Cell surface glycoproteins involved in the stimulation of interleukin 1-dependent interleukin 2 production by a subline of EL4 thymoma cells. II. Structure, biosynthesis, and maturation

In the present study, we examined the biosynthesis and the maturation of two distinct membrane glycoproteins detected by two monoclonal antibodies (RL388 and RL119), which were selected on the basis of their ability to stimulate the production of interleukin 2 by a subline of the murine EL4 thymoma. RL388 detected a disulfide-linked heterodimer complex (Mr = 130,000) composed of a glycosylated heavy (Mr = 86,000) and a nonglycosylated light (Mr = 39,000) subunit. The unglycosylated precursor of the heavy chain was a polypeptide of Mr = 57,500, which was converted upon maturation into a Mr = 73,000 core-glycosylated intermediate, and then into the Mr = 86,000 surface-expressed molecule. Partial endo-H digestion of the core-glycosylated form suggested the presence of four N-linked glycan units. The antibody reacted with a protein determinant expressed on the mature form as well as the unglycosylated precursor of the heavy chain. Moreover, both subunits assembled rapidly during biosynthesis, and the glycosylation of the heavy chain was not required for this association. Taken together, these data suggest that the antigen detected by RL388 may be the murine homologue of the human 4F2 antigen. The antigen identified by RL119 was a surface glycoprotein of Mr = 55,000 with three to five N-linked glycan units. The unglycosylated precursor polypeptide was of Mr = 29,000. The fully core-glycosylated form of Mr = 41,000, which was detected after inhibition of glucosidase I with 1-deoxynojirimycin, was converted into a Mr = 39,000 intermediate, and upon further trimming, into a Mr = 36,000 endo-H-sensitive form. The latter could be detected for chase periods of over several hours, thus suggesting a low rate of intracellular processing. The wide cellular distribution of the molecules identified by RL388 and RL119 and their preferential expression on the surface of growing cells suggests that they may be associated with cell activation events.     

Cell surface glycoproteins of hepatocytes and hepatoma cells identified by monoclonal antibodies

Eight hybridoma cell lines secreting monoclonal antibodies (MABs) directed to cell surface components of rat hepatocytes were isolated. The antigens of seven MABs were identified as glycosylated plasma membrane proteins. The presence of these glycoproteins on normal hepatocytes and hepatocellular carcinoma cells was analyzed. A semi-quantitative enzyme-linked immunosorbent assay revealed that only two MABs (Be 8.7, Ne 11.3) recognized proteins which were expressed not only in normal liver but also in chemically induced transplantable Morris hepatomas and hepatoma-derived cell lines. The expression of six antigens was found to be sensitive to transformation. The domain specificity of the MABs was determined by indirect immunofluorescence on sections of liver tissue containing neoplastic nodules. Three MABs (Be 8.4, Ne 11.1, Ne 11.3) specifically bound to the sinusoidal domain and two MABs (Be 9.2, De 13.4) to the bile canalicular domain. These five antigens were transformation-sensitive except for the glycoprotein recognized by the MAB Ne 11.3. Three MABs (Be 8.7, Be 9.1, De 13.2) also showed intracellular immunofluorescence. Two of the antigens (Be 9.1, De 13.2) were not present in hepatomas. The relative molar masses (Mr) of the glycoproteins were determined after protein immunoblotting and immunoprecipitation. Four MABs (Be 8.7, Be 9.1, Be 9.2, De 13.4) recognized antigens with a Mr of 110 000 but did not mutually cross-react. The antigen recognized by MAB De 13.4 was identified as the ectoenzyme dipeptidyl peptidase IV (EC 3.4.14.-).     

Interleukin 1-dependent induction of both interleukin 2 secretion and interleukin 2 receptor expression by thymoma cells

The macrophage-derived product, interleukin 1 (IL 1) is thought to play an important regulatory role in the proliferation of T lymphocytes; however, its mechanism of action is unknown. We describe in this report a variant subline of EL4 thymoma cells (EL4-6.1) that displays a high degree of responsiveness to IL 1. We show that recombinant IL 1 can induce both the secretion of interleukin 2 (IL 2) and the expression of IL 2 receptors (IL 2-R) by these cells. EL4-6.1 cells do not constitutively secrete IL 2, nor do they express IL 2-R; but when cultured in the presence of recombinant IL 1, they secrete detectable amounts of IL 2 (5 to 15 U/ml). In the presence of either suboptimal levels of phorbol ester (PMA) or Ionomycin, the addition of IL 1 resulted in up to an 80-fold enhancement in the amount of IL 2 secreted. Stimulation with IL 1 alone or in combination with Ionomycin was unable to induce detectable IL 2-R expression by EL4-6.1 cells. However, in the presence of suboptimal concentrations of PMA, IL 1 induced expression of about 3000 high affinity (dissociation constant, Kd of 31 pM) and 50,000 low affinity (Kd of 2800 pM) IL 2-R. These IL 2-R were functional, based on their ability to rapidly internalize IL 2. This model system will allow a detailed analysis of the mechanisms involved in the regulation of the immune response by IL 1 and IL 2.     

T-cell surface antigens defined by monoclonal antibodies, involved in the induction of human interferon-gamma and interleukin 2

Monoclonal antibodies specific for human T-cell-differentiation antigens were used to investigate the mechanism of induction of interferon-gamma (IFN-gamma) and interleukin 2 (IL-2). High levels of IFN-gamma, accompanied by IL-2 production, were detected in the lymphocyte cultures stimulated by pan T monoclonal antibodies that were mitogenic. These antibodies recognize an antigen complex Tp 19-29 (a complex of T-cell proteins of 19-29 kDa). However, it was possible to induce IL-2 without concomitant production of IFN-gamma using some antibodies specific for other T-cell surface antigens, e.g., Tp 32-45, Tp 41, and Tp 100-120. These antibodies were not mitogenic. The production of lymphokines, therefore, appears to be regulated at the cell surface by receptors or interaction molecules involved in cell triggering. Binding of antibodies to T3 receptor was obligatory for both IFN-gamma induction and mitogenesis but was not required in the induction of IL-2 activity.     

Signal requirement for interleukin-1-dependent interleukin 2 production by a human leukemia-derived HSB.2 subclone

We have previously established subclones from human leukemia-derived HSB.2 cell line that produced high levels of interleukin (IL) 2 when stimulated with phytohemagglutinin (PHA) and IL-1. Herein, we investigated the signal requirement for IL-2 production, particularly concerning the role of IL-1 in this system. PHA but not IL-1 rendered marked protein kinase C (PKC) activation and IL-2 production induced by PHA plus IL-1 was totally abrogated by a potent PKC inhibitor, H-7. Concomitantly, PHA alone caused marked Ca2+ influx, whereas IL-1 neither induced Ca2+ influx nor augmented PHA-induced Ca2+ influx. As expected, a signal delivered by PHA could be substituted by phorbol 12-myristate 13-acetate (PMA) and ionomycin while IL-1 was still indispensable, indicating that at least three signals, i.e., those delivered by IL-1 as well as PKC activation and Ca2+ influx were required for optimal IL-2 production. Kinetic study indicated that while PMA and ionomycin should be added at the initiation of culture, delayed addition of IL-1 up to 4 hr later induced even higher levels of IL-2 production, demonstrating the requirement for IL-1 after PKC activation and Ca2+ influx. In this system, it was revealed that IL-1 was not involved in PKC activation, Ca2+ influx, and breakdown of phosphatidylinositols. Whereas PMA, ionomycin, and IL-1 stimulated high levels of IL-2 production, those combinations of signals did not induce breakdown of phosphatidylinositols. It should be noted that IL-2 production induced by these three signals seemed to bypass hydrolysis of phosphatidylinositols in contrast to PHA plus IL-1 stimulation that was accompanied with a marked breakdown of phosphatidylinositols.     

Cell surface glycoproteins of CHO cells. I. Internalization and rapid recycling

The major cell surface proteins of Chinese hamster ovary (CHO) cells have been investigated after reacting cells at 4 degrees C with the membrane-impermeant reagent, trinitrobenzenesulfonate (TNBS). Immunoprecipitation and subsequent two-dimensional, sodium-dodecyl sulfate, polyacrylamide gel electrophoresis (SDS-PAGE) of proteins from derivatized cells that had been labelled previously with [3H]D-glucosamine or [3H]L-leucine showed that TNBS reacted with most of the high molecular weight (HMW) acidic glycoproteins that became labelled with iodine by the lactoperoxidase technique and that bind the lectin, wheat germ agglutinin (WGA). After warming the cells to allow endocytosis to proceed, molecules haptenized with trinitrophenol (TNP) groups were followed radiochemically by means of [125I]anti-DNP antibodies. The half-life for internalization of proteins tagged with either [125I]anti-DNP IgG or Fab averaged about 5 min. A similar result was obtained when a monoclonal antibody directed against a single plasma membrane glycoprotein was used, or when the rate of surface loss of TNP groups unoccupied by antibodies was measured. Within 15 min at 37 degrees C, a steady-state between surface and cytoplasmic label was reached, with about 65% of the hapten located internally. Recycling of internalized TNP groups back to the cell surface also occurred rapidly (t 1/2 approximately 5 min). Most of the intracellular radioactivity was associated with a membrane fraction of density similar to that of the plasma membrane. Over a 4-h period, there was no significant entry of labeled molecules into lysosomes. By contrast, the fluid-phase marker, horseradish peroxidase, became associated with the lysosomes within 1 h. Our results are consistent with the view that the majority of plasma membrane glycoproteins are continuously being internalized and recycled at a high rate.     

Cell surface glycoproteins of rat lymphocytes. I. Correlation of mitogenic stimulation by periodate or neuraminidase and galactose oxidase with the presence of papain-sensitive glycoproteins.

Oxidation of viable rat lymph node lymphocytes with either periodate or a combination of neuraminidase and galactose oxidase (NGO), followed by reduction with tritiated sodium borohydride, labels similar sets of cell-surface molecules as assessed by sodium dodecyl sulfate-polyacrylamide slab gel electrophoresis. Periodate and NGO induce blast transformation of lymph node lymphocytes (oxidative mitogenesis), and borohydride reduction inhibits the proliferative response. Thus, it is inferred that some or all of the glycoproteins that are labeled with tritiated borohydride may be involved in mediating the stimulation caused by the oxidizing agents. Treatment of lymph node lymphocytes with 5 units/ml papain abolishes the response to periodate or NGO but does not significantly affect the response to Con A. At the same time, papain treatment eliminates the labeled bands representing six high m.w. glycoproteins (175,000, 170,000, 160,000, 155,000, 100,000, and 70,000 daltons). No significant effect is seen on the labeling of the other components visualized in the slab gels. The results implicate the subset of six high m.w. papain-sensitive sialoglycoproteins in mediating oxidative mitogenesis of rat lymph node lymphocytes.     

Cell surface glycoproteins I: Accumulation of a glycoprotein on the outer surface of mouse LS cells during mitosis

Surface glycopeptides derived from vertebrate cells have been separated into 4 classes by chromatography on DEAE cellulose columns. Among different cell types tested, significant differences were observed in the relative amounts of these 4 glycopeptide classes present on the cell surface. This type of heterogeneity is consistent with the expected biological role of cell surface glycoproteins. One glycopeptide, as revealed by the DEAE column analysis, was found to have a characteristic metabolic pattern in mouse LS cells. New accumulation of this structure, called glycopeptide 4, on the cell surface was detected only around the period of cell division (M phase) and not at other times during the cell cycle.     

Efficient production of IGG human monoclonal antibodies by lymphocytes stimulated by lipopolysaccharide,pokeweed mitogen,and interleukin 4

Summary Extensive screening of the mitogens lipopolysaccharide (LPS), pokeweed mitogen (PWM), andStaphylococcus aureus Cowan I (SAC I), alone and in combination and with and without interleukin (IL) was performed forin vitro activation of regional lymph node lymphocytes from lung cancer patients for the production of human IgG, IgM, and IgA. As assessed by electrofusion of the lymphocytes following their exposure to these agents with mouse myeloma cells and incubation of the fused hybridoma, a remarkable stimulatory effect was shown by LPS and particularly by LPS plus IL-4, which was substantially greater than that of either SAC I or PWM with or without various IL. Optimization studies indicated that the addition of PWM to LPS and IL-4 in the culture medium further stimulated the human antibody (Ab) production, and that the optimal formulation for stimulations of human IgG production was a culture medium containing 20 μg/ml of LPS, 1/500 of PWM, and 100 u/ml of IL-4.     

Functional studies with anti-CD3 heavy chain isotype switch-variant monoclonal antibodies. Accessory cell-independent induction of interleukin 2 responsiveness in T cells by epsilon-anti-CD3

A series of heavy chain isotype switch-variant anti-CD3 monoclonal antibodies (mAb) was used to study the proliferation requirements of purified T cells. None of the variant antibodies was able by itself to induce proliferation. In the presence of exogenous interleukin 2 (IL-2) strong mitogenesis was observed upon stimulation with epsilon-anti-CD3, whereas gamma 1, gamma 2b, gamma 2a, and alpha-anti-CD3 failed to induce T cell proliferation. All variant antibodies induced vigorous proliferation in combination with phorbol myristate acetate. Purified T cells, cultured in the presence of epsilon-anti-CD3, in the absence of IL-2, did not express detectable amounts of TAC-antigen (CD25). The binding of the variant antibodies to the CD3 antigen was evaluated in cross-blocking experiments. It was demonstrated that the epsilon-anti-CD3 antibody, in comparison with the other variant mAb, has a relatively low avidity for the CD3 antigen. In modulation experiments, the IgE variant antibody was unable to induce a substantial loss of CD3 antigen. T cell triggering was investigated at the level of Ca2+ mobilization by means of the dye Indo-1. In contrast to the gamma 1, gamma 2b, gamma 2a, and alpha mAb, which induced a rapid and high rise in the free intracellular calcium level, epsilon-anti-CD3 caused a slow and low rise. These studies indicate that the epsilon-anti-CD3 antibody has a low avidity for the CD3 antigen, compared with the other variant mAb, possibly as a result of monovalent binding. Apparently, the avidity and/or valency of CD3 antigen binding not only has a major influence on CD3 modulation and anti-CD3-induced Ca2+ mobilization, but also sets T cell requirements for IL-2 responsiveness.     

Purification and characterization of recombinant human interleukin 4. Biological activities, receptor binding and the generation of monoclonal antibodies.

A synthetic gene coding for human interleukin 4 (IL-4) was cloned and expressed in Saccharomyces cerevisiae (baker's yeast) as a C-terminal fusion protein with the yeast prepro alpha-mating factor sequence, resulting in secretion of mature IL-4 into the culture medium (0.6-0.8 micrograms/ml). A protocol was developed for purification of this protein. Crude cell-free conditioned medium was passed over a concanavalin A-Sepharose affinity column; bound proteins were eluted and further purified by S-Sepharose Fast Flow cation exchange and C18 reverse-phase h.p.l.c. Highly purified IL-4 was obtained by this method (0.3-0.4 mg per litre of culture) with a recovery of 51%. Thermospray liquid chromatography-mass spectrometry showed the C-terminal N-glycosylation site to be largely unmodified, and also showed that the N-terminus of the purified recombinant IL-4 (rIL-4) was authentic. Thiol titration revealed no free cysteine residues, implying that there are three disulphide groups, the positions of which remain to be determined. We have characterized the biological activities of the purified rIL-4. This material is active in B-cell co-stimulator assays, T-cell proliferation assays and in the induction of cell-surface expression of CD23 (the low-affinity receptor for IgE) on tonsillar B-cells. Half-maximal biological activity of the rIL-4 was achieved at a concentration of 120 pM. We have radioiodinated rIL-4 without loss of biological activity and performed equilibrium binding studies on Raji cells, a human B-cell line. The 125I-rIL-4 bound specifically to a single class of binding studies on Raji cells, a human B-cell line. The 125I-rIL-4 bound specifically to a single class of binding site with high affinity (Kd = 100 pM) and revealed 1100 receptors per cell. Receptor-ligand cross-linking studies demonstrated a single cell-surface receptor with an apparent molecular mass of 124 kDa. Two monoclonal antibodies have been raised to the human rIL-4, one of which blocks both the biological activity of rIL-4 and binding to its receptor.     

Membrane-associated interleukin 1 activity on human U937 tumor cells: stimulation of PGE2 production by human chondrosarcoma cells

Membrane-associated interleukin 1 (IL 1) activity was induced on the human macrophage tumor cell line, U937, by pretreatment with phorbol myristic acid (PMA). Incubation of PMA-treated, paraformaldehyde-fixed U937 cells with the murine cell line D10.G4.1 in the presence of concanavalin A caused an increase in DNA synthesis as measured by the uptake of tritiated thymidine. Paraformaldehyde-fixed U937, not pretreated with PMA, showed little or no activity. A rabbit polyclonal antibody directed against human IL 1 neutralized all membrane-associated IL 1-like activity, as measured by the inhibition of D10.G4.1 cell proliferation. PMA-treated U937 caused a pronounced enhancement of PGE2 production from a human chondrosarcoma cell line, SW-1353. Membrane-associated IL 1 induced a more potent PGE2 response than did a maximal concentration of soluble IL 1. Rabbit antihuman IL 1 neutralized membrane-bound IL 1 induction of PGE2. The data presented here raise the possibility that membrane-bound IL 1 may play a primary role in the pathophysiology of the inflammatory disease process.     

Human T lymphocyte activation by monoclonal antibodies; OKT3, but not UCHT1, triggers mitogenesis via an interleukin 2-dependent mechanism

OKT3 and UCHT1 monoclonal antibodies, which recognize the same human T cell surface antigen, induce proliferation in T lymphocytes. In this report, we compared the mechanism by which these antibodies trigger DNA synthesis in human peripheral blood mononuclear cell (PBMC) cultures. Whereas PBMC from all donors tested were mitogenically inducible by OKT3, cells from only 25 of 40 donors were responsive to UCHT1 . UCHT1 treatment of PBMC from responders, but not from nonresponders, resulted in the expression by T cells of membrane binding sites reactive with anti-Tac monoclonal antibody, which specifies the human interleukin 2 (IL 2) receptor. UCHT1 -induced PBMC supernatants from nonresponders, but unexpectedly, also from responders, contained no measurable IL 2 activity. In keeping with this finding, anti-Tac monoclonal antibody failed to suppress UCHT1 -triggered [3H]thymidine incorporation into PBMC from responsive donors. By contrast, OKT3 treatment of PBMC from all donors led to the emergence of IL 2 receptors, and substantial IL 2 production, and the resultant DNA synthesis was inhibitable by anti-Tac antibody. These data indicate that the interaction of OKT3 and UCHT1 monoclonal antibodies with the same T cell structure leads to the induction of proliferation via two different mechanisms: one dependent on the availability of IL 2 (OKT3) and one independent on the production and processing of this lymphokine ( UCHT1 ). PBMC unresponsiveness to UCHT1 could therefore not be related to a dysfunction in IL 2 synthesis or IL 2 receptor display.     

MD-2-dependent human Toll-like receptor 4 monoclonal antibodies detect extracellular association of Toll-like receptor 4 with extrinsic soluble MD-2 on the cell surface

MD-2 is essential for lipopolysaccharide (LPS) recognition of Toll-like receptor 4 (TLR4) but not for cell surface expression. The TLR4/MD-2 complex is formed intracellularly through co-expression. Extracellular complex formation remains a matter for debate because of the aggregative nature of secreted MD-2 in the absence of TLR4 co-expression. We demonstrated extracellular complex formation using three independent monoclonal antibodies (mAbs), all of which are specific for complexed TLR4 but unreactive with free TLR4 and MD-2. These mAbs bound to TLR4-expressing Ba/F3 cells only when co-cultured with MD-2-secreting Chinese hamster ovary cells or incubated with conditioned medium from these cells. All three mAbs bound the extracellularly formed complex indistinguishably from the intracellularly formed complex in titration studies. In addition, we demonstrated that two mAbs lost their affinity for TLR4/MD-2 on LPS stimulation, suggesting that these mAbs bound to conformation-sensitive epitopes. This was also found when the extracellularly formed complex was stimulated with LPS. Additionally, we showed that cell surface TLR4 and extrinsically secreted MD-2 are capable of forming the functional complex extracellularly, indicating an additional or alternative pathway for the complex formation.     

Effects of monoclonal antibodies against lymphocyte surface antigens on interleukin 2 excretion by Epstein-Barr virus-specific human T-cell hybridomas

Monoclonal antibodies were used as probes to study the role of cell surface antigens in the response of Epstein-Barr virus (EBV)-specific human T-T hybridomas to autologous EBV-infected B lymphoblasts. Somatic cell hybrids were generated by fusing EBV-primed peripheral blood T lymphocytes with a mutant clone of the JM human T-lymphoblastoid-cell line. When exposed to autologous EBV-infected B lymphoblasts, the resulting hybrid clones released Interleukin 2 into the culture medium. Incubation of the EBV-infected B cells with two monoclonal antibodies against human Ia-like molecules blocked their ability to trigger the hybridomas. Under the same conditions, monoclonal antibodies against beta 2-microglobulin, and a 45,000 MW surface antigen common to EBV-infected B lymphoblasts, did not alter the capacity of the B cells to stimulate the hybridomas. None of four monoclonal antibodies against surface antigens on the T-cell hybridomas impaired their responsiveness to EBV-infected B lymphoblasts. These results suggest the possibility that naturally occurring or exogenously administered antibodies against Ia molecules might interfere with T-cell regulation of EBV-induced B-cell activation.     

Characterization of cell surface glycoproteins recognized by the granulocyte-specific monoclonal antibody, AHN-1

Major surface-iodinated proteins of Mr 105,000 and 145,000 of normal human neutrophils are immunoprecipitated by a number of monoclonal antibodies (AHN-1 to AHN-6), which react specifically with granulocytes among peripheral blood cells and selectively inhibit phagocytosis. These proteins, and an Mr 60,000 component, were purified by monoclonal antibody affinity chromatography, molecular sieve chromatography, and preparative polyacrylamide gel electrophoresis. Each of the three purified proteins was immunoprecipitated by all six antibodies. Nevertheless, tryptic peptide maps of the three proteins indicated that each was a distinct component. AHN-1 to AHN-6 also bound to glycolipid fractions of human neutrophils, and the binding of each antibody to human neutrophils was blocked by the carbohydrate sequences, lacto-N-fucopentaose III. The data indicate that a predominant antigenic determinant of human neutrophils is lacto-N-fucopentaose III, or related carbohydrates, present on three distinct proteins as well as glycolipids. At least one of these molecules appears to be involved in the process of phagocytosis.