Interleukin 2 acts directly on a Tac-positive cloned B cell line established from a patient with adult T cell leukemia

A Tac-positive B cell line termed K3B was established from a patient with adult T cell leukemia (ATL). This cell line had EBNA antigen and human T cell leukemic virus (HTLV) provirus besides B1 antigen and surface immunoglobulin. A cloned Tac-positive B cell line termed K3B01 was obtained from K3B by the limiting dilution method. The K3B01 cells were shown to absorb IL 2 activity in a tonsillar IL 2 preparation. By using this cloned cell line and a purified recombinant IL 2 preparation, it was shown that the proliferation of K3B01 cells was enhanced by the addition of recombinant IL 2. Moreover, this response was inhibited by anti-Tac antibody. These results demonstrate definitively that IL 2 acts directly on B cells through IL 2 receptors on them.     

Accessory function and interleukin 1 production by human leukemic cell lines

Highly purified T lymphocytes do not proliferate in response to mitogens, unless adherent HLA-DR-positive monocytes are added to the culture. This accessory function (AF) of monocytes requires the release of interleukin 1 (IL 1). Cells from three human leukemic cell lines, K562, HL60, and U937, could very efficiently replace monocytes in a 72-hr mitogen-induced T cell proliferation assay. The AF was clearly related to precise maturational stages of these cells; the hematopoietic precursor K562 cells spontaneously exerted high AF, but lost this property when treated with differentiation inducers. On the contrary, the promyelocytic HL60 cells and the "histiocytic" U937 cells exhibited no spontaneous AF, but acquired this property when induced to differentiate along the granulocytic and/or monocytic pathway. Three leukemic cells could not only stimulate T cells to proliferate and produce IL 2 in the presence of mitogens, but also under appropriate culture conditions these cells could produce IL 1, which could not be distinguished from normal human monocyte derived IL 1 by gel filtration and isoelectric focusing. Moreover, analysis of phenotypic markers revealed that AF and production of IL 1 could be demonstrated in different cell types and therefore are not restricted to the monocytic lineage. No HLA-DR antigen could be detected on K562 and HL60 cells. Thus, the expression of the DR antigens is not required for AF and IL 1 production in response to mitogens. These three human leukemic cell lines will provide convenient sources of human IL 1.     

Induction of interleukin 3 but not interleukin 2 or interferon production in the syngeneic mixed lymphocyte reaction

The syngeneic mixed lymphocyte reaction (SMLR) was assayed in the medium containing syngeneic normal mouse serum (NMS), by using nylon-adherent stimulator cells and nonadherent responder T cells, which were prepared from murine spleens in the absence of fetal calf serum (FCS) to avoid any sensitization to xenogeneic protein antigens. The responder cells in this SMLR, without definite background proliferation, generated specific proliferative response to the syngeneic stimulator cells in a dose-related fashion. The SMLR was accompanied by production of interleukin 3 (IL 3) but not interleukin 2 (IL 2) or interferon (IFN). No cytotoxicity against the syngeneic or allogeneic target cells was induced. Correlating with no production of IL 2 or IFN, no natural killer (NK) activity was detected. The proliferation was not inhibited by addition of specific antiserum for IFN-gamma. In contrast, proliferation in the responder cells when incubated with allogeneic stimulator cells was inhibited by anti-IFN-gamma serum and accompanied by production of IL 2 and IFN as well as IL 3, and by augmentation of NK activity and generation of cytotoxic T cells. Cell surface analysis revealed that the cells producing IL 3 in this SMLR system were Thy-1+ Lyt-1+2- helper T cells. Cells responding to the SMLR culture fluids with DNA replication were Thy-1-Lyt-1-2- asialo GM1- no-marker cells, which were the same as a population responsible for partially purified IL 3. On the other hand, when the responder cells were exposed to FCS before culture and assayed for SMLR in the FCS-free NMS medium, variable levels of IL 2 production were induced in response to the stimulator cells. The responder cells generated a high background DNA replication in the absence of syngeneic stimulators, suggesting that this IL 2 production may result from the stimulation of T cells by FCS as a foreign antigen. Overall, these results suggest that the SMLR may be a cellular interaction, in which non-T cells stimulate Lyt-1+2- helper T cells to produce IL 3 but not IL 2 or IFN. This IL 3 can, in turn, induce proliferation of IL 3 responding cells, which appear to be early precursors in lymphocyte differentiation, but no proliferative response or activation of IL 2- and IFN-dependent mature T cells or NK cells.     

Growth of an interleukin 2/interleukin 4-dependent T cell line induced by granulocyte-macrophage colony-stimulating factor (GM-CSF)

Lymphokine activities in conditioned medium from activated helper T cell lines are most commonly defined by the proliferation of "specific" lymphokine-dependent cell lines. Various sublines of IL 2-dependent (and ostensibly specific) HT-2 and CTLL cells have now been shown to proliferate in response to BSF-1/IL 4 as well. After activation with antigen or mitogen, D10.G4.1, an antigen-specific cloned T helper cell that has recently been shown to produce IL 4 but not IL 2, secretes two distinct cytokines that induce the growth of HT-2 cells. These "T cell growth factors" (TCGF) can be separated by reversed phase high-performance liquid chromatography (RP-HPLC). The TCGF activity of one of these factors can be blocked by 11B11, an antibody specific for IL 4. The second TCGF activity is not affected by 11B11 or by antibodies specific for IL 2. This TCGF activity can be neutralized by a goat polyclonal antibody to granulocyte-macrophage colony-stimulating factor (GM-CSF), and has a RP-HPLC elution profile identical to that of recombinant GM-CSF. Recombinant GM-CSF induces both proliferation and long-term growth of HT-2 but not CTLL cells, and this activity can be neutralized by the same antibody to GM-CSF. GM-CSF is best known as a factor that induces the maturation and growth of granulocytes and macrophages from bone marrow-derived hematopoietic precursor cells. The ability of GM-CSF to induce the growth of certain T cell lines indicates that this molecule may play a role in T cell-mediated immune responses, either as an autocrine growth factor or a paracrine stimulus from both lymphoid and nonlymphoid tissues that produce this cytokine.     

Defective cell-mediated immunity in leprosy: failure of T cells from lepromatous leprosy patients to respond to Mycobacterium leprae is associated with defective expression of interleukin 2 receptors and is not reconstituted by interleukin 2

Patients with lepromatous leprosy (LL) but not borderline tuberculoid leprosy (BT) have defective cell-mediated immune responses to Mycobacterium leprae, despite normal responses to other stimuli, as judged by in vivo skin testing and in vitro lymphocyte transformation. To investigate the basis of the immune defect in LL patients, we studied the ability of patient mononuclear leukocytes to produce interleukin 1 (IL 1) and interleukin 2 (IL 2) upon stimulation with M. leprae, and determined the ability of exogenous IL 1 and IL 2 to reconstitute the LL patient response to this antigen in vitro. Equal numbers of adherent non-T cells from LL and BT patients produced similar amounts of IL 1 upon challenge with M. leprae, and addition of IL 1 to the culture medium failed to reconstitute the response of lymphocytes from LL patients to M. leprae. On the other hand, T cells of LL patients failed to express receptors for IL 2 or to produce IL 2 in response to M. leprae, whereas similarly treated T cells of BT patients both expressed IL 2 receptors and produced IL 2. Finally, recombinant human IL 2 purified to homogeneity as well as crude supernatants of mitogen-activated lymphocytes failed to reconstitute the response of LL patients to M. leprae. These results suggest that T cells of LL patients fail to respond to M. leprae despite an ability to produce IL 1 and that their failure to express receptors for IL 2 may explain both defective proliferation and the failure of exogenous IL 2 to reconstitute the response.     

Production of interleukin 1 by adult T cell leukemia (ATL) cell lines

The accessory function for T cell activation and the production of interleukin 1 (IL 1) of adult T cell leukemia (ATL) cell lines were studied in vitro. ATL cell lines such as Hut-102, MT-1, and MT-2 functioned as accessory cells for the stimulation of human T cell proliferative response induced with concanavalin A (Con A) and induced allogeneic mixed lymphocyte reaction. Cell lysates of three ATL cell lines and the culture supernatant of MT-2 cells had activities to stimulate murine thymocyte proliferative response. Then we studied physicochemical properties of the factors produced by MT-2 cells. The m.w. of the factors were approximately 15,000 by Sephacryl S-200 column chromatography, and their isoelectric point values were 5.4 and 4.8 by chromatofocussing technique. No fraction contained interleukin 2 (IL 2) activities to stimulate IL 2-dependent murine cytotoxic T cell line. The thymocyte-stimulating activities of the factors were absorbed with rabbit anti-IL 1 alpha antiserum, but not with anti-IL 1 beta antiserum. Furthermore, messenger RNA extracted from MT-2 cells hybridized to complementary DNA of IL 1 alpha, but not of IL 1 beta, by Northern blot hybridization analysis. The factors from MT-2 cells could stimulate the production of IL 2 and the expression of IL 2 receptors of human T cells in the presence of Con A as well as recombinant IL 1 alpha and IL 1 beta did, and these activities were also blocked by rabbit anti-IL 1 alpha antiserum, but not by anti-IL 1 beta antiserum. These results suggest that the factors produced by MT-2 cells correspond to IL 1 alpha. However, the accessory function of MT-2 cells for T cell activation was not blocked by rabbit anti-IL 1 antiserum. These results suggest that ATL cell lines produce IL 1-like factors, but the accessory function of ATL cell lines for T cell activation is mediated by some other mechanisms rather than by secreted IL 1-like factors.     

Interleukin 1-dependent induction of both interleukin 2 secretion and interleukin 2 receptor expression by thymoma cells

The macrophage-derived product, interleukin 1 (IL 1) is thought to play an important regulatory role in the proliferation of T lymphocytes; however, its mechanism of action is unknown. We describe in this report a variant subline of EL4 thymoma cells (EL4-6.1) that displays a high degree of responsiveness to IL 1. We show that recombinant IL 1 can induce both the secretion of interleukin 2 (IL 2) and the expression of IL 2 receptors (IL 2-R) by these cells. EL4-6.1 cells do not constitutively secrete IL 2, nor do they express IL 2-R; but when cultured in the presence of recombinant IL 1, they secrete detectable amounts of IL 2 (5 to 15 U/ml). In the presence of either suboptimal levels of phorbol ester (PMA) or Ionomycin, the addition of IL 1 resulted in up to an 80-fold enhancement in the amount of IL 2 secreted. Stimulation with IL 1 alone or in combination with Ionomycin was unable to induce detectable IL 2-R expression by EL4-6.1 cells. However, in the presence of suboptimal concentrations of PMA, IL 1 induced expression of about 3000 high affinity (dissociation constant, Kd of 31 pM) and 50,000 low affinity (Kd of 2800 pM) IL 2-R. These IL 2-R were functional, based on their ability to rapidly internalize IL 2. This model system will allow a detailed analysis of the mechanisms involved in the regulation of the immune response by IL 1 and IL 2.     

In vitro maturation of B cells in chronic lymphocytic leukemia. I. Synergistic action of phorbol ester and interleukin 2 in the induction of Tac antigen expression and interleukin 2 responsiveness in leukemic B cells

Recent evidence indicates that interleukin 2 (IL 2), formerly thought to serve as growth factor exclusively for activated T cells, is directly involved in human B cell differentiation. We have investigated the role of IL 2 and IL 2 receptors (as defined by monoclonal anti-Tac antibody) in the phorbol ester-induced in vitro maturation of leukemic B cells from patients with chronic lymphocytic leukemia (CLL). Peripheral blood lymphocytes from B cells from CLL patients with high (greater than 10(5)/microliters) white blood cell counts were depleted of residual T lymphocytes and low-density cells (primarily macrophages) by consecutive steps of E rosetting, complement-mediated lysis of OKT3+ and OKT4+ cells, and Percoll density gradient centrifugation. No OKT3+ T cells were detectable in these cell populations before or after culture. When incubated for 3 days with phorbol ester plus recombinant human IL 2 (rIL 2), 12 to 57% of highly purified B cells from four of five tested patients expressed Tac antigen. Both phorbol ester and rIL 2 were required for maximal Tac antigen expression. Functional studies revealed that phorbol ester-activated (but not resting) CLL B cells responded to rIL 2 with [3H]thymidine incorporation and with enhanced secretion of IgM. Tac+ B cells were isolated in two cases on a fluorescence-activated cell sorter. In one patient, stimulation of Tac+ B cells with rIL 2 resulted in enhanced [3H]thymidine incorporation but no change in IgM secretion, as compared with Tac- B cells; in the second patient, stimulation of Tac+ B cells with rIL 2 did not result in [3H]thymidine uptake, but did result in significant IgM secretion. These findings indicate that certain leukemic B lymphocytes can be induced to express IL 2 receptors and respond to IL 2. The use of resting clonal B cell populations arrested at distinct stages of differentiation may help to better define the stage(s) at which IL 2 acts directly on B cells to induce proliferation and/or terminal differentiation.     

Synergy between B cell differentiation factors and interleukin 2, using a monoclonal system

By using monoclonal B cell targets, cells derived from patients with chronic lymphocytic leukemia, and B cell differentiation factors (BCDF) derived from monoclonal human T cell hybridomas, we have demonstrated marked synergy for differentiation between interleukin 2 (IL 2) and BCDF. IL 2 alone had no effect on the proliferation of differentiation to immunoglobulin secretion in these cell populations; however, in conjunction with a variety of BCDF, differentiation to plaque-forming cells (PFC) was augmented 10- to 100-fold. There was no increase in proliferation as measured by [3H]thymidine incorporation. These effects could be demonstrated with concentrations of IL 2 as low as 5 U/culture, well within the physiologic range, by using either commercially available or recombinant IL 2. The addition of IL 2 to the B cell and BCDF cultures resulted in almost 100% expression of the IL 2 receptor, Tac, on the surface of these cells, and the augmented PFC response could be inhibited 70 to 80% by the addition of anti-Tac to the culture. Kinetic studies revealed that the addition of IL 2 to the B cell cultures could be delayed for up to 72 hr without a change in the PFC response, suggesting that IL 2 was acting as a secondary or synergistic signal for differentiation. Thus, it appears that IL 2 does have a role in B cell maturation mediated, in part, by IL 2 binding to the IL 2 receptor present on certain B cells.     

Regulation of interleukin 2 receptor expression on murine cytotoxic T lymphocyte clones

We have previously reported that influenza virus-specific cytotoxic T lymphocyte (CTL) clones require antigen and exogenous growth factors for continued proliferation in culture. In this report we show that after stimulation with specific antigen, cloned CTL are capable of limited proliferation in response to interleukin 2 (IL 2) alone but with time these large blast-like cells revert to smaller, quiescent cells that are no longer responsive to IL 2. The IL 2-unresponsive CTL can not be driven to proliferate by supra-optimal concentrations of IL 2, and unresponsiveness correlates with decreased ability to absorb IL 2 from conditioned medium at 0 degrees C, suggesting that unresponsiveness is due to diminished IL 2 receptors. Stimulation of the unresponsive CTL with antigen leads to re-expression of the IL 2 receptor. Decreased absorbing capacity of the unresponsive cells could not be accounted for by their smaller surface area, and the IL 2-unresponsive cells seemed not to down-regulate all their immune functions, as they remained cytotoxic. These results provide a basis for the role of specific antigen in maintaining CTL clones in vitro. Furthermore, these results suggest that antigen-dependent CTL lines can be regulated and that antigen and IL 2 both play a role in their regulation.     

Antigen-specific, interleukin 2-propagated T lymphocytes confer resistance to a murine malarial parasite, Plasmodium chabaudi adami

To explore cell-mediated immune mechanisms in host defense against malaria, we utilized a murine model system in which antibody-independent mechanisms of immunity are known to play a major role. Splenic T lymphocytes obtained from Plasmodium chabaudi adami-immune mice were maintained in vitro by using IL 2-containing medium and frequent antigenic stimulation. These IL 2-propagated T lymphocytes were characterized for their antigen reactivity, surface phenotype, and ability to confer protection to P. chabaudi adami in reconstituted mice. IL 2-dependent T lymphocytes maintained their capacity to proliferate in vitro to solubilized parasite preparations of homologous but not heterologous antigens. Antigen-specific proliferation was H-2 restricted, requiring antigen-presenting cells of the correct haplotype. More importantly, these propagated T lymphocytes were effective in adoptively transferring protection to both athymic nude mice and sublethally irradiated recipients. The protective response was dose dependent and antigen specific, because recipients resisted challenge infection with P. chabaudi adami but not with the heterologous parasite Plasmodium yoelii 17X. Pretreatment of the IL 2-propagated cells with anti-Thy-1.2 and complement abrogated their ability to transfer protection. Collectively, these results suggest that T lymphocytes obtained from P. chabaudi adami-immune mice, propagated and expanded in vitro, retain antigen specificity and passive protective activity in vivo.     

Regulation of interleukin 2 receptor expression on a human cytotoxic T lymphocyte clone, synergism between alloantigenic stimulation and interleukin 2

A human T cell clone (termed 40.2.6) established from a rejected human kidney allograft has been studied for its ability to express membrane IL 2 receptors in response to antigen (irradiated cells from the graft's donor) and recombinant IL 2 (rec-IL 2). On antigenic stimulation, the 40.2.6 clone produced low levels (0.15 U/ml) of IL 2 (peak at 24 hr) and incorporated (3H)thymidine (peak at 48 hr). This incorporation was strongly enhanced on addition of rec-IL 2 and was inhibited by the 33B31 antibody, an anti-human IL 2 receptor monoclonal antibody (Mab). The 125I-labeled 33B31 Mab has been used to quantify the density of IL 2 receptors on 40.2.6 cells. Cells not re-exposed to antigen or rec-IL 2 had a level of 33B31-binding sites which declined rapidly (10% of starting value after 2 days). This level remained much more stable when rec-IL 2 (1 U/ml) was present in the medium (80% at day 2). Antigen induced a three- to eightfold increase in the level of 33B31-binding sites which peaked at 24 hr and then declined. When a similar antigenic stimulation was performed in the presence of rec-IL 2 (1 U/ml), the level of 33B31-binding sites peaked at a higher value (eight- to 20-fold increase at day 2), and its subsequent decline was slower. These potentiating effects of rec-IL 2 were dose-dependent and occurred at low concentrations corresponding to the saturation by rec-IL 2 of high affinity IL 2 receptor sites. Finally, high affinity IL 2 receptors, as measured by the binding of 35S-labeled rec-IL 2, were found to be similarly up-regulated by antigen and rec-IL 2. Together, our results obtained on a monoclonal human T cell population with highly purified rec-IL 2 demonstrate that rec-IL 2 and antigen act in synergy to induce the expression of both high and low affinity membrane IL 2 receptors.     

Ontogeny of interleukin 2 responsive cells in the fetal thymus

The ontogeny of IL 2-responsive cells in the thymus of CBA/J mice was examined in neonatal animals and in fetuses at 14, 16, and 18 to 20 days gestation. The thymocytes were tested for responsiveness to 2 micrograms/ml Con A, TCGF, IL 2, and co-stimulation by Con A plus TCGF or IL 2. These responses were compared with those of thymocytes of 6- to 8-wk-old CBA/J. Thymocytes (1 X 10(5)) were cultured, and the reaction was measured at maximum response (96 hr). Neonatal animals gave an unusually high response to TCGF or partially purified IL 2 alone, approximately five times greater than the adult. A low but significantly enhanced proliferation, stimulated by partially purified IL 2 alone, was observed with 14-day fetal thymocytes, even though cultures of these cells in medium alone had higher background proliferation than any other age tested. In the co-stimulator reaction, proliferation significantly above background was measured at 16 days of gestation with Con A plus TCGF. The magnitude of the co-stimulator reaction increased with age, especially between the 16th and 18th day of gestation and immediately after birth.     

Mechanisms of human T cell response to mitogens: IL 2 induces IL 2 receptor expression and proliferation but not IL 2 synthesis in PHA-stimulated T cells

Human peripheral blood T cells were purified by a four-step procedure which included depletion of plastic-adherent cells, rosetting with sheep red blood cells, nylon wool passage, and treatment with mouse monoclonal antibodies to human Ia antigens plus complement. The purified T cells completely failed to proliferate to phytohemagglutinin (PHA). Bacterially derived recombinant human interleukin 2 (IL 2) reconstituted the proliferative response of resting T cells to PHA. The optimal concentration of IL 2 required was 100 to 200 U/ml. IL 2 alone caused no T cell proliferation. Both PHA and IL 2 needed to be present together for the proliferation of T cells to occur. Incubation of T cells with either PHA or IL 2 alone for up to 18 hr, followed by washing, then by the addition of the reciprocal reagent, resulted in no T cell proliferation. Expression of IL 2 receptors and of Ia antigens, as assessed by indirect immunofluorescent staining, revealed that both PHA and IL 2 needed to be present for Tac and Ia antigen expression by T cells. T cells incubated with PHA and IL 2 for 18 to 42 hr acquired responsiveness to IL 2. These T cells remained absolutely dependent on IL 2 for proliferation to occur. In contrast to T cells stimulated with PHA in the presence of monocytes, T cells stimulated with PHA and IL 2 released no detectable IL 2. The failure of IL 2 secretion was not caused by down-regulation of IL 2 production by IL 2 itself, because the addition of IL 2 to cultures of T cells stimulated with PHA in the presence of monocytes did not interfere with IL 2 production. These results indicate that IL 2 is a sufficient signal to induce the expression of its receptor in PHA-stimulated T cells and subsequent proliferation but is not sufficient to cause endogenous IL 2 release.     

Destruction of autologous human lymphocytes by interleukin 2-activated cytotoxic cells

Human and murine lymphocyte populations differentiate into lymphokine activated killer (LAK) cells after in vitro or in vivo exposure to interleukin 2 (IL 2). LAK cells mediate destruction of neoplastic tissue in vitro and have been reported to spare normal tissue. However, systemic toxicity is observed in mice and patients receiving IL 2 infusions. Some aspects of this toxicity are similar to that seen in graft-vs-host disease, suggesting that IL 2 may cause an immune-mediated destruction of normal tissues. We have evaluated this issue by examining the destructive potential of fresh human lymphocytes cultured in media containing highly purified recombinant human IL 2. In the absence of any exogenous antigen or allogeneic stimulating cells, strong proliferative responses were induced after 6 days of exposure to IL 2. Lymphocytes harvested from these 6-day cultures were highly cytotoxic to K562 and Daudi target cells. These IL 2-activated cells were also cytotoxic against autologous and allogeneic normal lymphocyte target cells. This autologous lymphocyte destruction was detected in media containing autologous serum and was directly dependent on the concentration of IL 2 added to the cultures. These studies demonstrate that populations of IL 2-activated lymphocytes, containing LAK activity, can mediate low-level but significant destruction of normal lymphocytes in vitro.     

Development and characterization of a human B cell line that responds to B cell growth factor but not interleukin 2

The human lymphoblastoid cell line we present here proliferated in response to a 14,000 m.w. B cell growth factor (BCGF), and not to interleukin 2 (IL 2). This cell line, designated B-A3, was established by Epstein Barr virus (EBV) transformation of Staphylococcus aureus Cowan I (SAC)-activated spleen B cells, and has been maintained in RPMI 1640 medium complemented with 15% fetal calf serum (FCS) without the addition of other exogenous growth factors. A proliferative response, as measured by [3H]thymidine uptake of B-A3 cells was significantly induced by either commercial IL 2-free human BCGF preparations, or phytohemagglutinin-stimulated mixed lymphocyte culture supernatant at all FCS concentrations used in the assay. The most marked proliferation due to BCGF, however, was observed in the absence of FCS. This BCGF-induced proliferation was not influenced by IL 2 or interferon-gamma (IFN-gamma), because both recombinant IL 2 and IFN-gamma failed to induce proliferation. The response of B-A3 cells to a specific BCGF was additionally indicated by the responsiveness of this cell line to BCGF purified by a series of chromatographic steps. The BCGF to which B-A3 cells responded had a m.w. of 14,000 and was similar to low m.w. BCGF reported from other laboratories. Surface characterization of B-A3 cells, analyzed by flow cytometry with a panel of monoclonal antibodies, demonstrated that the majority of B-A3 cells were stained positively with Leu-12, HLA-DR, and surface IgG markers, whereas staining with surface IgM, IgD markers, pan T cell markers (Leu-4 and Leu-9), and IL 2 receptor (Tac) were consistently negative. Taken together, the human lymphoblastoid cell line we present here responded specifically to a low m.w. BCGF. This cell line may be of value in the purification of BCGF to homogeneity, in studies of the interactions of BCGF with human B cells, and in the identification of the BCGF receptor.     

Systemic administration of recombinant interleukin 2 stimulates in vivo lymphoid cell proliferation in tissues

Recent work in our laboratory has demonstrated that the repeated injections of high doses of recombinant interleukin 2 (IL 2) can dramatically reduce the number of established pulmonary and hepatic metastases and the growth of intradermal tumors in a variety of murine tumor models. We have thus undertaken studies to define the mechanisms underlying these in vivo effects of IL 2. Using an in vivo DNA-labeling technique in which we employed 5-[125I]iodo-2'-deoxyuridine (125IUdR), we examined the in vivo cell proliferation in the tissues of mice treated with IL 2. A proliferation index (PI) was calculated by dividing the raw counts per minute (cpm) of tissues in IL 2-treated mice by the cpm in corresponding tissues of control animals. At an IL 2 dose of 6000 U given i.p. three times a day, the highest 125IUdR incorporation was seen in the lungs, liver, spleen, kidneys, and mesenteric lymph nodes (PI = 6.9, 6.9, 5.1, 7.1, 24.6, respectively, at 5 days). The amount of lymphoid proliferation in these organs was a direct function of the dose of IL 2 administered. Other tissues including thymus, intestines, skin, and hind limb showed no significant increase in 125IUdR uptake even after host treatment with the highest doses of IL 2. Blood and brain demonstrated intermediate incorporation of the radiolabel. Preirradiation of the host largely eliminated the proliferative response to IL 2. Histologic studies of normal and irradiated mice receiving IL 2 corroborated the result of the 125IUdR findings. In normal IL 2-treated mice, large collections of activated lymphoid cells were seen, most prominently in the lungs, liver, and kidneys, whereas markedly decreased lymphoid proliferation was evident histologically in preirradiated mice. A fluorescein-labeled monoclonal antibody directed against the Thy-1.2 surface determinant was used to identify these dividing cells in frozen tissue sections as T lymphoid cells. Activated lymphocytes isolated from the lungs, liver, spleen, and mesenteric lymph nodes of IL 2-treated mice demonstrated significant lysis of a fresh murine sarcoma target in short-term 51Cr-release assays. These studies demonstrate that the systemic administration of recombinant IL 2 causes in vivo activation and proliferation of host lymphoid cells and has important implications for the adoptive immunotherapy of tumors.     

Regulation of hepatic acute phase protein synthesis by products of interleukin 2 (IL 2)-stimulated human peripheral blood mononuclear cells

Cancer patients injected with recombinant human IL 2 develop marked changes in serum concentrations of hepatic acute-phase proteins. To determine if this acute-phase response involves a change in the rate of hepatic protein synthesis and if it is due to a direct effect of IL 2 on hepatocytes, human hepatoma-derived hepatocytes (Hep-3B cells) were incubated in medium containing IL 2 or in culture supernatants from IL 2-activated human peripheral blood mononuclear cells (PBMNC). The rate of synthesis of two acute-phase proteins, complement protein factor B and albumin, was determined by the incorporation of a radiolabeled amino acid precursor into newly synthesized protein as measured by analytical gel electrophoresis of immunoprecipitates. IL 2 in concentrations from 1 to 1000 U/ml had no effect on the synthesis of factor B or albumin; conversely, there was a dose-dependent increase in the rate of synthesis of factor B and decrease in albumin synthesis mediated by culture supernatants of IL 2-activated PBMNC. The magnitude of the effect of acute-phase protein synthesis was dependent on the IL 2 concentration used for the activation of PBMNC. The rate of factor B synthesis increased approximately 4.0-fold in the presence of culture supernatants of PBMNC activated with either opsonized heat-killed Staphylococcus albus or with 1000 U/ml IL 2. Preincubation of the IL 2-activated PBMNC culture supernatants with an antiserum specific for recombinant IL 1-beta completely neutralized the capacity of the supernatants to stimulate factor B synthesis, whereas antisera specific for human IL 1-alpha or for tumor necrosis factor had no effect. These results indicate that the indirect effect of IL 2 on hepatic acute phase protein synthesis is mediated by IL 1-beta.     

Adoptive immunotherapy of a syngeneic murine leukemia with a tumor-specific cytotoxic T cell clone and recombinant human interleukin 2: correlation with clonal IL 2 receptor expression

The successful adoptive immunotherapy of the syngeneic Friend virus-induced murine leukemia FBL-3 was mediated by a proliferative MHC-restricted, tumor-specific CTL clone in combination with recombinant human IL 2. This clone was previously shown to express the L3T4-, Lyt-1+, Lyt-2+ surface phenotype. Activation of the clone for 48 hr in vitro with irradiated tumor cells induced the expression of IL 2 receptors and markedly increased clonal proliferation in response to recombinant IL 2. Intravenous injection of 2 X 10(7) 48 hr in vitro-activated cloned cells, followed by 6 days of systemic (i.p.) administration of IL 2 resulted in the complete regression of tumors and the cure of 50% of the treated mice. IL 2 alone had no effect on tumor growth, whereas the injection of nonactivated (resting) clone plus IL 2 or activated clone without IL 2 had small but insignificant effects on tumor growth and survival. These results indicated that the in vivo effector functions of cloned T cells may be markedly enhanced by the concurrent systemic administration of recombinant IL 2 and by the induction of optimal IL 2 receptor expression on the cloned T cells at the time of cell administration.