Accessory cells, dendritic cells, or monocytes, are required for the lymphokine-activated killer cell induction from resting T cell but not from natural killer cell precursors

In this study we have investigated the role of accessory cells in the development of lymphokine-activated killer cells (LAK) from highly purified human NK and small resting T cell progenitors. As accessory cells we used autologous, as well as allogeneic, monocytes, and dendritic cell enriched cells. Both NK and T cells were able to generate LAK activity, but their activation requirements were different. NK cells were activated merely by IL-2, and accessory cells did not enhance their lytic activity in the presence or absence of IL-2. Conversely, T cells were practically unresponsive to even high concentrations of IL-2 having a strict requirement for accessory cells for the development of lytic activity and proliferation. Accessory cells differed in their ability to activate T cells presumably depending on their ability to induce IL-2 synthesis, allogeneic dendritic cells being the most effective accessory cells and IL-2 synthesis stimulators. Allogeneic accessory cells could induce lytic activity in T cells even in the absence of exogenous IL-2. Thus, accessory cells play a central role in expanding the LAK effector cell population.     

Resistance of cytolytic lymphocytes to perforin-mediated killing. Murine cytotoxic T lymphocytes and human natural killer cells do not contain functional soluble homologous restriction factor or other specific soluble protective factors

CTL and NK cells produce a cytolytic pore-forming protein (perforin, cytolysin) localized in their cytoplasmic granules. These cytotoxic cells are resistant to killing mediated by other lymphocytes and by purified perforin. A membrane factor, known as homologous restriction factor (HRF), has been suggested to confer protection to different cell types against both C- and perforin-mediated lysis. The granules of human large granular lymphocytes have been reported to contain, in addition to perforin, a soluble HRF activity that can be eluted from anion-exchange columns at 115 mM NaCl. Here, we report that a soluble HRF activity is absent in the granules or the cytosol of murine CTL and human NK cells. Our data indicate that the inhibition attributed to HRF could be explained by exogenous EDTA added during granule fractionation. EDTA was shown to bind to Mono Q and to elute at 90 to 120 mM NaCl. A second perforin-inhibitory activity was also eluted from such a column. However, it was present in preparations obtained not only from CTL and NK cells, but also from some perforin-susceptible tumor cell lines, indicating that it has nonrestricted distribution and suggesting that it is probably irrelevant to the perforin-protection mechanism. Our results argue against a role for soluble granule HRF or other soluble factors in mediating resistance of cytotoxic lymphocytes against perforin-mediated lysis.     

Murine natural killer cells express the Ly24 (Pgp-1) marker on their surface

The Ly24 (Pgp-1) marker is expressed on some, but not all, mature T lymphocytes. It has recently become apparent that the development of Ly24- T lymphocytes is dependent on the presence of an intact thymus and that virgin Ly24- T cells rapidly acquire this marker upon antigenic or mitogenic stimulation. Although natural killer (NK) cells can develop and function in the absence of an intact thymus, some NK cell subsets express certain markers normally associated with T lymphocytes. The experiments in this report were undertaken to determine if NK cells express Ly24 and whether such an expression could be used to delineate distinct NK cell subsets. We found that mature functional NK cells expressed the Ly24 marker as defined by the monoclonal antibody 9F3. Double-color fluorescence analysis using C57BL/6 splenocytes (whose NK cells express the NK1.1 marker) showed all the NK1.1+ cells to be Ly24+ as well. For C3H/HeN (an NK1.1- strain), double-color fluorescence analysis utilizing asialo GM1 and Ly24 revealed a distinct subset positive for both markers and containing most of the functional NK cell activity. Whereas the Ly24 marker did not illuminate an NK cell subset, these findings demonstrate that this determinant can be useful for the further characterization and isolation of NK cells.     

Molecular genotypes of the human T cell receptor gamma-chain

New RFLP of the human TCR gamma-chain defined by a single restriction enzyme (PvuII) are described. They define three alleles and allow haplotype assignments within families. They occur at a high frequency within the population studied and are useful for studies on disease associations with the gamma-chain genes. The PvuII sites flank the C gamma 2 gene. A polymorphic site maps to an area 0.5 kb downstream of C gamma 2-exon III. The second RFLP appears to be the result of a 3-kb insertion giving rise to differences in the number of copies of exon II in the C gamma 2 gene.     

T cell receptor delta gene organization and expression in normal and leukemic natural killer cells

In peripheral blood most NK activity is mediated by CD3- cells with large granular lymphocyte morphology which cannot be assigned to a specific hemopoietic lineage. In accordance with previous studies we have analyzed the organization of the TCR delta gene, which rearranges early in thymic ontogeny, in normal NK cells, and in granular lymphocytes proliferative disorders (GLPD), in an effort to further define their relationship to the T cell differentiation pathway and to identify a possible marker of clonality for CD3- GLPD. The alpha/delta locus was rearranged in five cases of CD3+ GLPD with a biallelic deletion of the C delta region, suggesting V-J alpha rearrangement, whereas CD3- GLPD and normal CD3- NK cells had the delta gene in germ-line configuration, but surprisingly expressed high levels of TCR delta-related mRNA. On the basis of this finding and of the presence of truncated TCR-beta and CD3-epsilon mRNA, we are led to speculate on a possible ontogenic relationship of NK cells to the T cell differentiation pathway at stages preceding TCR gene rearrangement.     

A novel strategy for the generation of T cell lines lacking expression of endogenous alpha- and/or beta-chain T cell receptor genes

Mutant T cell lines that do not express the endogenous alpha- and/or beta-chain genes of the TCR were generated from the alpha beta TCR/CD3+ tumor cell line C6VL with a combination of classical mutagenesis methods and selection of somatic hybrid variants. This novel strategy obviated the need for repeated mutagenesis and screening of a large number of individual clones. The loss of either the alpha- or the beta-chain expression in the mutant cells was associated with the loss of surface TCR/CD3 complex, which could be rescued by the transfection of appropriate exogenous alpha- and/or beta-chain gene constructs. Because these cells express a single TCR molecule on the cell surface, they are useful for the study of the assembly and function of the alpha beta TCR. This strategy is also generally applicable for the generation of homozygous mutant cell lines lacking other gene products.     

Human decidual natural killer cells express the receptor for and respond to the cytokine interleukin 15

The natural killer (NK) cells that are present in the uterine mucosa (decidua) during early pregnancy have a distinctive phenotype, CD56(bright) CD16(-). These cells have previously been shown to proliferate and be activated by interleukin (IL)-2. However, IL-2 is absent from the decidua and placenta, and we have therefore investigated whether IL-15 is present in the uterus and can act on decidual NK cells. Both IL-15 mRNA and protein were found in a variety of cells but particularly in decidual macrophages. IL-15 induced a proliferative response in decidual NK cells that was blocked by anti-IL-15 and was augmented by stem cell factor. The cytolytic activity of decidual NK cells against K562 was augmented. Interestingly, in contrast to IL-2, although activation with IL-15 resulted in some killing of JEG-3 choriocarcinoma cells, normal trophoblast cells remained resistant to lysis. These findings suggest that IL-15 is a candidate cytokine responsible for NK cell proliferation in vivo in the progesterone-dominated secretory endometrium and early decidua.     

Mouse natural killer (NK) cells express the nerve growth factor receptor TrkA, which is dynamically regulated

Background

Nerve growth factor (NGF) is a neurotrophin crucial for the development and survival of neurons. It also acts on cells of the immune system which express the NGF receptors TrkA and p75^NTR and can be produced by them. However, mouse NK cells have not yet been studied in this context.

Methodology/Principal Findings

We used cell culture, flow cytometry, confocal microscopy and ELISA assays to investigate the expression of NGF receptors by NK cells and their secretion of NGF. We show that resting NK cells express TrkA and that the expression is different on NK cell subpopulations defined by the relative presence of CD27 and CD11b. Expression of TrkA is dramatically increased in IL-2-activated NK cells. The p75^NTR is expressed only on a very low percentage of NK cells. Functionally, NGF moderately inhibits NK cell degranulation, but does not influence proliferation or cytokine production. NK cells do not produce NGF.

Conclusions/Significance

We demonstrate for the first time that mouse NK cells express the NGF receptor TrkA and that this expression is dynamically regulated.     

Antigenic, functional, and molecular genetic studies of human natural killer cells and cytotoxic T lymphocytes not restricted by the major histocompatibility complex

Cytotoxicity not restricted by the major histocompatibility complex (MHC) is mediated by two distinct types of lymphocyte: natural killer (NK) cells and non-MHC-restricted cytotoxic T lymphocytes (CTL). These two types of cytotoxic lymphocytes can be distinguished by antigenic phenotype, function, and molecular genetic studies. In human peripheral blood, NK cells are identified by expression of the Leu-19 and/or CD16 cell surface antigens, and lack of CD3/T cell antigen receptor (Ti) complex expression (i.e., CD3-,Leu-19+). Peripheral blood non-MHC-restricted CTL express both CD3 and Leu-19 (i.e., CD3+, Leu-19+, referred to as Leu-19+ T cells). Both Leu-19+ T cells and NK cells lyse "NK-sensitive" hematopoietic tumor cell targets, such as K562, without deliberate immunization of the host. However, most "NK activity" in peripheral blood is mediated by NK cells, because they are usually more abundant and more efficient cytotoxic effectors than Leu-19+ T cells. The cytolytic activity of both NK cells and Leu-19+ T cells against hematopoietic targets was enhanced by recombinant interleukin 2 (rIL 2). NK cells, but not peripheral blood Leu-19+ T cells, were also capable of lysing solid tumor cell targets after short-term culture in rIL 2. Southern blot analysis of NK cells revealed that both the T cell antigen receptor beta-chain genes and the T cell-associated gamma genes were not rearranged, but were in germ-line configuration. These findings indicate that NK cells are distinct in lineage from T lymphocytes and do not use the T cell antigen receptor genes for target recognition.(ABSTRACT TRUNCATED AT 250 WORDS)     

Platelets do not express the oxidized or reduced forms of tissue factor

Background

Expression of tissue factor (TF) antigen and activity in platelets is controversial and dependent upon the laboratory and reagents used. Two forms of TF were described: an oxidized functional form and a reduced nonfunctional form that is converted to the active form through the formation of an allosteric disulfide. This study tests the hypothesis that the discrepancies regarding platelet TF expression are due to differential expression of the two forms.

Methods

Specific reagents that recognize both oxidized and reduced TF were used in flow cytometry of unactivated and activated platelets and western blotting of whole platelet lysates. TF-dependent activity measurements were used to confirm the results.

Results

Western blotting analyses of placental TF demonstrated that, in contrast to anti-TF#5, which is directed against the oxidized form of TF, a sheep anti-human TF polyclonal antibody recognizes both the reduced and oxidized forms. Flow cytometric analyses demonstrated that the sheep antibody did not react with the surface of unactivated platelets or platelets activated with thrombin receptor agonist peptide, PAR-1. This observation was confirmed using biotinylated active site-blocked factor (F)VIIa: no binding was observed. Likewise, neither form of TF was detected by western blotting of whole platelet lysates with sheep anti-hTF. Consistent with these observations, no FXa or FIXa generation by FVIIa was detected at the surface of these platelets. Similarly, no TF-related activity was observed in whole blood using thromboelastography.

Conclusion and significance

Platelets from healthy donors do not express either oxidized (functional) or reduced (nonfunctional) forms of TF.     

Costimulatory activation of murine invariant natural killer T cells by toll-like receptor agonists

Invariant NKT (iNKT) cells are glycolipid-reactive lymphocytes with anti-microbial properties. Toll-like receptor (TLR)-primed antigen-presenting cells are known to activate iNKT cells, however, the expression and function of TLRs in iNKT cells remain largely unknown. Here, we show that TCR-activation of murine iNKT cells by α-GalactosylCeramide (α-GalCer) or anti-CD3 antibodies can result in increased expression of TLR genes. TLR3, 5 and 9-mediated costimulation of TCR-preactivated iNKT cells resulted in enhancement of iNKT cell activation, as determined by their cytokine production. Expression of TLR3 and 9 at protein level was also confirmed in TCR-activated iNKT cells. Furthermore, TCR-preactivation followed by TLR9-costimulation of iNKT cells increased their ability to induce maturation of dendritic cells. Thus, our findings show that iNKT cells can up-regulate their TLR expression upon TCR activation and a subsequent TLR-signaling in these cells can lead to their enhanced activation, suggesting a new possible mode of iNKT cell activation.     

Kinetics of Ii synthesis, processing, and turnover in n-butyrate-treated Burkitt's lymphoma cell lines which express or do not express class II antigens and in hairy leukemic cells

We have sought to understand the role of the electrophoretically invariant chain (Ii) in class II antigen functions, particularly in certain transformed cells in which we have previously demonstrated hyperexpression of Ii. Molecular structures and relative kinetics of Ii synthesis, processing and turnover were compared in paired, Ia+ and Ia- Burkitt's lymphoma (BL) cell lines and in hairy cell leukemia (HCL) cells. Cells were metabolically labeled with [35S] methionine for 15 min (with or without a cold methionine chase to 3 hr) or were continuously labeled for 3 hr. One- and two-dimensional gel electrophoresis resolved immunoprecipitates formed with a) a heteroantiserum to purified class II antigen (demonstrating alpha and beta chains and Ii associated with that complex), b) a heteroantiserum to hairy cell leukemia (HCL) membranes (demonstrating principally the dominant, basic form of Ii molecules, class I antigens, and some additional proteins), and c) a monoclonal antibody to human Ii. Treatment of Ia+ Jijoye and its daughter, Ia- P3HR-1, BL cells with 4 mM butyrate for 48 hr enhanced the synthesis of the dominant, basic form of Ii but did not affect apparent turnover rates of that pool of Ii chains in either cell line. In Ia+ Jijoye cells but not in Ia- P3HR-1 cells Ii was terminally processed to more acidic, sialic acid-derivatized forms. Butyrate treatment did not alter the relative turnover rate of terminally processed Ii in Jijoye cells. The level of the dominant, basic form of Ii in HCL cells equaled that in butyrate-treated Jijoye cells, and relative turnover rates of this terminally unprocessed Ii pool were similar in HCL and Jijoye cells. However, HCL Ia-associated Ii was not terminally processed, as was Ia-associated Ii in Jijoye cells. The expression of Ia auxiliary proteins, p41 and p25, was also enhanced in Jijoye cells by butyrate treatment and was prominent in HCL cells. From these experiments, we may hypothesize the following. In lymphoblastoid cells, two pathways for Ii turnover could exist. One is through association with Ia complexes and progressive terminal processing of carbohydrate side chains and a second is not associated with Ia or, apparently, with such processing. Because Ii is not found to be terminally processed in the absence of class II antigen, Ia might be considered to direct the processing of a subset of Ii towards some function (rather than vice versa).(ABSTRACT TRUNCATED AT 400 WORDS)     

Alteration of inhibitory and activating natural killer cell receptor expression on T cells in human immunodeficiency virus-infected Chinese

T cell expression of NKRs can trigger or inhibit cell‐mediated cytotoxicity. However, few studies on T lymphocyte NKR expression in HIV infection exist. Here, we examined the expression patterns of NKG2D, NKG2A, and KIR3DL1 on CD8⁺ and CD3⁺CD8^? cells by multicolor flow cytometry in groups of patients with HIV, AIDS or HAART‐treated AIDS, as well as HIV‐negative normal controls. Individual analysis of KIR3DL1 on CD3⁺CD8⁺ or CD3⁺CD8^? cells revealed no significant differences among any of the groups (P > 0.05). In contrast, the percentage of NKG2A⁺NKG2D^?CD8⁺ T cells was higher in the AIDS group than in the HIV‐negative normal control group (P < 0.01). Meanwhile, the prevalence of NKG2D⁺NKG2A^?CD8⁺T cells was lower in the AIDS group than in HIV‐negative normal controls (P < 0.001). Similar results were also observed for the percentage of NKG2A⁺NKG2D^? on CD3⁺CD8^?cells. However, in contrast to CD8⁺ T cells, the frequencies of NKG2D⁺NKG2A^? on CD3⁺CD8^? cells were higher in AIDS and HIV patients than in HIV‐negative normal controls (P < 0.01, P < 0.05, respectively). The percentage of NKG2A⁺NKG2D^?CD8⁺ T cells was negatively correlated with CD4⁺ T cell counts (r=?0.499, P < 0.01), while the percentage of NKG2D⁺NKG2A^?CD8⁺ T cells was positively correlated with CD4⁺ T cell counts (r= 0.494, P < 0.01). The percentage of NKG2D⁺NKG2A^?CD3⁺CD8^? T cells was also positively correlated with viral load (r= 0.527, P < 0.01) and negatively correlated with CD4⁺ T cell counts (r=?0.397, P < 0.05). Finally, HAART treatment reversed the changes in NKR expression caused by HIV infection. These results indicate that the expression of NKRs on T cells may be correlated with HIV disease progression.     

Human neuroblastoma cell lines are susceptible to lysis by natural killer cells but not by cytotoxic T lymphocytes

The susceptibility of human neuroblastoma cells to direct cellular cytotoxicity has not been previously established. This is of particular interest because of their aggressive growth and low HLA expression. Neuroblastoma lines CHP 100 and CHP 126 were found to be excellent targets in 4-hr CML assays. Natural killer (NK) cells from fresh PBL and from an NK clone, 3.3, have high lytic activity against both cell lines. We also studied mixed lymphocyte culture-generated cytotoxic lines containing allo-specific cytotoxic T lymphocytes (CTL) directed against HLA antigens present on the neuroblastoma target cell lines. These lines did show excellent lytic activity, but cold target competition studies indicated that all of the lysis resulted from NK activity. This was verified by using inhibition studies with the use of monoclonal antibodies. OKT 3 and anti-HLA antibodies that block CTL function caused no reduction in kill. In contrast, anti-lymphocyte function antigen-1 (anti-LFA-1), which blocks both NK and CTL function, significantly inhibited lysis. These results serve as a functional confirmation of earlier findings of a very weak expression of HLA-A,B,C and beta 2-microglobulin on neuroblastoma cells.     

IL-2 induces expression of serine protease enzymes and genes in natural killer and nonspecific T killer cells

The expression of serine protease genes was examined in murine NK cells that were purified by panning spleen cells with PMA. Although unstimulated NK cells were cytolytic, they were found not to express the C11 (chymotrypsin-like) mRNA. Culturing these cells in IL-2 (500 to 800 U/ml) for 5 to 7 days induced both the lytic activities and the protease enzymes by 20- to 30-fold. Concomitant to these activation events, the total steady state mRNA of both C11 and HF (trypsin-like) genes were also elevated. The activation of lysis, serine protease enzymes, and C11 and HF mRNA all peaked around day 5 in culture and was dose dependent. In order to exclude the possibility that PMA synergizes with IL-2 in this system, spleen cells from SCID mice, which contained mainly NK cells, were cultured under the same conditions (800 U/ml IL-2, with or without PMA) and PMA did not appear to enhance the expression of these mRNA. Similarly, IL-2 also induced the lytic activities, enzyme levels, and mRNA in the non-Ag-specific T killer cells isolated from spleens of normal mice. Lytic activity of T killer cells was not as high as the NK cells, however, the addition of PHA into the lytic assay resulted in enhanced lysis comparable to that of NK cells. These results showed that lytic activity increased along with protease enzyme levels and mRNA expression in both NK and resting T cells. Therefore, elevated levels of the protease enzymes could be one mechanism involved in optimal lytic activity of IL-2-induced lymphokine activated killer cells.     

Promonocytes have the functional characteristics of natural killer cells.

Promonocytes isolated from a 5-day-old L-fibroblast-conditioned liquid bone marrow culture show strong NK cell cytotoxicity. They kill YAC target cells in a short-term 125IUDR-release assay whereas P815 targets are unaffected. This NK-like cytotoxicity is enhanced in the presence of interferon preparations. Morphologically, these promonocytes resemble a medium size lymphocyte with a high nucleus to cytoplasma ratio, they are nonadherent, nonphagocytic, and negative in nonspecific esterase staining. Promonocytes are precursor cells from macrophages, which have not yet developed the typical macrophage criteria. Within 24 to 48 hr they mature to adherent macrophages. We have shown previously, that the same promonocytes have the capacity to perform K cell killing of antibody-coated tumor target cells. The cytotoxic effector functions of promonocytes are abolished when the cells are treated with the alloantimacrophage serum Mphi 1.2 plus rabbit C. The relationship or similarity between K cells, NK cells and promonocytes is discussed.     

Cobalt-mediated dimerization of the human natural killer cell inhibitory receptor

Upon engagement of specific class I major histocompatibility complex (MHC) molecules on target cells, inhibitory receptors on natural killer (NK) cells deliver a negative signal that prevents the target cell lysis by NK cells. In humans, killer cell immunoglobulin-related receptors (KIR) with two immunoglobulin-like domains (KIR2D) modulate the lysis of target cells bearing specific HLA-C alleles (Moretta, A., Vitale, M., Bottino, C., Orengo, A. M., Morelli, L., Augugliaro, R., Barbaresi, M., Ciccone, E., and Moretta, L. (1993) J. Exp. Med. 178, 597-604). The transduction of inhibitory signals by KIR2D molecules is impaired by the zinc chelator, 1,10-phenanthroline, and mutation of a putative zinc-binding site (Rajagopalan, S., and Long, E. O. (1998) J. Immunol. 161, 1299-1305), but the mechanism by which zinc may affect the function of KIR remains unknown. In this study, the inhibitory NK receptor KIR2DL1 was discovered to dimerize in the presence of Co(2+) as observed on native gel electrophoresis and by gel filtration column chromatography. Furthermore, Co(2+)-mediated KIR2DL1 dimer binds to HLA-Cw4 with higher affinity than the wild type KIR2DL1 monomer. Replacement of the amino-terminal His residue by Ala abolishes the ability of KIR2DL1 to bind Co(2+), indicating that Co(2+)-mediated KIR2DL1 dimerization involves pairing of the D1 domain. Although not observed on native gels, the inhibitory receptor KIR2DL1 can be chemically cross-linked into dimers in the presence of Zn(2+) and its related divalent metal ions, suggesting that Co(2+)-mediated dimerization of KIR2DL1 may mimic a weaker interaction between KIR2DL1 and zinc in vivo.     

Cloning of cDNA for natural killer cell stimulatory factor, a heterodimeric cytokine with multiple biologic effects on T and natural killer cells.

Previously we have reported the purification and characterization of a novel cytokine from an EBV-transformed B cell line, RPMI 8866. This factor, termed natural killer cell stimulatory factor (NKSF), possessed pleiotropic activities including the induction of IFN-gamma from PBL, enhancement of cytotoxicity by NK cells, and stimulation of the proliferation of PBL. Purified NKSF was found to be a disulfide-linked heterodimeric protein composed of 35-kDa and 40-kDa subunits (p35 and p40). We now report the molecular cloning of cDNA for both subunits of NKSF from RPMI 8866 cellular RNA. The cDNA sequences indicate that both genes are novel, and Southern blot analysis confirmed that both cDNA are of human genomic origin. [35S]Methionine labeling indicated that cos-1 cells transfected with either p35 or p40 cDNA produced unique protein species of appropriate size. Methionine labeling of cos-1 cells cotransfected with p35 plus p40 cDNA yielded a broad band migrating between 70 and 90 kDa on a nonreducing gel. Reduction of this high molecular weight material yielded bands correlating with p35 and p40 gene products. Only culture supernatant from cotransfected cos-1 cells had a high level of NKSF biologic activity. That the high molecular weight material was responsible for this activity was indicated by the observation that biologic activity in the culture supernatant migrated at 70 to 90 kDa in a nonreducing gel. Furthermore, anti-p40 serum was able to block the biologic activities of both recombinant and natural NKSF, which indicates that it is a component of the active protein. In contrast, no activity could be detected in the supernatants of cos-1 cells transfected with p40 or p35 cDNA alone. The spectrum of biologic activity produced by cotransfected cos-1 cells was the same as NKSF purified to homogeneity from the RPMI 8866 cell line. A synergistic augmentation of some of these responses was found by the addition of IL-2 or the co-stimulators PHA or phorbol diester. The synergistic stimulation by NKSF plus IL-2 of T and NK function supports the possibility that these cytokines might prove useful in cancer therapy.