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.     

Natural killer cells in the blood and bone marrow of the rhesus monkey

Natural killer (NK) cells in peripheral blood lymphocytes (PBL) and bone marrow (BM) cells of the rhesus monkey were detected by their functional activity against K562 cells. Animals could be grouped into "high" or "low" NK responders, a trait found to be consistent over a period of 2 years. NK active cells in PBL were in the nonadherent population, with the majority bearing Fc receptors and a further subdivision of these into CR+ (complement receptor) and CR- NK cells. Of 10 monoclonal antibodies directed against different epitopes of human lymphocytes, OKT11, OKT10, and Leu 11 showed reactivity with rhesus NK cells. Only OKT10 was reactive with the effector site of the cell, as shown by its capability to block NK function. Of the Leu 11 monoclonal antibodies (a, b, c), Leu 11c was nonreactive while Leu 11a and Leu 11b were shown by immunofluorescence to bind to 7 to 21% of PBL; Leu 11b was also cytotoxic to the NK cells. Leu 11b did not prevent binding of Leu 11a to PBL, suggesting reactivity of these antibodies with different epitopes. Percoll fractionation of PBL and BM revealed a greater enrichment of NK activity with BM; also, with PBL peak NK activity occurred in fractions 4 and 5 while this occurred in fraction 5 with BM. Although Percoll PBL fractions contained a higher percentage of Leu 11b cells, the NK activity of the BM fractions was proportionately greater. The majority of PBL cells with NK activity were FcR+ while significant activity could be attributed to FcR- cells of BM, in both the unseparated and Percoll fractions of each tissue. The data suggest NK active cells of BM may be distinct from those found in PBL.     

Phenotypic characterization of cynomolgus monkey natural killer cells

Natural killer (NK) activity of cynomolgus monkey peripheral blood lymphocytes (PBL) was determined using B95-8 cells as target cells. Examination for the reactivity of human NK-related monoclonal antibodies (mAbs), anti-Leu-7, anti-Leu-11b, anti-NKH1A, and NC-1, with cynomolgus PBL revealed that Leu-11b (CD16) was the only antigen expressed on cynomolgus PBL. The percentage of Leu-11b-positive (Leu-11b+) cells correlated well with the level of NK activity when PBL taken from 21 monkeys were tested. After depletion of Fc receptor-positive (FcR+) cells, NK activity was lost concomitantly with the disappearance of Leu-11b+ cells. These results show that cynomolgus NK cells are mainly FcR+ which can be detected by mAb directed to Leu-11b. Cynomolgus PBL were separated by Ficoll-Hypaque centrifugation after E rosette formation with 2-aminoethylisothiouronium bromide-treated sheep red blood cells, and NK activities of both E rosette-forming (E+) and nonforming (E-) fractions were determined. The high level of killing was observed in the E- fraction, suggesting that the majority of cynomolgus NK cells was contained in the E- fraction. The separation of PBL by Percoll discontinuous density gradient showed cynomolgus NK cells were enriched in the low density fractions.     

Inhibition of NF-kappa B activity in T and NK cells results in defective effector cell expansion and production of IFN-gamma required for resistance to Toxoplasma gondii

To define the role of NF-kappa B in the development of T cell responses required for resistance to Toxoplasma gondii, mice in which T cells are transgenic for a degradation-resistant (Delta N) form of I kappa B alpha, an inhibitor of NF-kappa B, were challenged with T. gondii and their response to infection compared with control mice. I kappa B alpha(Delta N)-transgenic (Tg) mice succumbed to T. gondii infection between days 12 and 35, and death was associated with an increased parasite burden compared with wild-type (Wt) controls. Analysis of the responses of infected mice revealed that IL-12 responses were comparable between strains, but Tg mice had a marked reduction in systemic levels of IFN-gamma, the major mediator of resistance to T. gondii. In addition, the infection-induced increase in NK cell activity observed in Wt mice was absent from Tg mice and this correlated with NK cell expression of the transgene. Infection-induced activation of CD4(+) T cells was similar in Wt and Tg mice, but expansion of activated CD4(+)T cells was markedly reduced in the Tg mice. This difference in T cell numbers correlated with a reduced capacity of these cells to proliferate after stimulation and was associated with a major defect in the ability of CD4(+) T cells from infected mice to produce IFN-gamma. Together, these studies reveal that inhibition of NF-kappa B activity in T and NK cells results in defective effector cell expansion and production of IFN-gamma required for resistance to T. gondii.     

Activation of human B lymphocytes. XVII. Synergy between nonspecific and specific signals in the antigen-specific responses of human B cells

The incubation of human peripheral blood lymphocytes (PBL) with the natural killer (NK)-sensitive MOLT-4 cell line results in PBL-target cell conjugate formation by certain lymphocyte subpopulations. Following velocity sedimentation, the PBL depleted of these conjugate-forming subpopulations are markedly diminished in the ability to mediate either antibody-dependent cellular cytotoxicity (ADCC) or NK activity. The immediate testing of highly pure PBL subpopulations isolated from the NK target conjugates does not reveal the expected recovery of augmented ADCC or NK levels. Following in vitro incubation, however, the PBL NK target-binding subpopulations do manifest augmented levels of both NK and ADCC, whereas the depleted PBL continue to display diminished NK and ADCC levels. In addition, the degree of augmented NK and ADCC levels recovered by the NK target-binding PBL subpopulations appears dependent on both the time and the temperature of in vitro incubation. Moreover, the ADCC recovery patterns are identical to those observed for NK activity regardless of the time and temperature of in vitro incubation. These results directly demonstrate that the PBL subpopulations isolated from certain NK target cells are functionally enriched in the ability to mediate from ADCC and NK activity.     

Enhancement of susceptibility of HSV-1-infected cells to natural killer lysis by interferon

The effect of interferon (IFN) on the natural killer (NK) activity of human PBL against HSV-1-infected HeLa cells was studied. Human PBL from several individuals did not consistently show a preferential lysis of HSV-1-, vaccinia-, or adenovirus type 5-infected cells with respect to uninfected HeLa cells. Treatment with IFN of effector PBL increased their lytic activity but did not alter the degree of preference on the lysis of the target cells shown by untreated PBL. Pretreatment with IFN of HSV-1-infected HeLa cells increased their susceptibility to lysis 5- to 10-fold. In contrast, identical pretreatment of the uninfected, adenovirus type 5- or vaccinia virus-infected HeLa cells before the assay decreased their susceptibility to NK lysis. This effect was not likely to be due to a block of the viral replication because other inhibitors like mitomycin C did not have the same effect. All target cells induced IFN synthesis in effector PBL cells. A similar level of IFN was induced by HSV-1-infected or uninfected HeLa cells. Pretreatment with IFN of HSV-1-infected, but not uninfected, HeLa cells induced 5 to 10 times more IFN by PBL, in good correlation with the increase in lytic activity. PBL treated with IFN, however, in conditions to give maximal stimulation of NK activity, presented the same preferential lysis of HSV-1-infected HeLa cells and synthesized similar levels of IFN as untreated PBL. In addition, HSV-1-infected HeLa cells were killed through different target structures than uninfected cells. Taken together, our results indicate an effect of IFN at the level of the NK target structures in HSV-1-infected HeLa cells by increasing either their number or, more likely, their affinity for NK cells independent of the effect of IFN in the effector cells or as an antiviral agent.     

Studies on the mechanism of natural killer cytotoxicity. II. coculture of human PBL with NK-sensitive or resistant cell lines stimulates release of natural killer cytotoxic factors (NKCF) selectively cytotoxic to NK-sensitive target cells

This investigation has employed the "innocent bystander" type of experimental design to determine whether soluble cytotoxic factor(s) are released during interactions between human peripheral blood lymphocytes (PBL) and NK-sensitive target cells. PBL cocultured with NK-sensitive Molt-4 or K562 target cells in the lower well of a miniaturized Marbrook culture released natural killer cytotoxic factors (NKCF), which diffused across a 0.2-mu Nucleopore membrane and lysed Molt-4 or K562 target cells cultured in the upper chamber. Coculture of PBL with the NK-resistant Raji or WI-L2 cell lines also induced release of NKCF. These factors were selectively cytotoxic to NK-sensitive targets and lysed Molt-4 and, to a lesser extent, K562 cells. However, Raji, WI-L2, and RPMI 1788 cells were all resistant to lysis. In addition, low density fractions from Percoll density gradients that were enriched for NK effector cells also released increased levels of NKCF during coculture with Molt-4 cells. Lysis of Molt-4 and K562 targets was observed after exposure to NKCF for 48 hr and 60 to 70 hr, respectively. Cellfree supernatants containing NKCF were obtained after a short time of incubation (i.e., within 5 hr of coculture of PBL with NK target cells). The factors were nondialyzable, stable at 56 degrees C for 3 hr, and showed partial loss of activity on storage at 4 degrees C or -20 degrees C for 7 days. These data suggest that NKCF may be involved in the lytic mechanism of human NK cell-mediated cytotoxicity.     

Assessment of human natural killer and lymphokine-activated killer cell cytotoxicity against Toxoplasma gondii trophozoites and brain cysts

Because previous work has suggested that NK cells may be important in host resistance against the intracellular parasite Toxoplasma gondii we examined whether human NK cells and lymphokine-activated killer (LAK) cells have activity against trophozoites and cysts of this organism in vitro. A method to radiolabel Toxoplasma trophozoites with 51Cr was developed and direct cytotoxic activity was determined by using modifications of the standard 51Cr release assay. Viability of 51Cr-labeled trophozoites assessed by both methylene blue staining and trypan blue exclusion was greater than 90%. Significantly more 51Cr was released by anti-Toxoplasma antibody and C than by antibody in the absence of C. Incubation of trophozoites with freshly isolated human NK cells or NK cells activated with either rIL-2 or rIFN-alpha did not result in significant release of 51Cr (specific lysis was 0 to 2.3%). In contrast, the average specific lysis of radiolabeled trophozoites by LAK cells was significant (specific lysis was 7.8% +/- 1.1, p less than 0.01). In a series of separate experiments, preincubation of radiolabeled trophozoites with heat-inactivated normal or Toxoplasma antibody-positive human serum increased the cytotoxicity of LAK cells from a mean specific lysis of 15% +/- 4.5 to 39% +/- 8.5, respectively (p less than 0.05), as assessed by 51Cr release. Because previous work has shown that radioisotope release from parasites may be nonspecific, separate experiments were performed to determine the cytotoxicity of LAK cells against antibody-coated trophozoites by using ethidium bromide-acridine orange staining to assess effector cell damage. LAK cells had a mean specific lysis of 51% against antibody-coated trophozoites by ethidium bromide-acridine orange staining. Preincubation with heat-inactivated Toxoplasma-antibody positive human serum did not increase activity of rIL-2-activated NK cells against 51CR-labeled trophozoites. Neither human NK cells (freshly isolated or activated by rIL-2 or rIFN-alpha) nor LAK cells were cytotoxic for purified preparations of cysts of Toxoplasma isolated from the brains of chronically infected mice.     

Effect of histamine and histamine antagonists on natural and antibody-dependent cellular cytotoxicity of human lymphocytes in vitro

The in vitro effect of histamine and its antagonists, cimetidine and clemastine fumarate, on natural killer (NK) and antibody-dependent cellular Cytotoxicity (ADCC) activities of human lymphocytes was investigated. The histamine 1 (H1) antagonist, clemastine fumarate, and the histamine 2 (H2) antagonist, cimetidine, but not histamine alone, inhibited the NK and ADCC activities of lymphocytes when added directly to the mixture of effector and target cells in a ⁵¹Cr-release assay. This inhibition was proportional to the concentration of drugs added and was observed at various effector to target ratios against several targets. H1 and H2 antagonists also inhibited NK activities of T cells as well as Percoll-separated, NK-enriched effector cells. The inhibition was significantly reversed by histamine. In target binding assays, clemastine fumarate and cimetidine also decreased the target binding capacity of effector lymphocytes. Further, PBL precultured with histamine (10^?3–10^?4M) for 24 hr showed a significant decrease in their NK and ADCC activities. In coculture experiments, PBL precultured with histamine suppressed the NK activity of normal autologous effector lymphocytes. PBL precultured with histamine showed an increased number of OKT8⁺ cells, as estimated using monoclonal antibodies. The suppression of Cytotoxicity was not due to either direct toxicity, steric hindrance, crowding, or cell death, but by functionally viable suppressor cells. An immunoregulatory role for histamine in NK and ADCC reactions is proposed.     

Mechanism of cell-mediated cytotoxicity at the single-cell level: VII. Trigger of the lethal hit event is distinct for NK/K and LDCC effector cells as measured in the two-target conjugate assay

Normal human peripheral blood lymphocytes (PBL) express several in vitro cytotoxic functions, among which are natural killer (NK), antibody-dependent cellular cytotoxicity (ADCC), and lectin-dependent cellular cytotoxicity (LDCC). The relationship of these various cytotoxic functions and the identity of cells involved has been a subject of controversy. Recently it was reported that NK and K for ADCC can be mediated by the same cell, suggesting that they constitute in large part a single subpopulation with multiple cytotoxic functions. The ability of this NK/K effector cell to mediate LDCC was examined here using the two target conjugate assay. The effector cells were Ficoll-Hypaque PBL or LGL-enriched fractions. The targets used were K562 or MOLT for NK, RAJI coated with antibody for ADCC, and RAJI coated with PHA or Con A or modified by NaIO₄ for LDCC. In the two-target conjugate assay, one of the targets is fluorescein labeled for identification. The results show that (a) LDCC copurifies with NK/K and is enriched in the LGL fraction, as measured in both the ⁵¹Cr-release assay and the single-cell assay for cytotoxicity; (b) single effector cells simultaneously bind to NK or ADCC and LDCC targets, revealing that single cells bear binding receptors for all targets; and (c) single lymphocytes were not able to kill both bound NK/K and LDCC targets. However, significant two-target killing was obtained when both targets were NK targets, ADCC targets, LDCC targets, or one NK and one ADCC target. These results demonstrate that the NK and LDCC effector cells are distinct subpopulations copurified in the LGL fraction. In addition, the results show that lectin is unable to trigger globally an NK effector cell to mediate cytotoxicity against a bound NK insensitive target. Thus, although both NK and LDCC effector cells are present in the LGL fraction and can bind to both types of targets, the trigger of the lethal hit event is the function of specialized effector cells.     

Depletion of NK by cellular immunoadsorption.

The binding of human natural killer (NK) cells to their tumor cell targets was investigated by using monolayers of sensitive target cell lines. Monolayers of K562 and HSB, a myeloid and T cell line, respectively, were prepared on poly-L-lysine-coated plastic tissue culture dishes and briefly fixed with 0.2% formaldehyde. Freshly isolated peripheral blood lymphocytes (PBL) were incubated on the monolayers. Nonadherent PBL were then removed, after gentle agitation, by decanting and gently washing the monolayer. They were tested, along with unseparated controls, for NK activity in a short-term 51Cr release assay. PBL that were nonadherent to a tested monolayer had only 20 to 60% of the control cytotoxic activity. Our results suggest that NK recognition sites on the effector lymphocytes were able to interact with reciprocal determinants on the target cell monolayers, resulting in selective loss of NK effector cells from the PBL population. The specificity of the NK effector-target interaction was investigated by testing the ability of each monolayer to remove activity against both targets. These data imply heterogeneity with regard to recognition structure within the NK effector population as well as among the target cells.     

A soluble phospholipase of Toxoplasma gondii associated with host cell penetration

We previously reported that phospholipase increases host cell penetration by Toxoplasma gondii. Here we show that calcium-dependent phospholipase A (PLA) activity is found in the supernatant of sonically disrupted T. gondii. When fractions of disrupted T. gondii were incubated with host cells, the release of fatty acids and lysolipids was detected. Fractions of sonically disrupted T. gondii with PLA activity increased T. gondii host cell penetration in a bioassay. In addition, a protein of approximately 20 kDa was detected by immunoblot of T. gondii antigens with horse antiserum to snake venom, the major antibody of which recognizes PLA2. Incubation of T. gondii with exogenous PLA2 resulted in increased solubility of a rhoptry protein. This protein, which we previously characterized as involved with enhanced parasite invasion of host cells and which is recognized by monoclonal antibody Tg49, was detected in increased amounts in supernatant fractions of extracellular parasites treated with PLA2. Whereas without PLA2 treatment, it is only slightly soluble under physiological conditions. This raises the possibility that PLA may be implicated in the release of rhoptry proteins.     

Mechanism of defective NK cell activity in patients with acquired immunodeficiency syndrome (AIDS) and AIDS-related complex. II. Normal antibody-dependent cellular cytotoxicity (ADCC) mediated by effector cells defective in natural killer (NK) cytotoxicity

Our studies and other investigations have shown that NK effector cells can also mediate antibody-dependent cellular cytotoxicity (ADCC) through the use of the Fc gamma receptor on the NK cell membrane. Peripheral blood lymphocytes (PBL) derived from patients with acquired immunodeficiency syndrome (AIDS) and AIDS-related complex exhibit a poor NK activity due to a defective "trigger" required for activation in the lethal hit stage of the NK lytic pathway. Consequently, it was important to delineate whether the defect in AIDS NK cells affected the ADCC function. By using the 51Cr-release assay, the ADCC cytotoxic activity of AIDS PBL was found to be within the normal range, despite the absence of significant NK activity. Several experiments corroborated that the same effector cells mediate both NK CMC and ADCC. Depletion of Fc gamma R-bearing cells resulted in elimination of both the ADCC and NK cytotoxic functions. Single cell analyses, using one- and two-target cell conjugates, revealed that the frequency of ADCC effector:target conjugates and the frequency of killer cells from AIDS PBL were comparable to the frequencies seen in the normal controls. However, when mixtures of NK and ADCC targets were used to form mixed two-target conjugates, the AIDS effector cells lysed only the bound ADCC target, whereas the normal effector cells lysed both the bound NK and ADCC targets. These results demonstrate clearly that the same NK/K effector cells from AIDS PBL, defective in NK activity, are not impaired in mediating ADCC activity. These findings were supported by the demonstration that AIDS PBL stimulated with ADCC targets, but not with NK targets, released NK cytotoxic factors, postulated mediators of the NK CMC reaction. These findings indicate that the NK/K cells in AIDS are triggered normally for ADCC activity but are not triggered for NK activity. Furthermore, the results indicate that the lytic machinery is not impaired in the AIDS NK/K cells.     

2',5'-Oligoadenylate trimer core and the cordycepin analog augment the tumoricidal activity of human natural killer cells

Interferon (IFN) augments the lytic activity of natural killer (NK) cells, inhibits the transformation of human peripheral blood lymphocytes (PBL) by Epstein Barr virus (EBV), and induces a 2',5'-oligoadenylate (2',5'-An) synthetase. Exogenous 2',5'-An by itself can inhibit the transformation of human PBL by EBV. The present studies report that 2',5'-An and its cordycepin analog also augmented the tumoricidal activity of human NK cells. Incubation of nylon wool-passed PBL for 1 to 2 hr with the 5'-dephosphorylated core trimer of 2',5'-An boosted natural killing of tumor target cells modestly, but consistently. The cordycepin analog (3'-deoxyadenylate) also augmented NK activity. The optimal concentration both of 2',5'-A3 core and of 2',5'-3'dA3 core was 50 microM, and the optimal time for this effect was 2 hr of treatment. Kinetic analysis revealed that 2',5'-A3 core increased the lytic rate of NK cells by about one-third. This increase was due to an even greater increase (about 50%) in the lytic activity of individual NK cells, coupled with a slight decrease in the number of actual NK effector cells. In contrast, 3',5'-A3 core did not increase NK activity even at 300 microM, at which point it was toxic. In addition, to rule out a pro-drug effect as the basis for the boosting of NK activity by 2',5'-A3 core and by 2',5'-3'dA3 core, the effect of adenosine and cordycepin monomers on NK activity was tested. Neither adenosine nor cordycepin, tested at 150 microM (three times the optimal concentration of the trimer cores), boosted NK activity. The addition of 2'-deoxycoformycin (2 microM) had no effect on the actions of adenosine and cordycepin monomers. The data presented here demonstrate that 2',5'-A3 core and its analog 2',5'-3'dA3 core have another IFN-like action, augmentation of NK activity, in addition to inhibiting EBV-induced transformation.     

Natural killer-like cells in the sheep: functional characterization and regulation by pregnancy-associated proteins

Natural killer (NK) cells represent an important component of the innate immune system. In ruminants there are few reports regarding presence or characterization of NK cells. Although absence of expression of major histocompatibility complex proteins on ovine trophoblast makes it potentially a target for NK cells, little is known about regulation of NK cells by products of pregnancy in sheep. Objectives of the present study were to determine whether cells with characteristics of NK cells exist in preparations of ovine peripheral blood lymphocytes (PBL) and endometrial epithelial cells (EEC) and to determine regulation of such cells by two pregnancy-associated molecules with immunoregulatory properties (ovine uterine serpin [OvUS] and interferon-tau [IFN-tau]). Ovine PBL and EEC lysed a putative NK target cell, the BHV-1 infected D17 cell, and lysis by both types of cells was neutralized by antibody against a molecule called function-associated molecule (FAM) expressed on NK cells of several species. Moreover, inhibitors that interfere with perforin-mediated lysis blocked NK-like activity of PBL. The NK-like lytic activity of PBL and EEC was inhibited by OvUS, whereas ovine and bovine IFN-tau significantly enhanced NK-like activity of PBL. In conclusion, NK-like activity present in preparations of ovine PBL and EEC is mediated by FAM(+) cells, is dependent on processes that involve perforin processing, and is regulated by OvUS and IFN-tau. Inhibition of NK-like activity of PBL and EEC by OvUS is consistent with a role for OvUS in protecting the conceptus from maternal cytotoxic lymphocytes. Stimulation of lysis by IFN-tau implies the existence of other inhibitory mechanisms during early pregnancy to prevent NK cell-mediated destruction of the conceptus.     

A Soluble Phospholipase of Toxoplasma gondii Associated with Host Cell Penetration

We previously reported that phospholipase increases host cell penetration by Toxoplasma gondii . Here we show that calcium-dependent phospholipase A (PLA) activity is found in the supernatant of sonically disrupted T. gondii . When fractions of disrupted T. gondii were incubated with host cells, the release of fatty acids and lysolipids was detected. Fractions of sonically disrupted T. gondii with PLA activity increased T. gondii host cell penetration in a bioassay. In addition, a protein of approximately 20 kDa was detected by immunoblot of T. gondii antigens with horse antiserum to snake venom, the major antibody of which recognizes PLA₂. Incubation of T. gondii with exogenous PLA₂ resulted in increased solubility of a rhoptry protein. This protein, which we previously characterized as involved with enhanced parasite invasion of host cells and which is recognized by monoclonal antibody Tg49, was detected in increased amounts in supernatant fractions of extracellular parasites treated with PLA₂. Whereas without PLA₂ treatment, it is only slightly soluble under physiological conditions. This raises the possibility that PLA may be implicated in the release of rhoptry proteins.     

Resistance of human leukocytes to vesicular stomatitis virus infection as one of the innate antiviral immune activities; participation of cell subpopulations

Among reactions of innate immunity, resistance of human peripheral blood leukocytes (PBL) to viral infection seems important. The purpose of our study was to find, which of the subpopulations of PBL is the most responsible for the innate antiviral immunity of these cells. The innate immunity was measured by using the direct method of infection of leukocytes with vesicular stomatitis virus (VSV). The lack of VSV replication by infected leukocytes (0-1 log TCID50) was taken as an indicator for complete immunity; a low level of VSV (2-3 log) for partial immunity; and high VSV titer (more than 4 log) for no immunity. The resistance/innate immunity of whole PBL and subpopulations such as: adherent cells, fractions enriched in lymphocytes T, and lymphocytes B (separated on column with nylon wool), NK(+) and NK(-) (separated by microbeads activated cell sorting MACS) differ from each other. All fractions express higher resistance/innate immunity than the whole PBL. NK(+) cells were found the most resistant fraction of PBL to VSV infection. The results indicate that among the leukocytes in PBL the regulation mechanisms of innate immunity exist. The study on the mechanism of innate immunity regulation as well as the role of NK in innate immunity of PBL must be continued.     

Acute toxoplasma infection of mice induces spleen NK cells that are cytotoxic for T. gondii in vitro

Murine spleen natural killer (NK) cells from normal and Toxoplasma-infected BALB/c mice were examined for their reactivity against RH strain tachyzoites in vitro. First, the effect of suspending medium on survival of extracellular RH tachyzoites was determined. Optimal parasite viability (by ethidium bromide-acridine orange staining) was observed when tachyzoites were incubated in phosphate-buffered saline (PBS) containing 10% horse serum (HS) for as long as 5 hr. In addition, parasite viability in PBS-HS correlated with subsequent infectivity, because freshly harvested and PBS-HS-incubated tachyzoites were equivalent in their ability to cause lethal infections in normal mice and to survive within normal mouse macrophages. Furthermore, viability and tumoricidal capacity of murine spleen NK cells incubated in PBS-HS was comparable to that of NK cells incubated in a standard cytotoxicity medium. Incubation of effector NK cells and target tachyzoites in PBS-HS in vitro revealed that spleen NK cells from 3-day Toxoplasma-infected mice had significantly greater cytotoxicity for extracellular RH tachyzoites than did control cells from uninfected mice. Moreover, Toxoplasma gondii-induced spleen NK cell toxoplasmacidal activity was significant at all effector to target cell ratios tested, and appeared to be mediated by direct contact between the host cell and the parasite. These in vitro results suggest that NK cells may be important in host defense against T. gondii.     

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).     

Inhibition of natural killer cell activity by IgA

The in vitro effect of IgA on natural killer (NK) activities of human peripheral blood mononuclear cells was investigated. Purified myeloma polymeric IgA2 (pIgA2) and secretory IgA (S-IgA) from human colostrum inhibited NK activity, while myeloma polymeric IgA1 (pIgA1), monomeric IgA1 (mIgA1), IgG, and IgM were ineffective. Inhibition was proportional to the concentration of pIgA2 (0.125-1 mg/ml) and was observed after as little as 1 hr of incubation at various effector to K562 target cell ratios. pIgA2 and S-IgA also inhibited NK activity of NK cell-enriched lymphoid cells and gamma-interferon-treated effector cells, but did not interfere with effector-target cell binding. The inhibitory effect was slightly diminished after 24 hr culture in pIgA2-free medium. Inhibition of cytotoxicity was not due to direct toxicity on lymphoid cells by IgA because PBL treated with pokeweed mitogen in the presence of pIgA2 or S-IgA differentiated into immunoglobulin-producing cells. Viability after 24 hr of preculture with pIgA2 and S-IgA was comparable to that of untreated control cells. Morphological examination of effector cells cultured with pIgA2 or S-IgA showed a decrease in the number of granules, and the formation of cytoplasmic vacuoles. These morphological changes appeared to coincide with the depressed cytotoxicity of NK cells. The results demonstrate that purified pIgA2 and S-IgA have significant immunomodulatory effects on human NK activity.