Individual NK cell clones lyse both tumor cell targets and herpes simplex virus-infected fibroblasts in the absence of interferon.

The target specificity of natural killer (NK) cells for either tumor cells or virus-infected cells has been investigated. Lymphocyte clones with the surface phenotype of NK cells (CD3-, CD16+) were obtained by limiting dilution of peripheral blood mononuclear cells stimulated with PHA, Herpes simplex virus type 1 (HSV-1), or Varicella-Zoster antigens. Clones were maintained in media with recombinant interleukin 2 (IL-2). Both NK-sensitive (K562 cells) and NK-resistant (Raji cells) targets were lysed by three cloned lines of NK cells. The ability to lyse NK-resistant target cells was largely lost when the cloned lymphocytes were cultured overnight in the absence of IL-2. Effector cells from all three clones were also capable of specifically lysing HSV-1 infected human fibroblasts in comparison with uninfected fibroblasts. We also showed that lysis of HSV-1 infected targets by NK cloned cells was independent of interferons in the culture system.     

Natural Cytotoxicity to Murine Cytomegalovirus-Infected Cells Mediated by Mouse Lymphoid Cells: Role of Interferon in the Endogenous Natural Cytotoxicity Reaction

Lymphoid cells from unstimulated normal C57BL/6J mice were shown to lyse murine cytomegalovirus (MCMV)-infected syngeneic mouse embryo fibroblasts but not uninfected mouse embryo fibroblasts. This cytotoxicity by mouse effector cells was not restricted to MCMV-infected syngeneic cells since MCMV-infected xenogeneic rat heart fibroblasts were also lysed. Characterization of the effector cells mediating this cytotoxicity against MCMV-infected cells indicated that the effector cells are similar to described natural killer (NK) cells mediating lysis of tumor cells and virus-infected cells. Because of the described augmentation of NK activity by interferon, we examined the role of interferon in the NK reaction. Although low levels of virus-induced interferon were detectable in supernatants of MCMV-infected mouse embryo fibroblasts, no interferon was detectable in supernatants of MCMV-infected rat heart fibroblasts, a target significantly more sensitive to NK cytolysis than infected mouse embryo fibroblasts. We were able to augment the NK reaction against MCMV-infected cells by in vitro treatments with interferon. However, the amounts of interferon required for augmentation were significantly greater than the amounts generated by infected target cells. In vitro interferon-stimulated NK cells retained selective cytotoxic activity since they continued to remain incapable of lysing uninfected target cells. MCMV-infected rat heart fibroblasts induced more interferon and were also more susceptible to NK activity than MCMV-infected mouse embryo fibroblasts. In spite of this difference in interferon-inducing capacity, there was no augmentation of cytotoxicity of MCMV-infected mouse embryo fibroblasts when mouse splenocytes were cocultivated with both target cells. Finally, when production of interferon in the NK reaction was inhibited by the addition of actinomycin D, no reduction of NK activity was seen. Our findings suggest that native mouse NK cells can discriminate between MCMV-infected cells and uninfected cells, this ability leading to the selective lysis of the virus-infected cells. Furthermore, although we could demonstrate augmentation of NK activity by interferon, interferon activation of NK cells may not be a necessary precondition for the development of endogenous NK activity.     

The impaired NK cell cytolytic function in viremic HIV-1 infection is associated with a reduced surface expression of natural cytotoxicity receptors (NKp46, NKp30 and NKp44)

Signals leading to NK cell triggering are primarily mediated by natural cytotoxicity receptors (NCR) upon binding to as-yet-undefined cell surface ligand(s) on normal hematopoietic cells, pathogen-infected cells or tumor cells. In this study we tried to determine whether the decreased NK cell cytolytic function that is observed in HIV-1-infected patients may be related to a decreased expression of NCR. In HIV-1-infected patients, freshly drawn, purified NK cells expressed significantly decreased surface densities of NKp46 and NKp30 NCR. The low surface density of NKp46, NKp30 and NKp44 was also confirmed in in-vitro-activated NK cell populations and NK cell clones derived from HIV-1 patients compared with uninfected donors. This defective NCR expression in HIV-1 patients was associated with a parallel decrease of NCR-mediated killing of different tumor target cells. Thus, the present study indicates that the defective expression of NCR represents at least one of the possible mechanisms leading to the impaired NK cell function in HIV-1 infection and it can contribute to explain the relatively high frequency of opportunistic tumors reported in cohorts of untreated patients before the occurrence of profound immunosuppression (<200 CD4(+) cells/mm(3)).     

Structural Specificity of MHC-Unrestricted Recognition of HCMV-Infected Target Cells by Human CD56+NK and LAK Cells

Structural specificity of binding and cytolysis of HCMV-infected human foreskin fibroblasts (HFF) by human NK and LAK cells was studied in inhibition assays. A sample of 60%-deacetylated α-D mannose penta-acetate was used as inhibitor that was previously shown to specifically inhibit binding and cytolysis of tumour target cells by human NK and LAK cells. We found now that cytolysis of HCM V-infected HFF was inhibited in a dose-dependent manner showing complete inhibition at concentrations above 640 nmoles/ml mannose acetate. This effect on cytolysis was based on inhibition of conjugate formation between virus-infected cells and CD56⁺ NK and LAK cells. In the presence of mannose acetate (640 nmoles/ml) conjugate formation of virus-infected cells was suppressed down to the level of uninfected cells. The latter showed residual conjugate formation on the basis of adhesive interactions with chemospecifity other than for mannose acetate, which were not capable of triggering cytolytic reactions. Coculturing of target cells with LAK cells appeared to induce expression of additional mannose acetate-specific target sites yielding increases of conjugate formation and cytolysis.     

Human natural killer cell lysis of virus-infected cells. Relationship to expression of the transferrin receptor

Natural killer (NK) cells lyse tumor and virus-infected cells yet the nature of the target structure they recognize is unknown. A normal host cell glycoprotein, the transferrin receptor (TfR), has been proposed as a target structure on tumor cells. We therefore investigated whether changes in the number or physiological recycling of the TfR, consequent on virus infection, were related to the differential susceptibility of virus-infected cells to NK lysis. There was a direct correlation between TfR expression, susceptibility to NK lysis and ability to act as cold target competitors, for human fibroblasts infected with RNA and DNA viruses (cytomegalovirus, herpes simplex, polio, vaccinia and Semliki Forest virus). The NK lysis of human cytomegalovirus-infected fibroblasts was studied in more detail. NK lysis was increased coincident with human cytomegalovirus early antigen expression and this susceptibility to lysis was associated with increased total and recycling TfR but only a slight increase in surface TfR expression. In addition, susceptibility of uninfected human fibroblasts to NK lysis directly correlated with TfR number. However, we were unable to inhibit NK lysis by either excess iron-saturated Tf or affinity-purified TfR. We conclude that there is a direct correlation between total TfR expression and susceptibility to NK lysis of human virus-infected cells; however, the NK target structure on virus-infected cells is probably not the TfR itself.     

CD8(+)NKR-P1A (+)T cells preferentially accumulate in human liver.

A unique subset of T cells that co-express NKR-P1, which is a lectin type of NK receptor and is thought to have a major role in triggering NK activity, has been identified. In mice, NK1.1 (mouse NKR-P1C)(+) T cells, called NKT cells, preferentially accumulate in the liver and bone marrow. They predominantly use invariant Valpha14 chain TCR and phenotypically are CD4(+)CD8(-) or CD4(-)CD8(-) T cells. In this study, we analyzed, phenotypically and functionally, the NKR-P1A (analogue of murine NKR-P1C)(+) T cells resident in the human liver. Here, we show that in complete contrast to the NKT cells in the mouse liver, the majority of NKR-P1A(+) T cells in the human liver are CD8(+) and their TCR repertoire is not skewed to Valpha24 TCR, the homologue of murine Valpha14 TCR. Almost all of the NKR-P1A(+) T cells in the human liver expressed CD69, suggesting that they were activated. Furthermore, the NKR-P1A(+) T cells in the human liver exhibited strong cytotoxicity against a variety of tumor cell lines including K562, Molt4 and some colonic adenocarcinoma cell lines.     

Importance of stromal determinants in the generation of dendritic and natural killer cells in the human spleen

Summary The interaction between stroma and blood cells in the human spleen has received little attention, despite their well-defined roles during blood cell development in bone marrow. We have reported previously that human spleen-derived fibroblasts display a differentiated myofibroblast phenotype and constitutively express a biologically active form of membrane interleukin (IL)-15 that can drive co-cultured CD34(+) blood cells to differentiate into activated natural killer (NK) cells. Here, we show that, in addition to NK cells, CD34/fibroblast co-cultures also yield myeloid CD1a(+)CD38(+)CD68(+)CD86(+) HLA-DR(+)CD14(-)CD80(-) dendritic cells (DCs) after 3-4 weeks in culture. We found that DC development depended on endogenously secreted stromal macrophage colony-stimulating factor (M-CSF) and CD40/CD40L interaction rather than on fibroblast- and CD34-derived membrane IL-15. CD1a(+) cells were necessary for co-produced NK cells to acquire lytic functions by a mechanism involving cell-to-cell contact and DC-derived IL-12. This study highlights the importance of spleen myofibroblasts in the in vitro generation of two distinct cell types (DC and NK cells) from the innate immune system and suggests that the human spleen is involved in the generation of NK cells from circulating progenitors.     

Natural Cytotoxicity of Human Lymphocytes against Equine Target Cells in Vitro

Human lymphocytes displayed a frequent natural cytotoxicity (NK) in vitro against normal equine dermal fibroblasts (ED) and against equine tumour cells of a virus-containing cell line (Mc-1). Similarly, human normal sera contained antibodies that induced antibody-dependent cellular cytotoxicity (ADCC) by normal human lymphocytes against the same target cells. Both NK and ADCC varied for different donors. For individual donors, however, cytotoxicity against the two target cells was significantly correlated both in NK and ADCC. For ED there was also a significant correlation between ADCC and NK activity. Both NK and ADCC showed some selectivity as assessed by cold target cell inhibition. Inhibition studies with Fab fragments of anti-human IgG established the involvement of immunoglobulins in the NK reaction. In this context, a marked and mainly immunoglobulin-dependent increase in both NK and ADCC activity against Mc-1 was observed in a laboratory worker frequently exposed to the target cells. The results indicate that variations of natural cytotoxicity in individual donors may sometimes be an indication of an ongoing spontaneous sensitization.     

Differential effects of US2, US6 and US11 human cytomegalovirus proteins on HLA class Ia and HLA-E expression: impact on target susceptibility to NK cell subsets

We compared in an inducible expression system the individual effect of US2, US6 and US11 human cytomegalovirus (HCMV) proteins on HLA-E and HLA class Ia surface expression, assessing in parallel their influence on target susceptibility to NK cell clones. To this end, the RPMI 8866 B lymphoma cell line (HLA-A2, HLA-A3, HLA-B7, HLA-Cw7, HLA-E(R), HLA-E(G)) was stably cotransfected with the ecdysone receptor, together with the US sequences under the control of an ecdysone-inducible promoter. Biosynthesis of viral proteins was turned on by incubating transfectants with Ponasterone A. US6 down-regulated expression of all class I molecules, hampering target resistance to NK cell clones controlled by the CD94/NKG2A, KIR2DL2 and/or CD85j (ILT2 or LIR-1) inhibitory receptors. By contrast, US11 reduced the surface levels of class Ia molecules but preserved HLA-E; this rendered US11(+) cells sensitive to NK clones under the control of KIR2DL2 and/or CD85j, while their resistance to CD94/NKG2A(+)KIR2DL2(-) effector cells was maintained. US2 preserved as well HLA-E expression but selectively targeted class Ia molecules; in fact, HLA-A and HLA-C allotypes were down-modulated whereas HLA-B7 remained unaltered. US2(+) targets became sensitive to KIR2DL2(+) cells but remained resistant to CD94/NKG2A(+)CD85j(+) NK clones. The differential effects of US proteins on HLA class Ia and HLA-E likely reflect the evolutionary adaptation of HCMV to counteract NK-mediated surveillance.     

Human antibody-dependent cellular cytotoxicity and natural killer cytotoxicity to herpes simplex virus-infected autologous and allogeneic cells.

Using cultured skin shavings, human cellular cytotoxicity to uninfected and herpes simplex virus (HSV)-infected autologous and allogeneic fibroblasts and Chang liver cells was analysed in a 51Cr release assay. The effector cell requirements and characterization, time kinetics and antibody requirements were similar using each HSV-infected target cell in an antibody-dependent cellular cytotoxicity (ADCC) system. There was lower natural killer cytotoxicity (NKC) to uninfected autologous cells than unrelated cells in an 18 hr assay. NKC to infected autologous and unrelated fibroblasts was similar to that mediated against Chang liver cells. Thus NKC to uninfected fibroblasts correlated with the relationship of effector and target cells while NKC to infected cells correlated with the intrinsic lytic potential of the effector cells. The autologous system offers little advantage in the analysis of ADCC or NKC in normal individuals to virus-infected cells, but is probably crucial for the detection of HLA-restricted T-cell cytotoxicity. The demonstration of autologous anti-viral ADCC and NKC lends further credence to the in vivo importance of the mechanisms.     

Generation of peptide-specific CD8+ T cells by phytohemagglutinin-stimulated antigen-mRNA-transduced CD4+ T cells

Functional analysis of antigen-specific CD8(+) T cells is important for understanding the immune response in various immunological disorders. To analyze CD8(+) T cell responses to a variety of antigens with no readily defined peptides available, we developed a system using CD4(+) phytohemagglutinin (PHA) blasts transduced with mRNA for antigen molecules. CD4(+) PHA blasts express MHC class I and II, and also CD80 and CD86 and are thus expected to serve as potent antigen presenting cells. EGFP mRNA could be transduced into and the protein expressed by more than 90% of either LCL or CD4(+) PHA blasts. Its expression stably persisted for more than 2 weeks after transduction. In experiments with HLA-A*2402 restricted CD8(+) CTL clones for either EBNA3A or a cancer-testis antigen, SAGE, mRNA-transduced lymphoid cells were appropriate target cells in ELISPOT assays or (51)Cr releasing assays. Finally, using CD4(+) PHA blasts transduced with mRNA of a cancer-testis antigen MAGE-A4, we successfully generated specific CTL clones that recognized a novel HLA-B*4002 restricted epitope, MAGE-A4(223-231). Messenger RNA-transduced CD4(+) PHA blasts are thus useful antigen presenting cells for analysis of CD8(+) T cell responses and induction of specific T cells for potential immunotherapy.     

The bi-specific CD3 x NCAM antibody: a model to preactivate T cells prior to tumour cell lysis

To target the neural cell adhesion molecule (NCAM, CD56) on neuroblastoma by T cell-based immunotherapy we have generated a bi-specific CD3 x NCAM antibody (OE-1). This antibody can be used to redirect T cells to NCAM+ cells. Expectedly, the antibody binds specifically to NCAM+ neuroblastoma cells and CD3+ T cells. OE-1 induces T cell activation, expansion and effector function in peripheral blood mononuclear cell (PBMC)-derived CD4+ and CD8+ T cells. T cell activation was shown to depend on the presence of normal natural killer (NK) cells in the culture. Interestingly, while PBMC- derived T cells were activated by OE-1, NK cells were almost completely depleted, suggesting that T cells activated by OE-1 deleted the NK cells. Activated CD4+ and CD8+ T cells differentiate into a larger CCR7+ central memory and a smaller CCR7- effector memory cell population. Most importantly, preactivated T cells were highly cytotoxic for neuroblastoma cells. In eight of 11 experiments tumour-directed cytotoxicity was enhanced when NK cells were present during preactivation with OE-1. These data strongly support a bi-phasic therapeutic concept of primarily stimulating T cells with the bi-specific antibody in the presence of normal NCAM+ cells to induce T cell activation, migratory capacity and finally tumour cell lysis.     

A novel five-colour flow cytometric assay to determine NK cell cytotoxicity against neuroblastoma and other adherent tumour cells

For the evaluation of novel therapies, and for initial in vitro testing of potential in vivo graft-versus-tumour-effects (GvT), cytotoxicity of effector cells against target tumour cells needs to be determined in a reliable fashion. Recently Zimmermann et al. [Zimmermann, S.Y., Esser, R., Rohrbach, E., Klingebiel, T., Koehl, U., 2005. A novel four-colour flow cytometric assay to determine natural killer cell or T-cell-mediated cellular cytotoxicity against leukaemia cells in peripheral or bone marrow specimens containing greater than 20% of normal cells. J. Immunol. Methods. 296(1-2), 63-76] introduced a single platform, no-wash flow cytometric assay to quantify natural killer (NK) cell cytotoxicity against leukaemia cells. Here we have optimised this method introducing a novel five-colour flow cytometric assay for the evaluation of NK cell activity against adherent tumour cells, in particular neuroblastoma cells (NB cells). Beside an enhanced cytotoxic activity corresponding to increasing effector/target (E:T) ratios, we could demonstrate an increasing cytotoxicity in a time-dependent manner over a time period of 8 h. The usefulness of this novel method was also confirmed with human tumour cells lines of various other origin including breast and ovarian carcinoma and Wilms tumour cells freshly isolated from a patient after surgery. In addition to flow cytometric analysis, we monitored NK-cell-mediated induction of target cell apoptosis via the caspase cascade in attacked NB cells by fluorescence microscopy after immunofluorescence staining of activated Caspase-3 (Casp-3) in combination with detection of CD45(+) and CD9(+) for discrimination between NK and NB cells. In summary, this novel flow cytometric cytotoxicity assay enables efficient quantification of the phenotype of both, effector and adherent target tumour cells, and therefore represents a useful tool for research on immunotherapies that rely on cytotoxic effector cells.     

A CD8α(-) subpopulation of macaque circulatory natural killer cells can mediate both antibody-dependent and antibody-independent cytotoxic activities

Natural killer (NK) cells are important components of the innate immune system that mediate effector and regulatory functions. As effector cells, NK cells help control virus-infected cells through cell-mediated antibody-dependent mechanisms such as antibody-dependent cellular cytotoxicity (ADCC). Although macaques are an important and reliable animal model for the study of retrovirus-induced human diseases, and despite the crucial role played by NK cells in innate and adaptive immune responses against simian immunodeficiency virus (SIV), only a few studies have attempted to characterize different macaque NK cell subpopulations. In the present study, we identified a subpopulation of circulatory CD8α(-) macaque NK cells that express NK lineage markers and exhibit cytotoxic potential. CD8α(-) NK cells were phenotypically characterized as CD3(-) CD14(-) CD20(-) CD8α(-) cells that express NK cell markers including CD16, CD56, granzyme B, perforin, NKG2D and KIR2D. Based on their CD56/CD16 expression patterns, cells within the CD8α(-) gate can be divided into four subpopulations: CD56(dim) CD16(bright) , CD56(dim) CD16(-) , CD56(bright) CD16(-) , and CD56(-) CD16(-) cells. In contrast, CD8α(+) NK cells are 95% CD56(dim) CD16(bright) , which correlates with their high cytotoxic potential. Upon interleukin-15 activation, CD8α(-) cells up-regulated CD69 expression and produced low levels of interferon-γ and tumour necrosis factor-α. Sorted CD8α(-) NK cells were capable of killing MHC-I-devoid target cells and mediated ADCC responses against SIV gp120-coated target cells in the presence of macaque anti-gp120 antibodies. Taking into account CD8α(-) myeloid dendritic cells, we show that about 35% of macaque CD8α(-) cells represent a novel, functional population of circulatory NK cells that possesses cytotoxic potential and is capable of mediating anti-viral immune responses.     

Natural killer and lectin-dependent cytotoxic activities of kurloff cells: Target cell selectivity,conjugate formation,and Ca++ dependency

Kurloff cells may represent a major component of NK cell activity in the guinea pig. We have pursued to characterize the mechanism of their action. Using murine target cells, we found Kurloff cell cytotoxicity to be selective for the NK-sensitive YAC-1 target cell, with minimal activity against the NK-resistant P815 target cell. In the presence of PHA, but not ConA, cytotoxicity was markedly augmented against both YAC-1 and P815. While effector-target conjugate formation was observed with YAC-1 cells but not P815 cells in control cultures, it was augmented with both target cell types in cultures with PHA. Pretreatment alone with PHA was ineffective, however. NK cell activity of Kurloff cells was dependent on extracellular Ca⁺⁺ and entry of Ca⁺⁺ into the effector cells, as demonstrated by abrogation of cytotoxicity when extracellular Ca⁺⁺ was chelated with EDTA or EGTA, or following treatment with the Ca⁺⁺ channel blockers-verapamil and diltiazem. Furthermore, inhibition of PKC by H7 resulted in significant reduction of Kurloff cell-mediated NK activity, while pretreatment of effector cells with the PKC activator TPA enhanced NK activity. Kurloff cells could also be stimulated to produce serine esterases by contact with target cells or treatment with phorbol ester and ionophore. Finally, a majority of Kurloff cells, identified by the monoclonal antibody 14D1, reacted with the human NK cell marker CD56. Taken together, these data suggest that Kurloff cells have NK-like characteristics and activity, with target cell selectivity, and that their lytic mechanisms involve influx of extracellular Ca⁺⁺, PKC activation and serine esterase production.     

Ontogeny of natural killer cell activity and antibody dependent cell mediated cytotoxicity in pigs

Cells from pigs of various ages were collected from peripheral blood, mesenteric lymph node, spleen and thymus and their ability to mediate antibody-dependent cell-mediated cytotoxicity (ADCC) and natural killer (NK) cell activity was determined. ADCC against chicken red blood cell (CRBC) was present in cells from peripheral blood, lymph node and spleen, but was absent in thymic cells. There were no age-related differences in ADCC to CRBC and cells from fetal pigs had similar activities to cells from adult pigs. Maximal cytotoxicity against CRBC was found in the polymorphonuclear leukocyte (PMN) cell fraction. In contrast to the good response against CRBC, PMN cells were not lytic in the ADCC assay when PI3 virus-infected cells were used as target cells. Peripheral blood lymphocytes (PBL) had low but significant lytic activity against PI3 virus-infected cells in the presence of high concentrations of specific antiserum. NK cell activity against K562 target cells was readily detected in PBL of pigs older than 2 weeks but was not observed with cells from spleen, lymph node or thymus from pigs of any age. PBL of pigs younger than 2 weeks of age had low but detectable NK activity: however, fetal pigs had no NK activity against K562 target cells. In contrast, when PI3 virus infected Vero cells were used as target cells, NK cells were detected in spleen and PBL, but not lymph nodes or thymus, of pigs greater than one day of age. Similar to the absence of activity to K562, none of the lymphoid cells from fetal pigs had NK activity against PI3 virus-infected Vero cells. The present results suggest that the effector cells that mediate ADCC are distinct from those that mediate NK activity in that cells mediating ADCC develop earlier and are found in different organs than the NK cells. Additionally, the cells that mediate NK activity against viral infected cells may be different from those that mediate NK activity for K562 target cells; however, regardless of the target, NK cells are not present before birth in the pig.     

Phenotypic and functional analysis of human CD3- decidual leucocyte clones.

CD3- leucocyte clones were generated from human first-trimester decidualized uterine endometrium in a culture system containing interleukin-2 (IL-2) and phytohaemagglutinin (PHA). All CD3- clones tested by Southern blot analysis had T-cell receptor (TcR) gamma and delta genes in germ-line configuration. Thirty-six CD3- cell clones obtained from eight decidual samples were mostly CD2+CD56+ but, unlike fresh decidual leucocytes, many were also CD16+. Morphological differences were noted between CD16+CD56+ and CD16-CD56+ clones, with the latter cells possessing granules of more variable size. All CD16+ clones expressed strong cytotoxic activity against natural killer (NK) sensitive and NK-resistant cell targets, while CD16- clones had low or negligible activity. Some CD3- clones produced high levels of interferon-gamma, tumour necrosis factor-negligible activity. Some CD3- clones produced high levels of interferon-gamma, tumour necrosis factor-alpha (TNF-alpha) and transforming growth factor-beta (TGF-beta) upon stimulation, but there was no relationship between specific cytokine production and cell clone phenotype or cytotoxic function. Levels of TGF-beta were generally higher than those produced by decidual CD3+ T-cell clones. Since decidual CD3- CD16- leucocytes have a low proliferative capacity in response to IL-2, and as clones with this phenotype invariably possess low NK cell activity, it is suggested that the NK cell activity of fresh decidual leucocyte populations is mediated largely by the small numbers of CD3- CD16+ cells present.     

Heterogeneity of lymphokine-activated killer (LAK) populations at the clonal level: both NK and CD3+, CD4-, CD8- clones efficiently mediate tumor cell killing

To investigate at the clonal level the phenotypic and functional properties of interleukin 2 (IL-2) activated killer cells (LAK), recombinant IL-2 activated peripheral blood lymphocytes were cultured under limiting conditions. Among 56 clones that lysed P815 in the presence of phytohemagglutinin (PHA) (22% of total proliferating microcultures) 36 clones lysed also the natural killer (NK)-sensitive K562 and the NK-resistant Hu126 glioma cell lines and one clone lysed only the K562 cell line. Several LAK clones were further assayed for both phenotype and functional activity. Of 22 clones, 10 were CD3-, CD4-, CD8-, and expressed the CD16 marker of NK cells; only one clone had the conventional phenotype of cytolytic T cells (CD3+, CD4-, CD8+), while 11 clones were CD3+, CD4-, CD8- and did not express alpha/beta heterodimer of T-cell antigen receptor as identified by WT31 monoclonal antibody. Only one of the latter clones was CD16+. Endogenous production of IL-2 after stimulation with PHA and phorbol myristate acetate was positive in 3/9 CD3- and in 8/8 CD3+, CD4-, CD8- clones. CD3- mediated strong antibody-dependent cellular cytotoxicity, a function exerted also by some CD3+, CD4-, CD8- T-cell clones to a lower extent. CD3+, CD4-, CD8- T-cell clones lysed different major histocompatibility complex unrelated tumor targets; moreover, this lytic activity seems to be CD3 dependent.     

A novel multiparametric flow cytometry-based cytotoxicity assay simultaneously immunophenotypes effector cells: comparisons to a 4 h 51Cr-release assay

Natural killer (NK) cell-or T cell-mediated cytotoxicity traditionally is measured in 4-16 h (51)Cr-release assays (CRA). A new four-color flow cytometry-based cytotoxicity assay (FCC) was developed to simultaneously measure NK cell cytotoxicity and NK cell phenotype (CD3(-)CD16(+)CD56(+)). Target cells, K562 or Daudi, were labeled with Cell Tracker Orange (CTO) prior to the addition of effector cells. Following co-incubation, 7 amino-actinomycin D (7-AAD) was added to measure death of target cells. The phenotype of effectors, viability of targets, the formation of tumor-effector cell conjugates and absolute numbers of all cells were measured based on light scatter (FSC/SSC), double discrimination of the fluorescence peak integral and height, and fluorescence intensity. Kinetic studies (0.5 and 1 to 4 h) at different effector to target (E:T) cell ratios (50, 25, 12, and 6) confirmed that the 3 h incubation was optimal. The FCC assay is more sensitive than the CRA, has a coefficient of variation (CV) 8-13% and reliably measures NK cell-or lymphokine-activated killer (LAK) cell-mediated killing of target cells in normal controls and subjects with cancer. The FCC assay can be used to study a range of phenotypic attributes, in addition to lytic activity of various subsets of effector cells, without radioactive tracers and thus, it is relatively inexpensive. The FCC assay has a potential for providing information about molecular interactions underlying target cell lysis and thus becoming a major tool for studies of disease pathogenesis as well as development of novel immune therapies.