Increased cytolytic T lymphocyte activity induced by 2-mercaptoethanol in mixed leukocyte cultures: kinetics and possible mechanisms of action.

The 20- to 50-fold increase in cytolytic T lymphocyte (CTL) activity caused by the addition of 50 muM 2-mercaptoethanol (2-ME) at the onset of a one-way murine mixed leukocyte culture (MLC) between C57BL/6 and DBA/2 splenic lymphocytes appears to be unrelated to early events in the culture: if 2-ME was present for the first 24 hr of culture only, there was no increase on day 4, but if addition of 2-ME was delayed until the last 24 hr of culture, the CTL activity was almost as high as that of cultures that were exposed to 2-ME for the entire 4-day culture period. The increase of CTL activity caused by delayed addition of 2-ME ("2-ME rescue") was used to investigate the mechanism by which the thiol induces differentiation of CTL from precursor cells. 2-ME rescue was mimicked by two other thiols, dithiothreitol and cysteamine phosphate, but at higher concentrations. Because the latter compound has no free sulhydryl group until it diffuses into cells and is enzymatically dephosphorylated, we conclude that thiols may increase the differentiation of CTL from precursor cells by an intracellular process involving free sulphydryl groups rather than by interaction with membrane sulfhydryls or destruction of inhibitor cells or their products. Cell separation experiments indicated that 2-ME rescue was independent of the presence of B lymphocytes and of adherent cells (macrophages) and was restricted to a subpopulation of T lymphocytes that developed into large lymphoid precursor cells during the first 3 days in culture even without 2-ME. The development of this subpopulation required DNA synthesis between 24 nad 72 hr after the onset of MLC. When 2-ME was added to day-3 MLC, CTL activity increased slightly as early as 4 hr later, but the major increase occurred during the second half of the 24 hr "rescue"period. Because this increase was inhibited by cytosine arabinoside (ARA-C), it seems likely that DNA synthesis is associated with and may be required for the differentiation of large precursor lymphoid cells into CTL after the addition of 2-ME.     

Endoreduplication of human smooth muscle cells induced by 2-methoxyestradiol: a role for cyclin-dependent kinase 2

Endoreduplication has been suggested to contribute to the development of hypertrophy of smooth muscle cells (SMCs) in hypertension. However, endoreduplication in vascular SMCs and the underlying molecular mechanisms are not clear. Treatment of human SMCs with 10 microM 2-methoxyestradiol (2-ME) for 24 h induces accumulation of cells with > or =4N DNA content, and some polyploid/aneuploid cells actively synthesize their DNA, suggesting the occurrence of endoreduplication. In addition, 2-ME treatment upregulates the expression of cyclin-dependent kinase 2 (Cdk2). The present study was designed to characterize endoreduplication of human SMCs and explore the potential roles of Cdk2 in endoreduplication induced by 2-ME. Treatment with 2-ME (10 microM) for 2-4 days not only caused increases in >4N cells and their reentry into S phase but also induced overduplication of chromosomes. Furthermore, 2-ME increased the kinase activity of Cdk2 and its interaction with cyclin E. Inducible overexpression of dominant-negative Cdk2 in human SMCs inhibited both DNA synthesis of >4N cells and the accumulation of >4N cells induced by 2-ME. We conclude that 2-ME induces endoreduplication of human SMCs and Cdk2 plays an important role in endoreduplication in response to 2-ME.     

Mechanism of augmentation of the antibody response in vitro by 2-mercaptoethanol in murine lymphocytes: III. Serum-bound and oxidized 2-mercaptoethanol are available for the augmentation

The fetal calf serum (FCS) that was incubated with 2-mercaptoethanol (2-ME) followed by the removal of free 2-ME could support the antibody response to sheep erythrocytes in vitro as effectively as native FCS plus 2-ME. The supporting activity of 2-ME-pulsed FCS was reversibly abrogated by the treatment with dithiothreitol followed by dialysis. In addition, iodoacetamidetreated FCS did not acquire the supportiveness by 2-ME pulsing. These observations suggest that the activity of 2-ME-pulsed FCS would be due to the mixed disulfide between 2-ME and FCS components. On the other hand, the disulfide form of 2-ME (2-ME_ox) could also augment the antibody response as effectively as fresh 2-ME (the reduced form). These derivatized forms of 2-ME as well as fresh 2-ME was found to stimulate the transport of [³⁵S]cystine into murine lymphocytes when the uptake was examined by the long-term experiments (24 hr). These stimulations were thought to be mediated by the formation of the mixed disulfide between 2-ME and cysteine because the lymphocytes promoted the reaction of [³⁵S]cystine with 2-ME_ox- or 2-ME-pulsed FCS to produce the mixed disulfide that had been shown to be taken up by the lymphocytes four to five times more rapidly than cystine. Therefore, it was suggested that 2-ME_ox and 2-ME-pulsed FCS could augment the antibody response in a similar fashion to 2-ME by stimulating the uptake of cystine, an essential amino acid.     

Solution studies of the quaternary structure and assembly of human von Willebrand factor

The reversible association of protomers of von Willebrand protein (vWF) was studied in order to analyze the forces and mechanism of vWF polymer assembly. At concentrations of vWF found in plasma (approximately 16 micrograms/mL), disulfide bond reduction with 50 mM 2-mercaptoethanol (2-ME) markedly reduced both vWF activity, as measured by ristocetin-dependent platelet agglutination, and average polymer size (Rh, the mean hydrodynamic radius) in solution, as determined by quasi-elastic light scattering (QLS) and by gel filtration chromatography. With increasing vWF concentration, activity and Rh increased despite reduction of interprotomer disulfide bonds. Changes in temperature after 2-ME treatment produced reversible changes in activity and Rh. Varying the total vWF concentration at any given temperature after 2-ME treatment changed Rh in a consistent and predictable fashion, so that estimates of the dissociation constant for vWF protomer-polymer equilibrium were obtained: Kd5 degrees C = 0.77 micrograms/mL, Kd25 degrees C = 2.4 micrograms/mL, and Kd37 degrees C = 7.7 micrograms/mL, where under the conditions of reduction presented here, the basic protomer of vWF is a dimer. Increasing ionic strength after 2-ME treatment with 1 M KCl did not change Rh, while approximately 100 microM sodium dodecyl sulfate (SDS) or approximately 300 microM sodium deoxycholate (DOC) reduced both Rh and activity compared with those of unreduced polymer. These data show that disulfide bonds are necessary to maintain vWF polymer size and activity at plasma concentrations but that noncovalent forces of association can maintain vWF polymer size and activity at higher concentrations. These forces of association may be important for polymer assembly during intracellular synthesis of vWF.     

2-Methoxyestradiol, an endogenous estradiol metabolite, differentially inhibits granulosa and endothelial cell mitosis: a potential follicular antiangiogenic regulator

2-Methoxyestradiol (2-ME) is an estradiol metabolite with antiangiogenic and antitumor activity. It is formed by granulosa cell (GC) catechol-O-methyltransferase activity and is present in the normal follicle at high concentrations. In this unique microenvironment, it may regulate selected cell types via autocrine and/or paracrine action. To assess the possibility that 2-ME or estradiol might exert differential mitotic and/or apoptotic effects on endothelial cells and GCs, we compared their actions on primary cultures of hormone- and/or growth factor-stimulated porcine GCs (pGCs) as well as two types of endothelial cells, primary cultures of porcine endothelial cells (pECs), and a spontaneously transformed rabbit endothelial vascular cell (REVC) line. The 2-ME, but not estradiol, dose dependently suppressed tritiated thymidine ((3)H-T) incorporation into epidermal growth factor (EGF)-stimulated REVCs and EGF/insulin (INS)-stimulated pECs. In contrast, 2-ME did not attenuate incorporation in FSH/INS-stimulated pGCs. It reduced incorporation by approximately 50% in EGF/INS-stimulated pGCs, indicating that responsiveness to 2-ME in normal cells can be modulated by hormone and growth factor treatment. Estradiol was not antimitotic to pGCs. As indicated by 4',6-diamido-2-phenylindole hydrochloride nuclear staining, estradiol was nonapoptotic in either cell type, and 2-ME significantly increased apoptosis of REVCs, but not of pGCs. In a cell migration assay, REVC movement was attenuated by 2-ME, but not by estradiol. In summary, the results show that antimitotic as well as proapoptotic responses to 2-ME vary with cell type and, in the case of pGC antimitotic activity, with the regulatory microenvironment. Thus, they provide a rationale for autocrine and/or paracrine action of 2-ME at its site of production in vivo, and they strongly support the concept of 2-ME as a candidate ovarian angiogenesis inhibitor.     

In vitro induction of polyclonal killer T cells with 2-mercaptoethanol and the essential role of macrophages in this process.

Killer T cells against allogeneic and syngeneic tumor cells were generated in vitro by the addition of 2-mercaptoethanol (2-ME) to the murine spleen cell culture in the absence of any antigenic stimulation. The maximum activity of T cell-mediated cytotoxicity (CMC) induced with 2-ME was observed on day 4 of culture and the induction of CMC was completely inhibited by the addition of inhibitor of DNA synthesis, hydroxyurea, or cytosin arabinoside. CMC induced with 2-ME was specifically inhibited by the addition of unlabeled target cells to the 51Cr-release assay system. These results indicated that killer T cells were generated in the presence of 2-ME as a result of nonspecific polyclonal activation of precursors into cytotoxic effector cells and that they recognized target cells with antigen-specific recognition receptors. Spleen cells deprived of adherent cells showed impaired induction of CMC with 2-ME. The addition of peritoneal exudate macrophages to splenic T cells restored this response. The result indicated that macrophages were essential for the induction of CMC with 2-ME. The possibility that the function of macrophages was mediated by soluble factor(s) released from macrophages was demonstrated by the separate culture of splenic T cells and macrophages in double-chambered, Marbrook-type vessels and by the addition of supernatants from macrophage cultures to splenic T cells. 2-ME and soluble factor(s) released from macrophages seemed to be required for the activation of precursors into killer cells.     

Entamoeba histolytica and E. invadens: sulfhydryl-dependent proteolytic activity

Sodium dodecyl sulfate (SDS) and 2-mercaptoethanol (2-ME) activated proteolytic enzymes present in extracts of Entamoeba histolytica and E. invadens; SDS (0.5%) and 2-ME (1.4 and 715 mM) doubled the enzymatic activity when assayed on a stained insoluble substrate. Urea (4 M) did not reduce this activity, suggesting that amebic proteases are stable in the above denaturant conditions. Specific reagents for sulfhydryl (-SH) groups completely inhibited proteolytic activity regardless of pH. Inhibition with alkylating agents, such as N-ethylmaleimide and iodoacetamide, was reversed with 715 mM 2-ME as was also observed with papain. We conclude from these results that the main proteolytic enzymes contained in extracts of E. histolytica and E. invadens are dependent on free thiol groups.     

Dengue Virions and Antigens in Brain and Serum of Infected Mice

The temporal relationships of the production of infectious dengue-2 virus and its antigens were investigated in intracerebrally infected suckling mice. Infectious virus, a slowly sedimenting noninfectious hemagglutinin (SHA), and a noninfectious soluble complement-fixing antigen (SCF) were found in the brain. Serum contained high concentrations of SCF antigen relative to infectivity when compared to SCF to infectivity ratios in the brain. Degradation of virions by Tween-80 and ether produced two antigens with sedimentation characteristics similar to the noninfectious antigens occurring naturally in infected tissues. However, the virionderived SHA differed from native SHA when examined by electron microscopy and by equilibrium centrifugation in cesium chloride. Virion-derived SCF (as well as the virions and both SHA antigens) was denatured by sodium lauryl sulfate (SLS) and 2-mercaptoethanol (2-ME), whereas native SCF retained its complement-fixing activity. SLS and 2-ME treatment of dengue-1 and dengue-2 sucrose-acetone antigens increased their serotypic specificity. The hemagglutinin present in sucrose-acetone antigens was predominantly native SHA.     

2-Mercaptoethanol acts as a potentiating factor of interleukin-2-dependent lymphocyte proliferation

An interleukin-2 (IL-2) dependent cell line which could be grown continuously with crude concanavalin A-stimulated rat or mouse spleen cell culture supernatant could not survive for over 48 hr in the culture medium supplemented with partially purified or recombinant IL-2. The cell growth was restored by adding another factor obtained from the same crude culture supernatant. This potentiating activity which was physicochemically inseparable from serum albumin was also obtained from the culture medium containing 2-mercaptoethanol (2-ME) and incubated at 37 C for 24 hr without the spleen cells. By further experiments, it was demonstrated that 2-ME itself had the potentiating activity on the IL-2-dependent proliferation of this cell line and cysteine mediated the activity of 2-ME. The cells could not enter S-phase in the absence of 2-ME even in the presence of IL-2.     

Nonspecific activation of murine lymphocytes. II. Parameters of the interaction between splenic lymphocytes and radiolabeled 2-mercaptoethanol in vitro.

Recent evidence has indicated that addition of 2-mercaptoethanol (2-ME) to culture medium is able to activate murine lymphocytes to undergo blastogenesis, to synthesize polyclonal antibody, and to develop cytotoxicity to both autologous and heterologous target cells. In order to explore the basis for these phenomena, a study of the physical interaction between the cell and 2-ME was undertaken by using a radiolabeled preparation of 2-ME. Uptake of labeled 2-ME increased over the initial 24 hr of culture, after which a steady state was achieved. Cells were found to have maximal susceptibility to activation by 2-ME after incubation for 24 hr in the absence of the thiol compound. This observation was not explicable in terms of any alteration in the kinetics of 2-ME uptake. The amount of labeled 2-ME taken up was a function of the 2-ME concentration with which the cell was incubated, with the exception of the concentration range that is optimal for mitogenesis. At this range, the curve was suggestive of a saturation effect. Uptake by B cell cultures was found to exceed that by T cell cultures. Uptake was shown to result from interaction with protein, to be independent of metabolic energy, to be governed by temperature-dependent kinetics, and to be highly specific.     

Function of 2-mercaptoethanol as a macrophage substitute in the primary immune response in vitro.

The mechanism by which 2-ME acts as a macrophage-substitute for the induction of a primary PFC response to SRC in vitro was studied in macrophage-depleted mouse spleen cell cultures. 2-ME could replace macrophages only in FCS-supplemented cultures. Evidence is presented that the function of 2-ME is independent of residual macrophages. Neither normal nor macrophage-depleted spleen cell cultures from congenitally athymic nude mice supplemented with 2-ME, with or without FCS, could give rise to a primary in vitro anti-SRC immune response. 2-ME, at an optimal concentration of 10(-5) M, induced DNA synthesis in normal and macrophage-depleted spleen cells in both FCS-containing and serum-free cultures. The peak response occurred on day 3. The stimulation was accompanied by a polyclonal B cell activation to antibody secretion which was much more pronounced in FCS-containing than in serum-free cultures. Spleen cells from nude mice showed a weaker DNA stimulation than did cells from normal mice in FCS-containing cultures, and nearly no response under serum-free conditions. T cells obtained by a nylon column adherence method from normal mouse spleen cells showed good DNA synthetic responses in FCS-containing, but no response in serum-free cultures. These results show that 2-ME has weak mitogenic activity for B cells, and in combination with FCS, strong mitogenic activity for T cells. Since the macrophage provides stimulation to the T cell in the primary anti-SRC PFC response in vitro, these results suggest that the direct mitogenic activity of 2-ME with FCS on T cells provides the functional substitution for macrophages.     

Effects of catechol estrogen methyl ethers on lipid metabolism in prepubertal rats

Thirty-five day old ovariectomised rats were given daily subcutaneous injections (0.05-5.0 micrograms/100 gm body weight) of estradiol (E2) 2-methoxyestradiol (2-ME2) or 4-methoxyestradiol (4-ME2) for six days. At the end of the last injection, the animals were sacrificed and serum lipoproteins were analysed. It was observed that cholesterol decreased significantly in normal fed animals who received E2 and 4-ME2, while no effect was seen in cholesterol fed animals. In the E2 treated group there was a decrease in esterified and free cholesterol, while in the 4-ME2 group only esterified cholesterol decreased. High density lipoproteins were significantly elevated in the E2 treated group. However, there was an increase in very low density lipoproteins and a decrease in low density lipoproteins in 2-ME2 and 4-ME2 treated groups. These results suggest that catechol estrogens may play an important role in the lipoprotein metabolism and atherosclerotic diseases, and the mechanism of action may differ from that of estradiol.     

Entamoeba histolytica and E. invadens: Sulfhydryl-Dependent Proteolytic Activity1

Sodium dodecyl sulfate (SDS) and 2-mercaptoethanol (2-ME) activated proteolytic enzymes present in extracts of Entamoeba histolytica and E. invadens; SDS (0.5%) and 2-ME (1.4 and 715 mM) doubled the enzymatic activity when assayed on a stained insoluble substrate. Urea (4 M) did not reduce this activity, suggesting that amebic proteases are stable in the above denaturant conditions. Specific reagents for sulfhydryl (-SH) groups completely inhibited proteolytic activity regardless of pH. Inhibition with alkylating agents, such as N-ethylmaleimide and iodoacetamide, was reversed with 715 mM 2-ME as was also observed with papain. We conclude from these results that the main proteolytic enzymes contained in extracts of E. histolytica and E. invadens are dependent on free thiol groups.     

Involvement and relative importance of at least two distinct mechanisms in the effects of 2-mercaptoethanol on murine lymphocytes in culture

2-Mercaptoethanol (2-ME) exerts several effects on murine lymphocytes in culture that might explain its ability to enhance survival and growth of these cells. The uptake of the essential amino acid cystine and consequently the maintenance of intracellular glutathione levels are enhanced by 2-ME. Furthermore, 2-ME (even in the disulfide form) causes lymphocytes to release thiols into the culture medium. These effects might protect the cells from oxidative damage. The additional cystine provided by treatment of lymphocyte cultures with 2-ME might also allow adequate protein synthesis to support survival and/or growth. This study was conducted to assess the relative importance of the antioxidant and protein synthesis effects of 2-ME. As expected, 2-ME increased cystine uptake at all concentrations that enhanced growth and survival, but four nonthiol antioxidants that enhanced growth and/or survival either did not substantially affect cystine uptake or decreased it and did not affect the release of cystine or its products. The results presented here demonstrate that antioxidant protection is necessary and sufficient for lymphocyte survival and that cystine uptake in untreated lymphocytes is sufficient to support the protein synthesis needed for survival and limited growth. However, we also noted that concentrations of 2-ME that stimulated maximal growth more than doubled protein synthesis as measured at 8 hr. Thus the portion of the effects of 2-ME not accounted for by antioxidant action could be accounted for by enhanced protein synthesis.     

Characterization of rat lymphocyte primary culture for the development of an in-vitro mutagenesis assay: Effect of interleukin-2 and 2-mercaptoethanol on the activities of intermediary metabolism enzymes and cell proliferation

Efficient energy utilization is essential for cell growth; in an attempt to improve the growth conditions of the rat T-lymphocyte culture model for potential use in studying the mutagenic activity of carcinogens in vitro, we have investigated the effects of phytohemagglutinin (PHA), interleukin-2 (IL-2) and 2-mercaptoethanol (2-ME) on the activities of intermediary metabolism enzymes and cell proliferation. Isolated lymphocytes were cultured in the presence and absence of PHA, IL-2, or 2-ME. The intermediary metabolism enzymes investigated were glutamate dehydrogenase, glutamate-pyruvate transaminase, malate dehydrogenase, isocitrate dehydrogenase, lactate dehydrogenase, pyruvate kinase, and fatty acid synthetase (FAS). Measurable activity of all enzymes investigated, except for FAS, was detected in PHA-stimulated cells cultured with IL-2 or 2-ME. The unstimulated lymphocytes had significantly lower enzyme activity than stimulated cells. The combination of all three agents showed increased enzyme activity. This increase in activity brought about by the combination of the three agents was not reproduced by either agent acting alone. In general, the increase in enzyme activity correlated with cell proliferation as measured by [³H]thymidine uptake in PHA-stimulated cultures containing IL-2 and/or 2-ME. The results suggest that the addition of exogenous IL-2 and 2-ME enhances metabolic function and may be beneficial in in vitro culture of rat lymphocytes.Abbreviations PHA phytohemagglutinin - IL-2 interleukin-2 - 2-ME 2-mercaptoethanol - GDH glutamate dehydrogenase - GPT glutamate-pyruvate transaminase - MDH malate dehydrogenase - ICD isocitrate dehydrogenase - LDM lactate dehydrogenase - PK pyruvate kinase - FAS fatty acid synthetase     

Enhancement of radiation effects in vitro by the estrogen metabolite 2-methoxyestradiol

2-Methoxyestradiol. 2-Methoxyestradiol (2-ME) is an endogenous estradiol metabolite that disrupts microtubule function, suppresses murine tumors, and inhibits angiogenesis. Since some microtubule inhibitors have been shown to alter radiosensitivity, we have evaluated 2-ME as a radiation enhancer in vitro. H460 human lung cancer cells were plated, treated with 2-ME for 24 h, and irradiated; then colony-forming ability was assessed. The radiation dose enhancement ratios (DERs) using this protocol were 1.3, 1.8 and 2.1 for 1, 1.5 and 2 microM 2-ME, respectively. Using a single-cell plating protocol, the respective DERs were 1.2, 1.5 and 1.8. The parent compound of 2-ME, beta-estradiol, did not enhance radiation effects at equally cytotoxic doses. Isobologram analysis showed that 1 microM 2-ME was additive with radiation, but that 1.5 and 2 microM were synergistic. Cell cycle analysis showed a dose-dependent increase in the percentage of cells in the radiosensitive G(2)/M phase after a 24-h treatment with 2-ME; a threefold increase in the percentage of cells in G(2)/M phase was observed using 2 microM 2-ME. Treatment with 2 microM 2-ME almost completely inhibited repair of sublethal damage (SLD) as shown using split-dose recovery. Radiosensitive, repair-deficient murine SCID (severe combined immunodeficient) cells did not show enhancement of radiation effects with 2 microM 2-ME, but enhancement was observed in the wild-type parental cells (CB-17). SCID cells complemented with human DNA-dependent protein kinase restored radioenhancement by 2-ME. In addition, MCF-7 breast cancer cells were also radiosensitized by 2 microM 2-ME (DER = 2.1). These data suggest that 2-ME is a potential radiation sensitizer, in addition to its previously reported antitumor and antiangiogenic properties. We have verified the antiangiogenic activity of 2-ME in vitro using human endothelial cells. Based on these results, we hypothesize that the mechanism of radiation enhancement may involve redistribution of cells into G(2)/M phase by 2-ME, and that the resulting population of cells is repair-deficient and thus radiosensitive.     

Heat denaturation enhanced immunoglobulin production stimulating activity of lysozyme from hen egg white

Lysozyme from hen egg white was identified as an immunoglobulin production stimulating factor (IPSF) that enhances immunoglobulin production by hybridomas and lymphocytes. The IPSF activity of lysozyme was facilitated by heat treatment. The heat treatment of lysozyme at 83 degrees C for 30 min activated its specific IPSF effect 30.0-fold compared with that of native lysozyme. The IPSF activity of lysozyme heat-treated at 83 degrees C in 4 M urea solution was enhanced 8.4-fold than that of native lysozyme. However, lysozyme that was not heated in 4 M urea solution completely lost its IPSF activity. This means that the IPSF activity of this enzyme in 4 M urea was reactivated by thermal treatment. Moreover, coexistence of 0.5 mM 2-mercaptoethanol (2-ME) during heating in 4 M urea solution extremely enhanced the IPSF activity up to 77.8-fold. The uptake of lysozyme by hybridoma cells was enhanced by heat denaturation in 4 M urea. The hydrophobicity of lysozyme was extremely increased by heat-treatment in 2-ME containing urea solution. It is expected from these findings that the increase in the hydrophobicity caused the enhancement of incorporation of lysozyme into target cells, and resulted in the acceleration of IgM production.     

Design of novel analogues with potent antibiotic activity based on the antimicrobial peptide, HP(2-9)-ME(1-12)

To develop novel antibiotic peptides useful as therapeutic drugs, a number of analogues were designed to increase the hydrophobic helix region either by Trp-substitution or net positive charge increase by Lys-substitution, from HP(2-9)-ME(1-12). The antibiotic activities of these peptides were evaluated using bacterial (Salmonella tryphimurium, Proteus vulgaris, Bacillus subtilis and Staphylococcus aureus), fungi (Saccharomyces cerevisiae, Trichosporon beigelii and Candida albicans), tumor and human erythrocyte cells. The substitution of Lys for Thr at position 18 and 19 of HP(2-9)-ME(1-12) (HM5) increased activity against Proteus vulgaris and fungal strains without hemolysis. In contrast, substitution of Trp for Lys and Thr at positions 2, 15 and 19 of HP(2-9)-ME(1-12), respectively (HM3 and HM4), decreased activity but increased hemolysis against human erythrocytes. This suggests that an increase in positive charge increases antimicrobial activity whereas an increase in hydrophobicity by introducing Trp residues at C-terminus of HP(2-9)-ME(1-12) causes a hemolytic effect. Circular dichroism spectra suggested that the alpha-helical structure of these peptides plays an important role in their antibiotic effect but that the alpha-helical property is not connected with the enhanced antibiotic activity.     

The generation of oxygen radicals: a positive signal for lymphocyte activation

The induction of ornithine decarboxylase (ODC) activity in lymphocytes is associated with activation and the initiation of cellular proliferation. ODC is also an essential component in tumor promotion. Phorbol myristic acetate (PMA) is a mitogen for lymphocytes, but can also promote tumor formation. Tumor promotion is linked to the generation of free radicals induced by PMA. Modulation of intracellular glutathione is associated lymphocyte activation and in protection of cells from damage due to oxygen radicals. We examined the interaction between ODC activity and intracellular glutathione concentrations in EL4 murine lymphoblastoid cells. The intracellular glutathione concentration could be augmented in EL4 cells when cultured with the cysteine delivery agents 2-oxothiazolidine 4-carboxylate (OTC) and 2-mercaptoethanol (2-ME) and suppressed with the gamma-glutamylcysteine synthetase inhibitor buthionine sulfoximine (BSO). OTC and 2-ME suppressed ODC activity in fresh serum and PMA-activated EL4 cells. BSO had no effect on ODC activity of EL4 cells cultured in the presence of PMA. While both OTC and 2-ME augmented the total intracellular glutathione concentration, PMA enhanced only the level of oxidized glutathione. To determine if the mechanism by which PMA or fresh serum altered intracellular glutathione and ODC activity was through the generation of oxygen radicals, EL4 cells were cultured with free radical scavengers. The nonpermeant electron acceptor potassium ferricyanide, and the H2O2 scavenger catalase, lowered ODC activity in both serum-stimulated and PMA-activated EL4 cells. Similarly, incubation of EL4 cells with either potassium ferricyanide or catalase elevated intracellular glutathione concentrations. These data suggest that (a) modulation of intracellular glutathione in the EL4 lymphoblastoid cell line alters ODC activity induced by fresh serum and by the mitogen PMA; (b) activation of EL4 cells by PMA alone alters intracellular glutathione metabolism, which may be associated with its role as a mitogen in lymphocyte activation; and (c) the generation of free radicals in EL4 cells may play a positive role in cellular activation.     

Glutathione modulates activation-dependent proliferation of human peripheral blood lymphocyte populations without regulating their activated function

L-Buthionine-(S,R)-sulfoximine (BSO) specifically depletes GSH synthesis by inactivating gamma-glutamylcysteine synthetase, whereas 2-ME augments intracellular GSH concentration. These reagents were used to examine GSH regulation of the proliferation and function of human PBL in response to IL-2 or OKT-3 mAb directed at the CD3 T cell Ag. 2-ME enhanced both IL-2-induced proliferation of PBL and CD3- large granular lymphocytes (LGL) and OKT-3 mAb-induced proliferation of CD3+ T cells. BSO partially suppressed activation-induced proliferation in CD3- LGL and CD3+ T cells and totally inhibited the positive co-proliferative regulation by 2-ME in these cells. By contrast, neither BSO nor 2-ME appeared to affect the activation-dependent differentiation of cytotoxic lymphocytes. The absence of effect of 2-ME or BSO on activation-induced PBL NK activity and T cell cytotoxic potential was supported by their negligible effect on the induction of two different markers of activated cytotoxic lymphocytes, namely pore-forming protein gene expression and benzoyloxycarbonyl-1-L-lysine thiobenzylester-esterase activity. BSO inhibition of CD3- LGL proliferation accounted for the inhibitory effects of BSO on both IFN-gamma production in IL-2-stimulated PBL cultures and IL-2-induced PBL lymphokine activated killer activity. The modulatory effects of 2-ME and BSO on lymphocyte proliferation regardless of phenotype (LGL vs T cell) or stimulation (IL-2, via CD3, lectin, etc.) and the functional differentiation of cytotoxic lymphocytes independent of proliferation suggests that these cells share a common site of GSH regulation close to or at the level of DNA synthesis.