Modulation of IFN-mediated Ly-6E antigen induction by cAMP in a T cell lymphoma: opposite effects on the responses to IFN-gamma and IFN-alpha/beta.

This study was initiated to examine the role of cyclic nucleotides in the regulation of the expression of the Ly-6E cell surface Ag by IFN. As a model system, we used the YAC T cell lymphoma where this Ag is constitutively absent but is highly inducible by both IFN-gamma and IFN-alpha/beta. Treatment with cAMP or cGMP analogs did not cause Ly-6E expression in the absence of IFN. However, treatment with cAMP analogs, but not with cGMP analogs, markedly altered Ly-6E expression triggered by IFN, both at the mRNA and at the cell surface protein levels. Interestingly, these effects depended on whether Ly-6E induction was mediated by IFN-gamma or IFN-alpha/beta. Thus, the response to IFN-gamma was enhanced up to tenfold, whereas the response to IFN-alpha/beta was suppressed by 90-95%. Similar differential modulations of Ly-6E induction were also exerted by forskolin and cholera toxin, which are known to elevate intracellular cAMP concentration through distinct mechanisms. A YAC cell variant (C10) was isolated, where cAMP analogs or cAMP inducers could not modify Ly-6E induction. Although resistant to the biological effect of cAMP, the C10 mutant exhibited normal IFN-mediated Ly-6E responses. Moreover, in this mutant, Ly-6E induction was still affected by the PKC activator PMA, as in wild-type YAC cells. Altogether, our data demonstrate that cAMP (and cGMP) is not directly involved as second messenger in Ly-6E induction mediated by IFNs. However, a rise of cAMP modulates in an opposite fashion the Ly-6E-inducing actions of IFN-gamma and IFN-alpha/beta, which suggests that the two types of IFN utilize separate biochemical pathways to regulate Ly-6E expression.     

Multiple cytokine interactions regulate Ly-6E antigen expression: cooperative Ly-6E induction by IFNs, TNF, and IL-1 in a T cell lymphoma and in its induction-deficient variants.

The cell surface Ly-6E antigen, known to play a role in T cell activation, is up-regulated by IFNs. In the present study, we investigated the possible interactions between IFNs and other cytokines in this regulation. As a model system, we used the YAC T cell lymphoma, in which Ly-6E is normally absent but can be highly induced both at the mRNA and surface protein levels by IFN-gamma or IFN-alpha/beta. The combination of the two IFNs was found to result in markedly synergistic Ly-6E induction in this cell line. Moreover, mutants of YAC cells were isolated that did not respond to the Ly-6E-inducing action of IFN-gamma or IFN-alpha/beta alone but did respond to their combination. Such a synergistic interaction is consistent with the notion that the two IFN types utilize different intracellular mechanisms to induce Ly-6E expression. Ly-6E induction mediated by IFN-gamma or IFN-alpha/beta was also enhanced by cotreatment with TNF-alpha or IL-1 alpha, which by themselves had no detectable Ly-6E-inducing effect. These two cytokines similarly synergized with IFNs to trigger a response in several Ly-6E-induction-deficient mutants. However, their action could be dissociated in one mutant (B54) where the response to IFN-alpha/beta was enhanced by TNF-alpha, but not by IL-1 alpha. Altogether, these data indicate that Ly-6E antigen expression is regulated by the interaction of several inflammatory cytokines, which may provide a mechanism for the local modulation of T cell activation. The YAC cell mutants described here should facilitate further analysis of the molecular bases of Ly-6E regulation.     

The augmentation of surface Ly-6A/E molecules in activated T cells is mediated by endogenous interferon-gamma

The murine Ly-6A.2 and Ly-6E.1 antigens, which can transduce triggering signals in T cells, have been shown to become highly expressed after mitogenic stimulation. It has recently been found that enhanced expression of Ly-6A/E antigens is also induced by interferon-gamma (IFN-gamma) in resting T cells. Here, the possibility is investigated that Ly-6A/E induction on activated T cells may be due to the IFN-gamma known to be secreted by these cells. A potent neutralizing anti-IFN-gamma monoclonal antibody (mAb) (H-22.10) was used. This mAb was found to abrogate the augmentation of Ly-6A/E antigens produced in resting T cells by supernatants from T cells stimulated with concanavalin A. When added directly into cultures of T cells stimulated with concanavalin A or by the combination of ionomycin with the protein kinase C activator phorbol myristate acetate (PMA), the H-22.10 mAb inhibited Ly-6A/E enhancement without affecting the blastogenesis or the emergence of interleukin 2 receptors and transferrin receptors. Such a selective effect of the anti-IFN-gamma mAb indicated that IFN-gamma is involved in the up-regulation of Ly-6A/E antigens during T cell activation. In determining whether other activation signals, in addition to IFN-gamma receptor occupancy, may contribute to Ly-6A/E enhancement, it was found that suboptimal stimulation of BALB/c T cells provided by a 3-hr pulse with ionomycin plus PMA or by culture with PMA alone potentiated by about twofold the increase of Ly-6E.1 induced by exogenous IFN-gamma. Therefore, Ly-6A/E augmentation in activated T cells reflects primarily an action of endogenous IFN-gamma that is amplified (in BALB/c mice) by a protein kinase C-dependent step.     

Cross-linkage of Ly-6A/E induces Ca2+ translocation in the absence of phosphatidylinositol turnover and mediates proliferation of normal murine B lymphocytes

Ly-6A/E is a phosphatidylinositol (PI)-linked membrane protein whose expression is induced or upregulated on normal murine T and B cells by IFN-gamma. Cross-linkage of Ly-6A/E expressed on normal murine T cells stimulates Ca2+ translocation, and in the presence of a protein kinase C (PKC) activator, lymphokine secretion, and cellular proliferation. Utilizing an anti-Ly-6A/E mAb, we studied the effect of cross-linking Ly-6A/E on IFN-gamma-treated resting B cells, for Ca2+ translocation, PI turnover, and cellular proliferation. Since these events are known to be stimulated by cross-linkage of B cell membrane (m)Ig, we compared the changes mediated through these respective membrane proteins. We show that cross-linkage of B cell Ly-6A/E stimulates a large, rapid, and sustained increase in the concentration of intracellular free calcium ([Ca2+]i) comparable in magnitude, though somewhat delayed, relative to that observed after cross-linking of mIg. Cross-linkage of B cell Ly-6A/E does not, however, stimulate detectable PI turnover, in contrast to PI turnover induced by ligation of mIg. Both the Ly-6A/E- and mIg-mediated increase in [Ca2+]i occur through mobilization of internal Ca2+ stores as well as entry of Ca2+ into the cell from the extracellular compartment. Ly-6A/E-mediated Ca2+ translocation appears to be under the regulation of PKC in that short term pretreatment of B cells with the PKC activator, PMA, inhibits the Ly-6A/E- as well as the mIg-mediated increase in [Ca2+]i, whereas prolonged exposure to PMA, under conditions that lead to depletion of PKC, results in an augmentation in Ca2+ translocation after ligation of either Ly-6A/E or mIg. Co-capping studies indicate that Ly-6A/E and mIg cap independently in the B cell membrane, thus suggesting that the Ly-6A/E-induced effects on Ca2+ translocation are not mediated through simultaneous modulation of mIg. Anti-Ly6A/E, by itself, does not stimulate an increase in [3H]thymidine incorporation by IFN-gamma-treated resting B cells, but induces a striking increase in the presence of PMA. By contrast, anti-Ig by itself stimulates significant increases in [3H]thymidine incorporation that is inhibited by PMA. Thus, Ly-6A/E is a potent mediator of B cell activation that may use a signal transduction system in quiescent B cells that is distinct from that of the Ag receptor.     

Divergent effects of cyclosporine A on interferon- and mitogen-induced Ly-6A antigen suggest autocrine regulation of Ly-6A expression in activated T cells

The murine Ly-6A cell surface antigen is normally present on a minor subset of mature T cells. This marker has been shown to become highly expressed on mitogen-activated T cells. We found that expression of Ly-6A is also markedly increased in resting T cells by incubation with IFN-alpha/beta or IFN-gamma. Here, we compared the effect of the immunosuppressant cyclosporine A (CsA) on Ly-6A induction by IFN and concanavalin A (Con A). The augmentation of Ly-6A expression produced by treatment of T cells with IFN-alpha/beta or IFN-gamma was found not to be affected by CsA concentrations up to 2 micrograms/ml. In contrast, at doses as low as 50 ng/ml, CsA prevented the enhancement of Ly-6A expression in Con A-treated T-cell cultures. Culture supernatant transfer experiments were performed to further explore this effect of CsA. It was found that supernatants from Con A-activated T cells enhanced Ly-6A expression in resting T cells. This activity could be neutralized with an anti-IFN-gamma monoclonal antibody. Supernatants from T cells treated with Con A in presence of CsA lacked Ly-6A-enhancing activity. Taken together, these data suggest that the inhibition by CsA of Ly-6A induction in Con A-treated T cells reflects the known inhibitory effects of the drug on IFN-gamma secretion. This may imply the existence in T cells of an autocrine circuit involving IFN-gamma and regulating Ly-6A expression.     

Involvement of protein kinase C in competence induction of macrophages to generate T suppressor cells.

We have previously described an Ia-expressing macrophage hybridoma clone, termed clone 59, which attains the ability to induce Ts cells after activation with murine rIFN-gamma. In this report, we show that a protein kinase C (PKC) activator, PMA (10 ng/ml) can replace IFN-gamma in inducing this form of macrophage competence. IFN-gamma-induced cellular competence was abrogated specifically by a PKC inhibitor but not by inhibitors that have specificity for cyclic nucleotide-dependent protein kinases. Furthermore, PGE2 known to induce protein kinase A in murine macrophages also failed to induce competence. In contrast, the ability to induce Th responses was neither dependent on IFN-gamma nor inhibited by prior treatment with protein kinase inhibitors. Furthermore, PKC depletion of macrophages by treatment with high doses (100 ng/ml) of PMA abrogated their ability to induce Ts cells. In addition, PKC-depleted macrophages failed to regain the ability to stimulate Ts cells after further treatment with IFN-gamma. The ability of IFN-gamma to modulate macrophage-mediated induction of Ts cells does not clearly correlate with an increased Ia expression as inducible expression of Ia was not consistently abrogated by PKC inhibitor treatment. In addition, PKC inhibitors failed to prevent the production of the cytokines IL-1 and IL-6. However, incubation of IFN-gamma or PMA-treated macrophages with antibodies recognizing the putative IJ ligand blocked the ability to induce Ts cells, suggesting the expression of these determinants on accessory cells is responsible for Ts induction.     

Phenotypic changes induced by interferon in resting T cells: major enhancement of Ly-6 antigen expression

The murine Ly-6 locus controls multiple cell surface antigenic specificities with distinct cellular and tissue distributions. Although the functions of Ly-6 antigens are unknown, several of these antigens represent interesting markers of T cell differentiation and activation. In this work we used a panel of monoclonal antibodies (MAb) in conjunction with flow cytofluorometry (FCF) analysis to investigate the effect of interferon (IFN) on the surface representation of T cell-associated Ly-6 antigens. It was found that in vitro treatment of purified T cells from both C57Bl/6 (Ly-6.2) and BALB/c (Ly-6.1) mice with 10 to 10(4) U IFN-alpha/beta/ml results in a dose-dependent enhancement of Ly-6 antigen expression. This effect was already detectable after 12 to 18 hr and culminated after 48 hr of incubation. Both frequencies and brightness of Ly-6 bearing cells were increased. The most dramatic shifts were observed for the Ly-6A, D, and E antigens, which were augmented by eightfold to 20-fold upon exposure to 10(4) U IFN alpha/beta/ml. Expression of Ly-6C antigens was enhanced by fourfold to sixfold under the same conditions. Immunochemical analyses and use of metabolic inhibitors additionally demonstrated that such IFN-alpha/beta-induced phenotypic alterations of T cells reflect augmented de novo biosynthesis of Ly-6 molecules. Comparison of purified IFN-alpha and IFN-beta revealed that both are equally active in influencing Ly-6. IFN-gamma also enhanced Ly-6 expression but less efficiently than IFN-alpha/beta. Additional experiments were carried out to determine the selectivity of IFN-alpha/beta action on T cell phenotype. These studies demonstrated that IFN-induced Ly-6 enhancement occurs without emergence of interleukin 2 or transferrin receptors. Expression of H-2 and beta 2m antigens, previously known to be sensitive to IFN, was increased but to a much lesser extent than Ly-6. Most other cell surface antigens examined were minimally affected by IFN-alpha/beta with the exception of Ly-11 and Ly-23. Augmentation of these latter markers was lower than for Ly-6 antigens, however. Therefore the Ly-6 locus appears to be preferentially activated by IFN-alpha/beta in resting T cells. Additional exploration of this phenomenon should provide insight into both the biological significance of Ly-6 antigens and the mechanism(s) by which IFN affect T cell functions.     

Up-regulation of tissue inhibitor of metalloproteinases-3 gene expression by TGF-β in articular chondrocytes is mediated by serine/threonine and tyrosine kinases

The balance between matrix metalloproteinases (MMPs) and tissue inhibitors of metalloproteinases (TIMPs) regulates extracellular matrix turn-over in normal animal development, cancer cell metastasis, atherosclerotic plaque rupture and erosion of arthritic cartilage. Transforming growth factor beta (TGF-β), an inducer of matrix synthesis, potently enhances mRNA and protein of a recently characterized MMP inhibitor, TIMP-3, in bovine articular chondrocytes. We examined the implication of protein kinases in the TGF-β-mediated induction of TIMP-3 expression by utilizing activators and inhibitors of these enzymes. Protein kinase A activators, dibutyryl cyclic AMP, or forskolin had little or no effect, respectively, while phorbol 12-myristate 13-acetate (PMA), a PKC activator, increased TIMP-3 gene expression. H7, a serine/threonine protein kinase inhibitor, markedly reduced the response of TIMP-3 gene to TGF-β. Furthermore, two protein tyrosine kinase inhibitors, genistein and herbimycin A, inhibited TGF-β induction of TIMP-3. H7 and genistein also suppressed TGF-β-induced TIMP-3 protein expression. These results suggest that TGF-β signaling for TIMP-3 gene induction involves H7-sensitive serine/threonine kinase as well as herbimycin A- and genistein-sensitive protein tyrosine kinases. J. Cell. Biochem. 70:517–527, 1998. © 1998 Wiley-Liss, Inc.     

The antiviral response to gamma interferon

A role for alpha/beta interferon (IFN-alpha/beta) in the IFN-gamma antiviral response has long been suggested. Accordingly, possible roles for autocrine or double-stranded-RNA (dsRNA)-induced IFN-alpha/beta in the IFN-gamma response were investigated. Use was made of wild-type and a variety of mutant human fibrosarcoma cell lines, including mutant U5A cells, which lack a functional IFN-alpha/beta receptor and hence an IFN-alpha/beta response. IFN-gamma did not induce detectable levels of IFN-alpha/beta in any of the cell lines, nor was the IFN-gamma response per se dependent on autocrine IFN-alpha/beta. On the other hand, a number of responses to dsRNA [poly(I). poly(C)] and encephalomyocarditis virus were greatly enhanced by IFN-gamma pretreatment (priming) of wild-type cells or of mutant cells lacking an IFN-alpha/beta response; these include the primary induction of dsRNA-inducible mRNAs, including IFN-beta mRNA, and, to a lesser extent, the dsRNA-mediated activation of the p38 mitogen-activated protein (MAP) kinase(s). IFN-gamma priming of mRNA induction by dsRNA is dependent on JAK1 and shows biphasic kinetics, with an initial rapid (<30-min) response being followed by a more substantial effect on overnight incubation. The IFN-gamma-primed dsRNA responses appear to be subject to modulation through the p38, phosphatidylinositol 3-kinase, and ERK1/ERK2 MAP kinase pathways. It can be concluded that despite efficient priming of IFN-beta production, the IFN-alpha/beta pathways play no significant role in the primary IFN-gamma antiviral response in these cell-virus systems. The observed IFN-gamma priming of dsRNA responses, on the other hand, will likely play a significant role in combating virus infection in vivo.     

In vivo and in vitro phosphorylation of murine lymphocyte differentiation antigen CD5

Ly-1, the murine lymphocyte differentiation antigen CD5, is phosphorylated constitutively in vivo. This phosphorylation is enhanced by phorbol 12-myristate 13-acetate (PMA) treatment, but not by concanavalin A, Ca2+ ionophore or dibutyryl cAMP. Prolonged PMA treatment abolished PMA-induced Ly-1 phosphorylation but not constitutive phosphorylation, suggesting that protein kinase C (PKC) is responsible for this enhanced phosphorylation, but not the basal phosphorylation of Ly-1. Ly-1 is phosphorylated by PKC added to membranes, further supporting a role for protein kinase C in the in vivo phosphorylation of Ly-1.     

Induction of macrophage Ia antigen expression by rIFN-gamma and down-regulation by IFN-alpha/beta and dexamethasone are mediated by changes in steady-state levels of Ia mRNA

In previous studies, the induction of Ia antigens on murine peritoneal exudate macrophages by recombinant IFN-gamma (rIFN-gamma) and the antagonism of rIFN-gamma-induced Ia expression by the inhibitors IFN-alpha/beta and glucocorticoids have been examined. In this report, these findings have been extended to an analysis of total or cytoplasmic mRNA from macrophage cultures treated with rIFN-gamma in the absence or presence of these two inhibitors. Recombinant IFN-gamma induced a 5.7- to 6.5-fold increase in steady-state levels of Ia (A alpha-specific) mRNA. Coordinate increases in steady-state mRNA for A beta, and E alpha were observed in response to rIFN-gamma. Maximum induction occurred 24 hr post-treatment and required the continued presence of rIFN-gamma. Induction of A alpha-specific mRNA was sensitive to the protein synthesis inhibitor cycloheximide. Simultaneous treatment of macrophage cultures with rIFN-gamma and IFN-alpha/beta or the glucocorticoid dexamethasone (DEX) resulted in a significant decrease in steady-state, A alpha-specific mRNA levels compared with treatment with rIFN-gamma alone. This analysis suggests that both the induction of Ia expression by rIFN-gamma, and the antagonism of rIFN-gamma-induced Ia gene expression by IFN-alpha/beta and DEX, are regulated by cognate changes in Ia mRNA.     

Induction of ANGPTL4 expression in human airway smooth muscle cells by PMA through activation of PKC and MAPK pathways

In this study, we demonstrate that protein kinase C (PKC) activators, including phorbol-12-myristate-13-acetate (PMA), 1,2-dioctanoyl-sn-glycerol (DOG), and platelet-derived growth factor α are potent inducers of angiopoietin-like protein 4 (ANGPTL4) expression in several normal lung cell types and carcinoma cell lines. In human airway smooth muscle (HASM) cells induction of ANGPTL4 expression is observed as early as 2 h after the addition of PMA. PMA also increases the level of ANGPTL4 protein released in the medium. PKC inhibitors Ro31-8820 and Gö6983 greatly inhibit the induction of ANGPTL4 mRNA by PMA suggesting that this up-regulation involves activation of PKC. Knockdown of several PKCs by corresponding siRNAs suggest a role for PKCα. PMA does not activate MAPK p38 and p38 inhibitors have little effect on the induction of ANGPTL4 indicating that p38 is not involved in the regulation of ANGPTL4 by PMA. In contrast, treatment of HASM by PMA induces phosphorylation and activation of Ra, MEK1/2, ERK1/2, JNK, Elk-1, and c-Jun. The Ras inhibitor manumycin A, the MEK1/2 inhibitor U0126, and the JNK inhibitor SP600125, greatly reduce the increase in ANGPTL4 expression by PMA. Knockdown of MEK1/2 and JNK1/2 expression by corresponding siRNAs inhibits the induction of ANGPTL4. Our observations suggest that the induction of ANGPTL4 by PMA in HASM involves the activation of PKC, ERK, and JNK pathways. This induction may play a role in tissue remodeling during lung injury and be implicated in several lung pathologies.     

Protein kinase C epsilon is required for the induction of mitogen-activated protein kinase phosphatase-1 in lipopolysaccharide-stimulated macrophages

LPS induces in bone marrow macrophages the transient expression of mitogen-activated protein kinase (MAPK) phosphatase-1 (MKP-1). Because MKP-1 plays a crucial role in the attenuation of different MAPK cascades, we were interested in the characterization of the signaling mechanisms involved in the control of MKP-1 expression in LPS-stimulated macrophages. The induction of MKP-1 was blocked by genistein, a tyrosine kinase inhibitor, and by two different protein kinase C (PKC) inhibitors (GF109203X and calphostin C). We had previously shown that bone marrow macrophages express the isoforms PKC beta I, epsilon, and zeta. Of all these, only PKC beta I and epsilon are inhibited by GF109203X. The following arguments suggest that PKC epsilon is required selectively for the induction of MKP-1 by LPS. First, in macrophages exposed to prolonged treatment with PMA, MKP-1 induction by LPS correlates with the levels of expression of PKC epsilon but not with that of PKC beta I. Second, G?6976, an inhibitor selective for conventional PKCs, including PKC beta I, does not alter MKP-1 induction by LPS. Last, antisense oligonucleotides that block the expression of PKC epsilon, but not those selective for PKC beta I or PKC zeta, inhibit MKP-1 induction and lead to an increase of extracellular-signal regulated kinase activity during the macrophage response to LPS. Finally, in macrophages stimulated with LPS we observed significant activation of PKC epsilon. In conclusion, our results demonstrate an important role for PKC epsilon in the induction of MKP-1 and the subsequent negative control of MAPK activity in macrophages.     

Distinct mechanisms of regulation of protein kinase C epsilon by hormones and phorbol diesters

In this study, we examined the effects of T cell activators on the regulation of protein kinase C (PKC) isozymes present in thymocytes. Using affinity-purified anti-PKC antisera, we determined that the major PKC isoforms in murine thymocytes are PKC beta and PKC epsilon. The CD4+/CD8+ thymocyte subset expressed high levels of both PKC beta and PKC epsilon, whereas the CD4-/CD8- subset expressed much less of both. PKC beta was down-regulated following treatment of thymocytes with phorbol 12-myristate acetate (PMA) (2 x 10(-8) M) or ionomycin (0.4 microM). In contrast, PMA did not induce the down-regulation of PKC epsilon. Ionomycin alone, however, induced PKC epsilon down-regulation, similar to its effect on PKC beta. Similar observations were made on a promonocytic cell line, U937, which expresses PKC alpha, PKC beta (Strulovici, B., Daniel-Issakani, S., Oto, E., Nestor, J., Jr., Chan, H., and Tsou, A.-P. (1989) Biochemistry 28, 3569-3576), and PKC epsilon. To facilitate the study of PKC beta and PKC epsilon, we established a Chinese hamster ovary cell line which expresses murine PKC epsilon in addition to endogenous PKC alpha and PKC beta. Both PKC isoforms (beta and epsilon) were mostly in particulate form. PMA treatment left the majority of immunoreactive PKC epsilon intact. By contrast, thrombin treatment caused the disappearance of particulate and cytosolic PKC epsilon (60% by 10 min and 80% by 1 h). PMA and thrombin promoted the down-regulation of PKC beta with similar kinetics (100% down-regulation by 3 h). These results indicate that: 1) thymocytes express PKC epsilon; and 2) this isozyme exhibits a novel form of regulation distinct from the other PKC isozymes.     

Sequential production of alpha and beta interferons and gamma interferon in the circulation of Listeria monocytogenes-infected mice after stimulation with bacterial lipopolysaccharide

Sequential production of interferon (IFN)-alpha/beta and IFN-gamma in the circulation of mice which had been previously infected with viable Listeria monocytogenes was induced by injection of lipopolysaccharide (LPS) derived from Salmonella typhimurium. IFN-alpha/beta production occurred 2 hr after injection of LPS, thereafter IFN-gamma appeared and the maximum titer was demonstrated at 6 hr. At that time, almost all of the IFN was IFN-gamma. IFN-gamma production in response to LPS was observed from the 5th through the 11th day after infection with Listeria, but it was not demonstrated in either mice infected with lower doses of viable Listeria or mice immunized with heat-killed bacteria. IFN-alpha/beta production was not drastically affected by treatment with hydrocortisone, cyclophosphamide, carrageenan, antithymocyte serum, or anti-asialo GM1 antibody, whereas IFN-gamma production was suppressed by administration of all those agents. Noteworthily, IFN-alpha/beta, but not IFN-gamma, was produced even 6 hr after stimulation with LPS in cyclophosphamide- or antithymocyte serum-treated mice. IFN-gamma induction by LPS was markedly suppressed in mice in which IFN-alpha/beta produced by Listeria infection itself had been depleted by treatment with anti-mouse IFN-alpha/beta antibody, but it was not inhibited in mice when IFN-alpha/beta induced not by Listeria infection but by LPS had been depleted by treatment with anti-mouse IFN-alpha/beta antibody.