Antitumor activity of living or killed Brucella: Modification of the non-specific cytotoxic effector cells

Summary At various times after injection of living or killed smooth (S) or rough (R) Brucella abortus mice received a graft of the semi-allogenic EL₄ lymphoma and their survival was studied. In parallel, the NK activity of spleen and peritoneal cells, the level of serum interferon (IFN), and the cytotoxic activity of peritoneal macrophages were investigated. Protection against the lymphoma lasted longer after injection of R organisms than after S. The parallelism between the in vivo resistance to EL₄ lymphoma and the augmentation of NK and macrophage activity was satisfactory with R but not with S. IFN production did not seem to be correlated with R antitumor activity. The antitumor effect of Brucella cannot therefore be simply explained on the basis of modification of the non-specific cytotoxic effector mechanisms.     

Resistance to a peritoneal lymphoma graft induced by heat-killed S or R Brucella abortus

Summary Mice were injected either with the rough (R) or smooth (S) strains of killed Brucella abortus, after which, at various times, they were given an i.p. injection of a strain-specific lymphoma (EL4). In parallel, samples of peritoneal exudate cells were taken from the Brucella-injected mice, and their in vitro cytostatic activity against EL4 tumour cells was investigated. Protection against the lymphoma graft lasted up to the 7th day with S and the 20th with R. In contrast, cytostatic activity was more intense and lasted longer with S than with R. The parallelism between in vivo resistance to the lymphoma graft and augmentation of macrophage cytostatic activity was satisfactory with R but not with S. The differential effects of S and R on EL4 lymphoma growth could not be simply explained on the basis of a difference in macrophage activation.     

Induction of interferon and activation of NK cells and macrophages in mice by oral administration of Ge-132, an organic germanium compound

After oral administration of an organic germanium compound, Ge-132 (300 mg/kg), a significant level of interferon (IFN) activity was detected in the sera of mice at 20 hr and it reached a maximum of 320 U/ml at 24 hr. This IFN activity was lost after heat- or acid-treatment, suggesting that the induced IFN is of gamma-nature. The molecular weight of this IFN was estimated to be 50,000 daltons by gel filtration. The NK activity of spleen cells was increased 24 hr after the oral administration of Ge-132, and cytotoxic macrophages were induced in the peritoneal cavity by 48 hr. In the mice receiving an intraperitoneal (ip) injection of trypan blue or carrageenan 2 days before oral administration of Ge-132, neither induction of IFN nor augmentation of NK activity occurred, and X-ray irradiation of mice also rendered the mice incapable of producing IFN, all indicating that both macrophages and lymphocytes are required for this IFN induction. Both NK and cytotoxic macrophages appeared 18 hr after ip administration of the induced IFN with a titer as low as 20 U/ml. These facts suggest that both the augmentation of NK activity and activation of macrophages in mice after oral administration of Ge-132 are mediated by the induced IFN.     

Characterization of cytotoxic cells generated from in vitro cultures of murine bone marrow cells

Bone marrow cells cultured for 5-6 days generate cytotoxic activity against a number of natural killer (NK)-susceptible tumor cells. In this study, these bone marrow cytotoxic cells were compared to cells with NK activity obtained either from spleen cells activated in vitro with interferon (IFN-alpha/beta) or mitogen or from peritoneal exudate cells (PEC) obtained 4 days after bacillus Calmette-Guerin (BCG) infection. Splenic and PEC cytotoxic cells were shown to be Thy 1.2+, NK 1.1+, Asialo GM+1, Lyt 1.2-, Lyt 2.2-. In contrast, bone marrow cytotoxic cells were Thy 1.2+, NK 1.1-, Lyt 1.2-, Lyt 2.2- and expressed low levels of Asialo GM1 antigen (Asialo GM +/- 1). Precursor cells for bone marrow cytotoxic activity were shown to be Thy 1.2-, NK 1.1-, Lyt 1.2-, Lyt 2.2- but also expressed low levels of Asialo GM1 antigen (Asialo GM +/- 1). Cytotoxic activity for both bone marrow and spleen cells peaked in the low-density fractions of discontinuous Percoll density gradients. The cytotoxic activity of these bone marrow cells was augmented by pretreatment with IFN (-alpha/beta, -gamma) or soluble factors (IFN free) from activated EL-4 thymoma cells. Surprisingly, the ability of bone marrow cells to generate high levels of cytotoxic activity following in vitro culture appeared to be associated primarily with mice which were of the H-2b haplotype.     

Augmentation of antitumor effect by combined administration with interleukin-2 and sizofiran,a single glucan,on murine EL-4 lymphoma

The antitumor effect of the combined administration with recombinant human interleukin-2 (rIL-2) and sizofiran (SPG), a single glucan of Shizophyllum commune Fries, was studied in vivo in C57BL/6 mice intraperitoneally inoculated with EL-4 lymphoma. The effect was evaluated by a) comparing the survival time of the mice, b) analysis of the intraperitoneal cell population in Giemsa-stained specimens, c) surface marker analysis of peritoneal exudative cells with flow cytometry, d) cytotoxic assay of cells against EL-4 and Yac-1 lymphoma, and e) elimination of some cell populations by monoclonal antibodies, to identify the antitumor-effector cells showing cytotoxic activity. The survival of mice given both rIL-2 and SPG was significantly longer than the control mice or those given SPG alone or rIL-2 alone. It was demonstrated that the administration of SPG and/or rIL-2 to the EL-4 lymphoma-bearing mice activated immune-response cells in the peritoneal cavity such as T lymphocytes, NK cells, or macrophages, which might be effective in reducing lymphoma cells. The combination of rIL-2 and SPG administration appears to activate the antitumor- immune response at the tumor site more effectively than when either agent was administered alone.     

In vivo and in vitro induction of natural killer cells by cloned human tumor necrosis factor

Summary The natural killer (NK) cell activity of mice in the peritoneal cavity is very low or undetectable and testing peritoneal NK cells is a useful model for studying the influence of activating substances upon local injection. Injection of tumor necrosis factor (TNF) at doses of 10–200 ng caused a marked activation of NK cell activity which was maximal after 24 h and declined rapidly on day 2. A similar effect was observed when interferons alpha and beta were injected, and there were additive results when interferon was injected together with TNF. The NK cell nature of the effector cells activated by TNF was substantiated by the finding that previous injection with anti-asialo GM 1 antibody prevented activation. Interferon could not be detected in the peritoneal wash fluid after injection of TNF suggesting interferon-independent activation. In further experiments after i.p. injection of TNF peritoneal exudate cells (PECs) only killed YAC-1 targets in a 4-h assay. There was no additional killing in an 18-h assay towards neither YAC-1 cells or P815 cells, suggesting that macrophages were not involved. Furthermore TNF was also active in vitro by activating NK cells in isolated human peripheral blood cells. However in the PECs stimulated in vitro no significant induction of cytotoxic capacities by TNF was measured. Our data suggest that the action of TNF is not restricted to the lysis of tumor cells but can also induce immunological properties in the host defense against virus infections and neoplasms.     

The frog skin host-defense peptide frenatin 2.1S enhances recruitment,activation and tumoricidal capacity of NK cells

Frog skin is a source of peptides with various biological properties. Frenatin 2.1S, derived from norepinephrine-stimulated skin secretions of the Orinoco lime tree frog Sphaenorhynchus lacteus, exhibits immunostimulatory effects as demonstrated by the promotion of proinflammatory phenotypes of mononuclear cells in mouse peritoneal cavity and spleen. The aim of this study was to identify the populations of host cells sensitive to the action of frenatin 2.1S in vivo and to study its effects on their functional antitumor capacity. A single injection of frenatin 2.1S (100 μg) in BALB/c mice increased the presence of peritoneal CD11c⁺ dendritic cells and CD3⁺ T cells 24 h after administration and there was a significant increase in the number of IL-17 and CXCR3 expressing inflammatory T cells. Frenatin 2.1S treatment also increased the number of TNF-α expressing F4/80⁺ proinflammatory M1 macrophages. The most striking finding of the study is the marked increase of the number of peritoneal natural killer (NK) cells following frenatin 2.1S injection. Further, frenatin 2.1S administration led to activation of NK cells as evaluated by increased expression of NKG2D, FasL, CD69 and CD107a. The increased ratio of interferon-γ vs. IL-10 producing NK cells is further indication of the proinflammatory action of frenatin 2.1S. Peptide treatment enhanced the tumoricidal action of peritoneal NK cells on 4T1 mouse mammary carcinoma cells as revealed by the real-time automated monitoring of cell status. Our data demonstrate that frenatin 2.1S promotes activation and cytotoxic capacity of NK cells and should be regarded as a candidate for antitumor immunotherapy.     

Induction of natural killer cell activity in mice by injection of indomethacin

The natural killer (NK) cell system of mice in the peritoneal cavity is of very low to undetectable activity, and testing peritoneal NK cells is a useful model to study the influence of activating substances upon local injection. Injection of indomethacin at doses of 100-400 micrograms/mouse caused a marked activation of NK cell activity which was maximal at 3 days and lasted for a total of 6 days. A similar albeit less marked effect was observed with other cyclooxygenase inhibitors such as aspirin. Prostaglandin E2 reversed the activation of NK cells induced by injection of indomethacin. The cellular count of the peritoneal population was 2-fold elevated after indomethacin injection but the percentage of macrophages in the washed-out cell population was decreased from 60% (controls) to around 20%. The NK cell nature of the effector cells activated by indomethacin was substantiated by the finding that previous injection of anti-asialo GM1 antibody prevented activation. Interferon could not be detected in the peritoneal wash fluid after injection of indomethacin, suggesting interferon-independent activation. However, the possibility of small interferon quantities being locally produced could not be excluded. In further experiments we found after intraperitoneal injection of indomethacin not only cells that killed YAC-1 targets in a 4-hour assay but also killer cells that were insensitive to anti-asialo GM1 and killed P815 cells in an 18-hour assay. We assumed that these were macrophages and have done further experiments with in vitro grown bone-marrow-derived macrophages. These could be activated for killing of P815 targets by the addition of indomethacin, but (to a lesser degree) also for killing of YAC-1 lymphoma cells.     

Inhibition of mast cell-mediated cytotoxicity by IFN-alpha/beta and -gamma.

Although IFN enhance the cytotoxic activity of NK cells, K cells, and monocytes, IFN-alpha/beta and IFN-gamma did not stimulate the cytotoxic activity of rat peritoneal mast cells (PMC), but had an inhibitory effect. Preincubation for 2 h with 100 and 200 U/ml of IFN-gamma and IFN-alpha/beta, respectively, inhibited PMC cytotoxicity against WEHI-164 target cells. Lower concentrations of IFN-gamma (12.5 U/ml) and IFN-alpha/beta (25 U/ml) inhibited cytotoxicity of PMC after 8 h preincubation. The inhibitory effect of IFN was concentration and time dependent. In contrast to cytotoxicity, the release of histamine by PMC was not stimulated by the target cells WEHI-164 and there was no correlation between histamine release and cytotoxic activity of PMC. Specific antibody to subclasses of IFN prevented the inhibition of PMC cytotoxic activity, but preincubation with antibodies to the alternate subclass of IFN did not affect the observed inhibition. Moreover, the presence of both subclasses of IFN showed an additive inhibition of PMC cytotoxicity. The cytotoxic activity of PMC can be completely inhibited by the addition of anti-TNF during the assay. At high concentrations (400 U/ml), IFN inhibited the release of TNF from PMC. In the presence of RNA or protein synthesis inhibitors, IFN did not inhibit cytotoxicity of PMC further. We postulate that IFN may alter gene expression in mast cells in a manner that down-regulates their functions.     

Suppression of NK-mediated natural resistance by interferon treatment of murine lymphomas

The observation that interferon (IFN) can suppress the NK lytic sensitivity of murine lymphomas in vitro led us to examine the consequences of this treatment on tumor behavior in vivo. Preincubation in IFN suppressed natural resistance to two lymphomas in syngeneic DBA/2 and semisyngeneic BDF1 mice in a dose-dependent manner, measured by the retention of (131I)dUrd-labeled tumor. Poly I:C enhancement of NK-mediated natural resistance in the lung, liver, and peritoneal cavity was also abolished by IFN pretreatment. IFN was, however, ineffective in altering the elimination of the IFN-resistant L1210R lymphoma when compared to its IFN-sensitive variant, L1210S. In DBA/2 mice that were made NK-deficient by treatment with cyclophosphamide or rabbit anti-asialo GM1 antiserum, or in congenitally NK-deficient bg/bg strain mice, IFN-treated tumor and control tumor were rejected equally well. This indicated that the effects of IFN were dependent on the presence of NK cells in these mice, and suggests that the IFN suppressed the sensitivity of the lymphomas to NK cell-mediated host resistance.     

In vivo significance of NK cell on resistance against virus (HSV-1) infections in mice

Susceptibility to infection with herpes simplex virus type 1 (HSV-1) was examined in euthymic as well as athymic nude mice which were continuously depleted of natural killer (NK) cell activity by i.v. injection of anti-asialo GM1. In those NK cell activity-depleted mice, the mortality rate of infection with HSV-1 and the virus titers in the brain, liver, and spleen were notably higher than in the control mice. The enhanced susceptibility was demonstrated only in the mice receiving anti-asialo GM1 and HSV-1 simultaneously, but not in the mice in which NK cell deletion was postponed by injecting the antisera 5 days after the virus inoculation. Interferon (IFN) production of peritoneal exudate cells was also reduced in the anti-asialo GM1-injected mice. The decline of resistance against HSV-1 infection proved to be primarily due to deletion of NK cells, but not due to the inability to produce IFN, because repeated injections of IFN increased the NK cell activity and prolonged the life of HSV-1-infected mice with an intact NK cell activity. In the NK cell activity-depleted mice, however, neither the NK cell activity nor the life span was improved by the administration of IFN.     

Role of interferon in human natural killer activity against target cells infected with HSV-1

Human natural killer (NK) cells show high cytotoxic activity against target cells infected with herpes simplex virus type 1 (HSV-1). Substantial amounts of interferon (IFN) were generated in co-cultures of NK effector cells and infected target cells; however, the cytotoxic activity seen against a specific infected cell target did not correlate with the amount of IFN induced. The production of IFN increased steadily from 4 to 18 hr of co-culture, as did NK activity; however, IFN production peaked 4 hr later than NK activity. Pretreatment of NK effector cells with exogenous IFN increased cytotoxic activity against all targets tested, but the differential pattern of reactivity against cells infected with wild type and mutant viruses was unaltered. When effector cells were treated with the RNA synthesis inhibitor actinomycin D before co-culture with virus-infected targets, IFN production was markedly reduced, without a concomitant reduction in cytotoxicity. Similarly, the addition of anti-IFN antiserum to co-cultures greatly decreased the available IFN present, but had no effect on NK activity. We conclude that the induction of cytotoxic activity in co-cultures of NK effector cells and HSV-1-infected target cells is independent of the induction of IFN.     

The concurrent administration of OK432 augments the antitumor vaccination effect with tumor cells by sustaining locally infiltrating natural killer cells

 The effect of a local injection with a streptococcal preparation OK432 on the antitumor vaccination with tumor cells was investigated. Natural killer (NK) cells, which were detected by anti-NK1.1 monoclonal antibody (mAb), increased in the peritoneal exudate cells after an intraperitoneal (i.p.) injection with syngeneic B16 melanoma cells. Furthermore, a concurrent i.p. injection with OK432 efficiently sustained the locally infiltrating NK cells. The OK432 treatment also sustained the augmented NK and lymphokine-activated killer activities in the peritoneal exudate cells. This treatment also increased the ability of the locally infiltrating NK cells to produce interferon γ in response to the tumor cells. In addition, the concurrent i.p. injection with OK432 in combination with the tumor cells enhanced the capacity of the spleen cells to turn into anti-(B16 melanoma) cytotoxic T lymphocytes after in vitro restimulation. This augmenting effect of OK432 was dependent on NK cells. Moreover, the concurrent injection with OK432 at the time of antitumor vaccination significantly enhanced the protective immunity against B16 melanoma at the rechallenge. Taken together, these findings indicate that a concurrent local injection with OK432 in combination with tumor cells efficiently augments the antitumor vaccination effect, in part, by sustaining the locally infiltrating activated NK cells. Received: 6 March 1996 / Accepted: 30 May 1996     

Regulation of human natural cytotoxicity by IgG. III. Interaction between negative regulation by monomeric IgG and positive regulation by interferons of different types

Our prior reported results have demonstrated the dose-dependent inhibition of human natural killer (NK) cell activity upon treatment of peripheral blood mononuclear cells (PBMC) with monomeric IgG (mIgG) prior to the cytotoxic assay. In the present study, the combined effects on NK activity of human interferon (IFN) of each of the three types and mIgG, respectively, were determined. NK cells incubated with IFN alpha or IFN beta had augmented cytotoxicity against K562 target cells but remained responsive to negative regulation by mIgG. PBMC treated with human recombinant IFN gamma had unchanged cytotoxic activity but became partially resistant to suppression by mIgG. This ability of IFN gamma to interfere with the negative regulation of NK activity by cytophilic mIgG was seen when the cytokine was preincubated with effector cells prior to, simultaneously with, or after their exposure to inhibitor protein. These data provide some clues regarding the possible biological significance of the mIgG-induced down-regulation of NK cells which, when required for host protection, might be appreciably reversed or blocked by IFN gamma produced by NK cells or T cells in response to various agents.     

Intratumoral injection of inactivated Sendai virus particles elicits strong antitumor activity by enhancing local CXCL10 expression and systemic NK cell activation

We have already demonstrated that inactivated, replication-defective Sendai virus particles (HVJ-E) have a powerful antitumor effect by both the generation of tumor-specific cytotoxic T cells and inhibition of regulatory T cell activity. Here, we report that HVJ-E also has an antitumor effect through non-T cell immunity. Microarray analysis revealed that direct injection of HVJ-E induced the expression of CXCL10 in established Renca tumors. CXCL10 was secreted by dendritic cells in the tumors after HVJ-E injection. Quantitative real-time RT-PCR and immunohistochemistry revealed that CXCR3+ cells (predominantly NK cells) infiltrated the HVJ-E-injected tumors. Moreover, HVJ-E injection caused systemic activation of NK cells and enhanced their cytotoxity against tumor cells. In an in vivo experiment, approximately 50% of tumors were eradicated by HVJ-E injection, and this activity of HVJ-E against Renca tumors was largely abolished by NK cell depletion using anti-asialo GM1 antibody. Since HVJ-E injection induced systemic antitumor immunity by enhancing or correcting the chemokine-chemokine receptor axis, it might be a potential new therapy for cancer.     

Sequential metabolic events and morphological changes during in vivo large granular lymphocyte activation and proliferation

Interferon (IFN) and IFN inducers are known to boost natural killer (NK) activity in vivo and in vitro. In vivo enhancement of NK activity results from activation of preexisting NK cells as well as from an increased number of large granular lymphocytes (LGL), with a portion of them undergoing cell division. Our study was addressed to analyze the sequence of metabolic events occurring within the LGL population of Fischer rats treated with poly(I:C), as an IFN inducer. The increase in cytotoxic activity and LGL number in the peripheral blood already reached maximal levels by 12 hr after poly(I:C) injection, remained on a plateau 24 to 48 hr later, then slightly decreased on Day 4, and returned to control levels by Day 6. A similar kinetics was observed for RNA synthesis. In contrast DNA synthesis first increased at 24 hr, peaked at 48 hr, then decreased on Day 4, and was not detectable on Day 6. Percoll fractionation resulted in 92-97% of LGL in fraction 1, and cells in this fraction accounted for the increase of cytotoxicity as well as for newly synthesized RNA and DNA. However, LGL recovered on Day 1 or 2 after poly(I:C) stimulation displayed quite heterogeneous morphology, and a number of mitotic configurations were seen on Day 2 within the LGL population. Our results indicate that the boosting of NK activity by poly(I:C) is always associated with an increase in LGL numbers, the enhanced lytic capacity is associated in vivo with new RNA synthesis by the NK cells, and only in a later phase NK cell proliferation may account for the increase in LGL numbers.     

Trafficking and activation of murine natural killer cells: differing roles for IFN-gamma and IL-2

The repeated ip injection of highly purified recombinant IFN-gamma or IL-2 resulted in a local increase in peritoneal NK activity. This increase in lytic activity was paralleled by increases in the number of peritoneal leukocytes reacting with a rat monoclonal antibody directed against the NK cell-associated surface antigen LGL-1. LGL-1 reacts specifically with the majority of murine NK cells in BALB/c and C57BL/6 mice. A single injection of IFN-gamma induced more peritoneal NK activity at 24 hr than IL-2 on a protein basis. Both cytokines induced increases in the number of LGL-1+ peritoneal cells by 24 hr after injection. Simultaneous injection of suboptimal amounts of IFN-gamma (100 U) and IL-2 (10,000 U) resulted in a significant augmentation of peritoneal NK activity over that observed with either cytokine alone. Also, the peritoneal NK activity generated in response to ip injection of high doses of IL-2 (100,000 U) could be dramatically reduced by simultaneous injection of a neutralizing monoclonal antibody to IFN-gamma. Administration of IFN-gamma 1 day prior to IL-2 resulted in a significant augmentation of the NK activity above that observed with the individual cytokines. In contrast, injection of IL-2 prior to IFN-gamma did not enhance NK activity over that observed with the individual cytokines. Both cytokines must be injected ip for the complementary effects of IFN-gamma and IL-2 on peritoneal NK activity to occur. In contrast, in vitro incubation of peritoneal leukocytes with IFN-gamma resulted in neither a significant enhancement of NK lytic activity nor an increase in the number of LGL-1+ cells. In vitro treatment of peritoneal leukocytes with IL-2 always resulted in significant augmentation of NK lytic activity in the absence of any increase in the number of LGL-1+ cells. These data are consistent with the hypothesis that the local release of IFN-gamma increases peritoneal NK activity by promoting the influx of blood-borne LGL-1+ NK cells from other sites. In contrast, low doses of IL-2 augment the lytic activity of local resident NK cells, whereas high doses of this cytokine induce both an activation of local NK cells and emigration of LGL-1+ NK cells from other sites due to the endogenous generation of IFN-gamma within the peritoneal cavity. Therefore, the local release of IFN-gamma may play an important role in regulating NK cell infiltration in vivo.     

Immunological analysis and clinical effects of intraabdominal and intrapleural injection of lentinan for malignant ascites and pleural effusion

Twenty effusions in sixteen patients with malignant peritoneal and/or pleural effusions were treated with intracavitary injection of lentinan. Lentinan was injected at a dosage of 4 mg/week for 4 weeks. In total, sixteen (80%) of twenty lesions demonstrated clinical responses. Performance status was improved in seven patients. The average survival time in responders was 129 days, while, in non-responders, it was 49 days. Serious toxicities were not observed.NK activity of PBMC significantly decreased after lentinan injection. NK activity of PEC in responders was augmented significantly. Anti-Daudi and lymphokine activated killer activity were also augmented or maintained after lentinan injection.     

Type I IFN contributes to NK cell homeostasis, activation, and antitumor function

This study demonstrates that type I IFNs are an early and critical regulator of NK cell numbers, activation, and antitumor activity. Using both IFNAR1- and IFNAR2-deficient mice, as well as an IFNAR1-blocking Ab, we demonstrate that endogenous type I IFN is critical for controlling NK cell-mediated antitumor responses in many experimental tumor models, including protection from methylcholanthrene-induced sarcomas, resistance to the NK cell-sensitive RMA-S tumor and cytokine immunotherapy of lung metastases. Protection from RMA-S afforded by endogenous type I IFN is more potent than that of other effector molecules such as IFN-gamma, IL-12, IL-18, and perforin. Furthermore, cytokine immunotherapy using IL-12, IL-18, or IL-21 was effective in the absence of endogenous type I IFN, however the antimetastatic activity of IL-2 was abrogated in IFNAR-deficient mice, primarily due to a defect in IL-2-induced cytotoxic activity. This study demonstrates that endogenous type I IFN is a central mediator of NK cell antitumor responses.     

Effects of natural and recombinant IL 2 on regulation of IFN gamma production and natural killer activity: lack of involvement of the Tac antigen for these immunoregulatory effects

Highly enriched populations of human large granular lymphocytes (LGL), natural killer (NK) cells, and T cells were obtained from low and high density fractions, respectively, of discontinuous Percoll gradients. The NK cells were composed of 75 to 90% LGL, with the majority of the contaminating cells being monocytes. The T cells were greater than 95% OKT3+. The proliferative and cytotoxic progenitors in both fractions were examined by using a limiting dilution assay with interleukin 2 (IL 2) from four sources: 1) crude supernatant of a gibbon lymphoma (MLA-144), 2) purified (150,000-fold) MLA-144 IL 2, 3) partially purified human IL 2, and 4) purified recombinant human IL 2. The proliferative capacity was measured at day 7 by [3H]thymidine incorporation, whereas the progenitors of cells with NK-like activity were evaluated by assessing cytotoxic activity against K562 cells at day 8 in a 4-hr 51Cr-release assay. The frequency of proliferative progenitors among T cells was approximately 1/5 and was approximately 1/60 with LGL. Titration of the highly purified IL 2 preparation demonstrated that LGL proliferated with as little as 2 U of IL 2. The frequency of detectable cytotoxic progenitors in the LGL population, however, fell sharply when less than 40 U of IL 2 were employed. The T cells failed to demonstrate cytotoxic activity against the NK-susceptible target cells at any concentration of IL 2 tested. The IL 2 preparations also were examined for their ability to directly and rapidly enhance the cytotoxic activity of highly purified NK cells. All four preparations of IL 2 enhanced the cytotoxic activity of LGL without any detectable accessory requirement after incubation for as little as 6 hr, even though the MLA-144 IL 2 preparations were devoid of detectable interferons (IFN). These data indicate that IL 2 has dual effects on NK cells, regulating their activity was well as promoting their proliferation. Collectively, these results demonstrate that highly purified IL 2, devoid of other detectable lymphokines, is capable of supporting the growth of human NK cells and augmenting their in vitro activity. In parallel experiments, these same IL 2 preparations were quite active in causing the proliferation of T lymphocytes, clearly demonstrating a role of IL 2 in promoting the proliferation of NK cells as well as T cells. The mechanism of IL 2 boosting appears to be a direct interaction with LGL, resulting in the production of IFN gamma.(ABSTRACT TRUNCATED AT 400 WORDS)