Oscar F. Ramos

The Tumor Promoter Phorbol-12,13-Dibutyrate [P(BU)2] Stimulates Cytotoxic Activity of Human Blood Lymphocytes

The tumor promoters 12-13-phorbol-dibutyrate, P(Bu)2, and 12-O-tetradecanoylphorbol-13-acetate, TPA, were shown to augment the cytotoxic potential of human blood lymphocytes with low cell density. In kinetics experiments the enhancing effect was preceded by an initial suppression lasting for about 2 hours. Admixture of mononuclear adherent cells abrogated the P(Bu)2 effect in a dose dependent way. P(Bu)2 altered the sensitivity of K562 cells to the cytotoxic effect. Short term pretreatment increased the sensitivity, but after longer pretreatment the cells became resistant. The results show that tumor promoters can influence the cytolytic system at different levels. By acting directly on the lymphocytes they potentiate the lytic function. When mixed mononuclear populations are used, this effect may be counteracted via activation of the suppressive functions of monocytes. In addition, the target cell sensitivity can also be modulated. As a result, the final outcome of phorbol treatment depends on the strength, kinetics and the mode of its effects on the interactants.

Elevated NK sensitivity of Raji cells carrying acceptor-bound C3 fragments

The majority of cell lines derived from Burkitt lymphomas carry CR2 on their plasma membrane cell lines of haematopoietic origin can activate C3 present in human serum through the alternative pathway. However, only the lines that carry CR2 were shown to bind C3 fragments. This bond can be either fixation to acceptor sites or attachment to the CR. Our studies with Raji cells showed that when the possibility for the covalent acceptor bond was eliminated by using methylamine (MA)- or zymosan-treated serum, considerably lower amounts of C3 were bound. In the zymosan-treated serum C3 fragments are present that can bind to receptors but their capacity for acceptor bond is absent. These results indicate that when Raji cell are incubated in human serum some of the generated C3 fragments are bound to acceptors and a lower proportion through the specific interaction with complement receptors. Pretreatment of the CR2 carrying cell lines with human serum elevated their sensitivity to the lytic effect of human blood lymphocytes. We showed in this work that MA-treated serum did not induce this elevation. Zymosan-treated serum under conditions that excluded activation of the residual native C3 molecules, i.e., in the presence of EDTA, did not have the enhancing effect either. These results suggest that the increased lytic efficiency imposed by human serum was due to cleavage of C3 molecules by Raji and fixation of the C3 fragments by acceptor sites. Natural killer cells carry CR3; therefore it is likely that the attached C3 fragments bind also to the effector cells. The C3 molecules could elevate thereby the avidity between the target and the lytic lymphocytes. The observation that C3 fragments are not bound to the surface of CR2 negative lines in spite of their capacity to activate C3 suggests that the receptor molecule is either involved in the activation and/or serves also as an acceptor.

Elevated NK-mediated lysis of Raji and Daudi cells carrying fixed iC3b fragments.

Raji and Daudi cells were opsonized with C3b, iC3b, and C3d fragments by using purified complement components. The sensitivity of C3-opsonized cells to lysis mediated by low density blood lymphocytes was studied. Raji and Daudi cells carrying C3b or C3d fragments were lysed with similar efficiencies as the nonopsonized cells. The presence of iC3b on the target surface imposed elevated NK sensitivity. The iC3b-mediated enhancement of NK lysis was inhibited when iC3b fragments or rabbit anti-human C3 antibodies were included into the lytic assays. These results indicate that the iC3b fragments fixed on the targets bind to the CR3 on the lymphocytes. Results obtained in immobilized conjugate-lytic assays showed that iC3b-opsonized targets interact more readily with the lymphocytes. This was reflected by the elevated proportion of lymphocytes that were bound to the iC3b-carrying targets. The proportions of conjugates in which target damage occurred were similar with the control and with the iC3b-carrying cells. It seems therefore that opsonization of targets with iC3b leads to recruitment of effector lymphocytes due to contact with their CR3. However, once the effector-target contact is established, the triggering of lytic function does not seem to be influenced by the iC3b/CR3 bridge.

Lysis of P3HR-1 cells induced to enter the viral cycle by antibody-dependent and independent immunological mechanisms☆

The P3HR-1 Burkitt lymphoma line carries the Epstein-Barr virus (EBV) genome and a small proportion of the cells (1-3%) enter the lytic cycle spontaneously. Treatment with TPA and n-butyrate elevates considerably the number of virus-producing cells (25-35%). Cells which enter the lytic cycle express the EBV early antigen EA, the viral capsid antigen VCA, and the membrane antigen MA. Antibodies against these antigens are present in EBV-immune human sera. The expression of virus envelope protein on the plasma membrane renders the cells sensitive to immune effector mechanisms. These were shown to be initiated by the alternative complement pathway (ACP)-activating capacity of the cells and by their reactivity with antibodies directed to the MA. When incubated with EBV-immune or nonimmune human serum, the induced (P3HR-1-V) cells activated C3 through ACP and fixed the generated C3 fragments. The efficiency of opsonization was higher in immune serum. By varying the experimental conditions we showed the damage of the induced cells by the complement system and by blood lymphocytes, and analysed the involvement of antibodies and the activated C3 fragments in the lymphocyte-mediated lysis. P3HR-1-V cells were lysed by immune serum and also by nonimmune serum though with lower efficiency. The induced cells had elevated sensitivity to the NK effect which was potentiated if the conditions allowed their opsonization. In the presence of antibodies the lymphocyte-mediated lysis was considerably higher and the ADCC mechanism was also potentiated by opsonization. These experiments suggest that B cells which enter the virus-producing cycle may be eliminated in EBV nonimmune host by NK cells. After the antibody response against the virus develops, the attack on these cells is more efficient through complement and lymphocyte-mediated antibody-dependent mechanisms. These effector mechanisms are enhanced by opsonization which is the consequence of the C3-activating capacity of the cells. The multiple ways of the immune attack on the B cells prepared to produce EBV may explain the absence of EA and VCA positive B cells in tumor cell populations and during the acute phase of infectious mononucleosis.

Modulation of human blood lymphocyte cytotoxicity by the phorbol ester tumor promoter P(Bu)2: Increase of target binding, impairment of effector recycling, and activation of lytic potential which is independent of IL-2

Treatment of lymphocytes with the tumor promotor P(Bu)2 enhanced their target-binding capacity. In the conventional 51Cr-release assay, the cytotoxic potential of lymphocytes pretreated with P(Bu)2 for a short time was reduced while after prolonged treatment their function was increased. The peak of lytic potential was attained after 15 hr of exposure. Comparison of the cytotoxic results obtained in suspension and immobilized conjugate assays suggested that P(Bu)2 treatment causes an impairment of the recycling capacity of lymphocytes. After prolonged exposure, the lytic machinery became activated as reflected by the reduced time elapsing after contact between effectors and targets and the delivery of lethal hit. The activation was also observed in the immobilized agarose assay. It was reflected by the elevated proportion of damaged targets that were bound to the treated lymphocytes. The P(Bu)2- and interferon-induced augmentation of lytic potential is achieved through different mechanisms. Combination treatment applied to the effectors in sequence (first P(Bu)2 followed by interferon), resulted in an additive effect. Similarly, simultaneous treatment with IL-2 and P(Bu)2 also gave an additive increase in cytotoxicity. Addition of antibodies directed against IL-2 did not abrogate the P(Bu)2 effect. Consequently, neither interferon nor IL-2 are involved in the phorbol ester-induced cytotoxic function.

Activation and Fixation of C3 by Human B Cell Lines Is Enhanced by Interferon-Gamma and Tumor Necrosis Factor Alpha

Human B cell lines were tested for the capacity to convert C3 to C3b/iC3b through the alternative C pathway (ACP) and to fix the generated C3 fragments. The panel of lines included four Epstein-Barr virus (EBV)-negative Burkitts lymphomas and their sublines converted with two EBV strains: the prototype B958 (B virus) and the nontransforming P3HR-1 (P virus). Comparison of these groups of parallel lines (derived from a single patient) showed that the EBV-carrying cells were more efficient in activation and fixation of C3. All cell lines activated C3 with higher efficiency when treated with interferon gamma or tumor necrosis factor alpha. After treatment, the comparative relationships between the sublines changed. The treated EBV-negative and the P virus converted sublines showed similar levels of ACP activation, while the B virus carrying sublines were more efficient. The amounts of bound C3 fragments on the activating cells correlated with the ACP efficiencies. In accordance with the elevated ACP activation capacity of the cells after cytokine treatment, the amounts of C3 fragments detected on their surfaces were higher. Among the lines tested, only two (BL28 and Ramos) were sensitive to C-mediated lysis. The lytic sensitivity of these two lines increased after treatment with the cytokines. The results indicate, therefore, that the cytokine-induced increase in ACP activation by Burkitts lymphoma line is not sufficient to overcome resistance to C lysis.

Ligands of CR2 do not interfere with C3 fragment fixation or enhanced NK sensitivity of Raji cells treated with human serum

Raji cells activate the alternative complement pathway (ACP) and fix C3 fragments when incubated in human serum (HS). Earlier experiments have shown that CR2 molecules are involved in this phenomenon and the opsonized cells have elevated sensitivity to the lytic effect of CR3-bearing NK cells. We show here that Raji cells treated with CR2 site-specific ligands, (C3d, OKB-7 and HB-5 mAbs, and a synthetic peptide which binds to CR2) generated and bound C3 fragments after exposure to HS. The elevated lytic sensitivity of HS-treated cells was not altered by the presence of the various CR2 ligands. Thus, the membrane-bound C3 fragments are not fixed at the C3dg receptor binding site.