The glycophosphatidylinositol-anchored Thy-1 molecule interacts with the p60fyn protein tyrosine kinase in T cells.

Stimulation of murine T cells by engagement of the multi-component T cell antigen receptor or by cross-linking the Thy-1 molecule leads to a similar response characterized by lymphocyte activation and lymphokine production. The early biochemical events induced by engaging these molecules also are similar and begin with activation of a tyrosine kinase pathway and tyrosine phosphorylation of a comparable set of substrates. Previous work demonstrates that the protein tyrosine kinase p60fyn is associated with the antigen receptor and therefore it may participate in the tyrosine phosphorylations that are observed with antigen receptor signaling. In this study we demonstrate that the Thy-1 molecule is also associated with p60fyn in a murine T cell hybridoma and in murine thymocytes. The interaction is independent of antigen receptor expression. Thy-1 is a member of the class of molecules anchored to the plasma membrane by a glycophosphatidylinositol (GPI) group. The association of Thy-1 with p60fyn is dependent on the GPI linkage, since cleavage of the GPI anchor disrupts the interaction. The association of Thy-1 and p60fyn suggests a means by which Thy-1 cross-linking leads to tyrosine phosphorylation and T cell activation.     

Lymphokine-independent induction of macrophage membrane IL-1 by autoreactive T cells recognizing either class I or class II MHC determinants

Here we report that autoreactive T cell clones and T cell hybridomas that recognize class I or class II MHC determinants can induce IL-1 expression on cultured macrophages in an MHC-restricted manner. This genetic restriction of membrane IL-1 (mIL-1) induction is not absolute, however; it is manifest only in macrophages that have been cultured for several days before stimulation. Macrophages that are evaluated within 24 h after adherence display a basal level of mIL-1, and the T cell-induced augmentation of basal mIL-1 expression is not MHC-restricted. It appears that T cells of both Th1 and Th2 type have the capacity to induce mIL-1, suggesting that this function is not limited to the T cell subset (Th2) that is able to use IL-1. Most importantly, the ability of T cells to induce IL-1 on macrophages seems to occur by virtue of direct cellular interactions, and is independent of lymphokine secretion. The induction event is rapid enough (2 to 4 h) to allow T cells to interact with both antigen and IL-1 during the initial T cell/macrophage contact. These findings thus reveal an efficient mechanism for the induction of IL-1 during Ag presentation to T cells.     

IL 1 induction by murine T cell clones: detection of an IL 1-inducing lymphokine

T cell activation is widely believed to depend on interleukin 1 (IL 1) provided by antigen (Ag)-presenting cells (APC). Because IL 1 is not a constitutive product of APC, we examined the features of its production during the interaction of murine T cell clones and APC. We observed that IL 1 was detectable in supernatants of most myoglobin-specific T cell clones grown with APC and Ag. Two of these T cell clones induced exceptionally high levels of IL 1 in their supernatants, and these same clones demonstrated the unusual restriction to I-Ek, which is a low responder type for sperm whale myoglobin. One of these clones was characterized additionally as to the mechanism of IL 1 induction. This clone rapidly stimulated IL 1 production in the APC population (detectable at 4 hr of co-culture) or in macrophages (M phi) or a M phi-like cell line. IL 1 induction was Ag dependent and H-2 restricted. Induction was radioresistant, both on the part of the T cell and of the IL 1 producer. The IL 1-induction process was attributable to a lymphokine produced by the T cell clone. This lymphokine was distinct from IFN-gamma, TNF and CSF-1 and may account for a principal mechanism of T----APC signalling. The induced IL 1 was the same in size, co-mitogenicity, and pyrogenicity as lipopolysaccharide-induced IL 1.     

Selective induction of B7/BB-1 on interferon-gamma stimulated monocytes: a potential mechanism for amplification of T cell activation through the CD28 pathway.

The B cell activation antigen B7/BB-1 is the natural ligand for the T cell antigen CD28 and these two molecules are capable of mediating T-B cell adhesion. Engagement of the CD28 pathway provides a costimulatory signal to T cells leading to enhanced lymphokine production. We report that interferon-gamma (INF-gamma) induces the expression of B7/BB-1 on monocytes. This induction was very specific since other cytokines and stimuli which activate monocytes including M-CSF, GM-CSF, IL3, TNF-alpha, and LPS were unable to induce B7/BB-1. Following culture of monocytes with INF-gamma, maximal mRNA and cell surface B7/BB-1 expression was detected at 12 and 24 hr, respectively. In addition to antigen presentation, optimal T cell activation and lymphokine synthesis require an additional cell to cell contact signal provided by the antigen presenting cell. The induction of B7/BB-1 on monocytes and subsequent heterophilic interaction of B7/BB-1 with CD28 may provide a mechanism for the amplification of T cell proliferation and lymphokine production by INF-gamma activated monocytes.     

Evidence for effects of interleukin 4 (B cell stimulatory factor 1) on macrophages: enhancement of antigen presenting ability of bone marrow-derived macrophages

We have studied the effects of recombinant mouse interleukin 4 (IL 4) (previously known as B cell stimulatory factor 1) on the antigen-presenting ability of murine splenic B cells and bone marrow macrophages. Our assay is based on the induction of antigen-presenting ability in these cells after incubation with IL 4 for 24 hr. The presenting cells were then used to stimulate IL 2 production by antigen-specific, I-Ad-restricted T cell hybridomas, a response mainly dependent on the induction of Ia antigens. Consistent with our previously published data using partially purified natural IL 4, we show here that recombinant IL 4 (but not interferon-gamma (IFN-gamma) or IL 1) induces antigen-presenting ability in B cells. Recombinant IL 4 was also found to induce antigen-presenting ability in a cloned, bone marrow derived-macrophage cell line (14M1.4), and in normal bone marrow-derived macrophages. These macrophage populations also respond to IFN-gamma showing enhanced antigen-presenting ability (mediated by increased Ia antigen expression). A small but significant increase in Ia antigen expression was also detected in 14M1.4 macrophages induced with IL 4. However, additional analysis suggested that the effect of IL 4 on 14M1.4 is different from that of IFN-gamma, because IL 4 (but not IFN-gamma) is able to maintain the viability and increase the size of and metabolic activity of bone marrow macrophages. However, IL 4 may not affect all macrophages because the macrophage cell line P388D1, which responds to IFN-gamma, failed to show enhanced antigen-presenting function after stimulation with IL 4. These observations indicate that IL 4, a lymphokine previously considered to be B cell lineage specific, has effects on macrophages and may be involved in their activation.     

Interaction of v-Ki-ras oncogene and interferon-gamma in the control of histocompatibility antigen expression in mouse fibroblasts

C3H10T1/2 fibroblasts when transformed with Kirsten murine sarcoma virus lose the ability to be induced to express class II major histocompatibility complex antigens when induced with interferon-gamma (IFN-gamma). Sublines were derived from transformed lines by cell sorting after treatment with IFN-gamma, sorting for low or high expression of H-2Ak. These sublines remained stably noninducible or inducible for class II antigen for several passages after sorting. In all other respects tested, viz, sensitivity to IFN-gamma for the generation of an antiviral state or the induction of class I antigen, content of ras gene products, the sorted sublines were very similar. We conclude that ras oncogene expression in these cells can influence the induction of class II antigen but that because ras expression in the sorted lines is similar the effect of ras expression is indirect and presumably involves interaction with other cellular factors.     

Interleukin 12 and antigen independently induce substance P receptor expression in T cells in murine schistosomiasis mansoni.

Substance P (SP) regulates interferon-gamma (IFN-gamma) production through interaction with the SP receptor NK1 (SPr) on T cells at sites of inflammation. Using murine schistosomiasis, we evaluated whether SPr expression was subject to immunoregulation. Splenocytes from schistosome-infected mice cultured for < or =18 h did not express SPr, as determined by quantitative polymerase chain reaction assay. However, exposure to schistosome egg antigen (SEA) for < or =4 h induced strong receptor expression. Experiments using splenocytes fractionated with antibody-coupled, paramagnetic beads showed that induction localized exclusively to T cells. Receptor protein expression was confirmed with Western blot. Interleukin 12 (IL-12) also induced strong T-cell SPr expression. Both SEA and IL-12 remained strong inducers of T-cell SPr in lymphocytes from the IL-12 (p40) and IFN-gamma R double-knockout mouse, which suggested that SEA did not require IL-12 to induce SPr and that both worked independently of IFN-gamma. Splenocytes from wild-type mice cultured with SEA and neutralizing anti-IL-12 monoclonal antibody (mAb) also showed SPr induction. However, anti-Ia mAb inhibited SEA induction of SPR: Thus, SPr is inducible on T cells. SEA induces SPr through interaction with T-cell receptor (TCR), independently of IL-12 and IFN-gamma. IL-12 induces SPr independently of TCR activation and IFN-gamma expression. SP and its receptor, which regulate IFN-gamma production, are probably part of the IL-12-Th1 circuit.     

Effect of UV irradiation on expression of membrane IL 1 by rat macrophages

The effect of UV-B irradiation on the expression of membrane-associated IL 1 (mIL 1) by rat pulmonary alveolar macrophages (PAM) was studied. We found that although there was an increase in secreted IL 1 by PAM exposed to UV-B, the expression of mIL 1 was inhibited in a dose-dependent manner. Furthermore, PAM that were allowed to express mIL 1 before UV-B irradiation had a faster decay of mIL 1 activity than unirradiated cells. These data suggested that mIL 1 expression is inhibited by UV-B irradiation, and that under normal circumstances, mIL 1 synthesis and degradation is at a steady state, with the half-life of mIL 1 activity being 24 hr when assayed in an IL 1-dependent cell line proliferation assay. These data indicate that secreted forms of IL 1 and mIL 1 are differentially regulated and that the therapeutic effects of UV irradiation may be due to its inhibition of mIL 1 activity.     

TCGF(IL 2)-receptor inducing factor(s). II. Possible role of ATL-derived factor (ADF) on constitutive IL 2 receptor expression of HTLV-I(+) T cell lines

Interleukin 2 (IL 2) receptor (IL 2-R) is constitutively expressed on T cell lines established from the patients with adult T cell leukemia (ATL), which is a human T cell leukemia lymphoma virus (HTLV-1)(+) T4(+)-leukemia endemic in Japan, the United States, and other countries. Many of these cell lines continuously produce an acidic lymphokine, ATL-derived factor (ADF), which preferentially induces the synthesis and expression of IL 2-R on a sensitive HTLV-1(-) non-T cell line (YT). The induced IL 2-R was characterized by the binding of 125I-IL 2 and flow cytometry by using fluoresceinated anti-human IL 2-R monoclonal antibodies (anti-Tac). Scatchard analysis with 125I-IL 2 showed ADF induced high-affinity receptor sites on YT cells. To test the possibility that ADF produced by HTLV-1(+) T cells is involved in the abnormal expression of IL 2-R, we studied the effect of ADF on an HTLV-1(+) IL 2-dependent T cell line (ED) in which the beta-chain gene of the T cell antigen receptor (T beta) was rearranged. Unlike IL 2-independent HTLV-1(+) cell lines that constitutively expressed Il 2-R, the IL 2-R expression on ED cells declined in the absence of crude IL 2 or recombinant IL 2. When either ADF or recombinant IL 2 was added to the culture of ED cells, there was a dose-dependent enhancement of IL 2-R expression in 24 hr. ADF and IL 2 showed a synergism in the IL 2-R induction, and both factors were needed to induce the maximal receptor expression in these T cells. The lack of IL 2 production by ADF-treated YT, as well as ED cell line suggested IL 2 may not be involved in the IL 2-R induction by ADF. Northern blot hybridization with human IL 2-R cDNA probe showed the increase of IL 2-R mRNA in YT cells after ADF-treatment. ADF also enhanced IL 2-R expression of a rat T cell line transformed by HTLV-1(TARS-1), as demonstrated with anti-rat IL 2 receptor monoclonal antibodies (ART-18). An ADF-like IL 2-R-inducing factor was also detected in the conditioned medium of two HTLV-1(+) rat T cell lines (TARL-2 and TART-1), which constitutively expressed a higher number of Il 2-R than TARS-1 cells.(ABSTRACT TRUNCATED AT 400 WORDS)     

Distinct signals are required for proliferation and lymphokine gene expression in murine T cell clones

Experiments were performed to assess the capacity of lectin (Con A), ionomycin, phorbol ester (PMA), and recombinant IL 2 to mediate proliferation as well as the expression of cell surface IL 2 receptors, two lymphokine genes, IL 2 and IFN-gamma, and the c-myc proto-oncogene in cloned T cell populations. Stimulation of T cell clones with recombinant IL 2 resulted in proliferation and sustained expression of the c-myc cellular proto-oncogene, but did not induce the expression of mRNA for the lymphokines IFN-gamma and IL 2. In contrast, stimulation of cloned T cells with lectin alone induced significant IFN-gamma and IL 2 mRNA expression, up-regulation of the number of cell surface IL 2 receptors, and transient c-myc expression. Ionomycin alone was not a sufficient signal for lymphokine mRNA induction. The phorbol ester PMA alone induced neither proliferation nor lymphokine gene expression but potentiated lectin and ionomycin-mediated signals. We also performed experiments to examine whether the T cell response to extracellular stimuli was a function of the activation state of the cell. Reexposure of 48-hr antigen-activated cloned cells to identical stimuli revealed several differences. Low but significant levels of IFN-gamma mRNA were now also reinduced in activated clones cells in response to IL 2 or PMA alone. Activated cells were refractory to reinduction of IL 2 mRNA by any stimulus, which may reflect a physiologic mechanism to limit clonal expansion after antigenic stimulation. This could be partially reversed by restimulation with lectin in the presence of cycloheximide, suggesting a role for a labile protein repressor in the down-regulation of IL 2 mRNA expression. PMA alone induced an IL 2-independent proliferative response. We demonstrate that distinct signals are required for lymphokine gene expression vs cellular proliferation in cloned T lymphocyte populations, and that the capacity of extracellular stimuli to reinduce expression of lymphokine genes or to mediate cell proliferation is altered by prior activation.     

B cell stimulatory factor-1 (interleukin 4) activates macrophages for increased tumoricidal activity and expression of Ia antigens

Macrophages are activated by lymphokines (LK) to kill tumor cell and microbial targets. Interferon-gamma (IFN) is the major LK activity in conventional, antigen or mitogen-stimulated spleen cell culture fluids for induction of these macrophage effector functions. In view of the recent demonstration that murine macrophage-like cell lines have receptors for B cell stimulatory factor-1/interleukin 4 (BSF-1), a possible role for BSF-1 in regulation of macrophage function was considered. In this communication, thioglycollate-elicited murine peritoneal macrophages were shown to express about 2300 high affinity (Ka approximately 2 X 10(10) M-1) BSF-1 receptors/cell. Peritoneal macrophages treated with purified, T cell-derived BSF-1 developed potent tumoricidal activity against fibrosarcoma target cells. The concentration of BSF-1 that induced 50% of maximal tumor cytotoxicity was 38 +/- 4 U/ml for seven experiments; similar dose-responses were observed with recombinant BSF-1. That BSF-1 dose-responses for induction of macrophage-mediated tumor cytotoxicity were not affected by 5 micrograms/ml polymyxin B suggested that contaminant endotoxins played little or no role in cytotoxic activity. BSF-1 alone (less than or equal to 500 U/ml) was not directly toxic to tumor cells or macrophages. Macrophage tumoricidal activity induced by BSF-1 but not by IFN was inhibited greater than or equal to 90% with monoclonal anti-BSF-1 antibody. BSF-1 induced Ia antigen expression on peritoneal macrophages and increased (twofold to threefold) FcR(II)-dependent binding of murine IgG immune complexes to bone marrow-derived macrophages (greater than 98% macrophages). Based on these findings, it was concluded that BSF-1 is a potent macrophage activation factor.     

Studies on antigens associated with the activation of murine mononuclear phagocytes: kinetics of and requirements for induction of lymphocyte function-associated (LFA)-1 antigen in vitro

Macrophages activated and primed in vivo, although not resident or responsive macrophages, express the lymphocyte function associated (LFA)-1 antigen. By contrast, the biochemically related Mac-1 antigen is expressed on all populations of macrophages. In the present paper, we studied regulation of the LFA-1 antigen in vitro. LFA-1 could be induced in vitro on thioglycollate (TG)-elicited but not on proteose peptone (PP)-elicited or resident macrophages. Specifically, macrophage-activating factor (MAF), interferon-gamma (IFN-gamma), or picogram amounts of endotoxin (LPS) induced LFA-1 on TG-elicited macrophages following overnight incubation. Interferon, -alpha or -beta, fucoidin, and colony-stimulating factor were not effective. While some levels of LFA-1 could be detected as soon as 10 hr, peak expression was observed after 16 to 32 hr of incubation. The induction could be completely abrogated by cycloheximide, suggesting that protein synthesis was required. These results indicate that the induction of LFA-1 on mononuclear phagocytes is closely regulated and that the requirements for such induction are distinct from but share certain similarities with induction of cytotoxic functions and expression of Ia antigen.     

The capacity of activated murine macrophages for augmented binding of neoplastic cells: analysis of induction by lymphokine containing MAF and kinetics of the reaction

The capacity for augmented binding of tumor cells is an initial and necessary part of macrophage-mediated tumor cytotoxicity. To study the induction of binding capacity, we obtained FCS-elicited, inflammatory macrophages from C57BL/6J mice. Exposure of these macrophages to lymphokine(s) containing MAF induced augmented binding capacity in a dose-dependent fashion. Resident peritoneal macrophages did not respond to lymphokine, and endotoxin did not appreciably influence induction of binding. Maximum induction of binding required continuous interaction between macrophages and lymphokine for 6 to 10 hr. The conditions necessary for induction of binding closely paralleled those for induction of priming or cytolysis. Exposure of FCS-elicited macrophages from C3H/HeJ mice, although not of macrophages from A/J mice, induced augmented binding. The data suggest that the augmented capacity for binding tumor cells is induced by lymphokine(s) and that a major part of induction of priming for cytolysis by MAF is induction of such binding.     

Induction by immunomodulatory agents of a macrophage antigen recognized by monoclonal antibody 158.2 and correlation with macrophage function

MA158.2, a rat monoclonal antibody with binding specificity for cells of the monocyte-macrophage lineage, reacts with an antigen (158.2) whose expression is enhanced on mononuclear cells activated to the tumoricidal phenotype by treatment with lymphokine supernatant containing macrophage activating factor (MAF). The functional relevance of enhanced expression of this antigen has been examined in mouse peritoneal macrophages treated with a variety of immunomodulatory agents and assayed for augmented macrophage-mediated defense reactions, including O-2 production, microbicidal, and tumoricidal activity. An interferon-gamma (IFN-gamma) preparation produced by recombinant DNA technology induced a dose-dependent increase in expression of the 158.2 antigen in inflammatory macrophages which was accompanied by acquisition of microbicidal activity against Listeria monocytogenes. However, these cells did not express tumoricidal activity and induction of this property required concomitant exposure to lipopolysaccharide (LPS). Similar results were obtained using macrophages elicited with pyran copolymer. Exposure to LPS alone induced enhanced expression of antigen 158.2 but did not elicit microbicidal activity. Macrophages challenged with IFN-alpha, IFN-beta, MDP, and bestatin did not exhibit increased 158.2 and also failed to acquire tumoricidal activity when treated concomitantly with LPS. Collectively, these data indicate that the MA 158.2 antibody recognizes an antigen expressed by macrophage populations displaying the so-called primed phenotype in which microbicidal activity is expressed but in which induction of tumoricidal activity requires the addition of a second signal such as LPS.     

Requirement for delivery of signals by physical interaction and soluble factors from accessory cells in the induction of receptor-mediated T cell proliferation. Effectiveness of IFN-gamma modulation of accessory cells for physical interaction with T cells

We analyzed the mechanism by which accessory cells support the induction of the proliferation of human peripheral blood T cells by a monoclonal anti-CD3 antibody, OKT3. Cross-linking of T cell receptor/CD3 complex by anti-CD3 coupled to latex beads and the addition of IL-1 are not enough to induce the IL-2 production and proliferation of T cells extensively depleted of accessory cells, while the addition of both the culture supernatant of macrophages or a monoblastic cell line, U937 cells, and the paraformaldehyde-fixed macrophages or U937 cells which had been precultured with interferon-gamma before fixation into the culture of the T cells with anti-CD3-latex did induce the T cell proliferation. Lack of the addition of either one of these did not induce the response. These results indicate that the signal(s) delivered by soluble factors released from the accessory cells and that delivered by the physical interaction between accessory cells and T cells are both required for the induction of IL 2 production and proliferation of T cells by anti-CD3-latex. Importantly, the macrophages or U937 cells had to be cultured with Con A-stimulated lymphocyte culture supernatant or IFN-gamma prior to fixation with paraformaldehyde, suggesting that a molecule(s) inducible on accessory cells surface by IFN-gamma or other lymphokine is necessary for the effective accessory cell-T cell interaction to induce the T cell response. It was further revealed that the activity of the culture supernatant of accessory cells may be mediated synergistically by IL 1 and a certain other factor(s) and was actually shown to be replaced by the combined addition of rIL-1 and rIL-6 but not by rIL-1 alone. The experimental system described here will be very useful for dissecting the accessory functions for T cell activation.     

Antigen handling by guinea pig macrophages: further evidence for the sequestration of antigen relevant for activation of primed T lymphocytes.

Guinea pig macrophages can take up sufficient 2,4 dinitrophenyl guinea pig albumin during a brief in vitro exposure at 37 degrees C to trigger proliferation and lymphokine production with primed T lymphocytes on subsequent co-culture. Treatment of such antigen-bearing macrophages with trypsin, a procedure which removes surface antigen, does not alter the ability of such macrophage to initiate the release of migration inhibition factor from sensitized T lymphocytes. In addition, formation of antigen-specific rosettes between primed T cells and antigen-bearing macrophages is not blocked by high concentrations of antibody directed against the antigen mediating this interaction. Similarly, primed T lymphocyte DNA synthesis induced by antigen-bearing macrophages is not inhibited by specific antibody to that antigen. These data support the conclusion that the fraction of macrophage-associated antigen which is relevant to T lymphocyte activation does not reside on the macrophage surface but rather remains in a restricted compartment from which it is accessible to the T cell but unavailable to either blockade by specific antibody or removal by proteolytic enzymes.