Selective phagocytosis of gram-positive bacteria and interleukin 1-like factor production by a subpopulation of large granular lymphocytes

There has been a consensus that a large granular lymphocyte (LGL) population with natural killer (NK) function is nonadherent and nonphagocytic. However, a significant proportion of the nonadherent cells purified by the two-step depletion of adherent cells with a plastic surface and nylon wool columns engulfed Sta. aureus into their cytoplasm. These cells were morphologically identified as LGL in light and electron microscopies. Two-color immunofluorescence tests, furthermore, demonstrated that Leu-11+ LGL, Leu-11+7-, and Leu-11+7+, but not Leu-11-7+, phagocytosed Sta. aureus. Among the particles tested here, only Gram(+) bacteria were preferentially phagocytosed, whereas Gram(-) bacteria, other large-sized microbes (e.g., baker's yeast and Candida albicans), latex, silica, and carbonyl iron were not. LGL exhibited a substantial level of bactericidal activity against Sta. aureus, although the level was one third of that mediated by monocytes. When Gram(+) bacteria were incubated with nonadherent cells for 18 hr, significant amounts of interleukin 1 (IL 1)-like factors (or IL 1 itself) as well as interferon were detected in the supernatants. On the other hand, this incubation did not induce interleukin 2 (IL 2). The IL 1-like factor producer cells were demonstrated to be the low-density lymphocytes on Percoll separation and to have the Leu-11+ phenotype. The phagocytosis was suggested to be an important stimulus in producing IL 1-like factors from LGL. Thus, the treatment of cells with cytochalasin B, a microfilament disrupting agent, completely abrogated both phagocytosis and IL 1-like factor production. Some cell wall components of Gram(+) bacteria might be important to a recognition process of the phagocytosis, since the protoplasts of Sta. aureus, when prepared by the treatment of bacteria with lysostaphin, were no longer phagocytosed by LGL. The present results therefore identify an additional unique characteristic similar to, but not identical with, the myelomonocytic nature of Leu-11+ LGL.     

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.     

The recognition specificity of a murine helper T cell for hemagglutinin of influenza virus A/PR/8/34

Human large granular lymphocytes (LGL), which are known to be responsible for natural killer (NK) cell activity, also produced a variety of lymphokines including interleukin 2 (IL 2), colony stimulating factor (CSF), and interferon (IFN) in response to phytohemagglutinin (PHA) or concanavalin A (Con A). Human peripheral blood LGL, which were purified by removal of monocytes adhering to plastic flasks and nylon columns, followed by separation on a discontinuous Percoll gradient, and additional treatment with anti-OKT3 and Leu-M1 plus complement, were more potent producers of these lymphokines than unseparated mononuclear cells (MNC), nylon column-eluted cells, or purified T lymphocytes. Moreover, IL 2 production by LGL could be further distinguished in that it was not enhanced by the addition of macrophages or macrophage-derived factor, i.e., IL 1, whereas addition of macrophages did potentiate IL 2 production by T lymphocytes. Further analysis of cells in the LGL population using various monoclonal antibodies revealed that removal of cells with OKT11 or AF-10, a monoclonal antibody against human HLA-DR antigen, decreased IL 2 production, whereas removal of OKT8+, OKM1+, Leu-M1+, or Leu-7+ cells led to enhanced IL 2 production. The LGL population is therefore heterogeneous and includes at least three functionally and phenotypically distinct subsets. An atypical T cell subset (OKT3-, Leu-1-, OKT11+) rather than the myeloid subset of LGL (Leu-M1+ or OKMI+) was the source of LGL-derived IL 2, whereas the latter subset and/or another subset of OKT8+ cells appear to regulate this IL 2 production. In addition to performing NK activity, LGL on a per cell basis seem to be more effective than T lymphocytes in producing lymphokines, namely, IL2, CSF, and IFN.     

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

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

Interleukin 2 (IL 2) up-regulates its own receptor on a subset of human unprimed peripheral blood lymphocytes and triggers their proliferation

Several reports indicate that human peripheral blood lymphocytes (PBL) seeded in culture with purified or recombinant interleukin 2 (IL 2) immediately after separation from the blood display a substantial level of proliferation at day 5 or 6, even in the absence of any activating signal. The spontaneously IL 2 proliferating cells are large lymphocytes, and they co-purify on a Percoll gradient in the large granular lymphocytes (third (LGL) fraction) together with the natural killer (NK) activity. When LGL were separated into NKH1 (an NK-specific surface marker)-positive and NKH1-negative cells by fluorescence-activated cell sorting (FACS), proliferating cells were mainly found in the NKH1-negative fraction. On the contrary, when cells from Percoll fraction 3 were separated into OKT3-negative and positive cells, the majority of the proliferating cell was found in the OKT3-positive cells. These results indicate that spontaneously IL 2 proliferating (SIP) cells most probably belong to the T cell lineage, but are distinct from NK cells. Surprisingly, cells from this Percoll fraction examined immediately after separation from the blood do not express detectable amounts of IL 2 receptors as assessed by three different techniques: binding of [3H]IL 2, binding of [125I]anti-Tac antibodies, and FACS analysis with the use of anti-Tac antibodies. However, after 18 hr of culture in IL 2-supplemented medium, 5 to 7% of these cells became Tac-positive by FACS analysis. Additional analysis of IL 2 receptor induced in culture with IL 2 was performed by [125I]anti-TAC binding and by [3H]IL 2 binding. Scatchard analysis of [3H]IL 2 binding, in the range of concentrations leading to the detection of high-affinity binding sites, showed an affinity constant similar to that of conventional phytohemagglutinin blasts. The role of IL 2/IL 2 receptor interaction in the proliferation process was confirmed by the fact that proliferation, in contrast with NK activation, was clearly inhibited by anti-Tac antibodies. When LGL activated with IL 2 for 60 hr were sorted into Tac+ and Tac- cells, equal levels of NK activity was found in the two fractions. Proliferation, however, was only observed in the Tac+ population. We interpret these results to indicate that SIP cells are preactivated cells circulating in the blood. They are large cells and represent a very small proportion of circulating lymphocytes (0.3%). They express a subliminal amount of IL 2 receptor. Cultivated in the presence of IL 2, IL 2 receptor expression is enhanced to a detectable level, and the SIP cells begin to proliferate. These SIP cells could be activated T cells present in every normal individual.     

Production of B cell growth factor by a Leu-7+, OKM1+ non-T cell with the features of large granular lymphocytes (LGL)

The present study reports the characterization of a non-T cell from human peripheral blood which is capable of releasing BCGF. This BCGF-producing non-T cell had a T3-, T8-, Leu-7+, OKM1+, HLA-DR-, Leu-11- surface phenotype and was likely to belong to the so-called large granular lymphocyte (LGL) subset because: after fractionation of non-T cells according to the expression of Leu-7 or HLA-DR markers, it was found in the Leu-7+, HLA-DR- fractions that were particularly enriched in LGL; it co-purified with LGL on Percoll density gradients; and it expressed Leu-7 and OKM1 markers that are shared by a large fraction of LGL. Although co-purified with cells with potent NK capacities, the BCGF-producing cell was not cytotoxic, because treatment of Leu-7+ cells with Leu-11 monoclonal antibody and complement abolished the NK activity but left the BCGF activity unaltered. The factor released by this LGL subset was not IL 1 or IL 2 mistakenly interpreted as BCGF, because: a) cell supernatants particularly rich in BCGF activity contained very little or no IL 1 or IL 2; b) BCGF-induced B cell proliferation was not inhibitable by anti-Tac antibodies (this in spite of the expression of IL 2 receptor by a proportion of activated B cells); and c) BCGF activity was absorbed by B but not T blasts.     

NK-leukocyte chemotactic factor (NK-LCF): a large granular lymphocyte (LGL) granule-associated chemotactic factor

A chemotactic factor was identified in the supernatants of human large granular lymphocytes (LGL) activated by a glutaraldehyde-fixed NK-sensitive tumor, K562. The factor stimulated migration of human LGL, rat alveolar macrophage (RAM), and human monocytes and neutrophils (PMN). The locomotor response was chemotactic and chemokinetic on the basis of unidirectional migration in concentration gradients. The cell producing the factor was detected exclusively in LGL-rich Percoll fraction coincident with the peak of NK lytic activity and HNK-1+ cells. The monoclonal phenotype of the cell was HNK-1+, partially OKT-11+, OKM-1-, OKT-3-, OKT-4-, and OKT-8-. The factor was released by LGL within 20 min of incubation with Sr++, a cation that is able to induce LGL degranulation. A powerful chemoattractant was also detected in the granules of the rat LGL leukemia, RNK. Chemotactic activity coincided with granule enzyme beta-glucuronidase and cytolysin after RNK nitrogen cavitation and Percoll fractionation of subcellular constituents. The RNK granule chemoattractant induced unidirectional migration of human LGL and was also active against rat alveolar macrophages and human PMN. Anti-RNK granule antibody conjugated to Sepharose 4B was able to deplete the chemotactic activity from both K562-induced LGL supernatants and solubilized RNK granules. These observations indicate that a leukocyte chemotactic factor (NK-LCF) is present in NK cell granules and is probably released after tumor-induced granule exocytosis.     

Granules of human CD3+ large granular lymphocytes contain a macrophage regulating factor(s) that induces macrophage H2O2 production and tumoricidal activity but decreases cell surface Ia antigen expression.

CTL (cytotoxic T lymphocytes) and LGL (large granular lymphocytes) exocytose cytoplasmic granules on activation after recognition of their target, releasing granule-associated molecules. We have previously suggested that this process could release immunoregulatory molecules. In this study we investigated whether normal human LGL granules contained a factor regulating different macrophage activity. Human CD3+ LGL cells were generated by activating peripheral blood lymphocytes (PBL) for 10-12 days with recombinant human IL-2 (rhIL-2), and granules were isolated from disrupted cell homogenate by Percoll gradient fractionation. Solubilized granules were tested for macrophage-activating factor (MAF) activity in three different macrophage assays. When M-CSF-differentiated murine bone marrow-derived macrophages were incubated 9 hr with human LGL granules, they were fully activated to lyse the TNF-resistant P815 tumor cells. The granule-MAF showed a synergistic effect with rhIL-1 beta, rmTNF-alpha, and rmIFN-tau in the cytolytic assay. In addition, proteose-peptone-elicited murine peritoneal macrophages profoundly increased H2O2 production after activation with human LGL granules. However, unlike IFN-tau, no increase in peritoneal macrophage Ia antigen expression was detected after incubation with granules. Moreover, granule-MAF suppressed Ia induction by IFN-tau. These results confirm that human CD3+ LGL granules contain a molecule(s) capable of regulating macrophage function.     

Chemotaxis of large granular lymphocytes

The hypothesis that large granular lymphocytes (LGL) are capable of directed locomotion (chemotaxis) was tested. A population of LGL isolated from discontinuous Percoll gradients migrated along concentration gradients of N-formyl-methionyl-leucyl-phenylalanine (f-MLP), casein, and C5a, well known chemoattractants for polymorphonuclear leukocytes and monocytes, as well as interferon-beta and colony-stimulating factor. Interleukin 2, tuftsin, platelet-derived growth factor, and fibronectin were inactive. Migratory responses were greater in Percoll fractions with the highest lytic activity and HNK-1+ cells. The chemotactic response to f-MLP, casein, and C5a was always greater when the chemoattractant was present in greater concentration in the lower compartment of the Boyden chamber. Optimum chemotaxis was observed after a 1 hr incubation that made use of 12 micron nitrocellulose filters. LGL exhibited a high degree of nondirected locomotion when allowed to migrate for longer periods (greater than 2 hr), and when cultured in vitro for 24 to 72 hr in the presence or absence of IL 2 containing phytohemagluttinin-conditioned medium. The chemotactic LGL was HNK-1+, OKT11+ or HNK-1+, OKT11- on the basis of monoclonal antibody and complement depletion. They did not bear either T cell or monocyte cell surface markers, exhibiting an OKT3-, OKT4-, OKT8-, OKM1-, and MO2- phenotype, and did not form E rosettes at 29 degrees C, which is characteristic of lytic NK cells in contrast to T cells. Furthermore, a rat LGL leukemia (RNK) exhibited a chemotactic response to both f-MLP and casein. LGL chemotaxis to f-MLP could be inhibited in a dose-dependent manner by the inactive structural analog CBZ-phe-met, and the RNK tumor line specifically bound f-ML[3H]P, suggesting that LGL bear receptors for the chemotactic peptide.     

Histamine-induced suppressor factor inhibition of NK cells: reversal with interferon and interleukin 2

Culture supernatants of lymphocytes stimulated with 10(-3) to 10(-8) M histamine contain histamine-induced soluble suppressor factor (HISSF) that significantly inhibits the natural killer (NK) cell functions of allogeneic lymphocytes. Lymphocytes precultured with increasing concentrations of HISSF showed a dose-dependent suppressive effect on their NK activity. HISSF was not cytotoxic itself and produced suppressive effects on PBL, NK-enriched large granular lymphocytes (LGL), and isolated T cells. Suppression was evident throughout a range of effector:target cell ratios. Production of HISSF was specifically blocked by the H2 antagonist cimetidine, but not by the H1 antagonist clemastine fumarate. Furthermore, H1 and H2 antagonists themselves do not induce production of HISSF. Although HISSF could inhibit the cytotoxicity of LGL, LGL themselves do not produce HISSF. HISSF inhibition of NK activity could be completely reversed by treating effector lymphocytes with recombinant interferon-alpha (IFN) for 1 or 2 hr or culturing them with purified interleukin 2(IL 2) for 36 hr. Our data suggest that exogenous IFN and IL 2 may have therapeutic potential in the treatment of immunological diseases associated with histamine-induced suppressor cell activity.     

Modulation of human natural killer cell cytotoxic activity, lymphokine production, and interleukin 2 receptor expression by thymic hormones

Thymic hormone preparations have been shown to modulate natural killer (NK) activity in vivo in mice. We have investigated the effects of thymosin fraction 5 (TF5) on the in vitro NK cell activity of highly purified human large granular lymphocytes (LGL). The results indicate that TF5 but not kidney fraction 5 (a preparation used as control) is able to enhance the spontaneous NK activity of normal LGL. In addition, TF5 exhibited additive effects with recombinant interferon-alpha in enhancing NK activity in vitro. TF5 also enhanced interleukin 2 production and interleukin 2 receptor expression as well as interferon-gamma production in mitogen-stimulated LGL. Thymosin-alpha 1, a synthetic polypeptide originally isolated in its native form from TF5, also exhibited enhancing effects on LGL activities, suggesting that it is the active species in TF5. These results indicate that thymic hormones might regulate NK activity through the induction of lymphokine production and receptor expression by LGL.     

Modulation of adhesion molecules on human large granular lymphocytes by interleukin-2 in vivo and in vitro.

The modulation of adhesion molecules on human large granular lymphocytes (LGL) by interleukin (IL)-2 was investigated both in vivo and in vitro. Intercellular adhesion molecule-1 (ICAM-1; CD54) expression increased on LGL of cancer patients receiving IL-2 adoptive immunotherapy. ICAM-1 expression on LGL isolated by Percoll gradient centrifugation, LGL purified, and expanded by adherence to plastic surfaces and LGL identified by Leu 19 (CD56) monoclonal antibody were increased significantly in response to IL-2 in vitro. Exposure of LGL to IL-1, interferon (IFN)-gamma, and tumor necrosis factor (TNF) in vitro did not induce ICAM-1. The expression of LFA-1 (CD11a/CD18), a receptor for ICAM-1, and other leukocyte adhesion molecules, including Mac-1 (CD11b/CD18) and p150,95 (CD11c/CD18), was only maintained by IL-2. IL-2 induction of ICAM-1 and the maintenance of CD18 complex expression on small lymphocytes separated by Percoll gradients were similar to that on LGL. We conclude that IL-2 enhances the expression of ICAM-1 on multiple human lymphocyte populations including LGL effectors. Expression of the CD18 complex on LGL does not appear to be highly regulated by IL-2. These findings may have implications relevant to the role of these adhesion molecules in the activities of LGL modulated by IL-2.     

Morphologic and phenotypic analysis of canine natural killer cells: evidence for T-cell lineage

Canine natural killer (NK) activity and antibody-dependent cell-mediated cytotoxicity were studied utilizing a canine thyroid adenocarcinoma cell line and a lymphoblastoid cell line (CT-45S), respectively, as cell targets. Fractionation of peripheral blood mononuclear cells by Percoll discontinuous-gradient centrifugation resulted in a six- to sevenfold enrichment in large granular lymphocytes (LGL) in parallel with a twofold increase in NK activity (%specific lysis) in low-density fractions. Further enrichment in LGL (78 +/- 6%) and NK activity (threefold increase) was obtained by lytic treatment of low-density fractions 2 and 3 with monoclonal antibody WIG4. By means of cytolytic treatment with additional monoclonal antibodies the phenotype of canine NK cells was determined as Dly-1+, Dly-6+, 1A1+, E-11+, DT-2-, WIG4-. Some NK cells were also Ia+. NK activity was relatively radioresistant with 40% specific lysis even after irradiation with 40 Gy. Among the populations examined, the highest NK activity was found in peripheral blood mononuclear cells, followed by splenic mononuclear cells and bone marrow mononuclear cells. These results indicate that canine NK cells have the morphology of LGL, are relatively radioresistant, and express cell surface antigens suggesting a T-cell lineage.     

Generation of NK cell activity from human bone marrow

This study was designed to examine the effect of interleukin 2 (IL 2) on cytotoxic activity of human bone marrow cells and to characterize the IL 2-dependent killer cells and the cell population required for their induction. We have demonstrated that the most aggressive IL 2-dependent killer cells (directed against leukemic and solid cancer targets) exhibited LGL morphology and expressed NK cell-associated antigens NKH1 and CD16, but not T cell-associated antigens CD3, CD4, CD5, or CD8. Similarly, the bone marrow cell population necessary for induction of killer cells with highest cytotoxic activity displayed NK cell surface characteristics, as exemplified by CD16 and Leu-7 antigens. On the contrary, very low or no lytic activity was generated from the bone marrow cell population expressing T cell markers CD3 and CD5. These data indicate that the IL 2-dependent bone marrow-derived killer cells with antitumor activity were activated NK cells. If T cells are involved at all in IL 2-dependent bone marrow killing, their potency is inferior to that of activated NK cells. The clinical applications of these studies are discussed.     

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.     

Regulation of human polymorphonuclear neutrophil (PMN) activity against Candida albicans by large granular lymphocytes via release of a PMN-activating factor

Using a 24-hr radiolabel microassay developed in our laboratory that measures [3H]glucose uptake in residual Candida, we have identified the effector cells responsible for in vitro inhibition of Candida albicans growth as mainly polymorphonuclear neutrophils (PMN) and monocytes within the human peripheral blood cells. Highly purified T cells and large granular lymphocytes (LGL) that mediate natural killer activity which were obtained by Percoll density gradient centrifugation were found to have no innate activity against C. albicans. The LGL could not be activated by interferon-alpha, interferon-gamma or interleukin 2 to inhibit Candida growth although their K562 tumor cytotoxic activity was readily enhanced by these cytokines. Stimulation with heat-killed C. albicans also did not activate fungal growth inhibitory function in LGL and the supernatant of these activated LGL had no direct fungicidal activity. However, the activated LGL supernatant had the capability to enhance PMN function against C. albicans growth. Addition of recombinant human tumor necrosis factor, affinity-purified interferon-alpha, or interferon-gamma to PMN caused increased antifungal activity in PMN. However, antibodies to these cytokines had only a partial adverse effect on the ability of the activated LGL supernatant to stimulate PMN anti-Candida function. Therefore, the activated LGL supernatant appeared to contain a potent stimulator of PMN function which is as yet unidentified. These data indicate that LGL did not directly mediate anti-Candida activity but could indirectly influence C. albicans growth by activating PMN against the fungi through the release of a specific PMN-activating factor. Our findings therefore add another role to LGL which is the regulation of PMN function, the consequence of which is regulation of fungal immunity.     

Generation of large granular T lymphocytes in vivo during viral infection

Cytolytic lymphocytes were isolated from the spleens of lymphocytic choriomeningitis virus (LCMV)-infected mice and were characterized in regards to function, cell size, antigen phenotype, and cell morphology. Only 2% of the Lyt-2+ cells from uninfected mice were large granular lymphocytes (LGL), whereas 21% of the Lyt-2+ cells isolated 7 days postinfection were LGL. The day 7 Lyt-2+ populations contained all of the LCMV-specific, class I histocompatibility antigen-restricted cytotoxic T lymphocyte (CTL) activity, but no natural killer (NK) cell activity. The NK cell activity was consistently recovered in Lyt-2- populations isolated from both control mice and mice on day 7 postinfection. The LGL isolated on day 7 postinfection were concluded to be predominantly T cells and not NK cells because 1) the proportions of LGL in fractionated cell populations 7 days postinfection correlated with levels of CTL-mediated lysis but not NK cell-mediated lysis, 2) they were recovered in the Lyt-2+ population, and 3) antibody to asialo GM1, known to eliminate NK cell-mediated lysis but not T cell-mediated lysis, dramatically reduced NK cell LGL numbers in vivo on day 3 postinfection but only marginally affected LGL numbers on day 7. Virus-induced inflammation elicited a 50-fold increase in LGL numbers in the peritoneum on day 7 postinfection. The peritoneal exudate LGL were also associated with CTL activity and were resistant to treatment with antibody to asialo GM1. These results indicate that in vivo-generated CTL have the morphology of LGL and that the appearance of cytoplasmic granules correlates with the ability of cells to mediate lysis. To focus on cells being stimulated during infections, activated blast cells were separated from small resting cells by centrifugal elutriation. Coincidental with the peak in overall spleen leukocyte cytotoxic activity, the peaks of blast NK cells and CTL were at days 3 and 7 postinfection respectively. More than 50% of the blast lymphocytes isolated on either day 3 or day 7 postinfection were LGL. The CTL activity in the blast populations on day 7 postinfection was mediated by Lyt-2+ cells, and 37 to 64% of these Lyt-2+ blast cells were LGL. Cytolytic NK cell and CTL LGL could not be distinguished by morphology or by cell densities, because they overlapped in low density Percoll gradient fractions. Since this technique has been used to enrich for LGL, these data indicate that heterogeneity in LGL populations may result from the presence of both CTL and NK cell LGL.     

Estrogen and antiestrogen modulation of the levels of mouse natural killer activity and large granular lymphocytes

We investigated the time course of the 17β-estradiol effect on mouse natural killer (NK) activity and the number of splenic large granular lymphocytes (LGL), a cell population recently associated with natural cytotoxicity and enriched in low density fractions of Percoll discontinuous density gradients. After 7 days of in vivo treatment with estrogen, an increased cytotoxicity against YAC-1 lymphoma cells was observed using only as effectors cells recovered from higher density fractions, usually devoid of NK activity. In contrast, after a 30-day treatment, augmented NK activity and an increase in LGL number were observed in the lower density Percoll fractions. Similar results were observed after a 30-day treatment with the antiestrogen tamoxifen. The cytotoxicity of both low density and high density splenocyte fractions was totally abrogated by treatment with antiserum to asialo GM₁ plus complement, whereas anti-Thy 1.2 antibody treatment only partially decreased the reactivity. Further estrogen administration up to 60 days decreased both NK activity and LGL number. It is concluded that estradiol can induce opposite effects on NK activity depending on the time of treatment, with stimulation of NK activity during the first 30 days after treatment followed by depressed NK activity 1 month later.     

Regulation of human natural killer cell activity by interferon-gamma: lack of a role in interleukin 2-mediated augmentation

Natural killer cell activity was consistently increased after overnight incubation with recombinant IL 2. Recombinant IFN-gamma, on the other hand, increased NK activity only in three out of 25 preparations of donor lymphocytes. No synergy was observed when suboptimal amounts of recombinant (r)IL 2 and rIFN-gamma were added to donor lymphocytes, with any increase in activity attributable to additive effects of the two lymphokines. Three antibodies to IFN-gamma could not block the rIL 2 induction of NK activity, further suggesting that IFN-gamma was not involved in the enhancement of NK activity by IL 2. Two other anti-IFN-gamma antibody preparations showed significant inhibition of rIL 2-induced augmentation of NK activity, but the inhibition was found to be attributable to antibody-unrelated factors in the antiserum or ascites fluid. Our results suggest that IFN-gamma produced by rIL 2 treatment of human PBL does not play an essential role in increasing NK activity in most donors and that IL 2-induced augmentation of NK activity is due to the direct action of IL 2 on LGL.