Evaluation of basic procedures for adoptive immunotherapy for gastric cancer

Peripheral blood lymphocytes (PBL) of gastric cancer patients in advanced stages showed lymphokine activated killer (LAK) activities comparable to those of healthy donors, suggesting potential applicability of LAK cells induced from PBL stimulated with recombinant interleukin-2 (rIL-2) in adoptive immunotherapy (AIT) for gastric cancer. In order to generate a large number of LAK cells from PBL, lymphocytes were cultured with both rIL-2 and phytohemagglutinin (PHA). In this culture, the numbers of cells increased to a greater extent than those in culture with rIL-2 alone but cytotoxic activity did not augment, thus suggesting that this procedure would not afford sufficient clinical effects. On the other hand, a large number of LAK cells with high anti-tumor activities were efficiently induced from spleen cells of the patients by culture of rIL-2; hence clinical usefulness of these LAK cells is anticipated. In regional lymph node lymphocytes (RLNL) cultured with rIL-2, the cytotoxic activities were lower than in those induced in PBL, and a characteristic increase of CD8 + CD11 + suppressor T cells was observed after incubation with rIL-2. Nevertheless, an increase of CD4 + 4B4⁺ helper inducer T cells was also observed in RLNL after the culture with rIL-2. Furthermore, high cytotoxic activities were induced in RLNL in some cases in which metastasis to the regional lymph nodes was not detected. When gastric cancer patients were pretreated with biological response modifiers (BRM), especially with Lentinan, LAK cells from PBL showed higher NK and LAK activities as compared with those of patients without BRM pretreatment.This work was partly supported by a grant from Hokkoku Cancer Research Foundation.     

The absence of lymphoid suppressor cells in tumor-involved lymph nodes of patients with head and neck cancer

Patients with head and neck cancer often have decreased local or regional immunocompetence. Lymphocytes obtained from tumor-involved or -uninvolved lymph nodes (LNL) of these patients showed low or undetectable levels of antitumor cytotoxicity and low proliferative responses in vitro to interleukin 2 (IL2) or mitogens in comparison to peripheral blood lymphocytes (PBL). Lymphokine-activated killer (LAK) cell activity of LNL was lower (P less than 0.05) than that of autologous PBL. Fresh LNL were neither enriched in cells with the CD8+ CD11b+ "suppressor" phenotype nor did they suppress proliferative or cytotoxic responses of autologous PBL in mixing experiments. LNL did not inhibit LAK cell generation from autologous PBL in the presence of IL2. Also, no evidence for the inhibition of autotumor-restricted responses by IL2-activated LNL was obtained. Spontaneous or in vitro-induced production of IL1 beta. TNF alpha, and IFN-tau was low or undetectable in LNL from tumor-involved and -uninvolved lymph nodes in comparison to that in normal or autologous PBL. Mitogen-induced IL2 production was normal in LNL. The depressed ability to produce certain cytokines may be in part responsible for a state of unresponsiveness present in lymph nodes obtained from patients with head and neck cancer. No evidence for the presence of lymphoid suppressor cell in LNL of these patients was obtained.     

In vivo administration of low-dose human interleukin-2 induces lymphokine-activated killer cells for enhanced cytolysis in vitro

We have examined the effect of the intradermal administration of IL-2 on the generation of natural killer (NK) cell and lymphokine-activated killer (LAK) cell activity. Peripheral blood mononuclear cells (PBMC) obtained from borderline lepromatous (BL) and lepromatous leprosy (LL) patients and normal volunteers prior to and after IL-2 injection were stimulated in vitro with IL-2 and their cytolytic activities compared against 51Cr labeled target K562 cells, Daudi cells, and monocytes. Before IL-2 administration, PBMC obtained from BL/LL patients and normal volunteers possessed similar levels of NK cell activity indicating that the NK cell activity of the BL/LL patients was intact. LAK cell activity was induced with IL-2 in vitro in both BL/LL patients and in normal volunteers. The level of LAK cell activity in BL/LL patients was, however, suboptimal. A single intradermal dose of 25 micrograms IL-2 had no effect on the phenotype of circulating mononuclear cells in either patients or normal volunteers. However, 6-12 days after IL-2 injection and subsequent restimulation of the PBMC with IL-2 in vitro, cytolytic activity of LAK cells obtained from the BL/LL patients was enhanced while cells from normal volunteers expressed the same high levels of activity as observed before IL-2 injection.     

Natural killer cell activity in tumor-draining lymph nodes: investigations in patients with malignant melanoma and head and neck cancer

Mononuclear cells isolated from peripheral blood (PB) of patients with malignant melanoma and head and neck cancer were tested for natural killer (NK) cell activity against K562 targets. Significantly lower levels of NK activity were observed in patients with malignant melanoma with metastatic disease in comparison to stage I and control population. In head and neck cancer NK activity was normal in tumor stage 1-2 and significantly impaired in stage 3-4. Mononuclear cells (MNC) isolated from primary tumor-draining lymph nodes (LNs) had significant NK activity in 12 of 25 (48%) of melanoma and 9 of 19 (47%) of head and neck lymph nodes at E:T 40:1. Reactivity was always significantly lower than in autochthonous Preincubation (+37 degrees C, 18 h) of lymph node mononuclear cells (LNMNC) resulted in a significant increase in cytotoxicity in 36% of melanoma and 32% of head and neck LNs. Simultaneous incubation with interferon (IFN)-alpha resulted in 24% of melanoma and 44% of head and neck LNs in a significant further augmentation of NK activity. LNMNC were furthermore found to react in 2-24% (mean 7.79 +/- 2.1) with the monoclonal antibody HNK-1, which identifies a certain proportion of NK cells. No correlation was found between percentage HNK-1+ cells and the expression of NK activity. From these studies it may be concluded that tumor draining LNs contain cells which are active against K562 targets expressing low but variable levels of cytotoxicity. NK cell activity can be increased by incubation of LNMNC at 37 degrees C with or without addition of IFN. These results suggest that modulation of NK activity in tumor draining LNs might be achieved by local application of biological response modifiers, which might finally lead to an increase of local tumor defense mechanisms.     

Autologous tumor cell killing activity of tumor-associated lymphocytes in patients with head and neck carcinomas

In order to select the most cytotoxic effector cells for adoptive immunotherapy, lymphokine activated killer (LAK) cells, tumor infiltrating lymphocytes (TILs) and autologous mixed lymphocyte tumor cell culture (MLTC) cells derived from peripheral blood mononuclear cells (PBMC) in the same subject with head and neck carcinomas were prepared. The autologous tumor cell killing activity and cell surface phenotypes of each of the three effector cells were studied. MLTC cells cultured with interleukin-2 (IL-2) showed the strongest cytotoxic activity among these three different effector cells. Although TILs had suppressed killing activity immediately after isolation, after successive cultivations with IL-2, a cytotoxic activity against autologous tumor cells stronger than that of LAK cells appeared. Both IL-2 stimulated MLTC cells and TILs showed an enrichment of CD8 positive and CDU negative cells in a CD3 positive subpopulation.Abbreviations CD cluster differentiation - IL-2 interleukin-2 - LA lymphokine activated - LAK lymphokine activated killer - MLTC mixed lymphocyte tumor cell culture - NK natural killer - PBMC peripheral blood mononuclear cells - TILs tumor infiltrating lymphocytes     

Changes in homing receptor expression on murine lymphokine-activated killer cells during IL-2 exposure

The effects of IL-2 on the expression of homing receptors by lymphocytes of NK or lymphokine activated killer (LAK) cell derivation has not yet been evaluated. We developed a murine model to evaluate the potential of LAK cells to localize into peripheral lymph nodes since LAK cells are used to treat human cancers which have metastasized to these tissues. Using a frozen section binding assay, LAK cell adhesion to the lymph node microvasculature was easily demonstrable. Inhibition studies demonstrated that LAK cell binding to lymph nodes was mediated by mechanisms previously described in T cells. LAK cell surface expression of the 85- to 95-kDa homing receptor recognized by the antibody MEL-14 on LAK cells was assessed by indirect immunofluorescence. The percentage of cells which bound MEL-14 decreased slightly over 3 days of IL-2 exposure (from 73 to 60%), particularly in the large granular lymphocyte (cytotoxic effector) subpopulation (45% MEL-14+). The expression of another homing-related molecule, leukocyte function-associated Ag-1, markedly increased during activation of LAK cells. Despite the expression of these homing receptors, we observed almost no LAK cell localization into lymph nodes in vivo. Furthermore, IL-2 pretreatment of recipient animals did not increase the adhesion of LAK cells to lymph node microvasculature or enhance their extravasation. IL-2 activation of non-T, non-B lymphocytes results in significant changes in both the expression and function of cell surface homing receptors. Our results indicate that in vitro analysis does not always predict in vivo localization potential.     

Postoperative administration of interleukin-12 significantly enhances the anti-tumor immune response of MBT-2 bladder cancer bearing mice

This study, using the MBT-2 murine bladder tumor model, mainly investigated the role of interleukin-12 (IL-12) in the specific antitumor immune response of a tumor-bearing host when systemically administrated after surgery. Day 17 tumor-bearing mice (D17TBM) along with non-tumor bearing naive mice were treated with daily intraperitoneal (i.p.) injection of IL-12 (0.25 microg/mouse) from day 18 to day 24 for a total of 7 doses. Their splenocytes were obtained on Day 31 for natural killer cells (NK), lymphokine activated killer cells (LAK) and cytotoxic T lymphocyte (CTL) activity assay and lymphocyte subsets phenotypic analysis. The tumor suppression effect of systemic IL-12 administration was evaluated based on the tumor outgrowth of the higher number of tumor cells rechallenged 24 hours after resectioning of the primary tumor. After evaluation on Day 31, the result of in vitro cytotoxicity assay revealed that systemic administration of IL-12 mainly enhanced the splenic LAK and CTL activities in non-tumor-primed naive mice, and the NK activity in tumor-primed D17TBM, respectively. However, in vivo administration of IL-12 with or without IL-2 failed to upgrade the proportions of either CD4+ CD44+ or CD8+ CD44+ T cells subsets in the spleens and regional inguinal lymph nodes (LNs) of both the D17TBM and naive mice. However, the splenic CD8+ CD44+ T-cell subset in the IL-12-treated D17TBM increased prominently after further culturing in the presence of IL-2 400 units/ml plus IL-12 25 ng/ml for 4 days. The fact that systemic administration of IL-12 significantly suppressed the outgrowth of Day-18 challenged tumor cells, especially in D17TBM, clearly indicates that the established specific antitumor immunity in tumor-primed D17TBM was efficiently augmented. From the results of this study, we conclude that, after surgical resection of a primary tumor, systemic administration of IL-12 can be an effective adjuvant therapy because it demonstrates a significant augmentation effect on the tumor-specific immune response in the tumor-primed host.     

Systemic IL-1 and adjuvant treatment of an experimental tumor

In this investigation, systemic administration of interleukin-1 (IL-1) and local adjuvant therapy were shown to modify immunological parameters associated with the lymphatics draining the site of experimental tumor inoculation. These immunological parameters were shown to be modified early (within 7 days) following tumor inoculation and within the time period of IL-1 administration. IL-1 induced a marked increase in the number of lymphocytes within the brachial and axillary lymph nodes associated with the tumor inoculation site. This increase was characterized by an overall augmentation in the number of CD8⁺ and CD4⁺ lymphocytes.In vitro, these lymph node cells showed enhanced proliferation in response to interleukin-2 (IL-2) when compared to non-IL-1 treated animals, and were capable of mounting a potentially greater cytotoxic response for both NK sensitive and NK resistant tumor targets. Without IL-1 administration, temporal and sequential lymph node cellular changes were observed, but were diminished and delayed when compared to the IL-1 treated animals. By adoptive transfer of tumor resistance, lymph node cells from IL-1 treated animals were demonstrated to be tumor-protectivein vivo. These results demonstrate that systemic IL-1 induces regional changes in the lymphatics of mice undergoing primary tumor challenge with adjuvant therapy and that these changes result in tumor protection for the host.     

Functional studies on the precursors of human lymphokine-activated killer cells

Human peripheral blood lymphocytes cultured for 4 days in the interleukin 2 (IL-2)-containing cell-free supernatant of the MLA144 cell line (MLA144CM) are cytolytic to NK-susceptible and NK-resistant tumor target cells. This lymphokine-activated killer (LAK) activity is dependent on IL-2 as development of LAK activity is inhibited in the presence of a monoclonal antibody (MoAb) reacting with the IL-2 receptor (anti-Tac). Addition of cyclosporin A (CyA) to mixed lymphocyte cultures inhibits the development of allospecific cytotoxic activity and inhibits the development of IL-2 responsiveness. However, development of LAK activity is unaffected by the inclusion of CyA in the cultures, showing that the LAK precursor can be functionally distinguished from the allospecific cytotoxic precursor cell. Development of LAK activity does not require mature NK cells as shown by the generation of LAK activity from NK inactive human thymocytes and lymph node cells. In addition, depletion of NK activity from human PBL does not impair the development of LAK activity.     

Immunomodulation in patients receiving intravenous Bryostatin 1 in a phase I clinical study: comparison with effects of Bryostatin 1 on lymphocyte function in vitro

Summary Bryostatin 1 is a protein kinase C activator that inhibits growth of tumour cells and activates lymphocytes in vitro, properties that have encouraged its use in phase 1 clinical studies as an anticancer agent. We investigated interleukin-2(IL-2)-induced proliferation and lymphokine-activated killer (LAK) cell activity in peripheral blood mononuclear cells (PBMC) from cancer patients receiving Bryostatin intravenously. After Bryostatin administration both LAK generation and proliferation were enhanced when patients' PBMC were stimulated with IL-2 in vitro. However, when normal donors' PBMC were cultured in vitro in the presence Bryostatin and IL-2, LAK induction was inhibited while IL-2-driven proliferation was increased. These effects were also seen following only 2 h exposure to Bryostatin and could be elicited by conditioned medium from Bryostatin-pretreated cells. Neither IL-4 nor interferon was detected in the conditioned medium. Bryostatin in vitro was found to increase expression of IL-2 receptors on CD4⁺, CD8⁺ and CD56⁺ cells and augment the proportion of CD8⁺ cells in conjunction with IL-2. We conclude that Bryostatin in combination with IL-2 in vitro enhances proliferation and IL-2 receptor expression on lymphocytes, favouring CD8⁺ cells while suppressing the generation of LAK activity. Intravenous administration of Bryostatin increases the potential of IL-2 to induce proliferation and LAK activity in lymphocytes which, taken together with its putative direct antitumour effect, makes Bryostatin an interesting candidate for clinical trials in combination with IL-2.B.F. and P.L.S. are supported by the Cancer Research Campaign     

Cellular interactions in hemopoiesis

The role of immunocompetent cells in hemopoiesis remains controversial. We used an autologous system in which activated peripheral blood mononuclear cells (LAK) and interleukin-2 (IL-2) are administered to patients with cancer. We found little change in the numbers of circulating erythroid progenitors. Cocultures of these progenitors with LAK or supernatants lead to a decrease in the numbers of detectable burst forming units-erythroid (BFU-E) in culture. However, using an assay for burst promoting activity (BPA) we noted production of this hemopoietin by these LAK cells. We could not detect circulating levels of gamma interferon (IF). Variable levels were found in the LAK supernatants. We could not detect circulating eosinophil progenitors (CFU-Eo), but we did find evidence of production of a colony stimulating factor (CSF), which gave rise to a high number of eosinophil colonies in cultures of bone marrow. These results suggest that administration of LAK/IL-2 has potent effects on hemopoiesis and that these effects may emphasize the anemia and eosinophilia seen in patients receiving this therapy.     

Human lymphokine-activated killer (LAK) cells: III. Effect ofl-phenylalanine methyl ester on LAK cell activation from human peripheral blood mononuclear cells: Possible protease involvement of monocytes,natural killer cells and LAK cells

Summary We have shown that depletion of monocytes from human peripheral blood mononuclear cells (PBMC) byl-phenylalanine methyl ester (PheOMe) enhanced lymphokine-activated killer cell (LAK) generation by recombinant interleukin-2 (rIL-2) at high cell density. In this study, we have investigated the mechanism of action of PheOMe on LAK activation by using trypsin, chymotrypsin, tosylphenylalaninechloromethanol (TPCK, a chymotrypsin inhibitor), tosyl-l-lysinechloromethane (TLCK, a trypsin inhibitor), phenylalaninol (PheOH), and benzamidine. PBMC were treated with 1–5 mM PheOMe for 40 min at room temperature in combination with the various agents, washed and assessed for their effects on natural killer (NK) activity against K562 cells and monocyte depletion. The treated cells were then cultured with or without rIL-2 for 3 days. LAK cytotoxicity was assayed against⁵¹Cr-labeled K562 and Raji tumor target cells. TPCK at 10 µg/ml partially inhibited depletion of monocytes by PheOMe. TLCK did not prevent depletion of monocytes nor inhibition of NK activity induced by PheOMe. TPCK and TLCK inhibited NK activity by themselves. TPCK but not TLCK inhibited rIL-2 induction of LAK cells. On the other hand, PheOH and benzamidine (analogs of PheOMe) lacked any effect on monocyte depletion but abrogated the inhibitory effect of PheOMe on NK activity. They had no effect on rIL-2 activation of LAK activity enhanced by PheOMe. Trypsin potentiated the inhibitory effect of PheOMe on NK activity and monocyte depletion. Trypsin partially inhibited IL-2 activation of LAK activity enhanced by PheOMe. Chymotrypsin had little effect on NK activity but prevented the inhibitory effect of PheOMe on NK activity. It had little effect on monocyte depletion induced by PheOMe. PheOMe was hydrolysed by monocytes and chymotrypsin to Phe and methanol as determined by HPLC. TPCK inhibited hydrolysis of PheOMe by monocytes. Our data suggest that the effects of PheOMe on monocytes, NK cells and LAK activation involve protease activities of monocytes.     

High expression of NKR-P1 is not an absolute requirement for natural killer activity in BDIX rats

 NKR-P1 has been identified as a triggering structure selectively expressed on rat natural killer (NK) cells and adherent lymphokine-activated killer (A-LAK) cells. In vivo treatment with anti-NKR-P1 monoclonal antibody (mAb 3.2.3) was shown to induce complete inhibition of NK cytotoxicity and elimination of LAK cell precursors in Lewis and Fisher rat strains. We investigated the effects of mAb 3.2.3 in a colon tumor model in BDIX rats. Inoculation of animals with mAb 3.2.3 even at very high doses induced a strong but incomplete inhibition of NK cytotoxicity in nylon-wool-non-adherent spleen and peripheral blood cells. Generation of adherent A-LAK cells from their spleen precursors was also strongly but not fully inhibited. We also investigated the effect of treatment with mAb 3.2.3 on the tumorigenicity of the NK-sensitive REGb cell line. When subcutaneously inoculated in syngeneic animals, REGb cells induce tumors that first grow for 2 weeks, then spontaneously regress and disappear. In contrast with previous results using anti-asialoGM1, no significant difference in tumor growth was observed between rats treated with mAb 3.2.3 and control animals, even with a long-term treatment. In vitro, mAb 3.2.3 exhibited the same incomplete efficiency. Nylon-wool-non-adherent spleen cells treated with mAb 3.2.3 plus complement were completely free of 3.2.3^bright cells, but retained a substantial NK activity and generated LAK cells after culture with IL-2. After an overnight incubation in standard medium of 3.2.3-depleted spleen cells, 3.2.3^bright cells were partially recovered and the NK cytotoxic activity, as well as the generation of LAK cells, was significantly enhanced. These results suggest that a strong expression of NKR-P1 is not required for BDIX mononuclear cells to exhibit NK function and generate LAK cells under IL-2 activation. Received: 11 July 1995 / Accepted: 16 November 1995     

No effects of extremely low frequency magnetic fields found on cytotoxic activities and cytokine production of human peripheral blood mononuclear cells in vitro

Several epidemiologic studies have suggested an association between exposure to extremely low frequency (ELF) magnetic fields (MFs) and cancer in adults and children. A possible target of MFs is the immune system. The effects of the exposure to ELF MFs on the immunological functions of human peripheral blood mononuclear cells (PBMCs) obtained from healthy male volunteers were assessed by measuring the natural killer (NK) and lymphokine activated killer (LAK) activities and the production of interferon-gamma (IFN-gamma), tumor necrosis factor-alpha (TNF-alpha), interleukin-2 (IL-2), and interleukin-10 (IL-10). The PBMCs were exposed to three different MF: linearly polarized (vertical), circularly polarized, and elliptically polarized, at 50 and 60 Hz. Magnetic flux densities were set at 500, 100, 20, and 2 microT (rms) for vertical field and at 500 microT (rms) for the rotating fields. Using cytotoxicity assay and enzyme-linked immunosorbent assay (ELISA) for cytokine production, we could not find any effects of ELF MFs on the cytotoxic activities and the cytokines production of human PBMCs.     

Matrix metalloproteinases 2 and 9 as the factors of head and neck tumor metastases

The levels of metalloproteinases (MMP-2,-9), their tissue inhibitors (TIMP-1,-2) and extracellular matrix metalloproteinase inducer (EMMPRIN) were studied in tumor tissue and blood serum from patients with head and neck squamous cell carcinoma. Immunohistochemical investigation showed much higher expression of MMP-9 and TIMP-1 in tumor tissue compared with MMP-2 and TIMP-2. There was different distribution of the investigated parameters (except TIMP-1) in cancer cells and stroma. Accumulation of MMP-2, MMP-9, and TIMP-2 was found mainly in cell elements (fibrocytes, leukocytes, etc.) and in stromal extracellular space. Expression of EMMPRIN was significantly higher in tumor cells than in stromal cells. It is possible that carcinoma cells express EMMPRIN, which may increase MMP production by surrounding cells. There was significant decrease of TIMP-1 expression in carcinoma cells with N1 grade of metastasis than in tumors without metastasis. The level of TIMP-1 in blood serum from patients with tumor metastases to regional lymph nodes was lower than in serum from patients without metastases. Thus, MMP-9 and TIMP-1 play an important role in the development of head and neck squamous cell carcinoma and the TIMP-1 level in blood serum and cancer tissues is linked to the first grade of regional lymph node metastasis.     

Induction of human lymphokine-activated killer cells by IFN-alpha and IFN-gamma

By traditional definitions, NK cells can be activated by cytokines to exhibit two functionally distinct levels of cytotoxicity. Whereas IL-2-mediated activation of NK cells leads to the development of lymphokine-activated killer (LAK) cytotoxicity, characterized by the acquisition of cytolytic activity against NK-resistant targets, IFN-treated NK cells become activated without the acquisition of novel cytolytic specificities. In this study we show that NK cells activated by 18 to 24 h of stimulation with either IFN-alpha or IFN-gamma do acquire LAK cytolytic activity, demonstrated by the ability of IFN-treated PBMC to lyse NK-resistant COLO 205 cells as well as fresh tumor targets. The level of IFN-alpha-induced LAK activity was significantly greater than that induced by IFN-gamma, although IL-2-induced LAK activity was considerably greater than IFN-alpha-induced LAK cytotoxicity. Maximal IFN-induced LAK cytotoxicity occurred after 24 h of culture, and occurred with the use of IFN-alpha at 500 U/ml and IFN-gamma at 1000 U/ml. Whereas neutralizing antibody experiments demonstrated that IFN-alpha-induced LAK activation did not involve the participation of endogenously produced IL-2, the partial inhibition (63%) of IFN-gamma-induced LAK cytotoxicity by anti-IL-2 and of IL-2-induced LAK by anti-IFN-gamma (33.3%) indicates that the induction of LAK cytotoxicity by either of these individual cytokines involves the endogenous production and participation of the other cytokine. Similar to IL-2-induced LAK cells, phenotypic analysis revealed that IFN-alpha/gamma LAK cells were Leu-19+, although the Leu 19"dim"+ subset exhibited greater IFN-induced LAK activity than the Leu-19"bright"+ subset. The results of this study clearly demonstrate that IFN-alpha and IFN-gamma induce classic LAK activity and IFN-gamma plays a participatory role in the optimal induction of LAK cells by IL-2.     

Regulation of human cytolytic lymphocyte responses by interleukin-12.

IL-12 is a heterodimeric cytokine which has been shown to cause the proliferation of activated T and NK cells, to enhance the lytic activity of NK cells, and to induce IFN-gamma production by resting and activated T and NK cells. We previously reported that IL-12 could synergize with IL-2 to activate human LAK cells in the presence of hydrocortisone but that IL-12 alone was inactive. We herein show that in the absence of hydrocortisone, IL-12 by itself can activate human LAK cells. IL-12-induced LAK cell activity was mediated predominantly by CD56+ lymphocytes. Activation of LAK cells by IL-12 appeared to be independent of IL-2 since it was not inhibited by neutralizing anti-human IL-2. However, IL-12- and IL-2-induced LAK cell activation could be partially inhibited by anti-human TNF-alpha. Moreover, IL-12 produced in situ appeared to play a role in IL-2-induced LAK cell activation since rat monoclonal antibodies to human IL-12 could partially inhibit the generation of LAK cells in response to IL-2. In addition to its effects on LAK cell responses, IL-12 could facilitate specific allogeneic human CTL responses. However, IL-12-facilitated CTL responses were blocked by neutralizing anti-human IL-2 indicating a requirement for IL-2 produced in situ. The ability of IL-12 to facilitate both nonspecific LAK and specific CTL responses suggests that it may be useful as a therapeutic agent against some tumors and infectious diseases.     

Synergistic antitumor activity of interleukin-2 and cimetidine against syngeneic murine tumor

Summary Cimetidine, an H2 histamine receptor antagonist, is a potent immunomodulating agent, which acts by inhibiting suppressor T lymphocyte function. The present work investigated the effect, if any, of cimetidine on interleukin-2 (IL-2)-induced natural killer (NK) and lymphokine-activated killer (LAK) cell activities, and on in vivo antitumor activity using syngeneic colon 26 adenocarcinoma as the model. Mimicking the clinical conditions, all in vitro experiments were evaluated with the splenocytes prepared from tumor-bearing BALB/c mice. Ten days after subcutaneous inoculation of tumor cells (5 × 10⁵), animals were treated intraperitoneally daily with phosphate-buffered saline (PBS), cimetidine (2 mg kg^–1 day^–1), IL-2 (300 000 IU/day), or cimetidine plus IL-2 for 7 consecutive days. The treatment of IL-2 plus cimetidine increased NK and LAK cell activities significantly and synergistically at the end of the treatment (i.e. on day 18) as well as 1 week after the treatment (i.e. on day 25), in comparison with those of the control groups (PBS, cimetidine alone, IL-2 alone). Also, in vivo antitumor activity, as analyzed by a Kaplan-Meier life table with the log-rank test, revealed a significantly prolonged survival in the group treated with IL-2 plus cimetidine compared to the control groups. Phenotyping performed on the murine splenocytes on day 18 indicated a significant reduction in Lyt2-positive cells in the cimetidine-treated group in comparison with the PBS group. A significant increase in asialo GM1-positive cells and IL-2-receptor-positive cells was detected in the group treated with IL-2 plus cimetidine in comparison with the PBS and IL-2 control groups. Therefore, this study indicates a synergistic enhancement of IL-2-induced NK and LAK cell activities in tumor-bearing hosts by cimetidine, a noncytotoxic inhibitor of suppressor T function, and a significantly prolonged survival of tumor-bearing animals treated by IL-2 plus cimetidine. It also suggests the clinical potential of combination therapy of IL-2 with cimetidine.     

Natural killer and lymphokine-activated killer cell activities from human marrow precursors. II. The effects of IL-3 and IL-4

Both IL-3 and IL-4 have multi-CSF activity on early marrow progenitors. We have examined the effect of IL-3 and IL-4 on the differentiation of NK cells from their marrow-derived precursors and have further examined the interactions of these cytokines with IL-2 and IL-1. We tested marrow which had been depleted of mature cells and of E rosette-positive cells (including NK cells) by treatment with soybean lectin and SRBC (SBA-E-BM). The cytolytic activities of the SBA-E-BM samples were tested in 51Cr-release assays after 7 days of liquid culture. K562 targets were used as a measure of NK activity and NK-resistant Daudi targets were used to measure lymphokine-activated killer (LAK) cell activity. Neither NK nor LAK activity was detectable in marrow cultured in medium without cytokines, or in medium containing IL-3, or IL-4 alone. Both of these cytokines were shown to be inhibitory to the IL-2-induced generation of NK and LAK activity from SBA-E-BM at concentrations as low as 1 U/ml. The inhibitory activity of both IL-3 and IL-4 was found to occur early in the marrow cultures, with little or no inhibitory effects seen if added 48 h after IL-2. IL-3 appeared to be specifically inhibitory to NK cell precursors since addition of IL-3 to cultures of PBMC did not inhibit IL-2-induced lytic activities. In contrast, IL-4 was equally inhibitory to the activation of marrow and peripheral blood NK cells by IL-2. Mixing experiments demonstrated that the reduced lytic activity in IL-3 or IL-4 containing marrow cultures were not due to suppression of the NK effectors, nor could marrow cultured in IL-3 or IL-4 serve as targets for IL-2-activated NK cells. Phenotype analysis of the lymphoid cells in marrow cultures containing IL-2 combined with IL-3 or IL-4 revealed fewer cells expressing Leu-11 (CD16), or Leu-19 (CD56) and fewer CD16, CD56 coexpressing cells compared with marrow cultured in medium containing IL-2 alone. The inhibitory activity of IL-4, but not IL-3, could be partially reversed if IL-1 was added to the cultures, suggesting that IL-1 and IL-4 have opposing activities on NK cells responsiveness to IL-2. These interactions between cytokines might be important in the regulation of NK cell differentiation and on the functional activity of mature NK cells.     

Synergistic interaction between anti-CD3 and IL-2 demonstrated by proliferative response, interferon production, and non-MHC-restricted killing

Anti-CD3 monoclonal antibody acts on normal peripheral blood mononuclear cells to induce T cell proliferation, interferon-gamma production, and non-MHC-restricted cytotoxicity against both NK (CD16+)-sensitive and -resistant target cells. Moreover, anti-CD3 and interleukin 2 (IL-2) act synergistically to give greater proliferative, interferon-gamma (IFN-gamma), and natural cytotoxicity responses than those expected by the simple addition of the individual responses to each stimulus acting alone. This synergistic response is macrophage independent, greatest at low concentrations of anti-CD3, inhibited by anti-IL2 receptor, and depends upon the induction of IL-2 receptors by CD3 activation which are then available to respond to exogenously added IL-2. Natural cytotoxicity induced by anti-CD3 and IL-2 correlates with IFN-gamma production, is inhibited by anti-IFN-gamma, and is still present after depletion of CD16-positive cells by specific monoclonal antibody and complement. The use of anti-CD3 in concert with IL-2 may be worthy of examination in a clinical setting, presumably because CD3/IL-2-generated LAK effector cells could be followed by in vivo administration of potentially lower and less toxic quantities of IL-2 than have been used in the past.