Palmitate-derivatized antibodies can function as surrogate receptors for mediating specific cell-cell interactions

The observation that exogenously supplied agents can bypass intrinsic recognition mechanisms and facilitate cellular conjugation has led to valuable insights into the mechanisms of cell function. A common feature of currently available cellular conjugation agents is their reliance on endogenous membrane molecules on both cell types as anchors for cellular interactions. In this report, we describe a method for incorporating palmitate-derivatized antibody molecules onto cell membranes where they function as 'surrogate receptors' (SR) for mediating specific cellular interactions. In this system, SR are attached to the plasma membrane by insertion of the palmitate hydrocarbon chains into the outer leaflet of the phospholipid bilayer. Therefore, the palmitate anchor bypasses the requirement for FcR or other endogenous membrane proteins in antibody-dependent cellular conjugation. Due to this mode of attachment, which is similar to that of phosphatidylinositol (PI) anchored proteins, SR-mediated cellular interactions are likely to be reminiscent of native receptor-induced conjugation, enabling SR to cooperate with endogenous target recognition structures in receptor-ligand interactions at the cell-cell interface.     

Monoclonal antibodies to chromaffin cells can distinguish proteins specific to or specifically excluded from chromaffin granules

I have prepared a number of monoclonal antibodies to chromaffin cell membranes. One of these antibodies recognizes a number of antigenically related proteins that are present in all tissues examined. In the adrenal, these proteins are completely excluded from chromaffin granules but are present in other subcellular membrane fractions. This non-granule membrane-specific antibody has been designated NG3. A second antibody, CG7, binds to a single protein which segregates specifically into chromaffin granules. The protein recognized by CG7 is cytochrome b561, or chromomembrin B, one of the major protein components of chromaffin granule membranes. CG7 also labels a protein (the identical cytochrome b561) in bovine posterior pituitary neurosecretory vesicle membranes indicating that it functions in both peptidergic and catecholaminergic secretory granules. These two monoclonal antibodies provide useful probes of both granule and extra-granule membrane proteins for studies of membrane trafficking in chromaffin cells.     

Activation of NK cells by ADCC antibodies and HIV disease progression

Antibody-dependent cellular cytotoxicity (ADCC) is of considerable interest as an immune response that may facilitate the control of HIV infection. We studied ADCC responses prospectively in a cohort of 79 HIV-positive subjects followed up for a mean of 2.3 years without antiretroviral therapy. We used a novel assay of the ability of ADCC to activate natural killer (NK) cells, either from the same HIV-positive subject or from a healthy blood donor. We found that ADCC responses to either gp140 Env protein or HIV peptide pools were common in HIV-positive subjects when NK cells from the HIV-positive subject were used but did not correlate with markers of HIV disease progression. In contrast, ADCC responses to whole gp140 Env protein were strongly associated with a slower decline in CD4 T-cell loss when healthy donor NK cells were used as effectors. Our data had implications for induction of the most effective ADCC responses by HIV vaccines.     

Cooperation of IgG monoclonal antibodies in macrophage antibody-dependent cellular cytotoxicity (ADCC) to tumor targets

Six IgG monoclonal antibodies representing the four murine IgG isotypes were active individually in ADCC to T-lymphoma targets mediated by murine macrophages and human blood K cells. The monoclonals were directed against four antigens (Thy-1.2, H-2k, Ly 2.1, Ly 9.2). None was as effective in ADCC as allo-anti-Thy-1.2 serum or rabbit anti-mouse spleen serum, even at plateau levels of killing. Monoclonals gave the highest levels of ADCC at relatively low amounts of antibody bound to targets; increasing the amount of bound antibody by 10- to 100-fold did not increase murine macrophage-mediated cytotoxicity. In contrast, ADCC using alloantiserum continued to increase over the same range of antibody bound to the tumor targets. The activity of individual monoclonals was not enhanced by the presence of various dilutions of normal mouse or rabbit serum, suggesting that the superiority of the allo- and hetero-antisera was due to their content of heterogeneous antibodies. IgG monoclonals of different isotypes and recognizing different antigens gave enhanced ADCC in combination; monoclonals to the same antigen did not. An IgM anti-Thy-1.2 monoclonal was inactive in ADCC and inhibited the activity of IgG monoclonals of the same specificity. These studies show that IgG antibodies of different specificity and class can collaborate in ADCC, and that this cooperative effect is not due simply to increased amounts of antibody bound to the tumor targets.     

Agglutination of Histoplasma capsulatum by IgG monoclonal antibodies against Hsp60 impacts macrophage effector functions

Histoplasma capsulatum can efficiently survive within macrophages, facilitating H. capsulatum translocation from the lung into the lymphatics and bloodstream. We have recently generated monoclonal antibodies (MAbs) to an H. capsulatum surface-expressed heat shock protein of 60 kDa (Hsp60) that modify disease in a murine histoplasmosis model. Interestingly, the MAbs induced different degrees of yeast cell agglutination in vitro. In the present study, we characterized the agglutination effects of the antibodies to Hsp60 on H. capsulatum yeast cells by light microscopy, flow cytometry, dynamic light scattering, measuring zeta potential, and using optical tweezers. We found that immunoglobulin Gs (IgGs) to Hsp60 cause H. capsulatum aggregation dependent on the (i) concentration of MAbs, (ii) MAb binding constant, and (iii) IgG subclass. Furthermore, infection of macrophages using agglutinates of various sizes after incubation with different Hsp60-binding MAbs induced association to macrophages through distinct cellular receptors and differentially affected macrophage antifungal functions. Hence, the capacity of IgG MAbs to agglutinate H. capsulatum significantly impacted pathogenic mechanisms of H. capsulatum during macrophage infection, and the effect was dependent on the antibody subclass and antigen epitope.     

Lack of evidence for IgM-induced ADCC: studies with monoclonal and polyclonal antibodies.

Different kinds of IgM antibodies were tested for their activity in antibody-dependent cellular cytotoxicity (ADCC): firstly an anti-benzylpenicilloyl (BPO) IgM antibody from immune rabbit serum purified by affinity, ion exchange, and molecular-sieving chromatography, secondly two monoclonal rat anti-BPO IgM antibodies and thirdly a human antidextran antibody prepared from a patient showing restriction of anti-dextran antibodies to the IgM class. Human lymphocytes or purified monocytes served as effector cells. While the two monoclonal rat and the human IgM antibodies showed no ADCC-mediating capacity, ADCC was induced by the rabbit anti-BPO IgM antibody when high antibody concentrations were used. This activity was abolished by further purification using an anti-rabbit IgG (Fc) immunosorbent. The initially observed activity was shown to be likely due to traces of aggregated anti-BPO IgG, which cannot be detected by the methods commonly used. Preincubation of lymphocytes for 24 hr increased the number of EA (IgM)] rosette forming cells but failed to induce IgM-mediated ADCC. Furthermore, evidence for amplification of low-dose IgG-ADCC by IgM could not be found.     

细胞增殖法检测单核/巨噬细胞ADCC效应方法的建立

目的：为了建立一种供临床实验室广泛应用的检测单核／巨噬细胞ＡＤＣＣ效应的实验方法。方法：选择ＣＴＬＩ２细胞作为靶细胞,制备出兔抗ＣＴＬＩ２细胞特异性抗血清,用单核细胞作为效应细胞,通过ＣＴＬＩ２细胞增殖结果检测单核细胞ＡＤＣＣ效应,并与传统检测方法＾１２５Ｉ－ＵｄＲ释放试验进行比较。结果：该方法较同位素试验方法更敏感。结论：细胞增殖法检测单核细胞ＡＤＣＣ效应准确、可靠。     

ADCC against human erythrocyte target cells: role of the anti-target cell antibodies in determining lymphocyte killer activity.

Studies were undertaken to investigate the role of anti-target cell antibodies in determining whether lymphocytes can mediate antibody-dependent cellular cytotoxicity (ADCC) in vitro. Trinitrophenyl (TNP) modified Chang liver cells and human erythrocytes were employed as target cells and were coated with xenogeneic and allogeneic antibodies against TNP and natural cell surface antigens. Two cytotoxic effector cell populations were used: human peripheral blood mononuclear cells (PBMC) containing both lymphocytes and monocytes, and monocyte-depleted peripheral blood lymphocytes (PBL). With Chang targets, both PBMC and PBL mediated ADCC with xenogeneic anti-Chang and xenogeneic anti-TNP sera. With human erythrocyte targets, PBMC but not PBL mediated ADCC with human anti-blood group B serum, while both PBMC and PBL mediated ADCC with xenogeneic anti-TNP sera and also with a human anti-CD serum. These results demonstrate that the source of anti-target cell antibodies employed in ADCC reactions may determine whether or not lymphocytes are capable of mediating cytotoxicity.     

Anti-endothelial cell antibodies from patients with thrombotic thrombocytopenic purpura specifically activate small vessel endothelial cells

Thrombotic thrombocytopenic purpura (TTP) is an uncommon disease of an unknown etiology, characterized by consumptive thrombocytopenia, microangiopathic hemolytic anemia, fever and acute thrombotic complications, especially within the cerebral circulation. Although anti-endothelial cell antibodies (AECA) have occasionally been shown to be present in TTP, their role in the pathogenesis of the disease has never been ascertained. In the current study we demonstrated the pathogenic activity of affinity-purified anti-endothelial cell F(ab)2 antibodies (AECA/TTP) from four consecutive patients with active TTP. These AECA/TTP bound to and activated only microvascular endothelial cells (EC) and not large vessel EC. The specificity of AECA/TTP binding to microvascular EC was confirmed by competition assay employing membranes derived from small and large vessels EC. Activation included enhanced IL-6 and von Willebrand factor release from the EC followed by increased expression of adhesion molecules P-selectin, E-selectin and vascular cell adhesion molecule-1 on the EC, as evaluated by ELISA. Increased expression of adhesion molecules was followed by an increase in monocyte adhesion to EC. The level of soluble thrombomodulin (TM) also increased in the culture medium of activated microvascular EC upon exposure to AECA/TTP antibodies and was directly correlated to a decrease in cell-associated TM. Our data suggest that AECA/TTP directed against microvascular EC could play a pathogenic role in the development of endothelial injury in TTP that leads to thrombosis.     

Monoclonal antibodies that specifically inhibit GM-CSF- and IL-3-dependent growth of human monocytic leukemia cells

We describe monoclonal antibodies (mAbs: anti-MaG-1, TGI-1, TGI-5, and TGI-6) that block the proliferation of AML-193 cells in response to GM-CSF or IL-3 and do not affect the proliferation of AML-193 cells in response to G-CSF and IL-2-driven proliferation of Kit 225 cells. However, none of the mAbs tested had any stimulative effect on the proliferation of AML-193 cells. The mAbs (anti-MaG-1, TGI-1, -5, and -6) could inhibit the binding of [125I]GM-CSF to AML-193 cells. We were able to purify MaG-1 Ag by anti-MaG-1 affinity chromatography. Thus, the MaG-1 Ag and the Ags recognised by mAbs (TGI-1, -5, and -6) may be associated with the receptor for GM-CSF or IL-3 or a structure close to the receptor for GM-CSF or IL-3.     

Monoclonal antibodies that identify the CD3 molecules expressed specifically at the surface of porcine gammadelta-T cells

The CD3 antigen is a surface structure associated with the T-cell receptor (TCR) to form a complex involved in antigen recognition and signal transduction. Reports on the structures of the CD3 molecules associated with alphabeta- and gammadelta-TCR have been contradictory. To investigate this issue, we raised a panel of monoclonal antibodies (mAb) against purified porcine CD3 molecules. Unlike the conventional anti-CD3, these mAb reacted specifically with peripheral gammadelta-T cells, but not with alphabeta-T cells. Immunoprecipitation showed that the antibody recognized a subset of CD3 molecules that were associated with gammadelta-TCR. Also unlike the conventional anti-CD3, these mAb, though directed at two different epitope groups, failed to induce antigenic modulation, T-cell proliferation and CD3-redirected cytotoxicity. Taken together, these results suggest that there are differences in the antigenicity, signal transduction potentials and probably structural differences between the CD3 molecules expressed at the surface of alphabeta- and gammadelta-T cells.     

Macrophages as effector cells of protective immunity in murine schistosomiasis: macrophage activation in mice vaccinated with radiation-attenuated cercariae

Cell-mediated immune responses contributing to macrophage activation were compared in mice that demonstrated partial resistance to challenge Schistosoma mansoni infection as a result of vaccination with radiation-attenuated cercariae or of ongoing low-grade primary infection. Vaccinated mice developed significant delayed hypersensitivity reactions to soluble schistosome antigens in vivo. Splenocytes from vaccinated animals responded to in vitro culture with various specific antigens (soluble adult worm extract, living or disrupted schistosomula) by proliferation and production of macrophage-activating lymphokines as did lymphocytes from S. mansoni-infected animals. Macrophage-activating factors produced by spleen cells from vaccinated mice upon specific antigen stimulation eluted as a single peak on Sephadex G-100 with a molecular weight of approximately 50,000 and contained gamma interferon activity. Moreover, peritoneal macrophages with larvicidal and tumoricidal activity were recovered from vaccinated mice after intraperitoneal challenge with soluble schistosome antigens, a procedure also observed to elicit activated macrophages in S. mansoni-infected animals. These observations demonstrate that vaccination with irradiated cercariae stimulates many of the same cellular responses observed after primary S. mansoni infection, and suggest that lymphokine-activated macrophages may participate in the effector mechanism of vaccine-induced and concomitant immunity to challenge schistosome infection. This is the first demonstration of a potential immune effector mechanism in the irradiated vaccine model.     

You can draw blood from the "IV arm" below the intravenous needle if you put a tourniquet in between.

The authors performed a comparative study of the values of 18 serum constituents of blood specimens taken simultaneously from the arm into which an intravenous solution was flowing, using a site distal to the intravenous needle, and from the other arm. Subjects of the study were 15 patients at the Norwalk Hospital. Statistical analysis showed no clinically significant difference between the levels in the two arms except for elevation of glucose in the "iv arm" when the intravenous solution contained glucose.     

Availability of antigen-presenting cells can determine the extent of CD4 effector expansion and priming for secretion of Th2 cytokines in vivo

Like dendritic cells (DC), activated B cells are effective antigen-presenting cells (APC) for na?ve CD4 cells due to their expression of MHC class II and multiple costimulatory molecules. We showed previously that CD4 cells primed in B cell-deficient micro MT) mice undergo more limited expansion than in normal animals after immunization with keyhole limpet hemocyanin. Here we report that in the absence of B cells, priming of effectors with the capacity to produce the Th2 cytokines, IL-4, IL-5 and IL-13, was profoundly reduced whereas the development of effectors that secrete the Th1 cytokine IFN-gamma was much less affected. A blockade of IL-12 reduced priming of IFN-gamma-secreting effectors but did not reverse the IL-4, IL-5, or IL-13 deficiency of the response. CD4 cell expansion and priming for Th2 cytokines in micro MT mice was reconstituted by adoptive transfer of activated splenic B cells, which were present throughout the primary response. However, transfer of splenic DC from either control or micro MT mice also supported development of Th2 cytokine responses, indicating that an APC deficit rather than a unique contribution of B cells accounted for diminished effector priming. We conclude that CD4 cell expansion must be sustained via APC for the development of Th2 cytokine-secreting effectors in vivo and that in responses to protein antigen, B cells can be a crucial population to serve in this role. The results suggest that the level of APC engagement can not only determine the extent of effector expansion, but also the overall Th1/Th2 cytokine balance.