A target structure for a series of human cloned natural killer cell lines is recognized by both anti-TNKtar and 4F2 monoclonal antibodies

It was shown recently that a surface antigen termed TNKtar was likely to serve as a target molecule for three distinct human NK clones expressing the same clonotypic determinant (termed NKTa) present on a 90 KD recognition structure. In the present studies, we investigated whether TNKtar and a previously described antigen termed 4F2 were related. Parallel immunoprecipitations from membrane lysates of the same cells showed that both anti-TNKtar and 4F2 Mab precipitate a heterodimeric structure which resolves as two bands of identical m.w. (40 and 80 KD) in SDS-PAGE analysis under reducing conditions. Sequential immunoprecipitations demonstrated that the two antibodies are directed at the same molecule. However, one antibody did not block subsequent binding of the other, and vice versa, suggesting that anti-TNKtar and 4F2 Mab are directed at two distinct epitopes of the molecule. Functionally, it was found that 4F2 Mab was able, as well as anti-TNKtar, to selectively block cytotoxic function of JT9 cloned cells. Furthermore, as reported previously for anti-TNKtar, 4F2 had no effect when additional NKTa-NK clones were used as effector cells in cytotoxicity assays. Finally, cold target inhibition assays were performed by using cold target cells precoated with either anti-TNKtar or 4F2 Mab. These experiments showed that preincubation of target cells with either antibody blocked their ability to compete with their radiolabeled counterpart. Such results further strengthen the hypothesis that the activation antigen recognized by both anti-TNKtar and 4F2 Mab serves as a specific target structure for NKTa+ NK active clones. We discuss the importance of previous data concerning the 4F2 molecule in light of this functional role, which had not been identified previously.     

Monoclonal antibodies against SSEA-1 antigen: binding properties and inhibition of human natural killer cell activity against target cells bearing SSEA-1 antigen

We describe the properties of three monoclonal antibodies (Mab) against stage-specific embryonic antigen-1 (SSEA-1) in terms of their binding activity to HL60, K562, OTF9, and SOTF9 tumor target cells and their functional activity in modulating human natural killer (NK) cytotoxicity assays in vitro against these target cells. Indirect binding, competition, and Western blot analyses indicate that the Mab AEC3A1-9 (3A1), ASSEA-1, and AECAB1-32 (AB1) recognize cell-defined SSEA-1 antigen with activity characteristic of the cell source (HL60 greater than OTF9 greater than K562 much greater than SOTF9). The addition of anti-SSEA-1 Mab to the NK cytotoxicity assay resulted in an inhibition of LU per 1 X 10(6) PBL that correlated closely with the expression of SSEA-1 antigen on the target cell. No significant inhibition was seen for seven other Mab. Inhibition of NK activity (greater than 30%) was observed in the presence of anti-SSEA-1 Mab for 18 of 21 and 6 of 7 human donors examined for HL60 and OTF9 target cells, respectively. The pretreatment of fixed competing cells with anti-SSEA-1 Mab reduced the efficacy of those cells to act as cold competitors in a standard NK cytotoxic assay. Taken together these data suggest that SSEA-1 determinants are important at some stage in the cytolysis produced by NK cells.     

Natural killer-like function of activated T lymphocytes: differential blocking effects of monoclonal antibodies specific for a 90-kDa clonotypic structure

A monoclonal antibody termed anti-NKTb has been generated following immunization of mice with cloned human cells (JT9) displaying natural killer (NK)-like activity. This antibody has the capacity to block cytotoxicity of the immunizing clone against several targets. In the present study, anti-NKTb was compared with a monoclonal antibody termed anti-NKTa that had previously been generated against JT9 cells and that had also been shown to block the NK-like function of these cells. The expression of a NKTb determinant, like that of NKTa, was found to be restricted to two NK active clones derived from the same individual, JT9 and JT10, both of which have the same mature T-cell phenotype (T3+, T8+, T11+). Comodulation, immunoprecipitation, and competitive binding experiments showed that both antibodies are directed to the same 90-kDa heterodimer associated with the T3 structure on the cell surface. However, cytotoxicity blocking studies suggested that NKTa and NKTb may represent functionally distinct epitopes of this 90-kDa molecule. Anti-NKTa uniformly blocked the cytotoxicity of both JT9 and JT10 cells when tested against 11 randomly selected target cell lines. In contrast, anti-NKTb totally blocked the cytotoxicity of these cloned cells against some targets (i.e., HPB-ALL, Nalm-1) but had very little effect when cytotoxicity was measured against other target cells (i.e., K562, U937, KG-1). This selective blocking effect, therefore, supports the notion that the heterodimer defined by the NKT antibodies is involved in the process of target cell recognition rather than in the cytolytic pathway of the cloned effector cells. Moreover, the unique functional effects of anti-NKTb suggest that additional levels of complexity exist in the specific recognition mechanisms of these clonal populations of NK active mature T lymphocytes.     

Properties of a panel of monoclonal antibodies which react with the human T cell antigen receptor on the leukemic line HPB-ALL and a subset of normal peripheral blood T lymphocytes

Five Mab raised against the T cell antigen receptor of the human T cell line HPB-ALL which react with a subpopulation of normal peripheral blood T cells are described. Three Mab, 3D6, 1C1, and 1C2, react with 3 to 5% of normal PBL and stimulate proliferation of the cells with which they react. An increase in the number of cells which react with all five Mab occurs. Two Mab, 2D4 and 65, react with subsets of the cells which bind 1C1, 1C2, and 3D6 and divide the family into four subgroups, 2D4+ 65+, 2D4+ 65-, 2D4- 65+, and 2D4- 65-. Functional T cell clones in all four subfamilies have been observed. Cytolytic function can be correlated with the TcR phenotype expressed because all of the Mab which react with a particular clone inhibit its ability to lyse a specific target. The epitopes recognized by the panel are closely related because all five block each other's binding to HPB-ALL. In addition, the determinants recognized by 3D6, 1C1, and 1C2 on normal lymphocytes are probably very closely related because all clones examined react with all three Mab.     

The role of interleukin 2 and T11 E rosette antigen in activation and proliferation of human NK clones

Although considerable data have recently been accumulated regarding the functional role of natural killer (NK) cells, relatively little is known about the factors that regulate NK cell activity. In these studies, we evaluated the role of interleukin 2 (IL 2) and the expression of the IL 2 receptor in the activation and proliferation of human NK cloned cell lines. By using a series of cloned cell lines, we were able to analyze homogeneous populations of NK cells that ordinarily comprise only a small fraction of peripheral blood lymphocytes and are extremely heterogeneous with respect to phenotypes and cytotoxic specificities. In comparison with several T cell clones, we found a much lower density of IL 2 receptors on NK clones, regardless of whether or not these cloned cells had a mature T cell phenotype. Correspondingly, NK clones needed a 10-fold higher concentration of recombinant IL 2 for maximal proliferation. Moreover, blocking studies with specific monoclonal IL 2 receptor antibodies indicated that IL 2 is both necessary and sufficient to induce the proliferation of NK clones. Because the majority of peripheral blood NK cells and NK clones express the T11 E rosette receptor antigen, which has been shown to be an antigen-independent activation pathway for T cells, we were able to study the role of monoclonal anti-T11 antibodies in the activation of various NK clones for which a specific target antigen is not known. In contrast to T cell clones, the induction of IL 2 receptor expression after T11 activation was possible only for some NK clones such as JT10 and JT3, but not for CNK5. Before activation, the IL 2 receptor expression of NK clones was confined to cells in the G2 - M phase, but after T11 activation the more pronounced IL 2 receptor expression became independent of the cell cycle. With respect to the direct proliferative effect of anti-T11 activation that has been noted with T cell clones, only the T3+ (JT10) and not the T3- NK clones could be directly stimulated. Nevertheless, IL 2 receptor expression could be triggered on some T3- clones such as JT3. Because T11-induced proliferation of T cells has been shown to be dependent on both the expression of the IL 2 receptor and on the interaction of this receptor with IL 2, it is proposed that the different responses of NK cells to T11 activation may reflect the ability of the individual clone to produce endogenous IL 2, as well as its ability to express the IL 2 receptor.     

Human IgM monoclonal antibodies reactive with HIV-1-infected cells generated using a trans-chromosome mouse

The trans-chromosome (TC) mouse that we used harbors human chromosomes 2, 14 and/or 22, and has undergone knock-out of its endogeneous genes coding for mu-and kappa-chains of immunoglobulin. One of these TC mice was immunized with HIV-1-infected U937 cells, and spleen cells from the immunized animal were fused with the mouse myeloma cell line to generate hybridoma cells. We selected hybridomas that produce human IgM antibodies (Abs) reactive with HIV-1-infected MOLT4 cells but not with uninfected MOLT4 cells. Two hybridoma cell lines were established termed 9F11 and 2G9. Although 0.4 mug/ml of 9F11 was able to induce complement-mediated cytolysis of the infected cells in the presence of fresh human serum, 2G9 could not. There was no difference between the two monoclonal Abs in the base sequences of cDNAs coding for the constant regions of mu-and kappa-chains. Therefore, we speculate that the ability to activate complement on homologous cell membranes might reflect the structural presentation of antigenic molecules, which could facilitate the binding of an IgM Ab to multiple binding sites resulting in escape from restriction by species-specific inhibitors of complement such as DAF (CD55) and CD59. On the other hand, 2G9 induced apoptosis of HIV-1-infected cells, including latently infected OM10.1 cells, although the Ag for 2G9 remains to be identified. Since both of the Abs had reduced reactivity toward HIV-1-infected MOLT4 cells following cultivation in the presence of tunicamycin, the responsible antigens would involve a sugar moiety.     

Selective inhibition of natural killer activity by the monoclonal antibodies OKT10 and VEP10 at the single cell level

The monoclonal antibodies, VEP10 and OKT10, which have been shown to recognize determinants on human natural killer (NK) cells, inhibit large granular lymphocyte (LGL) NK activity against K562, MOLT4, and CEM tumor target cells in the single cell conjugate agarose assay. Inhibition of NK activity by monoclonal antibodies was expressed independently of effector-target cell binding, as inhibitory activity could be demonstrated when the monoclonal antibodies VEP10 and OKT10 were added to preformed conjugates or to the LGLs and targets prior to the binding event. In addition, this inhibition was exerted on the effector cell and not the target cell since VEP10 and OKT10 did not react with determinants on K562 target cells. Furthermore, the 4F2 monoclonal antibody, which reacted with determinants on the LGL and all of the targets used, effected no inhibition of NK activity. Inhibition of killing by OKT10 and VEP10 was specific to endogenous NK activity since the same antibodies did not inhibit antibody-dependent cellular cytotoxicity (ADCC), mixed lymphocyte-generated NK, or cytotoxic T lymphocyte (CTL) activities.     

Diagnostic surface expression of SWAP-70 on HIV-1 infected T cells

Following immunization with HIV-1 infected cells, a hybridoma cell line termed 9F11 was established from the P3U-1 myeloma line fused with lymphocytes from a trans-chromosome (TC) mouse, that harbors human chromosomes containing immunoglobulin genes. The 9F11 human IgM monoclonal antibody (9F11 Ab) reacts with HIV-1 infected MOLT4 cells but not with uninfected MOLT4 cells, and causes immune cytolysis with homologous human complement at a concentration as low as 0.4 microg/ml. This Ab was used to perform immunoscreening of a cDNA expression library derived from HIV-1 infected cells. All positive cDNA clones contained SWAP-70 cDNA. SWAP-70 RNA and protein expression are much stronger in HIV-1 infected cells. SWAP-70 was also detected on the surface of HIV-1 infected cells by flow cytometric analysis. The monocyte cell line U937 cells expresses SWAP-70 on its cell surface regardless of whether it was infected with HIV-1. Furthermore, among PBMCs surface expression of SWAP-70 was detected on CD21+, CD56+ and CD14+ cells. Although CD3+ cells scarcely express SWAP-70 on their surface, once activated, they become positive. SWAP-70 may therefore serve as a marker for T cell differentiation as well as for HIV-1 infection.     

Lymphocyte function-associated antigen 1 (LFA-1) and natural killer (NK) cell activity: LFA-1 is not necessary for all killer: target cell interactions

A panel of five monoclonal antibodies detecting human lymphocyte function-associated antigen 1 (LFA-1) was generated and shown by competitive binding studies to react with at least four distinct epitopes on this molecule. The antibodies were then tested for their ability to inhibit the lytic activity of a variety of different human natural killer (NK) populations on a panel of four NK-susceptible target cells (K562, MOLT-4, HSB-2, and Jurkat). When heterogeneous NK populations derived from fresh peripheral blood and mixed-lymphocyte culture (MLC)-generated lines were used, these anti-LFA-1 monoclonal antibodies (MAbs) inhibited lysis of all four NK targets; this finding supports the notion that LFA-1 molecules play an important role in NK-mediated lysis. When tested on a cloned line of NK cells (NK 3.3), lysis of K562 was inhibited by these MAbs, but lysis of the other three targets was not affected. This represents an instance where a MAb specific for LFA-1 inhibits the lytic activity of NK cells against some but not all targets; thus the LFA-1 molecule cannot be considered under all circumstances to be an absolute requirement in NK-mediated lysis.     

Epitope mapping of two major inhalant allergens, Der p I and Der f I, from mites of the genus Dermatophagoides

The repertoire of antigenic sites on two major dust mite allergens, Der p I of Dermatophagoides pteronyssinus and Der f I of D. farinae, was studied using murine (BALB/c) monoclonal antibodies (Mab), polyclonal rabbit IgG antibodies, and human IgE antibodies. Fifty-three IgG Mab were analyzed from six different fusions (five vs Der p I, one vs Der f I). By antigen binding radioimmunoassay (RIA), most Mab were either Der p I or Der f I specific, and only 2/53 bound to both allergens. Epitope mapping studies using cold Mab to inhibit the binding of six 125I labeled Mab to solid phase allergen defined four nonrepeated, nonoverlapping epitopes on Der p I, a single species-specific epitope on Der f I and a cross-reacting epitope present on each allergen. All but one of the 53 Mab bound to one of these six epitopes. Seventy percent (25/35) of anti-Der p I Mab were directed to the same epitope, suggesting that this epitope is immunodominant for BALB/c mice. Similarly, 88% (16/18) of anti-Der f I Mab bound to the same epitope on Der f I. Parallel cross-inhibition curves were obtained using the species-specific Mab, 10B9, and the cross-reacting Mab, 4C1, to compete for binding to Der p I, suggesting that the epitopes defined by these two Mab on Der p I are adjacent to one another. Both murine Mab and polyclonal rabbit IgG antibodies to cross-reacting sites on both allergens were used to inhibit binding of human IgE antibodies to Der p I by using 19 sera from mite allergic patients. Cross-reacting rabbit IgG antibodies strongly inhibited all sera tested (mean 79.5% +/- 7.7) and two Mab, 10B9 and 4C1, partially inhibited (38% +/- 12). However, the four Mab directed against separate species-specific epitopes (including murine immunodominant sites) showed little or no inhibition (less than or equal to 20%). Our results suggest that most of the epitopes defined by Mab are not the same as, or close to, those defined by human IgE antibody. The striking differences in the repertoires of murine IgG and human IgE antibody responses to Der p I and Der f I could be explained by genetic differences or by altered antigen processing and presentation occurring as a result of different modes of immunization in mice and in mite allergic humans.     

Syngeneic anti-idiotypic monoclonal antibodies against an anti-human chorionic gonadotrophin antibody

Monoclonal antibody designated 1B10 (Mab 1B10) has been shown to be highly specific for the beta-chain of human chorionic gonadotrophin (HCG). We used this antibody to investigate its paratope using anti-idiotypic antibodies. Purified Mab 1B10 has been used to immunize syngeneic BALB/c mice to produce anti-idiotypic monoclonal antibodies. An enzyme immunoassay (ELISA) on Mab 1B10 coated plate was employed to screen the supernatants of growing hybridomas. The specificity of each antibody selected was assessed using an inhibition ELISA and immunoblotting. Monoclonal antibodies belonging to two categories were selected. (a) Those (designated Mab 4F8 and Mab 7G9) recognizing epitopes of the Ig molecule located in/or near the antigen-binding site of Mab 1B10. In ELISA these antibodies were shown to inhibit in a dose-dependent manner, the reaction of Mab 1B10 with its specific antigen; (b) those (Mab 2B8, Mab 3B8) reacting with epitopes located outside of the antigen binding site of the antiHCG antibody molecule and did not influence the reactions of Mab 1B10 and its antigen. Following immunization of syngeneic BALB/c mice monoclonal antibodies (Mab 4F8, Mab 7G9) were produced which recognized epitopes located on the variable region of Mab 1B10 since they did not react with other marine monoclonal antibodies of the same isotype. These antibodies inhibited the binding of Mab 1B10 to its corresponding epitope on the molecule of HCG and they can be defined as syngeneic anti-idiotypic antibodies.     

Production and characterization of a monoclonal antibody specific for the human lymphocyte low affinity receptor for IgE: CD 23 is a low affinity receptor for IgE

In the present study a gamma 1 kappa monoclonal antibody, Mab 25, specific for the receptor for the Fc fragment of IgE on lymphocytes (Fc epsilon RL) was established. This antibody was generated after fusion of spleen cells from mice immunized with the EBV-transformed lymphoblastoid cell line RPMI 8866, which is known to express Fc epsilon RL at high density. Mab 25 inhibits strongly the binding of IgE to RPMI 8866 cells and to other Fc epsilon RL-positive EBV-transformed lymphoblastoid cell lines. A 50% inhibition of IgE binding was observed at a Mab 25 concentration of 10 ng/ml. The binding of IgE was also inhibited by Fab fragments of Mab 25, suggesting that the inhibition is not simply due to steric hindrance or to an eventual binding through its Fc portion. Mab 25 only binds to cell lines expressing Fc epsilon RL. Mab 25 immunoprecipitated a single polypeptide with an apparent m.w. of 42 Kd, pI 4.9. The membrane molecule bound to and eluted from a Mab 25 immunoabsorbent had the same apparent m.w. and pI as the Fc epsilon RL purified from an IgE immunoabsorbent. Additionally, when RPMI 8866 cell lysates were cleared with Mab 25, no Fc epsilon RL could be bound to or eluted from an IgE immunoabsorbent. Mab 25 was found to weakly bind to a minor proportion of blood (1 to 4%), tonsil (2 to 9%) and spleen (4 to 5%) mononuclear cells with a low intensity. By double fluorescence analysis, most of the Fc epsilon RL-positive cells were found to be CD 20-positive B lymphocytes. The staining pattern of Mab 25 and the biochemical characteristics of the antigen detected by Mab 25 were comparable to those of the CD 23 Mab. The four CD 23 Mab MHM 6, PL 13, HD 50, and Tü 1 were found to inhibit the binding of IgE. PL 13 was found to totally inhibit the binding of Mab 25 to RPMI 8866 cells, whereas Tü 1 and MHM 6 only partially inhibited Mab 25 binding. HD 50 was unable to block the binding of Mab 25. The finding that different CD 23/Fc epsilon RL-specific monoclonal antibodies recognizing distinct epitopes have in common the capacity of inhibiting the binding of IgE suggests that upon binding they induce a conformational alteration of the Fc epsilon RL resulting in a loss of the IgE binding capacity. In conclusion, our data demonstrate that the CD 23 antigen is a low affinity receptor for IgE on lymphocytes.     

Enhanced MHC I antigen expression on tumour target cells is inversely correlated to lysis by allogenic but not by xenogenic NK cells

Relationship between the levels of MHC class 1 antigen expressed on tumour cells and their susceptibility to allogenic and xenogenic NK cells was investigated. Mouse and human natural killer-resistance inducing factor (NK-RIF) preparations were used for augmenting/inducing MHC 1 antigen expression on murine YAC and human K562 tumour cells, respectively YAC cells with augmented MHC I antigen expression became relatively resistant to lysis by murine NK cells but not to rat NK cells. Similarly, induction of MHC I antigens on K562 cells reduced their susceptibility to human NK cells but not to monkey NK cells. These results indicate that the inverse correlation of MHC I antigen expression and NK susceptibility does not hold true for xenogenic pairs of NK effector and target cells.     

Peptide mapping of the epitope on target cells recognized by nonspecific cytotoxic cells (NCC) from channel catfish

Nonspecific cytotoxic cells (NCC) may comprise an important effector population specific for recognition of aberrant (tumour) cells, regulation of cell interactions including antibacterial action and lysis of protozoan parasites. In the present study, peptides were synthesized based on the amino acid sequence of a novel protein (Natural Killer cell Target Antigen, NK Tag) found on the protozoan parasite Tetrahymena pyriformis and on NCC-sensitive tumour target cells. Partially purified NK Tag was obtained from Tetrahymena. It inhibited NCC lysis of a large variety of mammalian tumour target cells. Synthetic peptides composed of short 20 mer sequences obtained from the N-terminal and midregion portions of NK Tag were tested for their ability to inhibit NCC cytotoxicity. Synthetic peptide comprised of aa # 55-74 significantly inhibited NCC lysis of IM-9 target cells. A monoclonal antibody generated against an N-terminal dodecapeptide of NK Tag bound to Tetrahymena and to several mammalian NK-sensitive target cells including K562, YAC-1, U937, NC-37, EL-4, IM-9, HL-60 and MOLT-4. NK Tag sequence comparisons using Swisspro database revealed no significant homologies except in a restricted domain region of several glycolytic pathway enzymes. A supergene family relationship was indicated because of these similarities.     

Monoclonal antibodies to lymphocytes of rainbow trout (Oncorhynchus mykiss)

Monoclonal antibodies (Mabs) to lymphocytes of rainbow trout have been developed by immunisation with synthetic peptides, prepared from selected parts of the alpha- and beta-gene sequences of the T-cell receptor (TCR). Mab 1C2 (TCR beta immunisation) identified lymphocytes in blood (11%), spleen (18%) and in thymus (9%) in flow cytometry analysis (FCM). Immune complexes of lymphocytes coupled to Mab 1C2 was used for further immunisations resulting in numerous supernatants reactive with lymphocytes in FCM, of which Mabs 7A5 and 8H4 were selected for further characterisation. Mab 7A5 identified 31% of lymphocytes in blood and 9% in the spleen. Mab 8H4 labelled 61% and 85% of lymphocytes in the same organs. Mab 8H4 reacted with the majority of the lymphocytes in the thymus (98%). Mabs 1C2, 7A5 and 8H4 recognised surface markers on both Ig(-) and Ig(+) lymphocytes in peripheral blood and in spleen in double staining experiments. An increased proportion of Ig(-) lymphocytes were identified when Ig(+) lymphocytes were eliminated by immunomagnetic separation. No cross-reactivity of Mabs 1C2, 7A5 or 8H4 to anti-thrombocyte Mabs was detected. Mab 1C2 captured molecules of about 40 and also of 55-60kDa, in an immunoprecipitation assay. Mab 7A5 recognised an antigen of approximately 75-80kDa and Mab 8H4 identified proteins of about 70, 100 and 150kDa. Immunohistochemical staining by Mab 8H4 of fixed thymus, revealed a strong labelling of lymphoid cells in the outer zones of thymus. The 8H4 positive lymphoid cells surrounds circular structures, which were not labelled by Mab 8H4. These distinctly appearing structures have a similar shape as nurse cells described in mammals.     

Characterization of a human cervical carcinoma-associated antigen by lectin binding and immuno-electron microscopy.

The specific binding and nature of the epitope recognized by monoclonal antibody (Mab) 1H10, which binds an antigen expressed on human cervical tumors, was characterized by enzyme digestion, lectin competition assay and immuno-electron microscopy. Membrane homogenates of CaSki cervical carcinoma cells were digested with various enzymes, then analysed by SDS-PAGE and immunoblotting. Cells grown on coverslips were treated with various enzymes and in situ binding of Mab 1H10 to cells was analysed by electron microscopy. The ability of lectin-conjugates to block Mab 1H10 binding to CaSki cells was also examined. Treatment of samples with sodium periodate abrogated antigen recognition by Mab 1H10. Neuraminidase and hyaluronidase digestion decreased but did not eliminate Mab 1H10 binding to cells in situ. Chondroitinase ABC digestion, in contrast, removed Mab 1H10 binding sites both in vitro and in situ. Trypsin and chymotrypsin digestion of cell membrane homogenates decreased the molecular weight of the Mab 1H10 antigen but did not decrease the binding intensity. Wheat germ agglutinin (WGA) strongly bound to CaSki cells and partially blocked Mab 1H10 binding, indicating that the antigen contains N-acetyl-galactosamine residues at or near the epitope recognized by Mab 1H10. Ricinus communis agglutinin (RCA) exhibited a similar binding pattern to WGA. However, concanavalin A bound only weakly to CaSki cells and was ineffective at blocking Mab 1H10 binding. The tumor-associated antigen recognized by Mab 1H10 is concluded to be a chondroitin sulphate glycoprotein or proteoglycan rather than a mucopolysaccharide or lipoprotein.     

Role of the L3T4-antigen in T cell activation. II. Inhibition of T cell activation by monoclonal anti-L3T4 antibodies in the absence of accessory cells

We have used two monoclonal antibodies (Mab) to the L3T4 antigen to reexplore the role of this molecule in the process of T cell activation. Both Mab (Gk1.5 and 2B6) were capable of inhibiting Con A-induced IL 2 production by a number of antigen-specific T cell hybridomas in an assay system that was free of major histocompatibility complex (MHC) class II antigen-bearing cells. The inhibition produced by the anti-L3T4 Mab was specific, because other Mab to cell surface antigens expressed on the hybridomas were without inhibitory effects. These studies rule out the possibility that the mechanism of inhibition by anti-L3T4 in this model is mediated by blocking interaction of L3T4 with MHC class II products. Taken together, these results and those of other groups of investigators, are most compatible with a dual function for L3T4 in T cell activation. L3T4 might first interact with MHC class II molecules or other molecules on target or accessory cells; L3T4 would subsequently transmit a signal that would regulate the activation process. Mab to L3T4 might exert inhibitory effects at one or both of these steps.     

Characterization of a human cervical carcinoma-associated antigen by lectin binding and immuno-electron microscopy

Summary The specific binding and nature of the epitope recognized by monoclonal antibody (Mab) 1H10, which binds an antigen expressed on human cervical tumors, was characterized by enzyme digestion, lectin competition assay and immuno-electron microscopy. Membrane homogenates of CaSki cervical carcinoma cells were digested with various enzymes, then analysed by SDS-PAGE and immunoblotting. Cells grown on coverslips were treated with various enzymes and in situ binding of Mab 1H10 to cells was analysed by electron microscopy. The ability of lectin-conjugates to block Mab 1H10 binding to CaSki cells was also examined. Treatment of samples with sodium periodate abrogated antigen recognition by Mab 1H10. Neuraminidase and hyaluronidase digestion decreased but did not eliminate Mab 1H10 binding to cells in situ. Chondroitinase ABC digestion, in contrast, removed Mab 1H10 binding sites both in vitro and in situ. Trypsin and chymotrypsin digestion of cell membrane homogenates decreased the molecular weight of the Mab 1H10 antigen but did not decrease the binding intensity. Wheat germ agglutinin (WGA) strongly bound to CaSki cells and partially blocked Mab 1H10 binding, indicating that the antigen contains N-acetyl-galactosamine residues at or near the epitope recognized by Mab 1H10. Ricinus communis agglutinin (RCA) exhibited a similar binding pattern to WGA. However, concanavalin A bound only weakly to CaSki cells and was ineffective at blocking Mab 1H10 binding. The tumor-associated antigen recognized by Mab 1H10 is concluded to be a chondroitin sulphate glycoprotein or proteoglycan rather than a mucopolysaccharide or lipoprotein.     

Characterization of a monoclonal antibody enhancing porcine natural killer cell activity (PNK-E)

A monoclonal antibody, termed PNK-E, that functionally enhances porcine natural killer (NK) cell activity but not antibody-dependent cellular cytotoxicity (ADCC) is investigated in this report. When PNK-E and K562 target cells were simultaneously added to effector cells, killing of target cells could be detected as early as 30 min, and a dramatic enhancement of killing activity was observed in short term 51Cr-release assays. When a panel of five NK-sensitive targets were tested, PNK-E enhanced the killing of K562, MOLT-4, and U937 cells, but not the killing of CEM and YAC-1. F(ab)'2 fragments of PNK-E did not enhance NK activity, indicating a requirement for the Fc portion of PNK-E to elicit enhancement of NK. Immunofluorescence analysis shows that PNK-E antigen is expressed on approximately 15% of peripheral blood lymphocytes with a relatively dull fluorescence staining pattern. PNK-E-positive sorted cells were enriched for large granular lymphocytes (LGL) and contained all detectable NK activity as compared to the PNK-E-negative sorted cells. When analyzed by polyacrylamide gel electrophoresis, PNK-E antibody immunoprecipitated a protein from 125I-labeled peripheral blood lymphocyte (PBL) cell lysates that resolved as a single band of approximately 205 kDa under nonreducing conditions and as two bands of approximately 50 kDa and 47 kDa under reducing conditions. The present data demonstrate a functional association between PNK-E antigen and NK cell activation.     

Human immunodeficiency virus infection in cells of myeloid-monocytic lineage

We established persistent infection with a strain of human immunodeficiency virus type 1, HTLV-IIIB, in a promyelomonocytic cell line, ML-1 (CD4 antigen nearly negative and CD4 mRNA negative), and a promonocytic cell line, THP-1 (CD4 antigen positive). Different reaction of giant cell formation was found after co-cultivation of infected and uninfected cells of ML-1, HL-60, THP-1 and U-937 cell lines with uninfected and infected MOLT4 (a T-lymphoma cell line).