Analysis of the interaction of antibodies with immunoglobulin idiotypes on neoplastic B lymphocytes: implications for immunotherapy

We have examined the reactions of a panel of nine monoclonal anti-idiotype antibodies with the surface immunoglobulin in situ on guinea pig L2C leukemic lymphocytes. Equilibrium binding constants were shown to range between 10(7) and 10(8) M-1 for univalent Fab' gamma fragments and between 10(8) and 10(9) M-1 for intact IgG. Saturation of the cell surface binding sites was achieved with 2.9 X 10(5) Fab' gamma molecules/cell and 1.2 X 10(5) IgG molecules/cell for each antibody, a result that is consistent with a bivalent mode of interaction for the IgG. Despite these overall similarities in binding characteristics antibodies showed striking differences in their ability to clear Ig from the cell surface by antigenic modulation in vitro. This suggested differences in the readiness with which the antibodies cross-linked neighboring surface Ig molecules. Such an interpretation was supported by differences in the times required to achieve bivalent binding at 0 degree C, and in the rates at which labeled antibody dissociated from the cell surface in the presence or absence of an excess of unlabeled antibody. The data are consistent with there being two functionally distinct types of anti-idiotype antibody: those that form predominantly intra-Ig bridges, with each antibody Fab being linked to an Fab on one target molecule ("monogamous" binding) and not favoring modulation; and those that form predominantly inter-Ig bridges ("bigamous" binding) and favor modulation. The nature of interaction is presumably dictated by the orientation of the particular idiotope concerned. This distinction could be of great importance in the therapeutic use of anti-idiotype to ablate B cell neoplasms.     

Studies of the mechanism of bacterial resistance to complement-mediated killing. V. IgG and F(ab')2 mediate killing of E. coli 0111B4 by the alternative complement pathway without increasing C5b-9 deposition

The mechanism of antibody-dependent complement-(C) mediated killing of Escherichia coli 0111B4, strain 12015 (12015), was examined. 12015 was resistant to serum killing when incubated in hypogammaglobulinemic serum (H gamma S) or pooled normal human serum (NHS) that had been previously adsorbed to remove specific antibody (Abs NHS). Presensitization with immune rabbit serum or purified immune rabbit IgG resulted in 1 to 3 log killing when 5 X 10(8) colony forming units (CFU)/ml were incubated in 10 to 40% Abs NHS. Binding of 125I-C3 and 131I-C9 to the bacterial surface of the presensitized and the nonpresensitized strain was quantitated when these organisms were incubated in 10, 20, and 40% Abs NHS. Stable binding of up to 3.0 X 10(5) molecules of C3 and 8.0 X 10(4) molecules of C9 to presensitized and nonpresensitized isolates occurred in the highest concentration of serum, but there was no killing without presensitization. Similar results were found when Abs NHS was chelated with ethylene bis glycoltetraacetic acid containing 2 mM MgCl2 (Mg EGTA) to block classical pathway activation, indicating that antibody mediated the bactericidal reaction through the alternative pathway. Deposition of C3 and C9 and killing of 120 15 in 10% Abs NHS or 10% H gamma S was measured after presensitization with increasing amounts of IgG, F(ab')2, or Fab'. There was a dose-dependent increase in C3 deposition and killing, but only minimal change in C9 binding when 1.0 X 10(3) to 3.2 X 10(4) IgG or F(ab')2/CFU were bound to the bacterial surface. In contrast, there was no increase in C3 or C9 binding and no bacterial killing when 1 X 10(3) to 3.4 X 10(4) molecules Fab'/CFU were bound to the bacterial surface. These experiments show that immune IgG and F(ab')2 can mediate killing of E. Coli 0111B4 by the alternative pathway without changing the extent of terminal C component attachment to the bacterial surface.     

Prostaglandin-sensitive adenylate cyclase of a murine macrophage-like cell line (P388D1): II. Isolation and partial characterization of PGE2-binding proteins

Properties of prostaglandin (PG) E2 binding sites of a murine macrophage cell line (P388D1) were investigated. The specific binding of [3H]-PGE2 to intact P388D1 cells at 4 degrees C in the presence of cytochalasin D (10 micrograms/ml) approached saturation at concentration greater than 7.5 X 10(-9) M, and could be displaced most effectively by unlabeled PGE2 and less effectively by unlabeled PGI2. The Scatchard analysis of the binding data clearly indicated the heterogeneity with respect to the PGE2 binding affinity and showed the presence of about 3.9 fmol/10(8) cells of the high affinity sites (KD = 1.1 X 10(-9) M) and about 24 fmol/10(8) cells of the low affinity sites (KD = 2 X 10(-8) M). PGE2-binding proteins were isolated from the detergent lysate of the radiolabeled P388D1 cells by affinity chromatography on Sepharose 4B coupled to PGE2. The affinity-isolated materials were further purified by successive use of Sephadex G-100 gel filtration and isoelectric focusing in the presence of dithiothreitol (1 mM) and Triton X-100 (0.5%). The final step yielded about 0.25% of the original radioactivity, which sharply focused as a single peak at pH near 6.5. The electrofocused PGE2-binding proteins migrated as a single band with a m.w. of 95,000 during SDS-PAGE. The electrofocused PGE2-binding proteins bound specifically to [3H]-PGE2 but showed again the heterogeneity with respect to their affinity.     

Generation and characterization of monoclonal antibodies recognizing follicle epithelial M cells in rabbit gut-associated lymphoid tissues

A panel of mouse B cell hybridomas producing monoclonal antibodies (mAb) directed against rabbit M cell-containing epithelia was developed. By immunohistochemistry, the mAb 5D9, 5B11, 1D9, and 4G2 were found to label approximately 50% of the follicle-associated epithelial (FAE) cell populations overlying lymphoid follicles in Peyer's patches, cecal patch, sacculus rotundus, and appendix. The cell staining was localized to FAE cell basolateral surfaces outlining the M cell pockets which enclosed clusters of mononuclear leukocytes, and extended from the crypts of Peyer's patches and sacculus rotundus, and appendiceal crevices, to the apices of domes. In contrast, the stem cell and proliferative regions facing the lamina propria were devoid of immunologically reactive sites. The mAb 5D9, 1D9, and 4G2 did not recognize antigens associated with non-FAE cells in the intestinal lymphoid tissues examined. Only the mAb 5B11 labeled apical surfaces of Peyer's patch and cecal patch non-FAE. However, this mAb did not label interdomal colonic epithelial cells in sacculus rotundus and appendix. Besides recognizing FAE cells, the mAb 4G2 recognized a cross-reactive antigen displayed by dome and lymphoid follicle lymphocytes. By flow cytometry, the mAb 5D9, 5B11, and 1D9 were shown to stain from 14 to 29% of the cells in M cell-enriched populations prepared from Peyer's patches, sacculus rotundus, and appendix, whereas mAb 4G2 was found to recognize 44-54% of the cells. Two-color flow cytometric analysis showed that the mAb stained a functionally distinct subpopulation of Peyer's patch phagocytic cells and did not recognize spleen macrophages. These findings indicate that the panel of mAb recognized novel antigens expressed by FAE cells overlying intestinal lymphoid aggregates, and that the mAb allow identification of phagocytic M cells in suspensions of FAE cells.     

Trichinella spiralis: murine strain variation in response to monoclonally defined, protective, nonstage-specific antigens

Nine hybridoma cell lines secreting monoclonal antibodies (mAbs) against Trichinella spiralis muscle larvae (ML) excretory/secretory antigens (ESA) were developed. Two mAbs, 6-D8-E3 (6D8) and 6-B1-G10 (6B1), were studied in detail. Western blot analysis using ML ESA showed that 6D8 recognized 35- and 40-kDa constituents whereas 6B1 identified a doublet of 33 kDa. However, Western blots of SDS-PAGE of crude ML homogenate showed that 6D8 identified proteins of approximately 35 and 43-60 kDa, whereas 6B1 recognized bands of 42-50 kDa. These results indicated substantial apparent MW differences between secreted and nonsecreted proteins recognized by both mAbs. Neither 6D8 nor 6B1 reacted with adult worm ESA, but both recognized antigens in aqueous extracts of homogenates of whole adult worms. Competitive inhibition experiments using ML ESA as a target demonstrated that the antigen epitopes recognized by monoclonals 6D8, 6B1, a rat mAb, 9D4, and a 37-kDa antigen previously defined were noncross-reactive. MAbs 6D8, 6B1, and 9D4 were used to isolate proteins possessing target determinants by affinity chromatography from crude ML homogenates. Each mAb isolated distinct protein species as determined by SDS-PAGE (6B1, approximately 42 kDa; 6D8, approximately 28, 37, and 61 kDa; 9D4, approximately 29, 33, 38-57, 80, and 86 kDa). NFS mice responded in a dose-dependent manner to affinity-purified antigens and were 25-fold more effective (by weight of antigen) than either C3Heb/Fe(C3H) or B10.BR mice. Immunization of mice with 6D8, 6B1, or 9D4 antigens induced strong protection against a subsequent challenge infection in NFS mice as indicated by accelerated intestinal adult worm expulsion, reduced fecundity of the female worms, and reduction of ML burden. Affinity-isolated antigens stimulated in vitro proliferation of spleen and MLN cells from immune mice; however, the mitogenic response to these antigens barely varied among NFS, C3H, and B10.BR strains.     

A monoclonal antibody recognizing 68- to 75-kilodalton protein(s) associated with the human IL-1 receptor

We produced an IgM mAb termed 4.9 against an EBV-containing lymphoblastoid cell line, termed 3B6. This mAb reacted with both various B and T cell lines such as HSB2 cells, with an NK-like cell line YT-C3 cells, and with human fibroblast MCR-5 cells. It also reacted with normal resting peripheral B lymphocytes, monocytes, and anti-CD2- or anti-CD3-activated T lymphocytes. The 4.9 mAb immunoprecipitated two bands estimated to be of Mr 68 and 75 kDa from iodinated 3B6 cells. The 4.9 mAb inhibited the proliferation of peripheral T lymphocytes induced either by anti-CD3 mAb or anti-CD2 mAb. The 4.9 mAb inhibited also the proliferation of murine thymocytes both in the presence of PHA and IL-1 and the proliferation of human fibroblasts in the presence of IL-1. Radiolabeled IL-1 binding on 3B6 cells revealed two types of IL-1 binding sites with high and low affinity for IL-1 (300 sites/cell with a Kd of 6 x 10(-11)M and 6000 sites/cell with a Kd of 3 x 10(-9)M). On both 3B6 and YT-C3 cells, mAb 4.9 inhibited specifically the binding of 125I-labeled rIL-1, alpha or beta, whereas the irrelevant IgM mAb did not. Conversely, rIL-1, alpha or beta, could inhibit specifically the binding of radioiodinated 4.9 mAb to 3B6 or YT-C3 cells, whereas rIL-2, rIFN, or the irrelevant IgM mAb were ineffective. 125I-4.9 mAb bound 3B6 cells with an association constant (Ka) of 2 x 10(8)/M and demonstrated 6000 binding sites/cell. We thus conclude that mAb 4.9 recognizes a protein complex (68 to 75 kDa) closely associated with the IL-1R.     

Increased efficacy of HIV-1 neutralization by antibodies at low CCR5 surface concentration

It has been observed that some antibodies, including the CD4-induced (CD4i) antibody IgG X5 and the gp41-specific antibody IgG 2F5, exhibit higher neutralizing activity in PBMC-based assays than in cell line based assays [J.M. Binley, T. Wrin, B. Korber, M.B. Zwick, M. Wang, C. Chappey, G. Stiegler, R. Kunert, S. Zolla-Pazner, H. Katinger, C.J. Petropoulos, D.R. Burton, Comprehensive cross-clade neutralization analysis of a panel of anti-human immunodeficiency virus type 1 monoclonal antibodies, J. Virol. 78 (2004) 13232-13252]. It has been hypothesized that the lower CCR5 concentration on the surface of the CD4 T lymphocytes compared to that on cell lines used for the neutralization assays could be a contributing factor to the observed differences in neutralizing activity. To test this hypothesis and to further elucidate the contribution of CCR5 concentration differences on antibody neutralizing activity, we used a panel of HeLa cell lines with well-defined and differential surface concentrations of CCR5 and CD4 in a pseudovirus-based assay. We observed that the CCR5 cell surface concentration but not the CD4 concentration had a significant effect on the inhibitory activity of X5 and several other CD4i antibodies including 17b and m9, as well as that of the gp41-specifc antibodies 2F5 and 4E10 but not on that of the CD4 binding site antibody (CD4bs), b12. The 50% inhibitory concentration (IC50) decreased up to two orders of magnitude in cell lines with low CCR5 concentration corresponding to that in CD4 T cells used in PBMC-based assays (about 10(3) per cell) compared to cell lines with high CCR5 concentration (about 10(4) or more). Our results suggest that the CCR5 cell surface concentration could be a contributing factor to the high neutralizing activities of some antibodies in PBMC-based-assays but other factors could also play an important role. These findings could have implications for development of vaccine immunogens based on the epitopes of X5 and other CD4i antibodies, for elucidation of the mechanisms of HIV-1 neutralization by antibodies, and for design of novel therapeutic approaches.     

Differential Antitumor Effects of IgG and IgM Monoclonal Antibodies and Their Synthetic Complementarity-Determining Regions Directed to New Targets of B16F10-Nex2 Melanoma Cells

Malignant melanoma has increased incidence worldwide and causes most skin cancer-related deaths. A few cell surface antigens that can be targets of antitumor immunotherapy have been characterized in melanoma. This is an expanding field because of the ineffectiveness of conventional cancer therapy for the metastatic form of melanoma. In the present work, antimelanoma monoclonal antibodies (mAbs) were raised against B16F10 cells (subclone Nex4, grown in murine serum), with novel specificities and antitumor effects in vitro and in vivo. MAb A4 (IgG2ak) recognizes a surface antigen on B16F10-Nex2 cells identified as protocadherin β₁₃. It is cytotoxic in vitro and in vivo to B16F10-Nex2 cells as well as in vitro to human melanoma cell lines. MAb A4M (IgM) strongly reacted with nuclei of permeabilized murine tumor cells, recognizing histone 1. Although it is not cytotoxic in vitro, similarly with mAb A4, mAb A4M significantly reduced the number of lung nodules in mice challenged intravenously with B16F10-Nex2 cells. The V_H CDR3 peptide from mAb A4 and V_L CDR1 and CDR2 from mAb A4M showed significant cytotoxic activities in vitro, leading tumor cells to apoptosis. A cyclic peptide representing A4 CDR H3 competed with mAb A4 for binding to melanoma cells. MAb A4M CDRs L1 and L2 in addition to the antitumor effect also inhibited angiogenesis of human umbilical vein endothelial cells in vitro. As shown in the present work, mAbs A4 and A4M and selected CDR peptides are strong candidates to be developed as drugs for antitumor therapy for invasive melanoma.     

Antibody-dependent killing of Schistosoma mansoni schistosomula in vitro by starch-elicited murine macrophages. Critical role of the cell surface integrin Mac-1 in killing mediated by the anti-Mr 16,000 mAb B3A

Starch-elicited murine peritoneal macrophages were able to kill schistosomula in vitro in the presence of a variety of immune sera. Dose response experiments revealed the superior "quality" of serum from mice vaccinated four times with highly irradiated cercariae (4xVMS) in mediating killing at titers comparable to the other sera tested. B3A, a partially protective mAb (IgG3) that recognizes a Mr 16,000 schistosomular surface Ag, mediated higher levels of killing than any of the sera at comparable titers. In contrast, H12, a partially protective mAb (IgG2a; anti-Mr 32,000), and C1C9, a nonprotective McAb (IgG3; anti-Mr 38,000) failed to mediate killing. Two anti-Mac-1 alpha-chain mAb (5C6 and M1/70) mediated substantial dose-dependent blocking of 4xVMS and B3A-mediated macrophage killing. In contrast, a mAb to the Mac-1-associated beta-chain was less effective, whereas the mAb F4/80 did not significantly block killing despite being present on this macrophage population. Although whole 5C6 Ig was the most efficient at inhibiting B3A-mediated killing, 5C6 Fab fragments were still effective at concentrations as low as 0.5 microgram/ml (10 nM). On a molar basis 5C6 appeared to be more effective at blocking 4xVMS-mediated killing than M1/70, while only M1/70 was capable of inhibiting macrophage adherence to schistosomula. These findings, together with the observation that anti-alpha chain mAb were far more effective at blocking killing than the anti-beta-chain mAb, rules out the possibility that 5C6 is nonspecifically inhibiting B3A-FcR interaction. The data also imply a functional relationship between Mac-1 and FcRIII, the receptor for B3A, in macrophage killing.     

Specific associations of fluorescent beta-2-microglobulin with cell surfaces. The affinity of different H-2 and HLA antigens for beta-2-microglobulin

We prepared single-labeled FITC derivatives of beta-2-microglobulin (b2m) and examined their interactions with class I MHC Ag H chains on living cells. Human b2m was reacted with FITC under mild conditions and separated by hydroxylapatite chromatography into three peaks containing single labeled derivatives of b2m peaks A, B, and C, and a peak containing the unmodified protein. The three fluorescent derivatives labeled the surfaces of cells bearing class I MHC Ag. The labeling was specific for class I MHC Ag as indicated by failure to label cells in the presence of excess unlabeled b2m and failure to label the HLA-negative cell lines Daudi and 721.221. Mouse cells labeled with fluorescent human b2m were recognized by mAb to the class I MHC Ag and by virus-restricted cytotoxic T lymphocytes, suggesting that labeling with the fluorescent b2m does not significantly alter the structure of class I MHC Ag or impair their ability to present viral antigens to cytotoxic T lymphocytes. We determined the kinetic and equilibrium binding parameters for the fluorescent b2m derivatives associating with the class I H chains of mouse and human cells. Peaks B and C exhibited biphasic binding to the mouse lymphoma cells EL-4(G-CSA-) (Kd1 = 1 x 10(-9) M; K2 = 1.5 to 3.0 x 10(-8) M whereas peak A bound to a small number of low affinity binding sites. In contrast to the biphasic binding observed with EL-4(G-CSA-), only monophasic binding was observed for peak C binding to RDM4 cells. Biphasic binding was also observed with the human B cell line LCL 721. Analysis of a series of LCL 721 class I MHC loss mutants and gene transferents revealed that the heterogeneity in binding is due to differences in the affinity of different class I encoded H chains for b2m.     

Inhibition of stimulation in murine mixed lymphocyte cultures with an alloantiserum directed against a shared Ia determinant.

Pools of high titered alloantisera were raised by immunizing (B10.A/SgSn X A/WySn)F1 mice with C57BL/10Sn(B10) spleen cells. This serum (F1 anti-B10), when added to one-way mixed lymphocyte cultures (MLC), inhibited stimulation of B10.A splenic responders by both B10 and B10.D2/nSn irradiated, splenic stimulators. The B10 stimulation was suppressed approximately 85% whereas the mean suppression of B10.D2 stimulation was approximately 60%. In the ofrmer case, the serum contained antibodies reactive with multiple major histocompatibility complex determinants on the stimulator cells. In the latter case, the cytoxic reactivity of the serum was directed principally against an I region-associated determinant Ia.8) shared by B10 and B10.D2 and coded for by a gene(s) in the I-A subregion. The magnitude of the suppression of the response to B10.D2 cells (60%) was similar to the reduction in stimulation observed when the Ia.8 difference was eliminated genetically by using (B10 X B10.A)F1 responder cells against irradiated B10.D2 stimulators. Ihhibition of MLC by this antiserum was a function of reactivity with stimulator and not responder cells. Although some pools of F1 anti-B10 antiserum produced partial inhibition of the responder cell in a B10.D2 vs B10.Ax MLC combination, the results were inconsistent and not correlated with the anti-Ia.8 cytotoxicity titers. In addition, an F1 anti-B10 antiserum pool, which consistently failed to inhibit the responder cell, nevertheless inhibited both irradiated B10.D2 and (B10.A X B10.D2)F1 cells from stimulating B10.A responder cells. However, this same antiserum did not inhibit stimulation of B10.D2 responder cells by the (B10.A X B10.D2)F1 stimulators. Thus, the binding of antibodies to the non-stimulating antigens on the F1 stimulator cell did not interfere with the capacity of the appropriate stimulating antigens to cause stimulation. All of these results are consistent with the hypothesis that Ia allo-antigens are the major stimulating determinants of I region-associated MLC reactions.     

Characterization of monoclonal antibodies to the beta-adrenergic antagonist alprenolol as models of the receptor binding site

Antibodies to receptor ligands have been valuable in understanding the nature of receptor-ligand interactions. We have developed four monoclonal antibodies to the beta-adrenergic receptor antagonist alprenolol by immunizing A/J mice with (-)-alprenolol coupled to keyhole limpet hemocyanin. The antisera from these mice displayed specific [3H]dihydroalprenolol ([3H]DHA) binding that was inhibited by alprenolol, propranolol, and isoproterenol. Somatic cell fusion of spleen cells from the immunized mice to SP2/0 myeloma cells, followed by limited dilution subcloning, resulted in the isolation of four hybridomas (1B7, 5B7, 5D9, and 2G9) demonstrating three different classes of ligand binding characteristics. 1B7 had the highest binding affinity for antagonists based on Scatchard analysis (Kd [125I]- CYP = 1.4 X 10(-10) M; Kd [3H]DHA = 6.5 X 10(-9) M), and was the only antibody to demonstrate agonist-inhibition of [3H]DHA binding. Ki values computed from competitive inhibition curves of [3H]DHA binding to 1B7 resulted in a rank order of potency similar to that of beta-2-adrenergic receptors: (-)-propranolol greater than acebutolol amine greater than isoproterenol greater than (+)-propranolol greater than epinephrine greater than norepinephrine. 5B7 and 5D9 exemplified a second class of antibody. This pair had lower antagonist binding affinities (Kd [3H]DHA = 2 X 10(-8) M and 2.5 X 10(-7) M, respectively) and was stereoselective in binding receptor antagonists: (-)-propranolol greater than (+)-propranolol greater than acebutolol amine. Agonist inhibition of [3H]DHA binding to these antibodies could only be observed at very high concentrations (greater than 10(-4) M agonist), and was not dose-dependent. Finally, the class of anti-alprenolol monoclonal antibodies represented by 2G9 had the lowest antagonist binding affinity of all (IC50 alprenolol = 1 X 10(-5) M), did not demonstrate ligand stereoselectivity, and did not recognize agonists. We propose that antibodies raised against beta-adrenergic receptor ligands demonstrating stereoselective agonist binding will also demonstrate high affinity antagonist binding, and that they will closely parallel the binding characteristics of the receptor. According to this "agonist best-fit hypothesis," anti-idiotypic antibodies raised against the binding site of these idiotypes might contain true mirror images of the beta-adrenergic receptor binding site.     

Characteristics of monoclonal antibody binding with the C domain of human angiotensin converting enzyme

Binding of a panel of eight monoclonal antibodies (mAbs) with the C domain of angiotensin converting enzyme (ACE) to human testicular ACE (tACE) (corresponding to the C domain of the somatic enzyme) was studied and the inhibition of the enzyme by the mAb 4E3 was found. The dissociation constants of complexes of two mAbs, IB8 and 2H9, with tACE were 2.3 +/- 0.4 and 2.5 +/- 0.4 nM, respectively, for recombinant tACE and 1.6 +/- 0.3 nM for spermatozoid tACE. Competition parameters of mAb binding with tACE were obtained and analyzed. As a result, the eight mAbs were divided into three groups, whose binding epitopes did not overlap: (1) 1E10, 2B11, 2H9, 3F11, and 4E3; (2) 1B8 and 3F10; and (3) IB3. A diagram demonstrating mAb competitive binding with tACE was proposed. Comparative analysis of mAb binding to human and chimpanzee ACE was carried out, which resulted in revealing of two amino acid residues, Lys677 and Pro730, responsible for binding of three antibodies, 1E10, 1B8, and 3F10. It was found by mutation of Asp616 located close to Lys677 that the mAb binding epitope 1E10 contains Asp616 and Lys677, whereas mAbs 1B8 and 3F10 contain Pro730.     

A recombinant apoA-1--protein A hybrid reproduces the binding parameters of HDL to its receptor.

We have constructed a plasmid, pLM8, containing the coding sequence of the mature human apoA-1 fused to the coding sequence of the IgG-binding domains of protein A (PA) from Staphylococcus aureus. The hybrid gene is transcribed in Escherichia coli under the control of a heat-sensitive repressor, leading to the synthesis of large amounts of hybrid protein (apoA-1--PA). The hybrid protein was purified by denaturation with urea and alkali, renaturation and affinity chromatography on an IgG Sepharose column. ApoA-1--PA is soluble and has an Mr of 316 kd, as determined by gel filtration. This is five times the monomer size of 62 kd, predicted from the sequence and found by SDS-PAGE analysis. Cell surface binding activity of the hybrid protein was tested using two different cell types (J774 macrophages and Fao hepatocytes) and compared to human high density lipoprotein (HDL). High-affinity binding was found for both ligands in both cell lines (Kd = 3.4 X 10(-8)M in Fao cells, 4.9 X 10(-8) M in J774 cells for apoA-1--PA and 3.0 X 10(-8) M in Fao cells, 2.8 X 10(-8) M in J774 cells for HDL), with approximately 2 X 10(5) high-affinity binding sites per cell. ApoA-1--PA and HDL effectively competed with each other for binding to the cell surface. Additionally, they both bound to a 110-kd polypeptide on a ligand blot, identifying an HDL receptor. The binding parameters of HDL were very similar to those of apoA-1--PA.(ABSTRACT TRUNCATED AT 250 WORDS)     

Macrophage cell cycling: influence on Fc receptors and antibody-dependent phagocytosis

The influence of cell cycling on the density and binding properties of IgG2a Fc receptors and their associated antibody-dependent phagocytic activity was investigated with the P388D1 murine macrophage cell line. Unseparated macrophages and subpopulations of elutriated macrophages, enriched for cells in G1, S, and G2 + M phases were compared to detect possible differences in IgG2a-dependent phagocytosis. Suspensions of G2 + M phase cells were appreciably enhanced in phagocytic activity over G1-phase cells, which were less phagocytic than unseparated macrophage populations. An analysis of the binding of 125I-IgG2a myeloma protein disclosed that the IgG2a Fc receptor avidity remained essentially unchanged during cell cycle traverse, whereas the number of IgG2a Fc receptors more than doubled as cells cycled from G1 to G2 + M (1.5 X 10(5) vs 3.4 X 10(5) receptors per cell). With their increased size relative to G1 cells, and the resultant increase in receptor number, G2 phase cells should have more productive collisions with the antibody-coated target cells and greater phagocytic capacity.     

A DC-specific cytolytic T lymphocyte line is OKT8+1

A human cytotoxic T lymphocyte (CTL) line, A9, was generated by limiting dilution and was selected because of its apparent DC specificity. A9 is 100% OKT3+, 90% OKT4+, and 10% OKT8+, but by negative selection the CTL present are entirely OKT8+. These OKT8+ CTL are totally inhibitable by Genox 3.53, an anti-DC1 monoclonal antibody (mAb), and Leu-10, an anti-DC subgroup mAb, but are not inhibitable by a panel of anti-HLA-DR mAb. These CTL are also inhibitable by anti-OKT3 and anti-LFA-2 but not by OKT4 or OKT8 mAb. These findings extend previous studies that showed that OKT8+ CTL recognize HLA-A,B antigens, whereas OKT4+ CTL recognize HLA-DR and SB antigens. It is possible that an as yet undefined T cell surface molecule is involved in DC recognition.     

Improvement of antigen binding ability of human antibodies by light chain shifting

Human HB4C5 hybridoma cells produce a lung cancer-specific IgM human monoclonal antibody (mAb). HB4C5 human mAb cross-reacts with Candida cytochrome c (Cyt c) and carboxypeptidase (Cpase). Concanavalin A (ConA)-resistant variants of HB4C5 cells loss the original light chain followed by expression of various new light chains at a high incidence (light chain shifting) (Tachibana et al., 1996). HTD8 cells, one of the ConA-resistant variant subclones of HB4C5 cells, undergo the active light chain shifting and produce various sublines, each of which stably secretes new mAb consisting of a new light chain and a HB4C5 heavy chain. The new mAb exhibits altered antigen binding ability from that of the original antibody. We could expect that HTD8 cells can be used as ‘a light chain stem cell line’ to improve antigen binding ability and specificity of established human mAbs. A BD9D12 IgG human mAb recognizes lung cancer cells and cross-reacts with cytokeratin 8. Introduction of the heavy chain gene of BD9D12 mAb into HTD8 cells resulted in establishment of various sublines which secreted various kinds of hybrid antibodies consisting of different light chains derived from HTD8 subclones which underwent light chain shifting and a common IgG heavy chain derived from BD9D12. These hybrid antibodies exhibited different or improved reactivities to Cyt, Cpase, cytokeratin 8 and various cancer cells from those of parental mAb, demonstrating that light chain shifting can be applied to improve the affinity and specificity of human mAb. This revised version was published online in June 2006 with corrections to the Cover Date.     

Functional role of self IA molecules in polyclonal B cell activation using an autoreactive B cell clone derived from (NZB X NZW) F1 mice.

The mechanism of polyclonal B cell activation in autoimmune diseases was investigated by using an autoreactive B cell clone established by somatic hybridization with B cells derived from NZB X NZW (B/W) F1 mice. Briefly, splenic B cells from B/W F1 mice were fused with M12.4.1, a mutant of a B cell line, in the presence of polyethylene glycol and DMSO. NW47.7, a subclone of a resulting hybridoma, expresses B cell surface antigens on the cell membrane, namely IAd, IgM, B220, the receptors for the C3 fragment of complement (C3R), and the Fc portion of IgG (Fc gamma R). It also possesses a receptor molecule for mouse red blood cells treated with bromelain (Br-MRBC) on its surface, by rosette-forming assay with Br-MRBC. In contrast, parental M12.4.1 does not express IAd and IgM on the cell membrane, and does not bind to Br-MRBC under the same conditions. Thus, it is likely that NW47.7 may be an autoreactive B cell clone specific for Br-MRBC. Interestingly, NW47.7 was induced to generate a significant number of IgM-secreting cells when treated with Br-MRBC and rIL-5. Furthermore, mAb against IAd molecules, but not IAk and KdDd, markedly inhibited the differentiative effect of polyclonal activators such as LPS and rIL-5. Also, when MHC identical irradiated B cells were added to the culture of NW47.7 as a stimulator, the induction of IgM-producing cells was greatly augmented, but this augmenting effect was lost by interfering with direct contact of NW47.7 cells with stimulator B cells using a semipermeable membrane, as well as by the addition of mAb against IAd molecules. In addition, irradiated NW47.7, but not M12.4.1, by itself could enhance the secretion of IgM by NW47.7 as a stimulator, but this enhancing effect markedly decreased in the presence of anti-IAd mAb. The present results suggest that surface IA molecules on B cells are involved during the differentiative response to polyclonal activators, and may directly provide a differentiative signal for maturation of B cells into IgM-secreting cells.     

Binding of human C-reactive protein to mouse macrophages is mediated by distinct receptors

Human C-reactive protein (CRP) is known to activate mouse macrophages (M phi) to a tumoricidal state and to serve as an opsonin for M phi. Therefore, cell surface receptors for CRP on mouse M phi were characterized and their relationship to the IgG FcR determined. The specific binding of 125I-CRP to resident or elicited mouse M phi was saturable, reversible, and involved both a high and a low affinity receptor population. Binding of CRP to the mouse M phi cell lines PU5 1.8 and J774 was nearly identical to that observed with peritoneal M phi. The high affinity receptor population had a calculated K of 10 nM and a receptor density of approximately 10(5) sites per cell. Mouse Ig of the IgG2a, IgG2b, or IgG1 isotypes inhibited binding of 125I-CRP to PU5 1.8 cells at concentrations five-fold greater than that of the homologous ligand. In the converse experiment, unlabeled CRP failed to inhibit specific binding of 125I-labeled IgG2a, IgG2b or IgG1. Isolation of CRP binding proteins from surface iodinated PU5 1.8 cells by ligand-affinity chromatography or chemical cross-linking yielded a major protein band of 57 to 60 kDa which appeared to be distinct from the IgG1/IgG2b FcR (FcR-II) membrane proteins. Removal of radiolabeled IgG2b/IgG1 binding membrane proteins by affinity chromatography did not remove CRP-binding proteins. The rat mAb 2.4G2 which inhibits binding of radiolabeled mouse IgG2b, did not inhibit the binding of CRP. A rat polyclonal antiserum to CRP-binding membrane proteins of PU5 1.8 cells inhibited 125I-CRP binding, but not 125IgG2b binding. The rat polyclonal antibody reacted with two 57 to 60 kDa membrane proteins from PU5 1.8 cells that appear to be of a similar size on Western blots. The 125I-CRP was internalized via endosomes and intact CRP subunits could be detected intracellularly. The findings suggest that binding of CRP occurs through a receptor that is distinct from the IgG FcRs, but that CRP-R activity may be influenced by an association with an IgG FcR.     

抗鳗弧菌独特型单克隆抗体的制备及鉴定

利用具有中和活性的抗鳗弧菌单克隆抗体 4A6作为免疫原 ,通过单克隆抗体技术制备出 7株分泌抗独特型单抗的杂交瘤细胞。以ELISA竞争抑制实验及诱导Ab3的功能实验证实 ,其中 4株属于Ab2 β,有可能用于疫苗生产。