Differential expression of protein kinase C isoenzymes related to high nitric oxide synthase activity in a T lymphoma cell line

Protein kinase C (PKC) is critical for T lymphocyte activation and proliferation, while nitric oxide synthase (NOS) may function both as an activator or inhibitor of T cell apoptosis. Both enzymatic activities were studied in T lymphoma cells in comparison to normal and activated T lymphocytes. Here we show a higher translocation of PKC in BW5147 lymphoma cells than in mitogen-stimulated T lymphocytes. Tumor cells overexpressed PKC zeta isoform, while high levels of the PKC beta isotype were found in mitogen-stimulated T lymphocytes. Moreover, tumoral T cells showed high NOS activity, almost undetectable in normal or stimulated T lymphocytes. PKC and NOS inhibitors or the intracellular delivery of an anti-PKC zeta antibody diminished both NO production and proliferation in tumor cells.These results suggest that atypical PKC zeta isoform expression and its association with NOS activity regulation would participate in the multistep process leading to BW5147 cell malignant transformation.     

Inducible nitric oxide synthase-mediated proliferation of a T lymphoma cell line.

Nitric oxide (NO)-derived from T lymphocytes in an autocrine fashion can modulate events in the cell. However, the exact role of NO on the control of lymphocyte growth is controversial since both stimulation and inhibition have been demonstrated. Nitric oxide synthase (NOS) activity in normal and tumor T lymphocyte proliferation was studied here. Resting normal T lymphocytes displayed low levels of NOS activity that were slightly increased upon mitogenic stimulation. In contrast, BW5147 T lymphoma cells displayed higher basal levels than normal T lymphocytes that were significantly augmented when induced to proliferate. This activity was slightly modified in the presence of the calcium chelator EGTA and was blocked by competitive and irreversible NOS inhibitors, as well as by selective blockers of iNOS. Furthermore, tumor but not normal cell proliferation was impaired by NOS and iNOS blockers, while a calcium blocker only affected normal cell growth. iNOS expression, both at the protein and at the mRNA levels, was demonstrated on growing BW5147 cells but not on arrested tumor or normal lymphocytes. The contribution of iNOS to sustained proliferation of tumor cells is discussed.     

Cooperative nongenomic and genomic actions on thyroid hormone mediated-modulation of T cell proliferation involve up-regulation of thyroid hormone receptor and inducible nitric oxide synthase expression

Thyroid hormones (THs) exert a broad range of actions on development, growth, and cell differentiation by both genomic and nongenomic mechanisms. THs regulate lymphocyte function, but the participation of nongenomic actions is still unknown. Here the contribution of both genomic and nongenomic effects on TH-induced division of T cells was studied by using free and noncell permeable THs coupled to agarose (TH-ag). THs-ag led to cell division, but to a lesser extent than free hormones. THs induced nongenomically the rapid translocation of protein kinase C (PKC) ζ isoform to cell membranes, extracellular-signal-regulated kinases (ERK1/2) phosphorylation and nuclear factor-κB (NF-κB) activation. The signaling cascade include sphingomyelinases acting up-stream the activation of PKCζ isoform, while ERK and NF-κB are activated downstream this PKC isoenzyme. Both free and THs-ag increased the protein and mRNA levels of TH nuclear receptor TRα1, while only free hormones incremented the inducible NOS gene and protein levels as well as a calcium independent NOS activity. Both effects were blunted by PKCζ inhibition. These results indicate that THs, by triggering a nongenomic signaling cascade that involves Smases-mediated activation of PKCζ, lead to ERK 1/2 and NF-κB activation and to the genomic increase of TRs and the inducible nitric oxide synthase protein and mRNA levels, improving T lymphocyte proliferation. These finding not only contribute to the understanding of the mechanisms involved in TH modulation of lymphocyte physiology, but would also point out for the first time the interplay between genomic and nongenomic TH actions in T cells.     

Protein Kinase-zeta inhibits collagen I-dependent and anchorage-independent growth and enhances apoptosis of human Caco-2 cells

Colonic carcinogenesis is accompanied by abnormalities in multiple signal transduction components, including alterations in protein kinase C (PKC). The expression level of PKC-zeta, an atypical PKC isoform, increases from the crypt base to the luminal surface and parallels crypt cell differentiation in normal colon. In prior studies in the azoxymethane model of colon cancer, we showed that PKC-zeta was down-regulated in rat colonic tumors. In this study, we showed that PKC-zeta is expressed predominantly in colonic epithelial and not stromal cells, and loss of PKC-zeta occurs as early as the adenoma stage in human colonic carcinogenesis. To assess the regulation of growth and differentiation by PKC-zeta, we altered this isoform in human Caco-2 colon cancer cells using stable constitutive or inducible expression vectors, specific peptide inhibitors or small interfering RNA. In ecdysone-regulated transfectants grown on collagen I, ponasterone A significantly induced PKC-zeta expression to 135% of empty vector cells, but did not alter nontargeted PKC isoforms. This up-regulation was accompanied by a 2-fold increase in basal and 4-fold increase in insulin-stimulated PKC-zeta biochemical activity. Furthermore, PKC-zeta up-regulation caused >50% inhibition of cell proliferation on collagen I (P < 0.05). Increased PKC-zeta also significantly enhanced Caco-2 cell differentiation, nearly doubling alkaline phosphatase activity, while inducing a 3-fold increase in the rate of apoptosis (P < 0.05). In contrast, knockdown of this isoform by small interfering RNA or kinase inhibition by myristoylated pseudosubstrate significantly and dose-dependently increased Caco-2 cell growth on collagen I. In transformation assays, constitutively up-regulated wild-type PKC-zeta significantly inhibited Caco-2 cell growth in soft agar, whereas a kinase-dead mutant caused a 3-fold increase in soft agar growth (P < 0.05). Taken together, these studies indicate that PKC-zeta inhibits colon cancer cell growth and enhances differentiation and apoptosis, while inhibiting the transformed phenotype of these cells. The observed down-regulation of this growth-suppressing PKC isoform in colonic carcinogenesis would be predicted to contribute to tumorigenesis.     

Genes activated in the presence of an immunoglobulin enhancer or promoter are negatively regulated by a T-lymphoma cell line.

The tissue-specific expression of immunoglobulin genes can be partially explained by a requirement for activating factors found only in B lymphocytes and their derivatives. However, loss of immunoglobulin expression upon fusion of an immunoglobulin-producing myeloma cell with a T lymphoma cell (BW5147) or fibroblast (L cell) suggests that negatively acting factors also play a role in the tissue specificity of immunoglobulin genes. Expression of a cloned immunoglobulin heavy-chain gene introduced into myeloma cells was suppressed after fusion of the myeloma transformants with BW5147. The presence of either the immunoglobulin heavy-chain enhancer or promoter conferred suppression, under similar conditions, upon a heterologous gene that is normally expressed in both B and T lymphocytes. These immunoglobulin heavy-chain gene control regions, or gene modifications induced by them, are subject to negative control by T-lymphocyte-derived factors.     

Autoantibody in MRL/Mp-lpr/lpr mice. A monoclonal antibody specific for the abnormal T cells from mice bearing the lpr/lpr gene

We generated mAb from an unimmunized autoimmune MRL/Mp-lpr/lpr mouse. One of these mAb A108, reacted with cell surface Ag present on abnormal T cells from MRL/Mp-lpr/lpr, C3H-lpr/lpr, and C57BL/6-lpr/lpr mice. We failed to detect significant numbers of A108 bearing cells in the lymph nodes of MRL-Mp/+/+, normal C3H or normal C57BL/6 mice. Therefore, the expression of A108 correlates with the presence of the lpr/lpr gene. A108 binds to a variety of murine T cell tumor lines (e.g., EL4, BW5147, and YAC-1) and human T cell tumor lines (e.g., MOLT-3, Sup T1, and Jurkat). A108 does not bind to normal human PBL. Immunoprecipitation of surface iodinated EL-4 and BW5147 with A108 identified one major protein with a Mr of about 17.5-kDa. The significance of these findings with respect to the development of lymphoid proliferation and autoimmune disease in mice bearing the lpr/lpr gene will be discussed.     

Transient down-regulation of PKC-zeta RNA following crosslinking of membrane IgM on WEHI-231 B lymphoma cells.

Regulation of protein kinase C (PKC) isoform mRNAs has been studied in the immature, murine B lymphoma WEHI-231 by the MAPPing protocol and by slot blot analysis of unamplified mRNA. This membrane IgM (mIgM)-positive cell line has been previously used as a model to study signal transduction by mIgM in immature B lymphocytes and the role of those signals in the induction of immune tolerance in the B cell compartment. Stimulation of the cells by anti-mu antibodies, phorbol ester, or Ca2+ ionophore caused growth arrest and death of the cells. IL 4 and IL 5 slowed the growth of the cells. Of these stimuli, only anti-mu stimulation affected PKC mRNA levels. Anti-mu treatment caused a transient decrease in the amount of PKC-zeta isoform mRNA within 3 hr. Within 24 hr levels returned toward normal. Anti-mu had little or no effect on the expression of mRNA for the alpha, beta, delta, or epsilon isoforms of PKC. WEHI-231 cells do not express PKC-gamma. Although anti-mu treatment blocked progression of the cells from the G0/G1 stage into the S phase of cell cycle, viable sort selected cells in either the G0/G1 or the S/G2/M phases showed no clear difference in the expression of PKC-zeta message. Thus, there is not preferential regulation of expression of PKC-zeta during stages of the cell cycle. The results show that mIgM on WEHI-231 cells can transduce a signal that is not mediated by PKC or Ca2+ mobilization alone. The signal causes transient, selective down-regulation of mRNA encoding the zeta PKC isoform.     

Analysis of H-2-linked immune responses involved in resistance to AKR tumor growth

H-2-associated immune response gene(s) govern resistance to growth of a spontaneous AKR lymphoma, BW5147. The antigenic specificities recognized by the anti-BW5147 humoral response have been characterized and include: Thy-1, a T -cell differentiation antigen; gp70, a retroviral envelope protein; and several previously uncharacterized proteins, including a 78 000 molecular mass protein, p78, which is restricted to expression on BW5147 cells and five phosphoproteins with molecular masses of 33 000, 29 000, 23 000, 17 000, and 16 000. Only mice which are able to respond to Thy-1, p78, and the phosphoproteins can survive an inoculation of BW5147. Thus, resistance to BW5147 is complex and involves multiple antigens with possible roles in tumor rejection.Abbreviations used in this paper DMEM Dulbecco's modified Eagle's medium - FCS fetal calf serum - Ir immune response - MuLV murine leukemia virus - NMS normal mouse serum - PBS phosphate-buffered saline - SDS sodium dodecyl sulfate - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis - TCA trichloroacetic acid     

Interleukin-2 induces proliferation of T lymphocyte mutants lacking protein kinase C

We have identified a murine T lymphocyte clone that apparently lacks diacylglycerol- and phospholipid-activated protein kinase C (PKC): cell extracts do not display phosphatidylserine, Ca2+, or phorbol ester-dependent phosphotransferase activity; the enzyme was not detected in immunoblots with PKC-specific antibodies; phorbol ester binding sites are not detectable in intact cells; and activators of PKC do not stimulate proliferation or Na+/H+ exchange in intact cells. Only PKC beta mRNA was detected in normal murine T lymphocytes. The mutant T lymphocytes contained amounts of 4.4 kb PKC beta message similar to those in normal murine lymphocytes, but the 2.9 kb and 1.2 kb messages found in normal lymphocytes were barely detectable. No abnormalities were detected on Southern analysis, suggesting that the abnormality may be at the level of message splicing or stability. Since PKC-deficient cells proliferate in response to the T lymphocyte growth factor, interleukin-2, we conclude that activation of PKC is not essential for the growth-promoting action of interleukin-2.     

Generation of class I MHC-restricted T-T hybridomas

In this report we describe a system for the generation of functional, class I MHC-restricted, T-T hybridomas. The BW5147 cell line was transfected with the CD8 gene. BW5147 transfectants were obtained that stably expressed CD8 and this expression was maintained after somatic cell hybridization with activated T lymphocytes. To determine whether the stable expression of CD8 would facilitate the generation of class I MHC-specific T-T hybridomas, the transfected cells were fused with alloreactive T cells and the resultant hybrids were screened for their ability to produce lymphokines in response to antigenic stimulation. Somatic cell hybridizations with BW5147-CD8 transfectants give rise to a much higher frequency of class I MHC-specific T-T hybridomas relative to parallel fusions with BW5147. To determine whether the BW5147-CD8 transfectants would also support the generation of Ag-specific, class I MHC-restricted T-T hybridomas, they were fused with OVA-specific CTL. Several T-T hybrid clones were identified that produced lymphokines after stimulation with a transfected APC that was synthesizing OVA, or with a tryptic digest of OVA in the presence of syngeneic APC. The stimulation by Ag was MHC-restricted and mapped to the Kb molecule. An anti-CD8 mAb inhibited the stimulation of these hybridomas by Ag plus APC, whereas their stimulation by mitogen was unaffected. Cytolytic activity was not detected when several of the OVA-specific or alloreactive hybridomas were tested for their ability to kill target cells bearing the appropriate Ag. These results demonstrate that the BW5147-CD8 transfectants allow the generation of class I MHC-restricted T-T hybridomas. The potential utility of this system is discussed.     

Constitutive production of a factor supporting B lymphocyte differentiation by a T cell hybridoma

To investigate the role of soluble T cell products during B cell differentiation more fully, we have produced T cell hybridomas by the fusion of normal helper T cells with the T cell lymphoma BW5147. In this report we describe the production of one such hybrid, 14G3, the subclone 14G3.1F2, and the functional activity of the constitutive product. The hybrid supernatant acts exclusively in antigen-nonspecific, but antigen-dependent, promotion of B cell differentiation. It is optimally effective in the presence of small amounts of EL4 supernatant. It does not itself contain any detectable IL 2 or BCGF or interferon activity, however. 14G3.1F2 activity is probably an important component of the conventional TRF preparations produced by mixed lymphocyte populations, and will be useful in further dissection of the contributions of different soluble T cell products to B cell differentiation.     

Comparison between the in vitro activities of in vivo-induced hapten-specific suppressor cells and supernatants of a hapten-specific suppressor hybridoma

A trinitrophenyl (TNP)-specific suppressor hybridoma was obtained by fusing hapten-binding spleen cells (SC) of BALB/c mice 1 week after intravenous (iv) injection of TNP-modified syngeneic lymphocytes with the AKR lymphoma BW5147. The suppressive activity of supernatants from one clone (TNP-44) was compared with that of in vivo-induced TNP-specific suppressor cells. Both the TNP-specific suppressor cells (TsTNP) and the TNP-44 were hapten binding and hapten specific. They suppressed the functional activity of TNP-haptenized T as well as B cells. TNP-44 supernatant also inhibited the proliferation of TNP-modified cells. Using native target cells, both TNP-44 supernatant and the in vivo-induced suppressor cells suppressed the anti-TNP B-cell response to TNP-bound T-dependent soluble or cellular antigens, but not to TNP-lipopolysaccharide (LPS). Furthermore, the function of TNP-specific helper T cells (THTNP) was impaired in the presence of TSTNP or supernatant from TNP-44. From these observations it was concluded that both the TSTNP and a TNP-specific factor derived from a suppressor hybridoma function via an antigen bridge at the TH or at the TH-dependent B-cell subset.     

Human T lymphocyte activation by tumor promoters: role of protein kinase C

Protein kinase C (PKC) has a major role in a ligand-receptor-mediated signal transduction system in a variety of cell types including T lymphocytes. One of the early phenotypic changes associated with T cell activation is the expression of cell surface receptors for interleukin 2 (IL 2). To test the role of PKC in regulation of IL 2 receptor (IL 2-R) expression and T cell activation in general, we used tumor promoters (TP) as modulators of PKC and compared their effects on intact human T cells and on the enzymatic activity of T cell-derived PKC in a cellfree system. In T cells, the phorbol ester 12-O-tetradecanoyl phorbol 13-acetate (TPA) induced IL 2-R expression and proliferation associated with cytosol-to-membrane PKC translocation. A dose of TPA (1 to 4 ng/ml) that induced about 50% of the maximal activation of PKC in the enzymatic assay also induced half-maximal effects on cell proliferation, IL 2-R expression, and PKC redistribution in intact T cells. Structure-function studies with several phorbol ester analogs and non-phorbol ester TP directly correlated tumor promotion activity with the ability to activate PKC and induce IL 2-R. An inhibitor of PKC, chlorpromazine, was found to suppress TPA-mediated proliferation and IL 2-R expression, and inhibited T cell-derived PKC by competing with the phospholipid. Ca2+ ionophore, which synergizes with TPA in induction of T cell proliferation, facilitated the TPA-induced PKC translocation to the membrane. The results thus demonstrate a direct correlation between the effects of various chemicals on: subcellular redistribution of PKC in T cells; induction of T cell proliferation and IL 2-R expression; and activation of T cell-derived PKC in vitro. These data provide further support for the role of PKC in transduction of activation signals in T cells and in regulation of IL 2-R expression.     

Lymphocyte-specific Ca2+-binding protein LSP1 is associated with the cytoplasmic face of the plasma membrane.

The gene for LSP1 is a lymphocyte-specific gene previously isolated by us using a subtractive hybridization technique. LSP1 mRNA is found in normal and transformed B lymphocytes and in normal T lymphocytes but not in transformed T lymphocytes. To study the expression of the mouse LSP1 protein, we prepared a polyclonal antiserum specific for the LSP1 protein. Here we report that the gene for LSP1 was expressed in transformed B-lymphoma cell lines and in normal mouse thymocytes as a protein doublet with apparent molecular masses of 52 and 50.5 kilodaltons when analyzed on a sodium dodecyl sulfate-10% polyacrylamide gel. BW5147 cells transfected with an LSP1 cDNA clone expressed only the 52-kilodalton protein. No LSP1 protein was expressed in nine T-lymphoma cell lines tested. Immunofluorescence studies of intact and permeabilized cells and subcellular fractionation experiments showed that the LSP1 protein was associated with the cytoplasmic side of the plasma membrane in transformed B-lymphoma cell lines and in normal thymocytes. Using a simple filter-binding assay, we showed that recombinant LSP1 protein was Ca2+ binding, as predicted on the basis of its deduced amino acid sequence. On the basis of the particular expression pattern, the subcellular localization, and the Ca2+-binding property of the LSP1 protein, we hypothesize that the LSP1 protein is a lymphocyte-specific component of a signal transduction pathway involved in the regulation of lymphocyte growth.     

Marked differences in the efficiency of expression of distinct alpha beta T cell receptor heterodimers

Ag recognition by most T lymphocytes is mediated by clonally distributed alpha beta heterodimeric receptors. A major fraction of TCR diversity is believed to be due to the random coexpression in individual T cells of the products of independently rearranging alpha- and beta-genes (combinatorial diversity). However, analysis of cell surface receptors on transfected T hybridoma cells synthesizing various sets of alpha- and beta-chains revealed marked differences in the efficiency of expression of certain alpha beta-pairs. Specifically, using the functionally rearranged gene products of the 2B4 cytochrome c specific T hybridoma (V beta 3, V alpha 11.2) and BW5147 parent lymphoma (V beta 1, V alpha BW), a hierarchy of expression efficiency relative to indirectly measured precursor chain levels in the cell was shown to be 2B4 alpha-BW beta greater than 2B4 alpha - 2B4 beta greater than BW alpha - BW beta greater than BW alpha - 2B4 beta. The estimated difference between the best expressed and worst expressed pairs is on the order of 50-fold. For the beta-chain, the primary determinant of expression efficiency with a given alpha-chain appears to be the V segment, as a second V beta 1-chain with distinct D and J regions from BW beta was expressed with the same pattern. These data imply that alpha- and beta-chains do not form well-expressed TCR in a random manner and that limitations on the useful combinatorial association of these chains may significantly affect the functional T cell repertoire.     

Cell surface receptors and their dynamics on toxin-treated malignant cells

The binding, mobility, and mode of cell entry of the plant toxin ricin (or RCAII) were investigated on susceptible and partially resistant murine cell lines. When susceptible cells (SV40-transformed 3T3 fibroblast cells and BW5147 lymphoma cells) were examined, ricin bound rapidly, induced endocytosis, and entered the cell cytoplasm via broken endocytotic vesicles to inhibit cell protein synthesis, as found previously (1). Addition of lactose within 15 min after initial ricin binding prevented toxicity. After this time lactose addition no longer blocked the inhibition of protein synthesis. In a partially resistant lymphoma (BW5147/RCA3) that shows only a slight reduction in the total number of ricin-binding sites, ricin bound rapidly to the cell surface, but was endocytosed significantly less at low ricin doses compared to its parental line, indicating a possible difference in cell surface behavior. The exposed surface proteins on the BW5147 parental and BW5147/RCA3 resistant lines were examined by ¹²⁵I-labeling utilizing lactoperoxidase-catalyzed iodination. The radiolabeled components were solubilized and separated by slab gel electrophoresis in sodium dodecyl sulfate. Autoradiograms of the slab gels indicated that two surface components of approximately 80,000 and 35,000 mol wt were much less exposed or were missing on the resistant line.     

A novel ganglioside expressed by mouse hematopoietic cell lines.

Mouse progenitor T cell-derived cell lines were established by fusion of cells of hematopoietic organs such as bone marrow and fetal liver with T lymphoma (BW5147) to determine their characteristic cell-surface components. The hybridomas with the phenotype of Thy-1+, CD3-, CD4-, CD8- and expression of T cell receptor gene mRNA (BM216 and FL339) were selected for progenitor T cell-derived cell lines, and their ganglioside compositions were studied. A ganglioside component with a mobility slightly faster than that of bovine brain GD1a on high-performance thin-layer chromatography was found in the cell extracts of these cell lines as one of the most abundant components and was absent in the extract of the parental cell line (BW5147). The structure of the ganglioside was determined to be: NeuAc alpha-Gal beta-Gal beta-Gal alpha-Gal beta-Glc beta-ceramide. Gangliosides with such a sequence have never been found before, suggesting the possibility that the ganglioside is expressed as a surface marker of the cells in hematopoietic organs committed to a specific cell lineage, presumably to T cell lineage. cells in hematopoietic organs committed to a specific     

Two better cell lines for making hybridomas expressing specific T cell receptors

Two variants of the AKR thymoma BW5147 have been isolated which can no longer express functional TCR alpha- and beta-chains. By generating hybridomas with these variant fusion lines, TCR of any normal T lymphocyte, including TCR-gamma/delta, can be studied at a clonal level, without interference of the BW5147-derived receptor chains. In this study one of the variants has been useful in identifying the reactivity to allogeneic MHC Ag of BW5147 itself.