Hyporesponsiveness to augmentation of murine natural killer cell activity in different anatomical compartments by multiple injections of various immunomodulators including recombinant interferons and interleukin 2

Augmentation of natural killer (NK) cell activity has been observed after the single administration of a wide variety of biological response modifiers (BRM); however, multiple injections of BRM have resulted in hyporesponsiveness to NK augmentation in both preclinical and clinical studies. In these studies, hyporesponsiveness to augmentation of NK cell activity occurred after multiple injections of interferon (IFN recombinant human IFN-alpha A/D and recombinant IFN-gamma) and interleukin 2 and was found to be systemic (lungs, liver, blood, and spleen). In contrast, hyporesponsiveness to augmentation by multiple injections of maleicanhydride divinyl ether (MVE-2) or Propionibacterium acnes was limited to the spleen and peripheral blood lymphocytes, with continued augmentation of NK cell activity in the peritoneum, lungs, and liver. Despite the hyporesponsiveness to augmentation of NK activity by multiple IFN injections, NK activity could still be augmented by a single injection of another BRM. The NK cell hyporesponsiveness induced in the spleen by MVE-2 was also reversed by a single administration of IFN or polyinosinic-polycytidylic and poly-L-lysine solubilized by carboxymethyl cellulose but not by OK-432 or P. acnes. These results demonstrate that the nature of the hyporesponsiveness to NK augmentation, which is induced by multiple treatments with BRM, varies with the type of agent. The noncytokine BRM that were studied induced hyporesponsiveness only in specific lymphoid compartments but not in major nonlymphoid organs, whereas cytokine BRM induced a systemic hyporesponsiveness. The hyporesponsive state induced by the different types of BRM, also varied in regard to the pattern of susceptibility to augmentation of NK activity by unrelated BRM.     

Increase in liver-associated natural killer activity by polyribonucleotides

Several polyribonucleotides are currently in clinical trials for the treatment of cancer or viral diseases. The present report in mice demonstrates that polyinosinic-polycytidylic acid and poly-L-lysine which has been stabilized in carboxymethylcellulose (poly (ICLC) as well as polyadenosinic-polyuridylic acid (poly AU), both potently augment natural killer (NK) activity in the liver, which is often a target organ for the formation of metastases during the progression of human cancer. Following the administration of poly ICLC (10 micrograms/mouse), greater NK activity as measured by lytic units (LU), was observed in the liver (445 LU) than in blood (63 LU) or spleen (20 LU). The high level of NK activity in the liver was in contrast to the low levels observed in untreated mice, and was maintained for at least 9 days post injection. NK activity in the blood and spleen returned to normal levels by day 6. Similar results were obtained with poly AU except that approximately 10-fold more poly AU (100 micrograms/mouse) was required to induce optimal augmentation of NK activity. Further studies demonstrated that the increase in liver-associated NK activity induced by poly ICLC was associated with a 10- to 20-fold increase in liver-associated leukocytes, termed nonparenchymal cells (NPC). Fractionation of the NPC on discontinuous density gradients of Percoll demonstrated that the NK activity mediated by NPC was associated with cells morphologically characterized as large granular lymphocytes (LGL). Further studies demonstrated that the repeated administration of poly ICLC resulted in significantly higher levels of liver-associated NK activity and total liver-associated LGL as compared to a single injection.     

Development of hyporesponsiveness to augmentation of natural killer cell activity after multiple doses of maleic anhydride divinyl ether: association with decreased numbers of large granular lymphocytes

A single injection of mice with maleic anhydride divinyl ether (MVE-2) resulted in significantly augmented natural killer (NK) activity. However, multiple injections with MVE-2 led to a hyporesponsive to boosting of NK activity. Stimulation of prostaglandin E secretion of induction of suppressor macrophages (M phi) or lymphocytes were shown not to be responsible for the depressed NK cell responses. Rather the hyporesponsiveness to NK boosting was associated with a decreased number of large granular lymphocytes (LGLs). Percoll discontinuous-density-gradient studies showed that the augmented NK activity of spleen cells after a single injection with MVE-2 was associated with an increase in the percentage of LGLs in the lower-density fractions (Fraction 1 and 2). In contrast, the NK activity and percentage of LGLs in the lower-density fractions were markedly decreased after multiple injections with MVE-2. Polyinosinic: polycytidylic acid stabilized with poly(L-lysine) in carboxymethylcellulose, another BRM capable of augmenting NK activity, was able to substantially augment NK activity in mice hyporesponsive to MVE-2 and this was accompanied by an increase in the percentage of LGLs in the lower-density Percoll fractions.     

Role of organ-associated NK cells in decreased formation of experimental metastases in lung and liver

Mice treated with anti-asialo GM1 (asGM1) serum exhibited increased formation of experimental metastases in lung and liver after i.v. challenge with B16 melanoma or Lewis lung carcinoma. This increased metastasis formation coincided with decreased splenic NK activity and increased survival of i.v. injected radiolabeled tumor cells. In contrast, the injection of mice with the pyran copolymer maleic anhydride divinyl ether (MVE-2) augmented NK activity in the spleen and significantly depressed the formation of experimental metastases in the lungs and liver. However, a single or double administration of anti-asGM1 antiserum to MVE-2-pretreated mice failed to inhibit the immunoprophylaxis associated with MVE-2 administration, although it did decrease splenic NK activity and also increased the survival of i.v.-injected radiolabeled tumor cells. To address the mechanism for this dichotomy, we examined NK activity not only in the spleen but also in the blood, lungs, and livers of MVE-2-treated mice. Levels of NK activity in the lungs and liver were several-fold higher than those observed in spleen and blood. However, MVE-2-augmented NK activity in lung and liver was more resistant to depletion by the standard regimen of anti-asGM1 treatment than was NK activity in blood and spleen, and required two high-dose administrations of a higher titered antiserum for depletion of the augmented response. This high-dose regimen removed all detectable NK activity from the lung and liver, and concomitantly eliminated the metastasis-inhibiting effect of MVE-2. These data are consistent with a role for organ-associated NK cells in inhibiting metastasis formation during the extravasation and/or early postextravasation phases of the metastatic process. The results also suggest that biologic effects of NK activity in spleen and blood can be dissociated from those mediated by NK activity in other organs by use of different treatment regimens with anti-asGM1 serum. Finally, because NK activity in target organs can be augmented to an even greater extent than in the blood and spleen by at least some biologic response modifiers (BRMs), organ-associated NK activity should be considered as a possible mechanism for the therapeutic effects of BRM treatment.     

Changes in number and density of large granular lymphocytes upon in vivo augmentation of mouse natural killer activity

NK activity of mice as well as humans and rats has been clearly associated with large granular lymphocytes (LGL). To better understand the effects of interferon (IFN) and IFN inducers on natural killer (NK) cells, we have compared the LGL in the spleens of normal and boosted mice. Cells were fractionated by centrifugation on discontinuous Percoll density gradients, and each fraction was tested for NK activity against YAC-1 targets and for the presence of LGL. In vivo treatment with C. parvum (0.7 mg/mouse, i.p., day-3), MVE-2 (25 mg/kg, i.p., day-3), poly I:C (4 mg/kg, i.p., day-3), or IFN (10(5) U/mouse, i.p., day-1) resulted in a marked augmentation and a change of distribution of cytotoxic activity. Most of the NK activity of boosted spleen cells was associated with lower density fractions 1 and 2, whereas active normal spleen cells had somewhat higher density (fractions 2 and 3). In parallel to their increased reactivity, the boosted spleens had a marked increase in the percentage of LGL, particularly in fractions 1 and 2. The augmented activity appeared to be mediated by the LGL, because treatment with anti-asialo GM1 or anti-Thy-1.2 plus complement reduced NK as well as the number of LGL. These results indicate that IFN-mediated boosting of NK activity in the spleen is due to an increase in the lower density LGL, as well as to an increase in the function of preexisting NK cells.     

The efficacy of biological response modifiers against murine cytomegalovirus infection in normal and immunodeficient mice

The host-mediated antiviral effect of two biological response modifiers (BRM), OK-432 and PS-K, against murine cytomegalovirus (MCMV) was evaluated in normal and immunologically deficient mice of the same litters. In normal littermate mice, BALB/c (nu/+) or C57BL/6 (bg/+), the BRM-induced resistance against MCMV infection was evidenced by increase in fifty percent lethal doses, decrease in titers of viruses replicated in the target organs and augmentation of natural killer (NK) cell activity of the spleen cells. In T cell-deficient, athymic nude mice, BALB/c (nu/nu), the protective effect was manifested by prolongation of the survival, decrease in the virus titers, and increase in the NK-cell activity, but without decrease in mortality. In NK cell-deficient, beige mutant mice, C57BL/6 (bg/bg), the BRM-induced protection was nullified or minimized, and there was little difference in those parameters between BRM-treated and untreated mice. However, with higher doses of OK-432, but not PS-K, or with sublethal doses of MCMV, the NK cell activity was slightly augmented in the beige mutant mice. Thus both NK cell and T cell activity are essential for mice to overcome acute MCMV infection and it is likely that the protective effect of BRM manifests itself fully, at least in immunologically intact mice.     

Protective effect of biological response modifiers on murine cytomegalovirus infection

Pretreatment with two biological response modifiers (BRM), OK-432 and PS-K, protected mice from lethal infection by murine cytomegalovirus (MCMV). This was evidenced by an increase in 50% lethal doses and a decrease in titers of infectious viruses replicated in the liver and spleen. Spleen cells from the BRM-treated mice augmented the natural killer (NK) cell activity and suppressed the replication of MCMV in vitro. During MCMV infection, the NK cell activity of the spleen cells was maintained at a high level in the BRM-treated mice, whereas it was severely impaired in untreated mice. The BRM-induced protection was nullified by concomitant administration of antiasialo GM1 antibody. Interferon was neither induced by BRM treatment nor enhanced in BRM-pretreated and MCMV-infected mice. Thus, the protective effect of OK-432 and PS-K seems to be based on activation of NK cells and prevention of MCMV-induced inhibition of the NK cell activity.     

Regulation of natural killer cell activation: implementation for the control of tumor metastasis

The cellular interactions that regulate natural killer (NK) cell-mediated cytotoxicity and antimetastatic activity following treatment with biological response modifiers (BRM) were studied. The transient activation of NK cells by a single injection of Corynebacterium parvum is followed by a refractory period during which a second injection of BRM fails to stimulate the already depressed NK cell activity. During this hyporesponsive period, the in vivo NK cell-dependent BRM-induced antimetastatic activity is markedly reduced and cannot be enhanced by multiple injections of BRM. A correlation exists between the generation of hyporesponsiveness to NK cell activation and the activation of suppressor macrophages by C. parvum. BRM that selectively activate NK cells without subsequently activating suppressor macrophages do not induce hyporesponsiveness to further activation of NK cells in vivo and, when given in multiple injections, retain the ability to inhibit hematogenous tumor metastasis.     

Comparison of the effect of IL-2 and IL-6 on the lytic activity of purified human peripheral blood large granular lymphocytes

The effects of IL-6 and IL-2 on highly purified, human peripheral blood large granular lymphocytes (LGL) were investigated and compared. IL-6 enhanced LGL NK activity in a dose-dependent manner against K562, however IL-2 was a more potent stimulus of LGL NK function. Neither IL-2 nor IL-6 increased LGL cytotoxic potential in a parallel estimation of heteroconjugated antibody (anti-CD16 x anti-nitrophenyl mAb)-dependent cytotoxicity against nitrophenyl-modified YAC. Unlike IL-2, IL-6 did not significantly induce LGL lymphokine-activated killer activity, LGL proliferation, or LGL lymphokine production. In particular, IL-6 did not stimulate detectable LGL IL-2 production or IL-2R modulation, and mAb to the p75 IL-2R had no effect on IL-6 induction of LGL NK activity. Therefore, in the absence of T cells, IL-6 provided an IL-2-independent signal to LGL that resulted in augmentation of their NK activity without stimulating their proliferation or other LGL functions.     

Involvement of the 2'-5' A pathway in the augmentation of natural killer activity

Pretreatment of human large granular lymphocytes (LGL) or unseparated peripheral blood mononuclear cells with interferon (IFN) resulted in a significant augmentation of natural killer (NK) activity. This increase was paralleled by an increase in the 2'-5'A synthetase activity. In order to investigate the possibility that IFN might be inducing augmentation of NK cells via the 2'-5'A pathway, we tested the effects of nonphosphorylated core material [(A2'p)2A] and of the triphosphorylated form of the 2'-5'A [ppp(A2'p)2A]. The core material had no detectable effect on NK activity. In contrast, when experiments were performed with the triphosphorylated form of 2'-5'A, NK activity was stimulated. In order to achieve activation, permeabilization of LGL with calcium chloride was necessary and, under these conditions, a dose-dependent augmentation of NK activity was seen. However, the calcium treatment had considerable toxic effects on basal levels of NK activity. Collectively, these results suggest that IFN may be inducing augmentation of NK activity via the 2'-5'A pathway. Further studies will be necessary to determine the effects of IFN and/or 2'-5'A on subsequent activation steps in the process leading to cytotoxicity by NK cells.     

The effect of biological response modifiers on chronic and latent murine cytomegalovirus infections

Host-mediated antiviral effect of 2 biological response modifiers (BRM), OK-432, and PS-K, against murine cytomegalovirus (MCMV) was evaluated in chronically or latently infected mice. In the early stage of chronic MCMV infection, the BRM-induced resistance was evidenced by decrease in infectious viruses replicated in the salivary glands and by augmented cytotoxic activity of the spleen cells against YAC-1 cells and MCMV-infected mouse embryonic fibroblasts (MEF). In the late stage of chronic MCMV infection, the BRM treatment did not eliminate MCMV from the mice, but did prevent exacerbation of MCMV infection in the salivary glands induced by administration of cyclophosphamide (CY). In mice latently infected by MCMV, BRM treatment suppressed CY-induced reactivation of MCMV in the salivary glands. It was suggested that the antiviral effect of BRM against MCMV in chronically or latently infected mice was based on activation of natural killer (NK) cells and cytotoxic T lymphocytes (CTL).     

Augmentation of natural cell activity in tumor-bearing and normal mice by MVE-2

Summary Mice bearing advanced Lewis lung carcinoma were found to have significantly decreased natural killer (NK) cell activity in spleen and blood. The same pattern of lowered spontaneous NK cell activity was observed in nude mice with advanced human colon carcinoma LS 174 and in C3H mammary tumor virus-positive mice that spontaneously developed mammary adenocarcinomas. Maleic anhydride divinyl ether (MVE-2) usually augments NK cell activity in normal mice. We found that the lower level of spontaneous NK cell activity in tumor-bearing mice could be boosted by a single injection of MVE-2; however, this response was much weaker than that observed in age-matched normal mice. Multiple treatments with MVE-2 which are known to induce hyporesponsiveness to further augmentation of NK cell activity in spleen and blood of normal mice, also produced NK cell hyporesponsiveness in the spleen, bone marrow, and blood of tumor-bearing mice.Wladyslaw Budzynski is a guest researcher in the Preclinical Screening Laboratory from the Institute of Immunology and Experimental Therapy, Czerska Street 12, Wroclaw, Poland     

Accumulation and chemotaxis of natural killer/large granular lymphocytes at sites of virus replication

A model for monitoring the accumulation of natural killer cell/large granular lymphocytes (NK/LGL) at a site of virus replication was studied by using mice infected i.p. with either lymphocytic choriomeningitis virus (LCMV), murine cytomegalovirus (MCMV), mouse hepatitis virus (MHV), Pichinde virus, or vaccinia virus. An i.p. but not i.v. infection resulted in a localized increase in NK/LGL cell number (a fourfold to greater than 20-fold increase) and augmentation (a 10- to 20-fold increase) of NK cell activity associated with virus-induced peritoneal exudate cell (PEC) populations. An increase in NK/LGL cell number was detected as early as 12 hr postinfection (p.i.) and peaked at 3 days p.i. with MHV. The initial LGL recruited into the peritoneal cavity at 1 to 3 days p.i. were nonadherent to plastic and were demonstrated to have an NK cell phenotype: asialo GM1+, Thy-1.2 +/-, Lyt-2.2-, and J11d-. The peak number of LGL appeared at 7 days after infection with the NK cell-resistant virus, LCMV. This LGL population had been previously demonstrated to contain cytotoxic T lymphocyte/LGL (CTL/LGL) as well as NK/LGL. During an MHV infection the number of LGL decreased between days 3 and 7 p.i., suggesting that the second wave of CTL/LGL was absent. These findings may explain the absence of a good MHV-CTL model. Virus-induced, activated NK/LGL responded to chemotactic signals by migrating in a unidirectional manner across two 5-microns pore size polycarbonate filters during 7 hr in vitro chemotaxis assays. Wash-out fluid obtained from the peritoneal cavity contained chemotactic activity for NK/LGL as well as for other cell types. We conclude that production and/or release of chemotactic factors at sites of virus replication are at least partially responsible for the accumulation of NK/LGL at these sites.     

Human epidermal cells and squamous carcinoma cells synthesize a cytokine that augments natural killer cell activity

Normal as well as transformed epidermal cells (EC) have recently been reported to produce a cytokine--EC-derived thymocyte-activating factor (ETAF), which according to its biologic as well as biochemical properties is indistinguishable from macrophage-derived interleukin 1 (IL 1). In the present study, the effect of supernatants (SN) derived from normal EC and a human squamous carcinoma cell (SCC) line were tested for their effects on natural killer (NK) cell activity. EC- as well as SCC-derived SN were able to augment in vitro NK cell activity of peripheral blood lymphocytes against K 562 cells. In contrast, adherent cell-derived, IL 1-containing SN did not affect NK cell activity. Upon high-pressure liquid chromatography (HPLC) gel filtration, ETAF and the EC-derived NK cell activity-augmenting factor (ENKAF) exhibited a similar m.w. However, by using reverse-phase HPLC, ETAF and ENKAF eluted as distinct peaks of activity, indicating that SCC cell-derived ENKAF is different from ETAF. Furthermore, ENKAF does not contain interleukin 2 (IL 2) or interferon (IFN) activity. The enhancement of NK cell activity was dose dependent and evident after 20 hr of preincubation of effector cells. Pretreatment of target cells with ENKAF did not affect the susceptibility of the target cells. The NK activity of large granular lymphocytes (LGL) purified by discontinuous Percoll gradient centrifugation and further depleted of high-affinity sheep erythrocyte rosetting cells was enhanced by ENKAF. In contrast, no NK cell activity was expressed by LGL-depleted T cell populations before or after treatment with ENKAF. In a single cell cytotoxicity assay in agarose, the number of lymphocyte binding to K 562 was not affected by ENKAF, but the frequency of dead conjugated target cells and presumably of active killer cells was increased by pretreatment with ENKAF. Additional incubation of LGL with ETAF did not further increase ENKAF-mediated augmentation of NK activity. In contrast to ETAF, ENKAF was not chemotactic for polymorphonuclear leukocytes. These results indicate that normal as well as transformed EC release a unique cytokine--ENKAF--which augments NK cell activity of LGL but is distinct from ETAF, IL 2, and IFN.     

beta-Endorphin augments the cytolytic activity and interferon production of natural killer cells

We have investigated the in vitro effects of the neurohormone beta-endorphin (b-end) on natural killer (NK) activity and interferon (IFN) production mediated by large granular lymphocytes (LGL). LGL-enriched fractions from peripheral blood mononuclear cells (PBMC) from normal human volunteers were obtained by fractionation over discontinuous Percoll gradients. LGL were preincubated with or without various concentrations of b-end or the closely related peptides alpha-endorphin (a-end), gamma-endorphin (g-end), or D-ALA2-beta-endorphin (D-ALA2-b-end), a synthetic b-end analogue. NK activity was assayed on 51Cr-labeled K562 target cells. Preincubation of LGL effectors (but not K562 targets) for 2 to 18 hr with concentrations of b-end between 10(-7) M and 10(-10) M produced significant augmentation of NK cytolytic activity (mean percentage increase: 63%). The classic opiate antagonist naloxone blocked the enhancing effect when used at a 100-fold molar excess relative to b-end. Neither a-end nor g-end could augment NK activity, whereas D-ALA2-b-end produced an enhancement comparable with that produced by b-end. In addition, incubation of LGL with b-end in the presence of phytohemagglutinin or poly I:C significantly augmented IFN production. These findings demonstrate that b-end enhances NK activity and IFN production of purified LGL, and suggests that b-end might bind to an opioid receptor on LGL that can be blocked by naloxone. These results lend support to the concepts of regulation of the immune response by neurohormones and the functional relationship between the nervous and immune systems.     

Development of hyporesponsiveness of natural killer cells to augmentation of activity after multiple treatments with biological response modifiers

Summary Four biological response modifiers (BRMs), MVE-2 (maleic anhydride divinyl ether), Corynebacterium parvum (C. Parvum), PolyICLC (polyinosinic:polycytidylic acid stabilized with poly-l-lysine), and mouse -interferon (-IFN), were tested to assess whether repeated treatments would repeatedly induce or sustain augmented levels of natural killer (NK) cell activity and/or macrophage (M0)-mediated inhibition of tumor cell growth. In contrast to a significant increase in splenic NK activity obtained with a single treatment with each of the agents, multiple treatments with these BRMs led to a progressive decrease in the degree of augmentation of NK activity. In contrast, multiple injections with these agents resulted in sustained augmentation of M0-mediated reactivity. Separation of the spleen cells by Percoll discontinuous density gradient centrifugation indicated that with mice treated once with each BRM high levels of NK activity were detected in the lower density fractions and that these fractions contained a higher percentage of large granular lymphocytes (LGLs) than that found in comparable fractions from normal mice. In contrast, cells in the lower density fractions from mice that received multiple treatments had decreased NK activity and an appreciably lower proportion of LGLs. These results indicate that the development of hyporesponsiveness to augmentation of splenic NK-cell activity following multiple treatments with BRMs may be attributable to a decreased percentage of LGLs, the effector cell population responsible for NK cell-mediated cytotoxicity. Abbreviations used in this paper: BRMs, biological response modifiers; MVE-2, maleic anhydride divinyl ether of molecular weight 15,500; C. parvum, Corynebacterium parvum; PolyICLC, polyinosinic-polycytidylic acid stabilized with poly-l-lysine in carboxymethylcellulose; IFN, interferon; NK cells, natural killer cells; M0, macrophage; LGLs, large granular lymphocytes; PGE, prostaglandin E; FBS, fetal bovine serum; PBS, phosphate-buffer saline composed of 4.86 g NaCl, 0.306 g KH₂PO₄, and 2,417 g NaHPO₄ in 100 ml H₂O adjusted to pH 7.2; LPS, lipopolysaccharide     

Chemotactic effect of human recombinant interleukin 2 on mouse activated large granular lymphocytes

Human recombinant interleukin 2 (hrIL-2) was demonstrated in vitro to be chemotactic for mouse large granular lymphocytes (LGL) activated in vivo by virus infection. Peritoneal exudate cells harvested from virus-infected mice were used as a source of LGL. LGL collected from mouse hepatitis virus-infected mice at 3 days postinfection were a source for NK 1.1 positive natural killer (NK)/LGL. LGL collected from mice treated with antiserum to gangliotetraosylceramide and infected with lymphocytic choriomeningitis virus for 7 days were used as a source for Lyt-2 positive cytotoxic T lymphocytes (CTL)/LGL. Both NK/LGL and CTL/LGL responded chemotactically to hrIL-2, purified IFN-beta, and to crude cell-free washout fluids collected from the peritoneal cavity of virus-infected mice. hrIL-2 had chemotactic activity for virus-elicited granular and agranular lymphocytes but did not attract the contaminating macrophages, in contrast to IFN-beta, which displayed chemotactic activity for virus-elicited granular and agranular lymphocytes as well as macrophages. The migration to hrIL-2 was inhibited by a monoclonal antibody (7D4) to the IL-2 receptor, but treatment with 7D4 did not affect migration in response to IFN-beta. Microscopic examination of Wright's-Giemsa-stained migrated NK/LGL and CTL/LGL revealed that the majority of migrated LGL in either LGL population had a blast cell morphology (enlarged cells with rich basophilic cytoplasm). The frequency of cells bearing the LGL morphology within the virus-elicited nonadherent peritoneal exudate cell population was on incubation in vitro, stabilized by either hrIL-2 or IFN-beta. These data suggest that another important immunomodulating function of IL-2 may be to attract activated NK/LGL and CTL/LGL to sites of inflammation.     

Augmentation of NK cell activity in tissue specific sites by liposomes incorporating MTP-PE

Liposomes incorporating a variety of immunomodulators have been shown to activate macrophages and monocytes for tumoricidal activity both in vivo and in vitro. We report that in addition to the activation of macrophages, the i.v. injection of liposomes (multilamellar vesicles) that have encapsulated muramyl tripeptide-phosphatidylethanolamine (MTP-PE) could also augment interstitial natural killer (NK) cell activity in the lung and the liver. In contrast, liposomes incorporating MTP-PE were unable to augment NK cell activity in the spleen, peripheral blood, or peritoneal cavity (after i.p. injection). In addition, liposomes did not augment splenic NK cell activity in vitro. This suggests that the augmentation of NK cell activity in the lungs and liver was not due to direct effects of the liposomes but may have been a secondary effect mediated by a monokine. The augmentation of pulmonary NK cell activity was paralleled by the nonspecific immunoprophylaxis of experimental pulmonary metastases. The augmented NK cell activity, as well as the enhanced nonspecific immunoprophylactic activity, was reduced by pretreatment of the mice with anti-asialo GM1 antiserum. Thus, the augmentation of organ-associated NK cell activity by liposomes incorporating MTP/PE plays a major role in the host's increased resistance to the formation of experimental metastases.     

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.     

The augmentation of human natural killer cell activity by interferon-gamma is not associated with the induction of the interferon-alpha-inducible proteins

Treatment of partly purified large granular lymphocytes (LGL) with either IFN-alpha or IFN-gamma for 2 hr augmented their NK cell activity. This augmentation was completely inhibited by the addition of 10 micrograms/ml of cycloheximide. In contrast, when the effects of IFN-gamma on the synthesis of specific proteins in these cells was directly studied by use of two-dimensional gel electrophoresis, we found that IFN-gamma was unable to induce any of the earlier detected, IFN-alpha/IFN-beta-inducible proteins within 18 hr of incubation. No additional, IFN-gamma-induced proteins were detected in either the partly purified LGL or purified T cells. In contrast, the effects of the two factors were comparable in the glioma cell line 251 MG. This shows i) that the effects of IFN-alpha and IFN-gamma are dependent on the responder cell type, ii) that there exists at least one mechanism that can augment NK cell activity that is not dependent on the increased synthesis of the IFN-alpha-inducible proteins, and iii) that either the nine IFN-alpha-inducible proteins are not involved in any leukocyte function that is augmentable by both IFN-alpha and IFN-gamma, or that the two factors exert their actions in leukocyte through different mechanisms.