3 of culture or maturation to Ig-secreting cells in the presence of soluble helper factors on day 4 or 5. To investigate this Fc-dependent effect at an earlier stage in B cell activation, rabbit IgG anti-mouse mu-chain- or delta-chain-specific antibodies were compared with their F(ab')2 fragments for the ability to induce mouse B cells to undergo blast transformation, as defined by an increase in cell volume during the first 24 hr of culture. Both F(ab')2 anti-Ig reagents induce blast transformation, although F(ab')2 anti-mu antibodies induce a greater size change than F(ab')2 anti-delta antibodies. Whole anti-mu or anti-delta antibodies do not induce blast transformation; however, in the presence of a monoclonal anti-mouse Fc gamma receptor antibody that blocks IgG binding to Fc gamma receptors (Fc gamma R), whole anti-mu or anti-delta antibodies induce blast transformation as well as their F(ab')2 fragments. Because the anti-Fc gamma R antibody alone has no effect on blast transformation, it appears that the simultaneous binding of membrane IgM (or IgD) and Fc gamma R by whole anti-Ig antibodies prevents this early event in membrane Ig-induced B cell activation.     

Cross-linking of the high affinity Fc receptor for human immunoglobulin G1 triggers transient activation of NADPH oxidase activity. Continuous oxidase activation requires continuous de novo receptor cross-linking

Cross-linking of the high affinity Fc receptor for human immunoglobulin G1 (Fc gamma RI) on U937 cells triggered superoxide anion (O-2) release. This was accomplished by the binding of an Fc gamma RI-specific monoclonal antibody, mAb 32, followed by cross-linking of the mAb on the cell with anti-mouse IgG F(ab')2 by Fc gamma RI-specific mAbs 32 and 22 used as an equimolar mixture or by Fc gamma RI-specific mAb 197 (a murine IgG2a and thus a multivalent ligand for Fc gamma RI) alone. At subsaturating concentrations of the Fc gamma RI-cross-linking ligands, O2- generation was continuous over relatively long intervals. However, saturating concentrations triggered an often substantial but always transient O2- burst. This transient burst of oxidase activity ceased with maximal ligand accumulation on the cell. Cells in which oxidase activity had ceased could be restimulated using phorbol 12-myristate 13-acetate or aggregated human IgG1, indicating that cessation of O2- generation was not due to a generalized exhaustion or inhibition of the NADPH oxidase pathway. Cells incubated in subsaturating concentrations of cross-linking antibodies continued to release O2- until binding of the ligand ceased. In addition, the rates of O2- production and ligand accumulation were the same. Thus, continuous O2- production appeared to be dependent upon continuous de novo formation of cross-linked and activated Fc gamma RI. Furthermore, the mol of O2- released in response to Fc gamma RI cross-linking by the multivalent ligand mAb 197 were directly proportional to the mol of mAb bound over a range of saturating and subsaturating concentrations. This evidence suggests a quantal relationship between each Fc gamma RI activated (cross-linked) and the resultant oxidase activity and supports a "rate" model for the activation of this response. Thus, each Fc gamma RI entering the pool of activated receptors probably makes a unitary contribution to the signal. An additional finding showed that cross-linked Fc gamma RI became associated with the cell cytoskeleton and that this association was also transient. Dissociation of Fc gamma RI from its cytoskeletal attachment occurred well after cessation of O2- production.     

Selective modulation of two human monocyte Fc receptors for IgG by immobilized immune complexes

Two types of IgG FcR, FcRI and FcRII, are constitutively expressed by human monocytes. FcRI (identified by mAb 32.2) binds human (h) IgG, FcRII (identified by mAb IV.3) has a low affinity for hIgG but interacts strongly with murine (m) IgG1. These receptors can be assayed by using indicator E sensitized by hIgG (EA-hIgG) or mIgG1 (EA-mIgG1), respectively. We further characterized these two FcR by modulation studies by using substrate-immobilized immune complexes containing rabbit IgG, goat IgG, or one of the mouse Ig classes or subclasses. After incubating monocytes in microtiter wells containing such immune complexes, binding of the two types of indicator red cells on the apical surface of the monocytes was quantitated using a photometric assay employing the pseudoperoxidase activity of E. No effect on the binding of sensitized E was observed after incubation of monocytes with immune complexes containing mouse IgE, IgA, or IgM, or F(ab')2 fragments of rabbit IgG. High concentrations of immune complexes containing IgG of mouse, rabbit, or goat, however, were able to induce a decrease in binding of both types of sensitized E, suggestive of modulation of both FcRI and FcRII. At lower concentrations of immune complexes, more selective patterns of modulation emerged. Under these conditions, immune complexes containing mIgG1 or mIgG2b, or, surprisingly, goat IgG induced a selective decrease in the binding of EA-mIgG1 (FcRII modulation), while immune complexes containing mIgG2a or rabbit IgG mainly affected the binding of EA-hIgG (FcRI modulation). By using anti-FcR mAb IV.3, it was confirmed that FcRII was modulated from the apical surface of monocytes after incubation on immune complex coated substrates. Selectivity of FcR-modulation was demonstrated by showing that under these conditions binding of anti-C receptor mAb, and several other anti-monocyte mAb did not decrease.     

Ligand-loaded but not free complement receptors for C3b/C4b and C3d co-cap with cross-linked B cell surface IgM and IgD

We have performed experiments to investigate possible physical interactions between C receptors (CR) and surface Ig (sIg) on the B cell plasma membrane. These molecules were found to be independent, non-linked, B cell surface structures, because capping CR1, CR2, sIgM, or sIgD with a specific antibody did not affect the distribution of the remainder of these molecules. Both CR1 and CR2, if bound by antibodies that did not independently cap CR, however, became associated with cross-linked sIg because CR that have been bound by intact anti-CR antibodies or their Fab fragments co-capped with sIgM or sIgD that had been bound by divalent anti-IgM or anti-IgD antibody. CR1 that had bound C3b similarly co-capped with sIg when sIg was cross-linked. Ligand-bound or even cross-linked CR did not associate with non-cross-linked sIg because sIgD, bound by a univalent Fab fragment of anti-IgD antibody, did not co-cap with CR that had been cross-linked by a sandwich of mouse anti-CR antibody and goat anti-mouse Ig. Other surface molecules, such as B1 and HLA-DR Ag, when bound by specific antibodies, did not cap with cross-linked sIg, and sIgD, when bound by a univalent Fab fragment of anti-IgD antibody, did not co-cap with cross-linked sIgM. Interactions between CR and sIg were not mediated by an association with IgG FcR because co-capping of CR and sIg was observed when F(ab')2 fragments of both anti-CR and anti-Ig antibodies were used. These results demonstrate that B cell surface CR can become associated with sIg, but only if sIg is cross-linked and CR is bound by anti-CR antibody or has bound its natural ligand.     

Human epidermal Langerhans cells express only the 40-kilodalton Fc gamma receptor (FcRII)

In man, three distinct classes of receptors for the Fc fragments of IgG (FcRI, II, III) have been defined. The FcRI has a Mr of about 72 kDa, binds human IgG-coated E, and is recognized by mAb such as 32. The FcRII has a Mr of 40 kDa, binds murine IgG1-coated E, and reacts with the mAb IV.3 and CIKM5, which recognize CDw32 moieties. Lastly, the FcRIII has a Mr of 50 to 70 kDa and is recognized by anti-CD16 mAb. In the present study we have shown that i) only murine IgG1-coated E form rosettes with 49 +/- 1.5% (mean +/- SEM, n = 9) of CD1a+ epidermal cells (EC) (which represent Langerhans and indeterminate cells) and that ii) the mAb anti-FcRII CIKM5 prevents this rosette formation. Among the mAb reacting with the three different types of FcR, only those recognizing FcRII i) stain about 55 +/- 1.5% (mean +/- SEM, n = 9) of the CD1a+ EC and ii) reveal the presence of dendritic cells in epidermal sheets obtained by suction blister. Under the electron microscope i) apparently all the cells forming rosettes or reacting with the gold-labeled anti-FcRII mAb (CIKM5 or the F(ab) fragment of IV.3) contained Birbeck granules and ii) the gold-labeled mAb were internalized in unfixed Langerhans cells by receptor-mediated endocytosis and accumulated in lysosomes. Labeling by the anti-FcRII mAb of the CD1a+ cells in suspension disappears after 48 h of culture. All these observations strongly suggest that CD1a+ EC express only the FcRII. This conclusion was confirmed by immunoprecipitation experiments, whereas no specific immunoprecipitate was noted with the anti-FcRI or anti-FcRIII mAb, the anti-FcRII mAb immunoprecipitated a protein of Mr 40 kDa.     

Monoclonal antibody to human IgG Fc receptors. Cross-linking of receptors induces lysosomal enzyme release and superoxide generation by neutrophils

The monoclonal antibody KuFc79 binds to a determinant on the Fc receptors (Fc gamma R) of human leukocytes. We examined the biologic effects of the interaction of this antibody with Fc gamma R on human neutrophils (PMNL). The univalent Fab fragment of KuFc79 inhibits the formation of rosettes with IgG-sensitized sheep erythrocytes by as much as 91.7%. In other experiments in which PMNL were washed after exposure to Fab of KuFc79, phagocytosis of IgG-sensitized sheep erythrocytes was inhibited by 36%. Fab fragments of other mouse IgG2b monoclonal proteins did not have these effects. When PMNL are exposed to coverslips coated with univalent Fab fragments of this antibody, the Fc gamma R are removed from the surface of the PMNL. Under these conditions, rosetting could be inhibited by 85.4%. We examined cross-linking of receptor bound monoclonal antibody or its Fab fragment by either Protein A or F(ab')2 of an anti-mouse Ig. As much as 31.7% of beta-glucuronidase, a marker for lysosomal enzymes, is specifically released by cross-linking the Fc gamma R on PMNL. The generation of O2- is also induced by specifically cross-linking Fc gamma R with Fab and anti-Fab. The data constitute the first formal demonstration that cross-linking of Fc gamma R on PMNL leads to enzyme release and superoxide generation.     

Inhibition of anti-IgM and growth factor-induced proliferation of guinea pig B cells by one of two distinct Fc gamma receptors on the cells

Guinea pig B cells were found to proliferate when co-stimulated with F(ab')2 of rabbit anti-guinea pig IgM and human 12-kDa B cell growth factor (BCGF), though the proliferation did not occur with the replacement of the F(ab')2 by its parent IgG antibody. In addition, the intact antibody inhibited the proliferation induced by F(ab')2 of anti-IgM and BCGF. Because both two distinct types of FcR for IgG on the B cells, one specific for IgG2 (Fc gamma 2R) and the other for both IgG2 and IgG1 (Fc gamma 1/gamma 2R), can bind rabbit IgG, we determined whether they participate in the inhibition of the B cell proliferation by intact anti-guinea pig IgM antibody. Blocking Fc gamma 1/gamma 2R by F(ab')2 of anti-Fc gamma 1/gamma 2R mAb significantly reversed the inhibitory effect of intact anti-IgM antibody. F(ab')2 of anti-Fc gamma 2R mAb, however, was not effective. Furthermore, guinea pig IgG1 and IgG2 anti-rabbit IgG antibodies suppressed similarly the B cell proliferation induced by F(ab')2 of rabbit anti-IgM and BCGF. These results show that between these two types of Fc gamma R on B cells, Fc gamma 1/gamma 2R alone is involved in the regulation of anti-IgM and BCGF-induced B cell proliferation, and inhibits the response when cross-linked to the surface IgM.     

Human monocytes and U937 cells bear two distinct Fc receptors for IgG

Several convergent lines of evidence have led us to propose that human monocytes and the related cell line U937 possess a second class of IgG Fc receptor (FcR) in addition to the 72-Kd high affinity FcR previously described. IgG affinity purification from detergent lysates of surface radiolabeled U937 cells has yielded both a 40-Kd IgG-binding membrane protein (p40) and the 72-Kd FcR protein. By the same procedure, only the p40 was isolated from the erythroblast cell line K562 and from the B cell lines, Daudi and Raji. Serologic cross-reactivity between the 40-Kd FcR on U937 and Daudi cells was demonstrated using a goat anti-FcR antiserum. A murine (m) monoclonal antibody, raised against the FcR of K562 cells, precipitated the 40-Kd FcR from lysates of U937 and K562 cells but not from Daudi or Raji cells. This antibody, referred to as anti-p40 (IV.3), selectively inhibited the binding of murine IgG1-coated erythrocytes to U937 cells, whereas monomeric human IgG selectively inhibited binding of human anti-Rh(D)-coated erythrocytes to U937 cells. Both Daudi and U937 cells mediated mIgG1 anti-T3 (Leu-4)-induced stimulation of T lymphocytes. In contrast, mIgG2a anti-T3 (OKT3)-induced stimulation was supported effectively by U937 cells but only modestly by Daudi cells. Intact IgG or Fab fragments of anti-p40 (IV.3) blocked mIgG1 anti-T3 (Leu-4) stimulation but not mIgG2a anti-T3 (OKT3) stimulation of T cells; monomeric human IgG blocked only OKT3-induced stimulation. The simplest interpretation of these results is that human monocytes and U937 cells bear two classes of IgG FcR, one of 72 Kd and the other, as described above, of 40 Kd. We propose that the 72-Kd FcR mediates rosette formation with red cells coated by human anti-Rh IgG as well as T cell stimulation by mIgG2a anti-T3 (OKT3) and that the 40-Kd FcR mediates rosette formation with erythrocytes bearing mIgG1 as well as T cell stimulation by mIgG1 anti-T3 (Leu-4). Furthermore, we suggest that these two FcR are the human homologues of the murine macrophage FcRI (binding mIgG2a) and FcRII (binding mIgG2b/1).     

Induction of calcium flux and enhancement of cytolytic activity in natural killer cells by cross-linking of the sheep erythrocyte binding protein (CD2) and the Fc-receptor (CD16)

Binding of the anti-cluster of differentiation (CD) 2 monoclonal antibody 9-1 causes an increase in the concentration of cytoplasmic-free calcium ([Ca2+]i) in cultured CD3-/CD16+ natural killer (NK) cells. This response did not occur in cultured CD3+/CD16- cytotoxic T lymphocytes (CTL). Anti-CD16 antibodies could partially block the calcium response when NK cells were stimulated with intact antibody 9-1, and antigen-binding fragment F(ab')2 of antibody 9-1 did not produce a calcium response. Thus an interaction of the 9-1 antibody with CD16 Fc receptors was required for the functional effect. The dual interaction of antibody 9-1 with both CD2 and CD16 was demonstrated by comodulation experiments. The cytolytic activity of cultured NK cells was increased by antibody 9-1 but not by F(ab')2 fragments of antibody 9-1. The enhanced lytic activity was blocked by anti-CD16 antibody, anti-CD18 antibody, and anti-CD2 antibodies that do not block the binding of antibody 9-1. This pattern was distinct from antibody-dependent cell-mediated cytotoxicity which was blocked only by the anti-CD16 antibody. Thus antibody 9-1 enhanced cytotoxicity by activating effector cells. There was no enhancement of lytic activity when F(ab')2 of antibody 9-1 were cross-linked with a polyclonal antiglobulin, even though [Ca2+]i was increased. These results show that induction of a [Ca2+]i response is not sufficient to enhance lytic activity in NK cells, and suggest that signals delivered through CD16 are necessary.     

抗CD20嵌合抗体片段F(ab′)2突变体在大肠杆菌中的高效分泌表达

构建抗CD20嵌合抗体片段F(ab′)₂ 突变体 ,研究其在大肠杆菌中的高效表达及其表达产物的生物学活性。采用PCR法构建抗CD20嵌合抗体片段F(ab′)₂ 突变体 ,并用双脱氧终止法测定DNA序列 ;采用 19L发酵罐高密度发酵抗CD20嵌合抗体片段F(ab′)₂ 突变体 ,采用亲和色谱和分子筛色谱法纯化表达产物 ,并用SDS-PAGE和薄层激光扫描鉴定纯化产物 ;采用活细胞间接免疫荧光法测定纯化产物与靶细胞的结合活性 ;MTT法测定纯化产物对Raji细胞的生长抑制作用 ,并研究其作用机理。DNA序列测定结果表明 ,抗CD20嵌合抗体片段F(ab′)₂ 突变体已成功构建 ,表达可溶性产物的产量达 360mg L ,具有与Raji细胞 (CD20⁺)结合的活性 ,并抑制Raji细胞的生长 ,其作用机理为诱导Raji细胞凋亡。此突变体有望成为治疗非何杰金氏B细胞淋巴瘤的药物。     

Valency of CD3 binding and internalization of the CD3 cell-surface complex control T cell responses to second signals: distinction between effects on protein kinase C, cytoplasmic free calcium, and proliferation

We have studied the relationship of valency of CD3 stimulation and modulation of the CD3 receptor complex with biochemical and proliferative responses of T cells. Anti-CD3 Fab, as well as F(ab')2 and whole antibody caused rapid modulation of the CD3 antigen, whereas anti-CD3 conjugated to Sepharose did not. In the absence of monocytes, T cells stimulated with anti-CD3 Fab, F(ab')2, or F(ab')2-Sepharose showed differences in their ability to respond to second signals given by PMA, IL 1, IL 2, or antibodies to Tp67 and Tp44. None of the anti-CD3 signals alone caused resting T cells to produce IL 2, and only the Sepharose-bound anti-CD3 F(ab')2 caused T cells to express high levels of functional IL 2 receptors. Anti-CD3 F(ab')2-Sepharose-stimulated T cells produced IL 2 and proliferated in response to each of the second signals. Because anti-CD3-Sepharose did not cause modulation of the CD3 antigen, the ability of the Sepharose-bound antibody to induce T cells to express IL 2 receptors and to respond to individual second signals may be related to lack of modulation rather than valency of binding. Anti-CD3 Fab-stimulated T cells responded to PMA but required combinations of other second signals. T cells stimulated with unmodified anti-CD3 antibody or F(ab')2 fragments responded to PMA but did not respond to any other second signals alone or in combination. Stimulations that resulted in modulation (i.e., anti-CD3 whole antibody, anti-CD3 F(ab')2, or anti-CD3 Fab fragments) caused an increase in cytoplasmic calcium levels in resting T cells but blocked proliferation of T cells in response to mitogenic lectins or CD2 stimulation. Anti-CD3 F(ab')2 on Sepharose, however, did not block T cell proliferation. Whole bivalent anti-CD3 antibody or F(ab')2 fragments, but not monovalent Fab fragments, caused a rapid translation of protein kinase C activity from cytosol to membrane in the Jurkat T cell line. Because all of these modulate the receptor, these data indicate that the functional difference between monovalent and bivalent binding to CD3 is related to antibody valency and not to antigenic modulation. The use of Fab anti-CD3 stimulation that requires combinations of second signals for proliferation allowed an analysis of the functional relationships between IL 1, anti-Tp67, and anti-Tp44.     

Complex inositol polyphosphate response induced by co-cross-linking of CD4 and Fc gamma receptors in the human monocytoid cell line U937.

The cell-surface Ag CD4, which is characteristic for Th lymphocytes, can also be found with a lower density on monocytes/macrophages. Co-cross-linking of CD4 and Fc gamma R by an anti-CD4 mAb (MAX.16H5) and by excess of goat anti-mouse Ig induced a biphasic increase of the free cytosolic Ca(2+)-concentration ([Ca2+]i) in the human monocytoid cell line U937 as measured by FURA-2 fluorescence. A rapid rise from 100 to 150 nM [Ca2+]i to 750 to 900 nM within 1 min was followed by a decline to about 200 to 300 nM within the next 2 to 3 min. This kinetic is characteristic also for blood monocytes and differs significantly from CD4-mediated Ca(2+)-mobilization in T lymphocytes. The rise in [Ca2+]i in U937 cells was not observed when F(ab)2 fragments of MAX.16H5 and F(ab)2 fragments of the cross-linker were used indicating the involvement of Fc gamma R. Time course analysis using HPLC and a recently developed post-column dye system for mass analysis revealed a complex inositol polyphosphate response with rapid increases not only in inositol 1,4,5-trisphosphate and inositol 1,3,4,5-tetrakisphosphate, but also in D/L-inositol 1,4,5,6-tetrakisphosphate, inositol 1,3,4,5,6-pentakisphosphate, and inositol hexakisphosphate after co-cross-linking of CD4 and Fc gamma R. In conclusion, co-cross-linking of CD4 and Fc gamma R, which may occur in vivo during HIV infection or treatment with therapeutic anti-CD4 antibodies, appears to be a strong activation mechanism for the inositol polyphosphate/Ca2+ signal transduction pathway in U937 cells.     

Differentiated U937 cells and human monocytes exhibit a differential production of extracellular oxygen species: O2•− excretion versus H2O2 diffusion

Abstract The nature and the localization of the oxidative response triggered by different stimuli in either differentiated U937 cells and peripheral blood-derived human monocytes was investigated using luminometric and cytofluorometric techniques. Differentiated U937 cells essentially produced extracellular superoxide anion (O₂^•−), whatever the stimulus used. Monocytes, however, responded to Salmonella typhimurium , phorbol esters, and opsonized zymosan by an intracellular, an extracellular, and both an intra- and extracellular production of oxygen species, respectively. Furthermore, H₂O₂ but not O₂^•− was detected in the extracellular oxidative response of monocytes. Using differentiated U937 cells, luminol was found to be as efficient as lucigenin in the detection of extracellular O₂^•−, providing sufficient concentrations of extracellular horseradish peroxidase were present. However, both azide and histidine inhibited the lucigenin-enhanced chemiluminescence, suggesting an initial and transient production of singlet oxygen differentiated U937 cells. Taken together these results strongly suggest that, when stimulated, differentiated U937 cells directly excrete O₂^•− in the extracellular medium while, within monocytes, O₂^•− is rapidly dismutated in H₂O₂ which can eventually diffuse outside the cell. Such differences in the oxidative response between the two cell types could be explained by the lack of total closure of the phagosome, only observed in differentiated U937 cells.     

Effects of in vivo administration of anti-CD3 monoclonal antibody on T cell function in mice. II. In vivo activation of T cells

Anti-CD3 mAb are known to be both immunosuppressive and mitogenic to T cells in vitro. However, only immunosuppression has been observed after in vivo administration of these mAb. The present study demonstrates that T cell activation does occur after in vivo administration of anti-CD3 mAb to mice, evidenced by increased IL-2R expression on T cells, CSF secretion, and extra-medullary hematopoiesis in the spleen. These effects required multivalent cross-linking of the mAb, since F(ab')2 fragments failed to induce them. However, the F(ab')2 fragments did induce modulation of CD3/TCR from the surface of T cells, demonstrating that TCR modulation is not sufficient to induce activation. In addition, interaction of the TCR with either intact or F(ab')2 fragments of the mAb led to increased expression of CD8 in vivo, suggesting that the F(ab')2 fragments of anti-CD3 mAb might be capable of inducing a T cell to undergo some, but not all, of the changes involved in reaching a fully activated state. Further study of the activating effects of anti-CD3 mAb might increase the understanding of the mechanisms of in vivo T cell activation and might also be exploited clinically to stimulate T cell function in immunocompromised states and to enhance hematopoiesis in myelodysplastic disorders.