Sodium periodate stimulation of normal and chronic lymphocytic leukemia lymphocytes : II. The use of neuraminidase and trypsin to probe the nature of the response

Sodium periodate stimulated normal and leukemic lymphocytes to undergo DNA synthesis and cell division. The role exerted by cell surface components in this response was investigated by pre-treatment or post-treatment of cells with either neuraminidase or trypsin. Both enzymes substantially reduced the sodium periodate response of normal and leukemic lymphocytes when they were added after the mitogen. In normal lymphocytes when the treatment sequence was reversed (enzyme before sodium periodate), neuraminidase had no effect while trypsin greatly potentiated the action of this mitogen. In leukemic lymphocytes, however, neuraminidase reduced the response, whereas trypsin had little or no effect. In comparison with another mitogen, the response of normal and leukemic lymphocytes to phytohemagglutinin was not significantly altered by pre-treatment with neuraminidase or trypsin. Collectively, these results imply that significant differences exist in the cell surface of these two types of lymphocytes and that the oxidation of cell surface components other than sialic acid are involved in the response of these cells to sodium periodate.     

Periodate-Modified Gangliosides Enhance Surface Binding of Tetanus Toxin to PC 12 Pheochromocytoma Cells

The interaction of 125I-labeled tetanus toxin with PC12 pheochromocytoma cells in monolayer cultures has been examined. Under regular growth conditions, the PC12 cells bind 125I-tetanus toxin to a limited degree compared with dissociated cerebral neuron cultures. After exposure to nerve growth factor for 2 days in low serum-containing media with growth factor supplements, binding of toxin increases over twofold compared with untreated PC12 cells. Binding can also be enhanced (greater than 2.5-fold) after treatment of cells with 2 mM sodium metaperiodate for 20 min. Dissociated cerebral neurons but not fibroblasts in cell culture bind more toxin after periodate treatment. The effect of periodate can be abolished by 5 mM sodium borohydride. A ganglioside isolated from periodate-treated PC12 cells and tentatively identified as GT1b [(N-acetylneuraminyl)galactosyl-N-acetylgalactosaminyl(N- acetylneuraminyl-N-acetylneuraminyl)-galactosyl-glucosylceramide] binds 125I-tetanus toxin on silica gel chromatoplates and on nitrocellulose paper. There are no indications to suggest binding to a polypeptide from treated cells after polyacrylamide gel electrophoresis. Cells artificially supplemented with GT1b and subsequently treated with periodate effectively bind the toxin. The data suggest that modified sialyl groups linked to gangliosides, and not to proteins, are preferential targets for tetanus toxin.     

Control of proliferation in mitogen responsive human peripheral blood lymphocytes: restimulation of cells stimulated by sodium periodate.

Human peripheral blood lymphocytes are stimulated to a greater extent by sodium periodate when cells are incubated in medium containing human serum than when incubated in medium with fetal calf serum. NaIO4 STIMULATION CAN BE REVERSED BY TREATMENT WITH SODIUM BOROHYDRIDE BUT CELLS ALREADY COMMITTED TO DIVISION ARE NOT AFFECTED BY BOROHYDRATE TREATMENT. Maximal commitment to DNA synthesis of a NaIO4 oxidized cell suspens-on occurs after about 28 hr of incubation in medium. The committal time after periodate stimulation is identical to that after stimulation with concanavalin A. Cells treated with periodate and then reduced with borohydride immediately after oxidation are refractory to further per-odate stimulation. Cells stimulated with periodate and then incubated for 6 hr before treatment with borohydride can be restimulated with periodate, indicating a turnover of membrane sites in the 6 hr period. Periodate-stimulated cells divide only once in response to the stimulation. The progeny of cells which were stimulated with periodate can be restimulated by treatment with either periodate or concanavalin A.     

Periodate-induced transformation of human peripheral blood lymphocytes and the resultant oxidation of membrane sialyl, galactosyl and fucosyl residues

Oxidation of human peripheral mononuclear cells with sodium periodate results in lymphocyte activation. Period-date, at optimal mitogenic concentrations, oxidizes membrane sialyl residues (NeuNAc) essentially into the 7 carbon analogue (C7-NeuNAc). Fucosyl and galactosyl residues are also oxidized by periodate, since propane 1,2-diol and glycerol are isolated in acid hydrolysates of lymphocytes oxidized by periodate and reduced by tritiated borohydride. The neuraminidase pretreatment of lymphocytes induces a 40-50% decrease of their response to periodate. Neuraminidase treatment of 108 human peripheral lymphocytes liberated 9.6 microgram NeuNAc (31 nmol), representing 68.5% of the total content. The neuraminidase treatment dramatically enhances the recovery of glycerol in hydrolysates of lymphocytes treated successively with periodate and tritiated borohydride.     

The effects of sodium metaperiodate on T and B lymphocytes.

The differential mitogenic response of T and B lymphocytes to sodium metaperiodate has been investigated. It was found that periodate treatment leads to lymphocyte stimulation in spleen cells from Balb/c mice but not in spleen cells from the congenitally athymic nu/nu mice. In addition, treatment of Balb/c spleen cells with anti-θ serum plus complement lowers the mitogenic response to periodate and to concanavalin A without affecting the response to lipopolysaccharide. These results suggest a requirement for the presence of T lymphocytes in the initiation of a response to periodate. Spleen cells from nude mice also react with periodate, and their ability to respond to B cell mitogens is impaired after treatment with the chemical reagent.     

Production of thymocyte-stimulating factor by murine spleen lymphocytes: cellular and biochemical mechanisms.

Cultures of murine spleen lymphocytes treated with Thy 1.2 antiserum plus complement do not produce thymocyte-stimulating factor (TSF). The population of thymocytes composed of immunocompetent, low-density cells produces only small amounts of TSF. Experiments with cyclophosphamide-injected mice and with spleen cells treated in vitro with antiserum to the murine B lymphocyte antigen plus complement and experiments using spleen cells stimulated in vitro with Sepharose-bound phytohemagglutinin indicate that B lymphocytes neither cooperate with T lymphocytes for the production of TSF nor produce TSF. Some lectins (pokeweed mitogen, Lens culinaris hemagglutinins A and B) have been found to induce the production of TSF by spleen cells. Other lectins (wheat germ agglutinin, Agaricus bisporus agglutinin) and sodium periodate do not. Spleen cells of mice immunized in vivo with keyhole limpet hemocyanin bound to bentonite particles or with BCG produce TSF when challenged in vitro with the specific antigen. Experiments using inhibitors of the macromolecular metabolism showed that DNA synthesis is not required for the production of TSF by spleen lymphocytes, whereas RNA and protein synthesis are required. Resolution of spleen lymphocytes on a discontinuous albumin gradient into six subpopulations showed that the TSF activity was rather uniformly distributed among the various subpopulations of cells.     

Effects of sodium periodate modification of lymphocytes on the sensitization and lytic phases of T cell-mediated lympholysis.

Sensitization of mouse splenic lymphocytes in vitro with sodium borohydride, suggesting that the biologic effects of sodium periodate are-treated autologous spleen cells stimulated a one-way mixed lymphocyte reaction and led to the generation of thymus-derived cytotoxic effector cells. These effectors were capable of lysing in 4 hr periodate-treated syngeneic and, to a lesser extent, periodate-treated allogeneic target cells. These results suggest that sensitization by periodate-treated autologous cells could result either from a specific reaction to modified self components or from a nonspecific mitogenic stimulation. Effector cells generated by allogeneic sensitization were detected on periodate-modified targets, irrespective of the H-2 antigens expressed by the targets. The effects of periodate modification on both stimulator and target cells were reversible by sodium periodate are dependent on the formation of a free aldehyde group on cell surface glycoproteins. Pretreatment of stimulator cells with neuroaminidase prevented the effect of periodate treatment, suggesting that the sensitization involves oxidized sialic acid residues. During the 4-hour 51Cr-release assay periodate-treated targets could be used to detect cytotoxic effector cells of any specificity. Fresh spleen cells and lymphocytes cultured for 5 days without antigen or in the presence of lipopolysaccharide did not lyse periodate-treated targets. An increasing level of cytotoxicity was detected on periodate-treated targets when the effector cells were generated, respectively, by stimulation with concanavalin A, by sensitization with periodate-modified autologous cells. Although the lysis of periodate-treated targets is itself nonspecific, effector cell specificity could be determined by selective blocking of the lytic phase with cells syngeneic to the stimulators. These results indicate that a nonspecific interaction can occur between lymphocytes and periodate-treated target cells, but that this interaction leads to lysis only when the lymphocytes were activated to become cytotoxic effectors.     

Generation of a soluble IFN-gamma inducer by oxidation of galactose residues on macrophages

Depletion of macrophages from human peripheral blood mononuclear cells (PBMC) caused a marked decrease in galactose oxidase and sodium periodate, but not a calcium ionophore, stimulated Interferon-gamma (IFN-gamma) production. Reconstitution of such depleted cultures with galactose oxidase treated macrophages, but not lymphocytes, restored IFN-gamma levels to those of control nonfractionated PBMC. Thus, galactose oxidase seemed to act on macrophages which in turn stimulated lymphocyte production of IFN-gamma. Unlike human cells which have terminal galactose residues on glycoproteins, murine cell glycoproteins terminate their oligosaccharide component in the order N-acetyl-neuraminic acid followed by D-galactose, N-acetyl-glucosamine, and glycoprotein. Galactose oxidase or sodium periodate only activated murine macrophages to stimulate lymphocyte IFN-gamma production after exposing D-galactose residues by the removal of the terminal N-acetyl-neuraminic acid residues with neuraminidase. Removal of such exposed terminal galactose residues with beta-galactosidase inhibited the effect of galactose oxidase on murine macrophages. Taken together, these results strongly suggest that oxidation of terminal galactose residues on macrophages is the initial site of action of galactose oxidase and sodium periodate. Studies with Boyden chambers have shown that galactose oxidase-treated macrophages released a soluble factor which stimulates lymphocyte production of IFN-gamma. Based on these findings, it appears that the oxidation of terminal galactose residues on the surface of macrophages leads to the induction and transmission of a soluble signal for lymphocyte production of IFN-gamma.     

Action of diucifon-treated syngeneic splenic cells of mice on the magnitude of the immune response

It was demonstrated previously that treatment of lymphocytes with the immunostimulant diucifon leads to the secretion of a substance having the biological activity of T cell growth factor. The present work demonstrates that injection into mice on the day of immunization of spleen syngeneic cells treated with diucifon increases the immune response 3-5-fold as compared to the action of untreated cells. Injection of spleen cells incubated without diucifon on day 3 after immunization significantly increases the immune response as compared with control. The cells treated with diucifon and injected at the same time reduce the immune response as compared with the action of spleen cells incubated without diucifon. The data obtained can be used during immunostimulant therapy.     

Release of hemopoietic factors by normal human T cell lines with either suppressor or helper activity

We analyzed the release of activities capable of stimulating the in vitro growth of human hemopoietic progenitor cells by long-term cultured T cell growth factor (TCGF)-dependent human T lymphocytes. Seven cell lines tested produced colony-stimulating activity (CSA) as well as burst-promoting activity (BPA). The CSA stimulated primarily the growth of the cells forming colonies after 14 days of incubation. In addition the supernatants from these seven T-cell lines showed the ability to induce the in vitro growth of mixed granulocyte, erythroid, megakaryocyte, macrophage colonies (CFU-GEMM). The release of hemopoietic factors did not depend on the presence of accessory cells or phytohemagglutinin or serum during the incubation for factor production. In six of the T cell lines the majority of the cells were reactive to the OKT 8 monoclonal antibody (MoAb), whereas one cell line contained mostly OKT 4+ cells. Suppressor activity was detected in three tested OKT 8+ cell lines, while the one OKT 4+ displayed helper activity. All cell lines produced hemopoietic factors with equal efficiency. These results indicate that factors affecting human hematopoiesis are produced by normal T lymphocytes in long-term culture and this property is not related to the helper or suppressor activity of the cultured cells.     

The use of bacteria as probes for lectins in preparations of solubilized human tonsil cell membranes

In earlier work we have shown that some bacteria bind naturally to lymphocyte subpopulations and that this binding may be due to lectin-carbohydrate interactions. Here we determined the possibility of using bacteria to probe for these lectins in solubilized tonsil cell membrane preparations. Since lectins are capable of agglutination, we determined the ability of human tonsil cell membrane extract (TCME) to agglutinate bacteria. We used Escherichia coli strain YS57 which does not bind to human lymphocytes and a mutant strain derived from it, E. coli UI 2023, which binds to about 50 percent of human lymphocytes. The UI 2023 was agglutinated while the YS57 was not; this agglutination was not due to antibodies or DNA. When E. coli UI 2023 was treated with periodate, it lost its ability to be agglutinated. The agglutination of E. coli UI 2023 was not blocked by any of the monosaccharides and disaccharides used but was blocked by the E. coli LPS, more specifically, by its carbohydrate moiety. Also, the E. coli UI 2023 absorbed the agglutinating factor while its parental strain, YS57, did not. Sodium dodecylsulfate-polyacrylamide gel electrophoresis of TCME after absorption with bacteria showed that a band around 67kD was absent in the TCME absorbed by E. coli prevented the absorption by E. coli UI 2023 whereas Na2IO4-treated LPS did not. In addition, tonsil cell membrane was radioiodinated before obtaining the TCME; sodium dodecylsulfate-polyacrylamide gel electrophoresis of the radioiodinated TCME recovered after elution from E. coli UI 2023, but not from E. coli YS57, showed again a band around 67 kD.(ABSTRACT TRUNCATED AT 250 WORDS)     

Generation of cytolytic T lymphocytes in vitro. X. Induction of primary and secondary CTL responses by the mitogen sodium periodate.

Short-term (15 min) sodium periodate (NaIO4) treatment of mouse spleen cells previously primed in vivo or in vitro against alloantigens induced the formation of secondary (2 degree) cytolytic T lymphocytes (CTL) specific for the priming antigens. CTL formation was readily demonstrable within 24 hr after treatment.This early CTL response occurred equally well in the presence or absence of cytosine arabinoside (Ara C), indicating that NaIO4 could induce CTL independently of DNA synthesis. Forty-eight hours after periodate treatment, the lytic activity was similar to that observed in parallel cultures stimulated with irradiated allogeneic spleen cells, although the peak activity was reached earlier (day 4) and was somewhat lower than that induced by alloantigen. The addition of irradiated NaIO4-treated unprimed syngeneic spleen cells to cultures of untreated alloimmune spleen cells also led to CTL formation, which suggests an indirect mechanism of activation. In contrast to alloimmune spleen cells, normal spleen cells treated with NaIO4 developed only very low levels of cytotoxicity after 4 days of incubation. However, in the presence of PHA, such cells were capable of lysing syngeneic and allogeneic target cells.     

Factor(s) required by EBV transformed lymphocytes to grow under limiting dilution conditions

IL-6 was demonstrated to promote growth of EBV transformed lymphocytes. However IL-6 was ineffective at promoting growth of EBV transformed lymphocytes cultured at the single cell level under limiting dilution conditions. On the contrary, HECS, which is known to contain IL-6, supported very efficiently the growth of 1–2 EBV transformed cells. When IL-6 was removed from HECS, by using specific antibodies, no reduction in HECS activity was observed, indicating that probably more than one growth factor is required to support the growth of EBV transformed cells cultured at very low cell numbers in the absence of feeder cells.Abbreviations EBV Epstein Barr virus - FCS Foetal calf serum - HECS Human endothelial culture supernatant - IL-6 Interleukin 6 - PBL Peripheral blood lymphocytes - PBS Phosphate buffered saline     

Biological Activities of Guinea Pig Mitogenic Factor from Immune Lymphocytes Stimulated with Antigen

Mitogenic factor was produced by sensitized guinea pig lymph node cells stimulated with a specific antigen. Both T lymphocytes and macrophages were required for the production of this factor. The culture supernatant of lymphocytes containing the mitogenic factor exhibited a strong helping effect on the proliferative response of T lymphocytes to phytohemagglutinin (PHA). Mitogenic factor and the factor with the helping activity coeluted in the molecular weight range of 25,000-35,000 daltons in gel filtration. Furthermore the fraction containing mitogenic factor was found to support the proliferation of lymphoblasts induced by PHA or antigen, suggesting that the mitogenic factor may be the guinea pig equivalent of T cell growth factor (TCGF) reported in the mouse, rat, and human. On the other hand, the T cell-activating monokine of the guinea pig, possessing the helping activity for the proliferative response of T lymphocytes to PHA, never exhibited TCGF-like activity.     

Effect of the joint use of BCG and antithymocyte serum on the growth of a syngeneic tumor in mice

The growth of the syngeneic tumor Acatol in BALB/c mice was retarded if the animals were pretreated with BCG or antilymphocyte serum (ATS). Combined use of BCG and ATS led to a significantly more powerful retardation as compared to the effect produced by each factor alone. Using the adoptive transfer of splenocytes from treated mice it was shown that tumor growth suppression is effected by the cell types other than T lymphocytes and macrophages. It is probable that the effector cells within the given system are K cells and natural killer cells. The results attest to a possibility of search for a two-directional action on the immune system of the tumor host, which would stimulate antitumor effector cells and inhibit the activity of suppressors, particularly that of T suppressors.     

Stimulation of human peripheral blood lymphocytes by periodate, galactose oxidase, soybean agglutinin, and peanut agglutinin: differential effects of adherent cells.

Blastogenic responses of normal human peripheral lymphocytes to three distinct groups of mitogens were studied: Group I--phytohemagglutinin (PHA), concanavalin A (Con A), and pokeweed mitogen (PWM); Group II--soybean agglutinin (SBA) and peanut agglutinin (PNA); and Group III--galactose oxidase (GO) and sodium periodate (IO4-). SBA was mitogenic for human cells, and this effect was enhanced by treating the cells with neuraminidase (NA). PNA was mitogenic only after cells had been treated with NA. GO was effective before and activity was increased after lymphocytes were treated with NA. Responses to Group II and III mitogens were more variable than were those to Group I mitogens. Studies with purified T and B cells indicated that SBA and PNA were T cell mitogens, whereas IO4- and GO failed to stimulate either T or B cells. Adding macrophages back to this system indicated that they were both T cell mitogens with strict macrophage requirements. T cell responses to SBA and PNA were enhanced over responses to unfractionated cells to a degree that could not be explained simply by enrichment of the cultures with T cells. Removal of adherent cells from unfractionated cell suspensions again revealed a marked enhancement of responses to SBA and PNA, a consistent decrease in responses to IO4-, and a variable decrease in responses to GO. Similar results were found with 14C-leucine and 3H-uridine incorporation, as well as 3H-thymidine for the assessment of bastogenic response. Mechanisms responsible for these differential effects of macrophage depletion on lymphocyte responses to different groups of mitogens are yet to be determined. Either different mitogens require different lymphocyte to macrophage ratios for optimal stimulation, or some mitogens (i.e., SBA and PNA) form inhibitory complexees in the lymphocyte-macrophage mixture. In any case, variability in response to mitogenic agents in normal as well as pathologic states may be dependent on adherent cell populations, rather than on the lymphocytes themselves.     

Stimulation of EBV-activated human B cells by monocytes and monocyte products. Role of IFN-beta 2/B cell stimulatory factor 2/IL-6

EBV infects human B lymphocytes and induces them to proliferate, to produce Ig, and to give rise to immortal cell lines. Although the mechanisms of B cell activation by EBV are largely unknown, the continuous proliferation of EBV-immortalized B cells is dependent, at least in part, upon autocrine growth factors produced by the same EBV-infected B cells. In the present studies we have examined the influence of monocytes on B cell activation by EBV and found that unlike peripheral blood T cells and B cells, monocytes enhance by as much as 30- to 50-fold virus-induced B cell proliferation and Ig production. Upon activation with LPS, monocytes secrete a growth factor activity that promotes both proliferation and Ig secretion in EBV-infected B cells and thus reproduces the effects of monocytes in these cultures. Unlike a number of other factors, rIFN-beta 2/B cell stimulatory factor 2 (BSF-2)/IL-6 stimulates the growth of human B cells activated by EBV in a manner similar to that induced by activated monocyte supernatants. In addition, an antiserum to IFN-beta that recognizes both IFN-beta 1 and IFN-beta 2 completely neutralizes the B cell growth factor activity of activated monocyte supernatants. These findings demonstrate that IFN-beta 2/BSF-2/IL-6 is a growth factor for human B cells activated by EBV and suggest that this molecule is responsible for B cell growth stimulation induced by activated monocyte supernatants. We have examined the possibility that IFN-beta 2/BSF-2/IL-6 might also be responsible for B cell growth stimulation by supernatants of EBV-immortalized B cells and thus may function as an autocrine growth factor. However, IFN-beta 2/BSF-2/IL-6 is not detectable in supernatants of EBV-immortalized B cells by immunoprecipitation. Also, an antiserum to IFN-beta that neutralizes IFN-beta 2/BSF-2/IL-6 fails to neutralize autocrine growth factor activity. This suggests that autocrine growth factors produced by EBV-immortalized B cells are distinct from IFN-beta 2/BSF-2/IL-6. Thus, the continuous proliferation of EBV-immortalized B cells is enhanced by either autocrine or paracrine growth factors. One of the mediators with paracrine growth factor activity is IFN-beta 2/BSF-2/IL-6.     

Dextran-sulfate: a mitogen for human T lymphocytes

Dextran-sulfate (DxS) induced proliferation of human peripheral blood T lymphocytes but not of adult or neonatal B lymphocytes. The mitogenic activity on T cells by DxS required the presence of accessory cells because DxS was unable to trigger T cells to DNA synthesis in the absence of accessory cells. In addition, DxS stimulated OKT4+8- T cells to produce interleukin 2, a process that also occurred only in the presence of accessory cells. Cyclosporin-A strongly suppressed T cell proliferation induced by DxS by rendering T cells unresponsive to interleukin 2 and by inhibiting the synthesis of this T cell growth factor by OKT4+ T cells. These results indicate that DxS is a mitogen for human T lymphocytes but not for adult or neonatal B lymphocytes. The mechanism by which DxS triggers T cells is discussed.     

The induction of murine tumor infiltrating lymphocytes (TIL) by interleukin-2 or T cell growth factor

Mice were injected in the foot pad with either 5×10⁵ syngeneic plasmacytoma (MOPC104E) or fibrosarcoma cells (Meth A). Lymph nodes containing tumor cells were harvested 14 days later and cultured. In the presence of recombinant interleukin-2 (r-IL-2) predominantly tumor cells proliferated. Culture with T cell growth factor (TCGF) resulted in the growth of lymphoid cells. Concanavalin A (Con A) had only a modest effect on elimination of tumor cells in the culture. Tumor-infiltrating lymphocytes (TIL) prepared from the lymph nodes showed specific tumor-neutralizing activity when grown in the presence of TCGF. In vitro examination revealed that Meth A cells could not be lysed by TIL, while TIL from MOPC tumors showed tumor specific activity. This study may explain negative results in human trials with TIL induced by IL-2 alone.Abbreviations r recombinant - IL-2 interleukin-2 - TCGF T cell growth factor - TIL tumor infiltrating lymphocytes - Con A concanavalin A - HBSS Hanks' balanced salt solution