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.     

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.     

Characterization of human large granular lymphocyte subpopulations: comparison of the phenotype of NK cells and of interleukin 2-dependent progenitors of cytolytic effector cells

Antigenically different subpopulations of human large granular lymphocytes (LGL) were identified according to their reactivity with monoclonal antibodies (MoAb). Antigen-positive and -negative subsets were isolated by immunoaffinity columns using a Sepharose 4B gel coupled with F(a')2 goat anti-mouse IgG or by flow cytometry cell sorting. The distinct LGL subsets were tested for natural killer (NK) activity against a panel of tumor targets: K562, Daudi, Alab; and for antibody-dependent cellular cytotoxicity (ADCC) against antibody-coated RL male 1 cells. LGL positively selected for any of the following phenotypic markers: B73.1+, OKM1+, OKT11+, and OKT10+ were highly cytotoxic, while B73.1- and OKM1- cells were completely devoid of NK activity. The OKT10- and OKT11- LGL subsets were occasionally cytotoxic, with low levels of reactivity. LGL subpopulations were also tested in a limiting dilution assay (LDA) for their capacity to proliferate in medium supplemented with interleukin 2 (IL-2) and to develop NK-like cytotoxic activity. The majority of proliferative progenitors have the following phenotype: OKT11+, OKM1-, B73.1-, and OKT10-, while the majority of progenitors for cytotoxic cells were OKT11+, OKM1+/-, OKT10+, and B73.1-. Results indicate that although B73.1+ cells can grow, the mature B73.1+ NK cells seem to be primarily derived in vitro from a small subset of less differentiated B73.1 pre-NK progenitors in the peripheral blood lymphocytes.     

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.     

Natural killing target antigens as inducers of interferon: studies with an immunoselected, natural killing-resistant human T lymphoblastoid cell line

The human T lymphoblastoid cell line CEM was subjected to immunoselection by co-culture with peripheral blood mononuclear cells (PBMC) for resistance to natural killer (NK) cell-mediated lysis. The NK susceptibility of the resulting subline, CEM.NKR, was 8.4 to 20.6% of that of CEM when PBMC or adherent cell-depleted PBMC were used as effector cells, and -7.1 to 12.1% of that of CEM when Percoll gradient-enriched large granular lymphocytes (LGL) were used. However, CEM and CEM.NKR exhibited comparable sensitivity to antibody-dependent cellular cytotoxicity. Unlabeled CEM was eight- to 32-fold more effective than unlabeled CEM.NKR in inhibiting the NK lysis of labeled CEM target cells, and CEM bound 1.9 to 3.9-fold more Percoll gradient-enriched LGL than CEM.NKR in single cell-binding assays, suggesting that the NK-resistant variant has lost the expression of NK target antigens. However, CEM.NKR was comparable to CEM in its ability to induce interferon (IFN)-alpha production by PBMC in vitro, and the NK-resistant variant maintained its susceptibility to the antiproliferative effects of IFN-alpha, indicating that these phenomena may be mediated by molecules other than NK target structures. Comparison of CEM and CEM.NKR by indirect immunofluorescence with monoclonal antibodies specific for leukocyte antigens and the transferrin receptor, and by microcytotoxicity typing for HLA-A and B specificities, revealed no major differences.     

Suppressive effect of human natural killer cells on pokeweed mitogen-induced B cell differentiation

The suppressive effect of human natural killer (NK) cells on B cell differentiation induced by pokeweed mitogen (PWM) was investigated. By using Percoll discontinuous density gradient centrifugation, peripheral blood nonphagocytic and nonadherent mononuclear cells were divided into low and high density fractions for which NK cells (Large granular lymphocytes, LGL) and T cells were enriched, respectively. These fractionated mononuclear cells were co-cultured with purified autologous B cells in the presence of PWM, and were examined for their helper and suppressor activities on differentiation of B cells to immunoglobulin-(IgM and IgG) producing cells by a highly sensitive reversed hemolytic plaque assay. The T cell-enriched high density fractions provided help for B cell differentiation to levels higher than that of unfractionated mononuclear cells. On the other hand, the NK-enriched low density fractions did not show helper activity, and when added to the culture of B cells plus helper T cells, they markedly suppressed B cell differentiation. This suppressive activity, as well as the NK cytotoxicity of the NK-enriched fractions, was abrogated by treatment of the cells with monoclonal antibody against human NK cells (HNK-1), but not against T cells (OKT3) in the presence of complement. NK cells also suppressed PWM-driven B cell differentiation in the presence of T4+ (helper/inducer T) but not T8+ (cytotoxic/suppressor T) cells; however, they showed no inhibition of soluble factor-induced B cell differentiation assayed in the absence of helper T cells. It is thus concluded that human peripheral blood NK cells exhibit an ability to suppress PWM-driven B cell differentiation, possibly by acting through the effect on helper T cells but not directly on B cells.     

Murine natural killer cells limit coxsackievirus B3 replication

Previous indirect evidence suggested that natural killer (NK) cells play a role in coxsackie virus B3 serotype 3, myocarditic variant (CVB3m)-induced myocarditis by limiting virus replication. In this study, we present direct evidence that NK cells can limit CVB3m replication both in vitro and in vivo. Virus titers are lowered in primary murine neonatal skin fibroblast (MNSF) cultures incubated with activated splenic large granular lymphocytes (LGL) taken from mice 3 days postinoculation of CVB3m, a time of maximal NK cell activity. The antiviral effect of this cell population is diminished by complement-mediated lysis with the use of anti-asialo GM1 antiserum but not with anti-Lyt-2 monoclonal antibody. Neither interferon nor anti-CVB3m-neutralizing antibody was detected in these cultures. Although activated LGL initiate lysis within CVB3m-infected MNSF in vitro within 3 hr of addition, they do not lyse uninfected MNSF cultures. CVB3m replication is required for expression of surface changes on MNSF that result in lysis by NK cells because cell cultures treated with compounds that prevent CVB3m replication are not killed by LGL. LGL also do not lyse MNSF cultures inoculated with UV-inactivated virus. Mice inoculated with activated LGL and subsequently challenged with CVB3m had reduced titers of virus in heart tissues in comparison to titers of CVB3m in heart tissues of mice not given LGL. The antiviral activity of the LGL preparation was abolished by prior treatment with anti-asialo GM1 antiserum plus complement but not by prior treatment with anti-Lyt-2 monoclonal antibody and complement. These data suggest that NK cells can specifically limit a nonenveloped virus infection by killing virus-infected cells.     

Natural killer cell-mediated antitumor reactivity of rhesus monkeys

We have analyzed natural killer (NK) cell-mediated antitumor activity or peripheral blood mononuclear cells of rhesus monkeys. All monkeys displayed significant NK cell cytolytic activity against the human tumor cell lines K-562, Daudi and CEM in a short-term (3 h) 51Cr-release assay. Similar to NK cells described in other species, the cytotoxic cells of monkeys were relatively nonadherent to nylon wool columns, exhibited low density after separation on discontinuous Percoll density gradients, and displayed large granular lymphocyte (LGL) morphology. Analysis of the mechanism of NK cell cytotoxicity of rhesus monkeys demonstrated that on the average, 7.1% (range: 3.1-13.2%) of lymphocytes bound to K-562 tumor, and that approximately 14.8% (range: 7.9-26.3%) of these tumor-binding cells (TBC) were cytolytically active. Examination of TBC on cytocentrifuge slides indicated that the majority of binders displayed LGL morphology. The cytotoxic reaction mediated by monkey NK cells exhibited Michaelis-Menten kinetics pattern; the maximum rate of lysis (Vmax) of K-562 was found to be 1-2 X 10(4) following 3 h of incubation. Using similar culture conditions, the recycling capacity of NK cells of this species was estimated at 2-6 times. Finally, it was observed that the NK cell activity of most monkeys could be potentiated following in vitro exposure to the biological response modifier, interleukin-2.     

Modulation of in vitro myelopoiesis by LGL: different effects on early and late progenitor cells

We describe here the modulatory activity of human peripheral blood natural killer (NK) cells on the growth and differentiation of myeloid progenitor cells at different stages of maturation. NK-enriched cell fractions containing 54 to 75% large granular lymphocytes (LGL) and displaying high levels of NK activity significantly inhibited the growth of late (7 day) granulocyte-macrophage colony-forming cells (CFU-GM) from about 50% of normal human bone marrow samples. However, the same fractions strongly enhanced the growth of early (14 day) stem cells from peripheral blood. Enhancing activity on early CFU-GM from blood was greater in highly purified NK cell preparations containing 96% LGL than in NK-depleted T cell preparations from the same donors. Analogous to the results when using the NK-enriched fractions, the NK-purified preparations inhibited late CFU-GM and stimulated the early ones. We conclude from these observations that human LGL have a modulatory effect on myelopoiesis depending on the maturation stage of the progenitor cell.     

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.     

Cytotoxic activity against trophoblast and choriocarcinoma cells of large granular lymphocytes from human early pregnancy decidua

Large granular lymphocytes (LGL) are the most abundant cell type in first trimester human pregnancy decidua. We have shown previously that CD56-positive decidual LGL have cytotoxic activity against the natural killer (NK) target K562, and that this cytotoxicity is augmented by pretreatment with interleukin-2 (IL-2). We now report that flow cytometrically purified populations of CD56-positive decidual LGL have no cytotoxic activity against either the BeWo choriocarcinoma cell line or freshly isolated term trophoblast. Incubation of unfractionated decidual cells with IL-2 induced cytotoxicity against BeWo, but term trophoblast remained resistant to lysis. Both BeWo and trophoblast showed much lower binding frequencies to decidual or peripheral blood cells than K56 targets, and excess trophoblast did not inhibit cytotoxic activity against K562. This suggests that the resistance of trophoblast to lysis by either decidual or peripheral blood LGL is due to the lack of accessible NK target structures on the surface of trophoblast.     

Noncytotoxic functions of natural killer (NK) cells: large granular lymphocytes (LGL) produce a B cell growth factor (BCGF)

Highly purified human large granular (LGL), depleted of any detectable contaminant T and B cells or monocytes, were found to be potent producers in vitro of a soluble B cell growth factor (BCGF) able to sustain proliferation of B cells activated by anti-mu. Activation by lectins (phytohemagglutinin, PHA, concanavalin A, Con A; and pokeweed mitogen, PWM) was required to induce the production of high levels of this BCGF from cultured LGL. Production of BCGF was also detected after the binding of LGL with natural killer (NK)-sensitive (K562) but not with NK-resistant (RL male 1) target cells. In contrast to T cells, LGL did not need the additional presence of accessory cells to reach optimal production of BCGF by 72 hr of culture. The subpopulation of LGL responsible for the production of BCGF had phenotypic characteristics associated with NK cells (3G8+, HNK1+/OKT11+, DR-, OKT3-, Leu-M1-), and separated cells with these markers exerted high levels of NK activity. Selective production of BCGF also was obtained from cytotoxic clones derived from LGL. A partial characterization of the LGL-derived BCGF was performed by gel filtration. BCGF activity was detected in fractions with estimated m.w. of 20,000 and 45,000. The LGL-derived BCGF activity was resistant to reduction with 2-mercaptoethanol and was stable at -20 degrees C for months. Conversely, heating (56 degrees C for 1 hr) or digestion with trypsin greatly reduced the LGL-derived BCGF activity. These findings strongly suggest that LGL including those with NK activity can play an important positive role in the early events of the B cell-mediated immune response.     

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.     

Tumor necrosis factor induction by Candida albicans from human natural killer cells and monocytes

Other investigators have previously reported that TNF has been induced from macrophages by bacteria and, more recently, from NK cells by certain tumor cells. Sendai virus has also been reported to induce TNF from macrophages. We report here that an opportunistic fungi, Candida albicans, can also induce TNF, not only from human monocytes, but also from Percoll-fractionated large granular lymphocytes (LGL) which mediate NK function. Incubation of monocytes of LGL with C. albicans for 8 h was sufficient for detection of TNF release and peak induction was observed at 24 h. Induction of TNF from LGL did not require the participation of monocytes or T cells because treatment of the LGL with CD14 or CD15 to eliminate contaminating monocytes and CD3, CD4, or CD8 to eliminate contaminating T cells did not decrease the level of TNF produced from the treated LGL. Small T cells recovered from the denser fractions of the Percoll gradient had no ability to produce TNF, even when 10% monocytes were added to the T cells to provide accessory function. The phenotype of the TNF-producing LGL was CD2+, CD11+, CD16+, NKH1+, LEU7-. The TNF produced by both monocytes and LGL was neutralized by specific monoclonal and polyclonal anti-TNF but not by monoclonal antilymphotoxin. These results indicate that TNF production is a normal response of monocytes and LGL to stimulation by fungi such as C. albicans and that the release of TNF may be related to its ability to activate effector function to control Candida growth, which we have shown earlier for neutrophils with TNF.     

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

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

Interferon-alpha induction of lymphocytes containing parallel tubular structures

The induction by IFN-alpha in peripheral blood lymphocytes of parallel tubular structures (PTS) and/or electron-dense granules occurring in a minority of peripheral blood lymphocytes was examined. IFN reportedly augments natural killer (NK) cell activity of large granular lymphocytes (LGL); these cells contain PTS and/or electron-dense granules. Normal peripheral blood mononuclear cells were incubated with IFN-alpha and surface antigen expression was measured by means of indirect immunofluorescence and, at the ultrastructural level, using gold labelled monoclonal antibodies. Surface antigen reactivity with the monoclonal antibodies OKT 3, 4, 8 and Anti-Leu-7 (HNK-1) showed no difference between the IFN-alpha incubation and non-IFN-alpha groups. However, electron microscope investigation revealed significant absolute increases in the percentage of OKT 8+ and Anti-Leu-7+ cells which were PTS-positive after IFN-alpha treatment compared with the control groups. The cytotoxicity assay using the K562 cell line showed enhanced lytic activity. Our results suggest that cells coexpressing the OKT 8 and Leu-7 antigens may be responsible for a minor proportion of the increase in PTS but that IFN-alpha mainly induces PTS and/or associated structures in cells which express the OKT 8+ antigen. These PTS+/OKT 8+ cells may contribute to enhanced cell cytotoxicity.     

Major histocompatibility complex-unrestricted cytolytic activity of human T cells. Analysis of precursor frequency and effector phenotype

The frequency and phenotype of human T cells that mediate major histocompatibility complex (MHC)-unrestricted cytolysis were analyzed. T cell clones were generated by culturing adherent cell-depleted peripheral blood mononuclear cells at a density of 0.3 cell/well with phytohemagglutinin, recombinant interleukin 2 (rIL-2), and irradiated autologous peripheral blood mononuclear cells and/or Epstein-Barr virus-transformed lymphoblastoid cell lines. These conditions were shown to expand a mean of 96% of cells cultured. All of the 198 clones generated by this method were T cells (CD2+, CD3+, CD4+ or CD2+, CD3+, CD8+) that possessed potent lytic activity against K562, an erythroleukemia line sensitive to lysis by human natural killer cells, and Cur, a renal carcinoma cell line resistant to human natural killer activity. Cytolysis was MHC-unrestricted, since the clones were able to lyse MHC class I or class II negative targets, as well as MHC class I and class II negative targets. In addition, the activity was not inhibited by monoclonal antibodies directed against class I or class II nonpolymorphic MHC determinants. Killing, however, was inhibited by soluble monoclonal antibodies against the CD3 complex. Although the clones produced tissue necrosis factor/lymphotoxin-like molecules, lysis of Cur or K562 was not mediated by a soluble factor secreted by the clones. Some of the clones retained their cytotoxic activity when grown in rIL-2 alone for 4 to 6 wk, whereas others exhibited markedly diminished cytotoxicity after maintenance in this manner. Clones that exhibited diminished or no cytotoxic activity after prolonged maintenance in rIL-2 could be induced to kill by stimulation with immobilized but not soluble monoclonal antibodies to CD3 in the absence of lectin. All of the clones examined expressed NKH1 and CD11b but none were CD16 positive. The degree of cytotoxicity of resting or activated clones could not be correlated with expression of these markers. These data indicate that the capacity for MHC-unrestricted tumoricidal activity and expression of NKH1 and CD11b, but not CD16, are properties common to all or nearly all human peripheral blood-derived T cell clones regardless of CD4 or CD8 phenotype.     

K562 killing by K, IL 2-responsive NK, and T cells involves different effector cell post-binding trigger mechanisms

The monoclonal antibody 13.3 specifically blocks the trigger process of the NK-K562 cytolytic sequence at a post-binding effector cell level. This antibody was used to define differences in the lytic trigger processes of NK and other mechanisms of K562 lysis. Monoclonal antibody 13.3 inhibited lysis of K562 target cells by freshly isolated peripheral blood lymphocytes (PBL) and purified large granular lymphocytes (LGL), but had no inhibitory effect on antibody-dependent cell-mediated cytotoxicity to K562 by these effectors. Lectin-dependent cellular cytotoxicity (LDCC) to this target cell was also unresponsive to 13.3. The 13.3-induced inhibition of NK-K562 lytic activity persisted when PBL were activated in culture with interleukin 2 (IL 2) for periods up to 48 hr. After 48 hr of culture, the degree of inhibition diminished progressively in medium containing fetal calf serum but not in medium containing autologous serum. This 13.3-unresponsive lytic activity in cultured PBL could be attributed to more than one cell type and was present in both the LGL and Fc gamma receptor-depleted T cell fraction. Thus, K562 lysis by freshly isolated human lymphocytes via NK, K, and LDCC mechanisms is characterized by heterogeneity of the post-binding effector cell trigger mechanism. K562 lysis by lymphocytes cultured with IL 2 is similarly heterogeneous.     

Preliminary characterization of accessory cells in the nonadherent fraction of human blood mononuclear cells

We investigated why peripheral blood mononuclear cells rigorously depleted of adherent cells by sequential incubation on plastic and nylon wool remained fully responsive to both antigenic and mitogenic signals. Nylon wool nonadherent cells (NWNA) depleted of cells expressing HLA-DR by monoclonal antibody and complement lysis did not respond to tetanus toxoid (TT) or suboptimal concentrations of phytohemagglutinin (PHA). Addition of adherent accessory cells to these NWNA HLA-DR- cells reconstituted the response to stimuli. NWNA, fractionated by discontinuous density gradient centrifugation, contained high density cells which were unresponsive alone to optimal concentrations of both TT and PHA. All the lower density fractions contained cells which were accessory for higher density cell responses to stimuli. The lowest density fraction was approximately 30% monocytes (esterase and peroxidase positive) and less than or equal to 3% B lymphocytes (surface IgG bearing). The other low density fractions contained large granular lymphocytes but rarely monocytes and no B lymphocytes. Depletion of OKT3+, OKM1+, and Leu-11+ cells from lower density cells by monoclonal antibody and complement lysis did not abolish their accessory activity, but depletion of HLA-DR+ cells or gamma irradiation of these cells decreased their accessory activity for PHA and eradicated accessory activity for TT. Thus, the responsiveness of NWNA to soluble antigenic and mitogenic signals is due, in part, to the presence of low density cells which are radiosensitive and phenotypically HLA-DR+ OKT3-OKM1-Leu-11-. Accessory activity in NWNA seems to reside, therefore, in a cell which is not a typical monocyte, natural killer cell, nor B or T lymphocyte.     

Subsets of human large granular lymphocytes (LGL) exhibit accessory cell functions

The present study shows that human large granular lymphocytes (LGL) depleted of OKT3 (T lymphocytes) and Leu-M1-positive (monocytes) cells exhibit accessory cell function for the T lymphoproliferative responses to the soluble stimulants Staphylococcus protein A (SpA) or Streptolysin O (SLO), as well as to surface antigens in the autologous and allogeneic mixed leukocyte reaction (MLR). Fractionation of LGL into subsets according to their reactivity with alpha OKT11, alpha DR, and alpha OKM1 MoAb led to the identification of the subset(s) of LGL with OKT11+, DR+, OKM1+ phenotype as the antigen-presenting cell (APC), whereas the DR-, OKM1- subset(s) of LGL was completely ineffective. Furthermore, virtually all the natural killer (NK) activity of LGL was associated with OKT11+ and OKM1+, DR+ LGL that exerted the observed APC function, suggesting that NK-active cells may also act as effective APC for T lymphocyte activation. These results indicate that human LGL with NK activity may exert other noncytotoxic functions and may play a major role in immunoregulation.