Effects of the immunomodulator LS 2616 on lymphocyte subpopulations in murine Coxsackievirus B3 myocarditis

Quinoline-3-carboxamide (LS 2616) is a broadly acting immunostimulator with anti-inflammatory effects in Coxsackie virus B3-induced myocarditis in female BALB/c mice. This infection caused extensive inflammatory and necrotic lesions in the myocardium 7 days after inoculation (6.8% of tissue section area). The damaged area was reduced (to 3.7% (p less than 0.05] and the lethality decreased when LS 2616 was administered over 14 days, starting 7 days before the inoculation. The response pattern of lymphocyte subsets in situ in myocardial inflammatory lesions was elucidated by a newly developed immune histochemical staining technique. LS 2616 increased the number of class II-expressing cells 3-fold (p less than 0.01) and the CTL, Ts:Th cell ratio by 55% (p less than 0.05), whereas Lyt-1+ and TIB+ cells were unaffected. After 7 days of LS 2616 treatment, spleen lymphocyte activity tended to increase (T cells by 21% (NS) and B cells by 60% (p less than 0.05), respectively). The activity of NK cells increased by 51% (p less than 0.01). LS 2616 may thus have potential in therapy of human inflammatory disorders, such as myocarditis.     

Modulation of natural killer activity in mice by prolonged administration of various doses of dietary retinoids

Groups of BALB/C mice received a diet supplement of 0 (group C), 200 (group A 200), 500 (group A 500), and 1,000 (group A 1,000) IU retinol palmitate (RP)/mouse/day in drinking water for 450 days. At progressive time intervals, mice from each group were tested for natural killer (NK) activity and for the percentage of large granular lymphocytes (LGL) in the spleen. In groups A 200, A 500 and A 1,000, a dose-dependent increase in NK activity was evident 50 days after the beginning of RP supplementation and was accompanied by a parallel increase of LGL number in the spleen. In group A 1,000, the increase of spontaneous or Poly I:C-induced cytotoxicity persisted until day 160. By contrast, inhibition of Poly I:C-induced NK cytotoxicity was found in this group at day 450.     

Treatment of patients with transitional cell carcinoma of the urinary bladder with intravesical poly I: Poly C effects on natural killer function

Summary Considerable interest has been focused on the use of interferon (IFN) and IFN-inducers as antineoplastic agents in humans. The current report will focus on the effect of intravesical administration of Poly I: Poly C on NK activity in patients with TCC of the urinary bladder. NK cytotoxicity was measured in 14 patients with primary TCC, 8 patients received Poly I: Poly C and 5 other patients received intravesical thiotepa. Blood samples were obtained prior to and 48 h following each drug treatment. A variation in the initial NK level determined prior to treatment was observed in the different TCC patients: 5 patients treated with Poly I: Poly C and 5 patients treated with thiotepa exhibited low NK activity prior to treatment, whereas the other 3 patients who were treated with Poly I: Poly C had high initial NK levels. Following drug treatment it was shown that a significant elevation in the NK cytotoxicity was only observed in patients treated by intravesical Poly I: Poly C who had low NK activity prior to treatment. No such effect was observed in patients treated with thiotepa or in patients treated with Poly I: Poly C who exhibited a high NK activity prior to treatment.     

Cytotoxic activity and interferon production by lymphocytes from patients with multiple sclerosis

Peripheral blood lymphocytes from MS patients and from healthy control donors were compared for their ability to mediate spontaneous and antibody-dependent cell-mediated cytotoxicity. They were also compared for their ability to respond to infection with various strains of measles and sSPE viruses with interferon production and enhanced NK activity. Neither SLMC nor ADCC against several different target cells was found to be impaired in the MS population. Furthermore, no defect was detected in the response of patients' lymphocytes to virus challenge in vitro in terms of both activation of NK cells and interferon production. Enhanced NK activity was also induced by an exogenous interferon preparation and by Poly I:C to the same extent in patients and controls.     

Differences in murine gut-associated lymphoid tissues in generating broadly nonspecific cytotoxic cells in response to interferon alpha A/D and interleukin 2

We examined the response of cells of murine gut-associated lymphoid tissues to agents that augment the activity of natural killer (NK) cells. Specifically, we studied the effect of polyinosinic: polycytidylic acid (Poly I:C) in vivo, and recombinant interferon alpha A/D (rIFN alpha A/D) and recombinant interleukin 2 (rIL2) in vitro on lymphoid cells of mesenteric lymph nodes (MLN) and Peyer's patches (PP) in generating cytotoxicity against NK-sensitive (YAC-1) and NK-insensitive (B16BL6) tumor targets. The effect of these agents on spleen cells was examined for comparison with their effect on MLN and PP cells and as a positive control. MLN and PP cells lacked spontaneous NK activity: however, NK activity could be augmented to different levels by the three agents. The treatment of mice in vivo with Poly I:C induced considerable cytotoxicity in the spleen and MLN but only a weak cytotoxic response in PP. The in vitro enhancement of NK activity by rIFN alpha A/D was strong in the spleen, intermediate in MLN, and consistently poor in PP. The weak NK augmentation by rIFN alpha A/D in PP was not restricted to a single mouse strain. PP cells from five strains of mice responded poorly to rIFN alpha A/D. Furthermore, NK augmentation by rIFN alpha A/D in PP cells did not improve after passing the responder cells through nylon wool, indicating that the lack of augmentation of NK activity was not the result of a preponderance of B cells or the masking of NK cells by adherent lymphoid populations in PP. In contrast to weak augmentation of NK activity by rIFN alpha A/D, considerable IL2-induced lymphocyte-activated killer (LAK) activity against NK-insensitive B16BL6 tumor cells was induced in PP. Limiting-dilution analysis showed that the frequency of LAK precursors in the MLN and PP was not markedly different from that of the spleen. The differences among spleen, MLN, and PP lymphoid populations in generating the broadly nonspecific cytotoxic effector cells in response to rIFN alpha A/D or rIL2 may result from differences in the pools of different pre-NK cells or to differential sensitivity of the same pool of pre-NK cells to rIFN alpha A/D and rIL2 in different anatomical locations.     

The in vitro killing of syngeneic cells by peritoneal cells from adjuvant-stimulated mice.

The cytotoxicity of peritoneal exudate cells from mice which had been injected with anaerobic coryneform organisms which have adjuvant activity was assessed by measuring the release of radioactive chromium from monolayers of whole mouse embryo cells. It was found that the peritoneal cells from adjuvant-stimulated mice were more cytotoxic than cells from normal mice. The increased cytotoxicity was present as early as 2 days after injection of the organisms, and was abolished by trypsin treatment of the peritoneal cells. The cytotoxic effect requires the presence of live peritoneal cells, and is more marked as the ratio of effector to target cells is increased. The plastic adherent cells of the peritoneal cell population are more effective in the cytotoxic reaction than are the non-adherent cells. The stimulated peritoneal cells can kill both syngeneic and allogeneic mouse embryo cells. Consideration is given to the possible mechanisms by which the increased cytotoxicity might be induced.     

Divergence in activation by poly I:C of human natural killer and killer cells

Summary Interferons consistently enhance spontaneous cellular cytotoxicity (SCC) mediated by natural killer (NK) cells. More controversial is the ability of interferons to enhance antibody-dependent cellular cytotoxicity (ADCC) mediated by killer (K) cells. Since NK and K cells appear to represent overlapping subpopulations of lymphocytes, the present study was undertaken to examine in greater detail the relationship between NK and K cell functional modulation by the potent interferon inducer, poly I:C. Utilizing peripheral mononuclear cells from a panel of 21 healthy individuals, treatment in vitro with poly I:C resulted in modulation of both SCC and ADCC. SCC was significantly enhanced in 52 of a series of 55 trials (95%), whereas ADCC was significantly enhanced in parallel in only 18 of the trials (33%). Cells which mediated enhanced ADCC were plastic-nonadherent, which is characteristic of K cells. SCC was consistently enhanced in all but two of the 14 individuals who were tested two or more times. By contrast, the ability of poly I:C to enhance ADCC varied between trials in 11 of these individuals. In the other three, ADCC enhancement never occurred. No correlation existed between SCC and ADCC augmentation despite use of the same target cell to assess the two lytic activities in parallel. Poly I:C exclusively enhanced SCC in 36 trials (65%) and exclusively enhanced ADCC in two trials (4%). Discordance between SCC and ADCC enhancement also occurred in three of eight trials (38%) in which lymphocytes were treated directly with interferon a. Results in long-term (18-h) ⁵¹Cr-release assays indicated that poly I:C accelerated the kinetics of ADCC without affecting the proportion of target cells lysed by K cells. By contrast, an increased proportion of target cells was killed by poly I:C-stimulated NK cells. These results suggest that the controversy concerning relative interferon effects upon NK and K cells derives from differences both quantitative and qualitative in nature. K cell activity is enhanced but at a relatively low frequency. Enhancement of NK cell activity is selective in the sense that it occurs independently of and with greater frequency than enhancement of K cell activity. Distinct biological mechanisms may, therefore, be involved in regulation and expression of NK and K cell activation by interferons.     

Cytotoxic T cells in the peritoneal cavity of mice infected with ectromelia virus.

Peritoneal exudate cells from mice infected with ectromelia virus were cytotoxic for virus-infected target cells as measured in a 51Cr release assay. Cytotoxic activity seemed to be T cell-dependent as it was largely abolished by treatment with anti-theta serum and complement but was not impaired by macrophage depletion. The kinetics of development of cytotoxicity in the peritoneal cavity lagged behind spleen cytotoxicity by 1-2 days. Peak activity in peritoneal cells was present about 6 days after intravenous infection with virus. These studies suggest that macrophages present in the free peritoneal cell populations of ectromelia-infected mice are not cytotoxic for virus-infected target cells. The effect of macrophages in virus clearance is therefore likely to be due to phagocytic rather than cytotoxic effects.     

Modulation of natural killer activity in mice following infection with Listeria monocytogenes

Mice that received a sublethal, intraperitoneal dose of viable Listeria monocytogenes, virulent strain 10403, exhibited a systemic increase in natural killer (NK) activity. The kinetics of the response differed with respect to the various effector cell populations analyzed. Resident peritoneal cells and peripheral blood leukocytes demonstrated high NK activity on Days 3, 7, and 10. Peak spleen and bone marrow NK activity was observed on Day 3, returning to normal levels by Day 7. In contrast, peritoneal exudate cells, elicited with proteose peptone, expressed enhanced NK activity for 60 days following infection with viable Listeria. Augmented NK activity was detected with all cell types as early as 12 hr after infection. The intraperitoneal injection of nonviable antigenic preparations derived from L. monocytogenes, strain 10403, resulted in the enhancement of peritoneal and splenic NK activity. In contrast, mice that received an intraperitoneal injection of avirulent Listeria, strain 19113, failed to express enhanced levels of NK activity. The genetic trait of anti-listerial resistance which is associated with non-H-2 linked genes was of no importance with respect to enhanced NK activity. Listeria-resistant C57BL/6J and Listeria-susceptible DBA/2J mice both produced systemic augmentation of NK activity following infection. NK activity was not abrogated by macrophage depletion or by treatment with anti-Thy 1.2 serum plus complement. These results confirm the potent immunostimulatory capacity of virulent Listeria for NK activity and provide further insight into the kinetics of this response in various lymphoid compartments. The protracted augmentation of NK activity of elicited peritoneal exudate cells as compared to nonelicited peritoneal cells in Listeria-primed mice suggests that the influx of inflammatory cells may provide NK-enriched and/or accessory populations for immunopotentiation of NK activity in inflammatory sites.     

Mechanisms of killing of measles virus-infected cells by human lymphocytes: interferon associated and unassociated cell-mediated cytotoxicity

The recent interest in natural killer (NK) cells in immunosurveillance and the ability of infection with certain organisms to modulate NK activity led us to examine the influence of Toxoplasma gondii infection on mouse NK cells. Infection of BALB/c mice with 5 × 10³ virulent Toxoplasma intraperitoneally (ip) resulted in significantly enhanced NK activity in peritoneal exudate cells (PC) and in spleen cells (SC). Intravenous (iv) and subcutaneous (sc) challenge of BALB/c mice with Toxoplasma also resulted in enhanced natural killer (NK) activity in PC and SC. In BALB/c mice, as well as in other strains (A/J, C57BL/6, C3H/HeJ, CeH/HeN, [A/J × C3H]F₁), peak augmentation of PC and SC NK activity was observed 3 days following ip Toxoplasma challenge. Administration of silica to mice abolished Toxoplasma-induced NK cytotoxicity. BALB/c mice chronically infected with Toxoplasma had significantly higher endogenous NK activity than did controls in PC but not in SC. Chronically infected BALB/c mice boosted with virulent Toxoplasma ip exhibited significantly enhanced NK activity in PC but not in SC. Thus, acute and chronic infection with Toxoplasma modulates NK activity in addition to macrophage activation and thereby provides a system that should facilitate study of the relative contribution of NK cells and activated macrophages in resistance to tumor growth and spread.     

Effects of metabolic inhibitors on spontaneous and interferon-boosted human natural killer cell activity

Human natural killer (NK) cell activity can be augmented by pretreatment with partially purified preparations of human interferon (IF). Studies have now been performed to determine the metabolic processes required for and involved in spontaneous NK activity and augmentation of cytotoxicity. A 4-hr 51Cr release cellular cytotoxicity assay was used to measure the NK activity, and peripheral blood leukocyte cells (PBL) were treated with: a) x-ray or mitomycin C; b) actinomycin D; or c) emetine, cycloheximide, pactamyhcin, or puromycin to assess the roles of DNA, RNA, and protein synthesis, respectively, in spontaneous NK activity and in boosting by IF. Prolonged incubation (18 hr) of PBL after blockage of synthesis of DNA almost completely abrogated NK activity; however, NK activity could be partially or totally restored to these populations by incubation of the effector cells for 1 hr at 37 degrees C with IF. Blockage of DNA synthesis for 1 hr had no effect on spontaneous NK activity or on boosting by IF. Inhibition of RNA synthesis also had no effect on spontaneous NK activity. Treatment of PBL with actinomycin before exposure to IF prevented boosting, but treatment with the RNA synthesis inhibitor after boosting with IF for 5 to 6 hr no longer had an appreciable effect on cytotoxicity. The effect of protein synthesis inhibitors on spontaneous NK activity was dependent on the inhibitor selected. Emetine and puromycin totally abrogated spontaneous NK activity at concentrations of inhibitor that blocked 3H-leucine incorporation 90% or more. In contrast, cycloheximide and pactamycin had only minimal effects on spontaneous NK activity but totally abrogated the boosting of IF.     

Cytotoxic and morphologic profile of endogenous and pyrimidinone-activated murine NK cells

We investigated the effect of therapeutically relevant pyrimidinone molecules on murine natural killer (NK) cell cytotoxicity. Our studies demonstrated that pyrimidinones augmented or induced substantial levels of NK cell anti-YAC-1-directed cytotoxic potential in the spleen, bone marrow, peripheral blood, peritoneal exudate, lungs, and liver of adult and infant mice. The NK cell stimulating effect of pyrimidinones was not restricted to a single mouse strain, but was displayed by six different inbred strains of mice. Percoll density gradient separation studies demonstrated that activated effector cells were of low density, displayed morphology of large granular lymphocytes (LGL), and expressed asialo GM-1 cell surface antigen. The analysis of the mechanism of NK cell potentiation showed that the increase in the cytotoxic activity was manifested on several levels, including an increased kinetics of lysis and an increase in the number of LGL and in their tumor-binding and killing capacity. Furthermore, the pyrimidinone-mediated NK cell-augmenting effect was abolished by anti-interferon serum, indicating the role of interferon in NK cell potentiation. In the light of possible role of NK cells in cancer defense, pyrimidinones may have therapeutic value in defense against primary and metastatic tumors.     

Protection by polyI:polyC against infection with herpes simplex virus in mice pretreated with Corynebacterium parvum

The effect of Corynebacterium parvum on the protection by polyinosinic-polycytidylic acid (polyI:polyC) against lethal infection with Herpes simplex virus type 1 (HSV) was studied in mice. Pretreatment with C. parvum resulted in prolonged survival times in all experiments. One third of the mice survived an infection with 100 LD50, whereas all mice died when treated with polyI:polyC alone. Increased protection was observed up to 6 weeks after pretreatment and only seen when both C. parvum and polyI:polyC were given at the same site of injection (intraperitoneally). Protection against HSV correlated with increased interferon (IFN) activities induced by polyI:polyC in the peritoneal cavity of C. parvum-pretreated mice. In these mice, natural killer cell activity of peritoneal exudate cells (PEC) was also augmented in response to polyI:polyC. Protection was markedly decreased by intraperitoneal injection of silica or of an antiserum against murine IFN. It appears that increased local levels of IFN presumably produced by macrophages in response to polyI:polyC in C. parvum-pretreated mice play the major role in the antiviral defence in our model and that activation of NK cells may be a secondary effect of IFN.     

Augmentation of mouse natural killer cell activity by muramyl dipeptide and its analogs

The ability of muramyl dipeptide (MDP) and its structural analogs (des-MDP, abu-MDP, and des-abu-MDP) to influence mouse natural killer (NK) cells in two different strains of mice was examined. In CBA/J mice, administration of MDP by both intraperitoneal (ip) and intravenous (iv) routes enhanced splenic NK cell activity. Maximum augmentation of NK cell activity was observed 3 days after MDP treatment. NK cell activity was also stimulated upon in vitro culture of CBA/J mouse spleen cells with MDP. Only iv inoculation of MDP to C57BL/6 mice 7 days previously enhanced NK cell activity of spleen cells. Peritoneal NK cell activity was not affected in either strain of mice, regardless of the route of inoculation of MDP. Two structural analogs of MDP, abu-MDP and des-abu-MDP, enhanced peritoneal NK cell activity, whereas des-MDP had no effect when tested 3 days after ip treatment of CBA/J mice with these compounds. Peritoneal NK cell activity of C57BL/6 mice was not modulated by des-MDP, abu-MDP, or des-abu-MDP. A synergistic effect on peritoneal NK cell activity was observed in both CBA/J and C57BL/6 mice treated first with MDP and then with lipopolysaccharide (LPS) or Bacillus Calmette-Guerin (BCG).     

Induction of natural killer cell activity of thoracic duct lymphocytes by polyinosinic-polycytidylic acid (poly(I:C)) or interferon

Natural killer (NK) cell activity of thoracic duct lymphocytes (TDL) was examined in normal mice and in mice treated with polyinosinic-polycytidylic acid (poly(I:C) and interferon (IFN). TDL from mice treated with phosphate-buffered saline (PBS) expressed little or no NK cell activity against YAC-1 target cells at effector-to-target ratios of up to 200:1, even after in vitro treatment with murine L-cell IFN. In contrast, TDL from poly(I:C)- or IFN-treated mice expressed significant NK activity, which correlated with the significantly higher NK activity of splenocytes from these mice compared to the NK activity of splenocytes from PBS-treated mice. These data indicate that although TDL from normal mice express no detectable NK cell activity, NK cell activity can be induced in TDL by in vivo treatment with poly(I:C) or IFN.     

Lactate dehydrogenase-elevating agent is responsible for interferon induction and enhancement of natural killer cell activity by inoculation of Ehrlich ascites carcinoma cells into mice

Inoculation of Ehrlich ascites carcinoma cells (EAC) into the peritoneal cavities of outbred ddY mice induced interferon (IFN) in the circulation. The maximum titer (1,280 U) was obtained at 24 hr after inoculation. This induced IFN had the characteristics of type I IFN, i.e., stability at pH2 and lability at 56 C. An increase in natural killer cell (NK) activity was also observed for the first 3 days after inoculation. In addition, plasma lactate dehydrogenase (LDH) activity was elevated in these mice. Inoculation of ascitic fluid or serum of EAC-bearing mice into normal mice increased plasma LDH activity six- to sevenfold over normal levels and elevated activities persisted throughout the life of the mice. These results suggest that the LDH-elevating agent was responsible for IFN induction and for enhancing NK activity. Because lactate dehydrogenase-elevating virus (LDV) can be eliminated from tumor cells by passage in vitro, we attempted to grow EAC in tissue culture for several months and re-examined whether the inoculation of such cells could elevate plasma LDH activity induce IFN and enhance NK activity. The results showed that inoculation of the passaged cells had no effect on these activities in normal mice. Therefore, we concluded that the IFN inducer was LDV which contaminated the EAC and then enhanced the NK activity. N-tropic murine leukemia virus also contaminated EAC, but this virus was not responsible because cultured cells of EAC still shed this virus.     

Elevated natural killer cell-mediated cytotoxicity, plasma interferon, and tumor cell rejection in mice persistently infected with lymphocytic choriomeningitis virus

To assess the effects of chronic virus infection on NK cells, the related phenomena of interferon (IFN) production, NK cell activation, and resistance to tumor implants were studied in mice persistently infected with lymphocytic choriomeningitis virus (LCMV). NK cells from these LCMV-carrier mice displayed augmented killing of the NK-sensitive YAC-1 target cell. They did not lyse the more resistant targets L-929 and P815, whereas NK cells from acutely infected mice efficiently lysed all three cell types. The plasma from LCMV-carrier mice contained an antiviral substance identified as IFN type I, based on species specificity, virus nonspecificity, resistance to pH 2, and sensitivity to antibody to type I IFN. IFN titers in plasma from LCMV-carrier mice were 32 to 64 U/ml, about 20-fold less than those in acutely infected mice. Both the IFN and NK cell levels continuously remained elevated in the LCMV carrier mice up to at least 6 months of age. IFN is known to activate NK cells and to induce their blastogenesis in vivo. As determined by centrifugal elutriation, large NK blast-size cells were isolated from the spleens of acutely infected mice, but not from either normal or LCMV-carrier mice, suggesting augmented NK cell-mediated lysis in the absence of enhanced proliferation. Poly inosinic-cytidylic acid induced high levels of NK cell-mediated cytotoxicity and blastogenesis in both control and LCMV-carrier mice, but IFN was induced to lower levels in carriers as compared with controls. Coincidental with augmented NK cell activity, the LCMV-carrier mice rejected intravenously injected 125IUdR-labeled tumor cells more efficiently than did normal mice. Thus, LCMV carrier mice have low levels of type I IFN, moderately augmented NK cell activity lasting for at least 6 months, and increased resistance to tumor cell implants. This indicates that augmented NK cell-mediated cytotoxicity can be maintained in vivo over prolonged periods of time in the presence of chronic low-level IFN stimulation.     

Appearance of a Cell Surface Antigen Associated with the Activation of Peritoneal Macrophages in Mice

A relatively large population of murine peritoneal exudate macrophages induced with viable BCG or heat-killed Corynebacterium parvum was stained by the antiserum prepared against purified gangliotetraosyl ceramide (asialo GM1), while only a small population of peritoneal resident macrophages or peritoneal exudate macrophages induced with proteose peptone was stained. The cytotoxicity assay of those macrophages with anti-asialo GM1 plus complement supported these results. Peritoneal macrophages induced with BCG or C. parvum showed strong cytotoxicity for EL4 cells in vitro, while resident or peptone-induced peritoneal macrophages showed no cytotoxicity. BCG- or C. parvum-induced peritoneal cells contained both NK cells and cytotoxic macrophages, and either in vivo or in vitro pretreatment of the cells with anti-asialo GM1 and complement abolished the activities of both types of cells. Peptone-induced peritoneal macrophages incubated with lymphokines (LK) or lipopolysaccharide (LPS) were cytotoxic for EL4 cells and contained an increased number of cells stained by anti-asialo GM1. The cytotoxicity of these in vitro activated macrophages was reduced by treatment with anti-asialo GM1 plus complement. When peptone-induced peritoneal macrophages were incubated with LK, the number of cells stained by anti-Ia antiserum increased, but the number did not increase when the macrophages were incubated with LPS. Pretreatment of peptone-induced macrophages with anti-asialo GM1 plus complement did not affect the ability of the macrophages to be activated by LK. These results taken together strongly suggest that the antigen (s) reactive with anti-asialo GM1 is expressed on the cell surface of cytotoxic peritoneal macrophages in mice.     

Suppression of in vitro maintenance and interferon-mediated augmentation of natural killer cell activity by adherent peritoneal cells from normal mice

The ability of adherent peritoneal cells (APC) to inhibit murine natural killer (NK) cell activity was examined. Nylon wool-nonadherent splenic effector cells were incubated overnight with or without different numbers of APC. NK activity was then measured against YAC-1 in a 4-hr 51Cr-release cytotoxicity assay. Proteose peptone-elicited or unstimulated resident APC from normal mice markedly suppressed NK activity of splenic effector cells in the presence or absence of exogenously added interferon. The suppression was dependent on the number of APC added with 10% APC, relative to the number of effector cells, resulting in a greater than 65% inhibition of cytotoxicity. The effector phase of cytotoxicity was not the target of the suppressor cells, because APC did not suppress NK activity when they were present only during the cytotoxicity assay. The addition of APC to alloimmune cytotoxic T cells under similar conditions resulted in no inhibition of cytotoxicity. Both syngeneic and allogeneic APC suppressed NK activity, but several murine macrophage-like cell lines lacked this property. In contrast to APC, incubation of effector cells with adherent spleen cells from normal mice resulted in no inhibition of NK activity. APC from mice injected with C. parvum were less inhibitory for NK activity than normal resident APC. In contrast, C. parvum APC suppressed concanavalin A-induced lymphoproliferation and were directly cytotoxic to tumor target cells in vitro, whereas normal APC lacked these properties. The results indicate that the peritoneum of untreated mice contains suppressor cells that can inhibit the in vitro maintenance and IFN-mediated augmentation of NK activity. In addition, these results indicate a broader spectrum of immune reactivities regulated by APC and suggest that, depending on their level of activation, APC can preferentially inhibit different immune functions.     

Modulation of stimulatory effects of poly(I:C) on natural cytotoxicity by anti-interferon

The effect of polyinosinic . polycytidylic acid [poly(I:C)] on tumor inhibition in the context of natural cytotoxicity enhancement prompted further assessment of mechanisms underlying these effects. In vivo inoculations of poly(I:C) led to dose-dependent cytotoxicity enhancement in splenic lymphocytes and nonrecruited peritoneal exudate cells (monocytes). Although cytotoxicity of macrophages and lymphocytes together was less than that seen with lymphocytes alone, addition of indomethacin to these samples did not enhance cytotoxicity. In vivo inoculation of anti-interferon prior to poly(I:C) treatment prevented poly(I:C)-induced enhancement of natural cytotoxicity. Tumor growth was significantly inhibited by poly(I:C) treatment. Prior inoculation of anti-interferon antiserum partially prevented such tumor inhibition. Taken together, the tumor-inhibitory effect of poly(I:C) in this model may be mediated by interferon production and, at least in part, by interferon-induced enhancement of natural cytotoxicity.