Underutilization of the V kappa 10C gene in the B cell repertoire is due to the loss of productive VJ rearrangements during B cell development.

The V kappa10 family of murine light chain Ig genes is composed of three members, two of which (V kappa 10A and V kappa 10B) are well used. V kappa 10C, the third member of this family, is not detected in any expressed Abs. Our previous work showed that V kappa 10C is structurally functional and can recombine, but mRNA levels in spleen were extremely low relative to those of V kappa 10A and V kappa 10B. Furthermore, while the V kappa 10C promoter was efficient in B cells, it was shown to work inefficiently in pre-B cell lines. Here, we extend our analysis of the V kappa 10 family and examine V kappa 10 gene accessibility, their representation in V kappa cDNA phage libraries, and the frequency and nature of rearrangements during different stages of B cell development. We demonstrate that V kappa 10C is under-represented in V kappa cDNA libraries, but that the frequency of its sterile transcripts in pre-B cells surpasses both V kappa 10A and V kappa 10B, indicating that the gene is as accessible as V kappa 10A and V kappa 10B to the recombination machinery. We also demonstrate that V kappa 10C recombines at a frequency equal to that of V kappa 10A in pre-B cells and has a normal nonproductive to productive recombination ratio. As B cells develop, however, both the frequency of V kappa 10C rearrangements and the presence of productive rearrangements decline, indicating that these cells are in some fashion being eliminated.

Fas ligand induction in human NK cells is regulated by redox through a calcineurin-nuclear factors of activated T cell-dependent pathway.

Fas ligand (FasL) on cytotoxic lymphocytes is important for mediating apoptosis of activated lymphocytes and other target cells. We have reported that NK cell functions, such as proliferation, cell death, and killing activity, are subject to regulation by cellular redox status. Here, we report that expression of FasL protein and mRNA in activated NK cells is also regulated by redox. Ligation of CD16 on IL-2-preactivated NK cells resulted in reduction of intracellular peroxide level as well as induction of FasL expression. This CD16-induced FasL expression was suppressed by oxidative stress, including thiol deprivation or treatment with hydrogen peroxide (H2O2). Addition of thiol-reducing compounds, such as L-cystine, 2-ME, or N-acetyl cysteine, restored FasL expression. These data suggest that CD16 stimulation requires cellular reducing status for FasL induction in NK cells. Because FasL gene activation following CD16 cross-linking is regulated by the NF of activated T cells (NFAT), we examined the effect of oxidative stresses on NFAT activation. Electrophoretic mobility shift assays revealed that both thiol insufficiency and H2O2 treatment suppressed DNA-binding activity of NFAT and that addition of thiol-reducing compounds reversed or even enhanced it. Furthermore, these oxidative stresses inhibited activity of calcineurin, a serine/threonine phosphatase that regulates NFAT activation. These results suggest that suppression of calcineurin and NFAT activation is a mechanism by which oxidative stress inhibits FasL induction in activated NK cells and further support the hypothesis that thiol-reducing compounds might be required for maintenance of optimal NK functions under physiologic oxidative conditions.

Production of IL-10 by human natural killer cells stimulated with IL-2 and/or IL-12.

Human NK cell activity can be augmented in vitro by stimulation with IL-2 or IL-12, both of which also induce the production of IFN-gamma, TNF-alpha, and granulocyte-macrophage CSF by NK cells. For the first time, we demonstrate that freshly purified NK cells stimulated with IL-2 proliferated and produced IL-10 in a dose-dependent manner. IL-10 mRNA expression, as detected by semiquantitative reverse transcription-PCR, reached peak levels at 24 h. IL-10 protein was detectable on day 2 and further increased on days 3 and 6 as measured by ELISA. However, IL-12 alone induced neither substantial proliferation nor detectable IL-10 production by fresh NK cells, but it synergized with IL-2 in inducing IL-10 mRNA expression and protein synthesis. IL-10 production by activated NK cells was confirmed by intracytoplasmic cytokine staining by three-color immunofluorescence of CD16+ and/or CD56+ NK cells with anti-IL-10 antibody. IL-10 production by NK cells was further confirmed in the NK-like cell line, YT, which constitutively expressed IL-10 mRNA and protein. IL-12 alone did not induce NK proliferation, but it inhibited IL-2-induced proliferation. Neutralization of endogenously produced IL-10 with anti-IL-10 antibodies did not overcome the inhibition of IL-2-induced proliferation by IL-12. Together, these results demonstrate that IL-2 and IL-12 synergize to induce IL-10 production by human NK cells and that IL-12 inhibits IL-2 induced NK cell proliferation by an IL-10-independent mechanism.

Target cell-induced apoptosis of interleukin-2-activated human natural killer cells: roles of cell surface molecules and intracellular events.

We previously reported that natural killer (NK)-sensitive target cells, K562, kill interleukin-2-stimulated (lymphokine-activated killer [LAK]) but not unstimulated NK cells. We have now investigated the molecular basis of this phenomenon. Soluble monoclonal antibody (MoAb) to CD18 inhibited 75% of K562-induced DNA fragmentation and membrane disruption, whereas blocking MoAb to Fas partially inhibited only the DNA fragmentation. MoAbs to CD2, CD11a, CD11b, B7, or CD16 had limited or no effect on K562-induced death of LAK cells. Receptor ligation with either immobilized MoAb to CD18 or Fas induced membrane disruption and DNA degradation in LAK cells independently of K562, and MoAb to CD18, CD11a, or CD11b enhanced DNA fragmentation induced by anti-Fas. Fas-L-transfected Raji cells also killed LAK cells, but only if Fas-L expression was amplified. K562 cells rapidly triggered protein phosphorylation in LAK cells, and the tyrosine kinase inhibitor, Herbimycin A, inhibited DNA fragmentation and membrane disruption. Protease inhibitors strongly suppressed K562-mediated DNA fragmentation of LAK cells, but not membrane disruption. In conclusion, (1) K562-induced death of LAK cells involves primarily CD18, although other molecules, such as Fas, may also be involved; (2) K562-mediated apoptosis of LAK cells requires tyrosine phosphorylation and protease activity; (3) engagement of Fas by immobilized MoAb or Fas-L on target cells can also kill LAK cells; and (4) Fas-immobilized MoAb synergizes with coimmobilized MoAb to CD11a, CD11b, or CD18 for LAK cell killing. Activation-induced death of NK cells may represent a mechanism for NK cell regulation.

IL-12 administered in vivo to young and aged mice. Discrepancy between the effects on tumor growth in vivo and cytotoxic T lymphocyte generation ex vivo: dependence on IFN-gamma.

Because IL-12 restores allogeneic cytotoxic T lymphocyte (CTL) activity by T cells of aged mice in vitro, we initially assessed whether IL-12 could overcome age-related deficits when given to aged mice in vivo. Growth of P815(H-2(d)) was enhanced in aged compared with young BALB/c (H-2(d)) mice and tumor growth was curtailed by IL-12 in both age groups. Unexpectedly, secondary CTL stimulated ex vivo with P815 were reduced in IL-12-treated mice compared with controls. Primary CTL generated ex vivo across MHC differences in IL-12 treated BALB/c and C57BL/6 young mice were reduced by 90-99%, were dose- and time-dependent, and were associated with reduced allo-stimulated NK-like activity and [3H]thymidine incorporation. IFN-gamma was elevated in sera and in supernatants from allo-stimulated cultures from IL-12-treated mice, while IL-4 was reduced in such supernatants, suggesting that, despite reduced CTL, IL-12 was associated with increased Th1- and reduced Th2-type cytokine production. IL-12 also induced splenomegaly, primarily due to increased numbers of cells lacking markers of mature T, B and NK cells, or macrophages, or polymorphonuclear leukocyte morphology. IFN-gamma mutant mice exhibited reduced splenic enlargement in response to IL-12, suggesting that the splenomegaly was due, in part, to IFN-gamma production. However, reduced CTL generation was not due entirely to dilution of CTL precursor cells because spleen cellularity and size increased 3-fold while CTL activity decreased 10- to 100-fold, and CTL generation normalized to CD8(+) T effector cells was still significantly reduced in IL-12-treated mice. Interestingly, purified CD4(+) and CD8(+) T cells from IL-12-treated normal mice exhibited greater proliferative and cytolytic activities respectively compared with controls. Thus, effector T cells in IL-12-treated mice were not impaired, but exhibited augmented responsiveness, suggesting that IL-12 induced complex interactions among spleen cell populations and that these effects, in part, are mediated by IFN-gamma.

Mitogenic stimulation of human lymphocytes mediated by a cell surface elastase.

A ca. 45-kDa protein which was recently identified and purified to homogeneity from a solid tumor cell line as a T-cell mitogen was found to have significant sequence similarities with human monocyte/neutrophil elastase inhibitor (EI) [1]. Since EI is a known substrate for elastase, a determination of whether a cell surface expressed elastase-like molecule might be the binding protein for this 45-kDa factor and mediate mitogenic signal transduction was undertaken. First, the surface of tumor infiltrating lymphocytes, TIL 660, the indicator cell line used for the purification of this mitogen, was shown to stain positively with an anti-elastase antibody using flow cytofluorometry for quantitation. Then, after observing an inverse correlation between cell surface staining and the proliferative status of the TILs, behavior which might be expected of a growth factor receptor upon activation, mitogenic signal transduction was attempted through the elastase-like molecules of the lymphocytes' plasma membrane with the anti-elastase antibody in the role of mitogen. A greater than 4-fold mitogenic stimulation was observed when this antibody was covalently linked to latex beads; in contrast, addition of the soluble form of the same antibody did not result in any increase in [3H]thymidine incorporation into the cells' DNA. Hence, these data support induced clustering of an elastase-like molecule on the lymphocyte surface as a mediator of mitogenesis and suggest that the binding protein for mitogenic signal transduction induced by the 45-kDa protein, a member of the serine protease inhibitor (serpin) superfamily of proteins, is a molecule with structure similar to a serine protease.

Expression of a constitutive mutant of iron regulatory protein 1 abolishes iron homeostasis in mammalian cells.

Iron regulatory proteins (IRPs) are iron-sensing proteins that bind to RNA stem-loop sequences known as iron-responsive elements (IREs) when cells are depleted of iron. Although IRPs have been shown to bind to IREs derived from ferritin and transferrin receptor (TfR) mRNAs in vitro, there has not been a direct demonstration of the impact of a recombinant IRP on the expression of endogenous IRE-containing transcripts. In this study, we evaluate the impact of expression of C437S, a mutant of IRP1 that binds IREs regardless of cellular iron status, on the regulation of biosynthesis of ferritin and TfR. Despite being made iron-replete, cells expressing C437S continue to synthesize and express high amounts of TfR, while the synthesis of ferritin is repressed. Thus, a single mutant IRP can prevent the usual homeostatic changes in ferritin and TfR biosynthesis. Cells expressing the mutant protein would therefore be predicted to be unable to defend against iron overload. Preliminary results show that cells treated with iron have diminished cell survival when C437S is expressed, and we have thus created a tissue culture model system for the study of iron toxicity.

Does the age-related change in CD44-defined T-cell subsets have functional significance for cytotoxic T lymphocyte generation?

CD44 or Pgp-1 is a transmembrane leukocyte adhesion-related glycoprotein which is often expressed in greater density on the membranes of memory T lymphocytes (CD44hi) compared to naive T cells (CD44lo). The proportion of Pgphi or CD44hi cells among T cells is increased with advancing age. We examined the relevance of this alteration for the age-related decrease in the generation of allospecific CTL activity. The findings confirm the age-related increase in the frequency of CD44hi cells in spleens of aged mice of several strains, but also show interstrain variability in the magnitude of the increase (bm1 > C57BL/6 > BALB/c). In contrast, we found that after allo-stimulation, the proportion of cells bearing the memory phenotype is decreased in cells from aged mice, particularly within the CD8+ T cell subset. To determine if these observations reflected an alteration in the frequency or responsiveness of naive T cells, enriched populations of spleen cells depleted of CD44hi cells were prepared from spleen cells of young and aged mice, and stimulated in mixed lymphocyte culture. Enrichment for cells expressing the naive phenotype did not restore the ability of T cells from aged mice to generate allospecific CTL. Together, these findings suggest that (1) the age-related increase in frequency of splenic T cells expressing memory phenotype and concordant decrease in phenotypically naive cells, does not explain the age-related decrease in the ability to generate primary allo-CTL, and (2) naive cells from aged mice exhibit intrinsically compromised ability to generate CTL in response to primary alloantigenic stimulation.

Effects of IL-12 on the generation of cytotoxic activity in human CD8+ T lymphocytes.

We have studied the effects of human rIL-12 on the proliferation and generation of cytotoxic activity in human CTL precursors. Purified human blood CD8+ T lymphocytes were stimulated overnight with immobilized alpha-CD3 and cultured 3 to 4 additional days under various conditions. The addition of IL-12 resulted in a marked (10- to 20-fold), dose-dependent, augmentation of cytotoxicity per cell with a smaller (2-fold) increase in cell number. IL-12 augmentation of proliferation and cytotoxicity of CD8+ T cells was not inhibited by a mAb to the p55 subunit of the IL-2 receptor (alpha-Tac) at a concentration sufficient to block the activity of exogenously added IL-2, indicating that the activity of IL-12 did not require IL-2. Addition of IL-12 at the time of alpha-CD3 activation or 1 day later was highly effective at augmenting cytotoxicity, whereas delayed addition of IL-12 (day 2 or 3) resulted in a smaller increase in CTL activity with no increase in cell number. IL-12 at all doses tested synergized with low dose IL-2 in inducing the proliferation and differentiation of CD8+ T cells. The synergistic effect was not blocked by adding neutralizing serum to IFN-gamma. In contrast to this synergistic effect, IL-12 significantly inhibited the proliferation observed in the presence of higher concentrations of IL-2 (4,500 and 13,500 pg/ml). An inhibitory effect of IL-12 was also observed when IL-12 was added to CD8+ T lymphocytes 3 days subsequent to activation with alpha-CD3 and IL-2. This broad set of potent effects of IL-12 on CD8+ T cell responses suggests that IL-12 may play an important immunoregulatory role on CTL development in vivo and may be a useful tool for manipulating this process in vivo for investigational and immunotherapeutic purposes.

Pore-forming protein in individual cytotoxic T lymphocytes: the effect of senescence provides a probe for understanding the lytic mechanism.

The senescent decline of cytolytic T lymphocyte (CTL) activity was examined (a) to learn more about the effect of aging on the immune system, and (b) to probe the mechanism of cell-mediated cytolysis. The effect of age on the generation of pore-forming protein (Pfp) was examined at the cellular level in a murine model using CTL stimulated in allogeneic mixed lymphocyte culture (MLC). Pfp expression was analyzed by immunocytochemistry and enzyme-linked immunosorbent assay (ELISA). Immunocytochemical analyses of Pfp in MLC-stimulated splenic T cells from a large number of mice revealed that although stimulated cells from aged mice exhibited fewer Pfp-producing cells than those from young, the diminution in the proportion of Pfp+ cells was small compared to the age-related decrease in lytic activities (approximately 2-fold vs. approximately 7.4-fold, respectively). Time-course analysis disclosed similar kinetics for the generation of Pfp+ cells among responding cells from young and aged mice. No significant age-related difference in the proportion of Pfp+ cells was observed in MLC-stimulated lymph node cells despite a large and significant difference in lytic activity (approximately 6.5-fold). Purified CD8+ T cells demonstrated a large age-related difference in CTL activity (approximately 3-11-fold) and accounted for virtually all the Pfp. Although little difference in the proportion of Pfp+ CD8+ T cells could be detected between age groups, stimulated CD8+ cells or whole splenic T cells from old mice consistently exhibited a striking reduction in both the intensity of Pfp staining and the apparent numbers of granules per cell. This difference in Pfp was examined by ELISA and total Pfp levels were found to be approximately 12-fold greater in CTL generated from splenic T cells of young compared to aged mice. The results demonstrate that Pfp levels are reduced in CTL from aged compared to young mice at the level of the individual cells and suggest the possibility that a threshold level of Pfp may be required for potency of effector cell function.

Cytokine-induced enhancement of ICAM-1 expression results in increased vulnerability of tumor cells to monocyte-mediated lysis.

Pretreatment of the human melanoma cell line, A375, and the human colon carcinoma cell line, HT-29, with certain cytokines was found to increase the vulnerability of these cells to monocyte-mediated killing. This activity was found to correlate with increased expression of intercellular adhesion molecule-1 (ICAM-1) on the tumor cells and was blocked by anti-ICAM-1 antibodies. Both IFN-gamma and TNF induced large increases in the ICAM-1 expression on both cell lines and increased the susceptibility of the tumor cells to monocyte-mediated killing. IFN-alpha and IL-1 beta, however, induced only small increases in ICAM-1 expression and enhanced the lysis of the A375 cells but not the HT-29 cells by monocytes. These differences may be the result of a higher basal expression of ICAM-1 found on the A375 cells when compared with the HT-29 cells. These data indicate that regulation of ICAM-1 expression on tumor cells can alter the vulnerability of these cells to lysis by monocytes.

Re-evaluation of the involvement of the adhesion molecules ICAM-1/LFA-1 in syncytia formation of HIV-1-infected subclones of a CEM T-cell leukemic line.

The role of the adhesion molecules intercellular adhesion molecule-1 (ICAM-1) and LFA-1 in human immunodeficiency virus type 1 (HIV-1)-induced cell fusion was investigated in subclones of a T-cell leukemic cell line (CEM) with differing abilities to form syncytia. Addition of monoclonal antibodies 84H10 directed against ICAM-1 and MHM23 directed against the common beta subunit of LFA-1 (CD18) resulted in greater than 50% suppression of syncytia formation in cultures of these clones infected with cell-free virus. Two subclones, 2G5-144-84 and 2G5-1, were deficient in their ability to form syncytia and expressed reduced amounts of LFA-1 compared with the parental line. The expression of ICAM-1 but not LFA-1 was upregulated on the clones following treatment with interferon-gamma (IFN gamma); however, this did not overcome the delay in syncytia formation observed in these cells. The syncytia-positive subclones 1B11-39 and 17D-9 expressed high levels of LFA-1. Basal expression of ICAM-1 was upregulated on these cells by treatment with tumor necrosis factor-alpha (TNF alpha), which also accelerated and enhanced syncytia formation. However, anti-ICAM-1 and anti-LFA-1 (CD18) antibodies did not reverse the TNF alpha-induced enhancement of syncytia formation of HIV-1-infected clones 1B11-39 and 17D-9. Under conditions of low viral expression, adhesion molecules may contribute to syncytia formation if adequate levels of both receptor and ligand in the ICAM-1/LFA-1 complex are expressed.(ABSTRACT TRUNCATED AT 250 WORDS)

Regulation of human cytotoxic T lymphocyte development by IL-7.

The effects of IL-7 on the generation of human CTL in alloantigen-, virus-, and lectin-stimulated systems were examined. Addition of IL-7 at the onset of cultures resulted in marked (up to 80-fold) augmentation of cytotoxicity accompanied by smaller (1.5- to 4-fold) increases in total lymphocyte number. Studies of CTL development in purified lectin-stimulated CD8+ T cell populations demonstrated that IL-7 could act directly on the CD8+ lymphocyte subset to augment cytotoxicity. In MLC, the IL-7-induced enhancement of cytotoxicity was found to be mediated primarily by the CD8+ subpopulation of lymphocytes. Late addition of IL-7 (day 5 of 7) resulted in an increase in cytolytic activity that was associated with little or no increase in total or activated CD8+ lymphocyte number indicating that IL-7 may act as a differentiation factor for human CTL. A role for endogenous IL-7 in CTL development was suggested by the observation that addition of neutralizing antiserum to IL-7 to MLC at initiation (or 5 days thereafter) resulted in decreased levels of cytotoxicity. These results indicate that IL-7 can exert major up-regulatory effects on human CTL development and suggest that these effects are both proliferative and differentiative.

A bioassay for the measurement of human interleukin-4.

We have developed a bioassay for human IL-4 based upon its ability to upregulate CD23 (low affinity IgE receptor) expression. Ramos, a B lymphocyte line derived from a Burkitt lymphoma, was repetitively subcloned yielding a clone, Ramos.G6.C10, which is several fold more sensitive to this effect of IL-4. In microtiter plates cells were cultured for 48 h in the presence of dilutions of recombinant human IL-4 or samples, and then stained with murine anti-human CD23 and goat anti-mouse IgG-FITC. IL-4 induced an eight-fold increase (60 channel shift) in fluorescence intensity as measured by flow cytometry. Significant effects were observed at an IL-4 concentration of 50-100 pg/ml and increased with concentrations up to 800 pg/ml. Inter- and intra-assay coefficients of variation were 10% and 11% respectively. The bioassay showed good specificity for IL-4; however, tumor necrosis factors alpha and beta, at optimal concentrations, gave readings barely at the threshold of detection.

IL-4 and granulocyte-macrophage colony-stimulating factor selectively increase HLA-DR and HLA-DP antigens but not HLA-DQ antigens on human monocytes.

A number of cytokines were tested for their ability to modulate HLA-DR Ag expression on normal human monocytes. IL-4, granulocyte-macrophage (GM)-CSF as well as IFN-gamma were able to increase HLA-DR Ag expression on monocytes. IFN-alpha was also able to augment HLA-DR Ag expression, but to a lesser degree. Macrophage-CSF, granulocyte-CSF, TNF-alpha, TNF-beta, and IL-6 were not able to augment HLA-DR Ag expression. There were distinct patterns in the ability of different cytokines to augment class II histocompatibility Ag expression. IL-4 and GM-CSF selectively increased only HLA-DR and HLA-DP, but did not increase HLA-DQ antigens on monocytes. IFN-gamma, however, was able to augment the expression of HLA-DR, HLA-DP, and HLA-DQ Ag. Combinations of IFN-gamma with either IL-4 or GM-CSF did not show any synergy for the augmentation of any of the class II antigens on monocytes.

Human monoclonal anti-keyhole limpet hemocyanin antibody-secreting hybridoma produced from peripheral blood B lymphocytes of a keyhole limpet hemocyanin-immune individual.

A human IgMk monoclonal antibody, 2F7, of predetermined specificity, has been produced by the fusion of human peripheral blood lymphocytes with the nonsecreting mouse myeloma line SP-1. The heterohybridoma has remained stable for over 8 mo, with culture supernatants containing up to 30 micrograms/ml of specific IgM. The antibody has been shown to be capable of inducing a blastogenic response in the absence of antigen in the peripheral blood lymphocytes of normal subjects immune to the antigen. The ability to choose an antigen, immunize a human subject to that antigen, and then use the peripheral blood lymphocytes from that subject to produce antigen-specific human monoclonal antibodies should be of great value in a wide variety of investigative, diagnostic, and therapeutic endeavors.U

Characterization of a monoclonal antibody that defines an immunoregulatory T cell subset for immunoglobulin synthesis in humans.

This study characterizes a monoclonal antibody (3A1), and partially characterizes the cell surface antigen and the functional peripheral blood T cell subset that it defines. The 3A1 antigen is present on the surface of several human T cell lines (HSB-2, CEM, MOLT-4, and others) in various amounts but is absent from the T cell line YT4E and all human B cell lines tested. Immunoprecipitation of an HSB-2 extract with 3A1 yielded one specific band with a molecular weight of approximately 40,000 in the presence of reducing agent. With directly fluoresceinated 3A1 antibody, fluorescence-activated cell sorter analysis showed that 85% of peripheral blood E-rosette-positive T cells were positive for the 3A1 antigen. After E-rosette-positive cells had been separated into 3A1+ and 3A1- cell suspensions, the 3A1+ cells helped autologous peripheral blood B cell suspensions toward pokeweed mitogen-driven proliferation and intracytoplasmic Ig production, whereas 3A1-T cells did not. Further, addition of 3A1- cells from some but not all normal subjects to cocultures of 3A1+ cells and B cells actively suppressed intracytoplasmic Ig production. However, the 3A1+T cell subset could be activated by concanavalin A to maximally suppress B cell Ig synthesis in vitro. Thus, the 3A1 antibody defines a major functional subject of peripheral blood T cells and should provide a useful marker for the study of human T cell function.