Isolation of human mononuclear cell subsets by counterflow centrifugal elutriation (CCE). I. Characterization of B-lymphocyte-, T-lymphocyte-, and monocyte-enriched fractions by flow cytometric analysis

Rapid separation of large numbers of human peripheral blood mononuclear cells into fractions enriched for B lymphocytes, T lymphocytes, or monocytes was accomplished by counterflow centrifugal elutriation (CCE). The first fraction contained 98% of the platelets. Ten additional fractions containing subpopulations of mononuclear cells were collected by sequential increases in the flow rate while maintaining a constant centrifuge speed. Analysis of the fractions using monoclonal antibodies revealed that fraction 2, which was free of esterase-positive monocytes, was highly enriched for B cells. T lymphocytes (OKT3+) were the predominant cell type found in fraction 4. No enrichment for T-lymphocyte-helper (OKT4+) or -suppressor (OKT8+) subpopulations was observed in the lymphocyte containing fractions. Three fractions (7-9), highly enriched for esterase-positive cells, were predominantly OKM1+ monocytes with no evidence of selective separation of monocyte subpopulations. Thus, cell fractions enriched for B cells, T cells, and monocytes could be obtained, by utilizing CCE, in large enough quantities to enable analysis of their functional properties. Of particular interest was the ability to separate small, resting B lymphocytes from monocytes.     

Intrapleural administration of OK432 in cancer patients: Augmentation of autologous tumor killing activity of tumor-associated large granular lymphocytes

Summary Ten patients with carcinomatous pleural effusions were treated with single intrapleural (i.pl.) injections of the streptococcal preparation OK432 on day 0 and the effects of i.pl. OK432 on the lysis of fresh or cryopreserved autologous tumor cells isolated from the pleural effusions were observed on day 7. In eight patients tumor cells in the effusions had decreased or disappeared by day 7. The other two patients, however, had no clinical evidence of therapeutic benefit from i.pl. OK432. Effusion tumor cells were relatively resistant to lysis by autologous lymphocytes when tested in a 4-h ⁵¹Cr-release assay. Positive reactions were recorded for blood and effusion lymphocytes in two of ten untreated patients. Injection of OK432 i.pl. resulted in an induction or augmentation of cytotoxicity against autologous tumor cells and K562 in the effusions of seven of ten subjects by day 7. In contrast, autologous tumor killing activity of blood lymphocytes was not always modified by i.pl. OK432. Purification of large granular lymphocytes (LGL) by discontinuous Percoll gradient centrifugation enriched autologous tumor killing activity, with no reactivity in LGL-depleted, small T lymphocytes. Significant lysis of autologous tumor cells was observed with effusion LGL from seven of ten untreated patients. Seven days after i.pl. OK432 injection, effusion LGL expressed enhanced cytotoxicity against autologous effusion tumor cells, whereas T cells were still not cytotoxic to autologous tumor cells on day 7. The frequency of LGL among effusion lymphocytes was not altered by i. pl. OK432. Adherent effusion cells were not involved in lysis of autologous effusion tumor cells in either untreated or OK432-treated patients. In vitro treatment of blood and effusion lymphocytes with OK432 induced an enhancement of autologous tumor-killing activity in patients who subsequently responded to i.pl. OK432 treatment. OK432 augmented in vitro autologous tumor killing activity of LGL, whereas T cells failed to lyse autologous tumor cells even after in vitro activation with OK432. These results indicate that i.pl. administration of OK432 to cancer patients will result in an augmentation of autologous tumor killing activity of LGL in the pleural effusions, and that this could be responsible for the antitumor activity of i.pl. OK432 therapy.     

Monoclonal antibody-defined surface markers of effector cells involved in human monocyte cytotoxicity

Human adherent peripheral blood mononuclear cells were cytotoxic in vitro against the murine TU5 line in a 48-hr [3H]thymidine-release assay. Monocyte-enriched adherent cell preparations contain a small and variable (usually less than 5%) contamination with large granular lymphocytes as assessed by morphology and staining with monoclonal antibody markers B73.1 and HNK1. To assess whether killing was in fact mediated by monocytes, mononuclear cells or monocyte-enriched preparations were separated using monoclonal antibodies directed against mononuclear phagocytes (Mo2, UCHM1, B44.1) or natural killer (NK) cells (B73.1 and HNK1), and a fluorescence-activated cell sorter. Cells positive for monocyte markers were highly cytotoxic against TU5, whereas negative cells were not. B73.1+ or HNK1+ cells had little or no activity. Cytotoxicity of cells positive for monocyte markers (Mo2, UCHM1, B44.1) was augmented by in vitro exposure to lymphokines or less frequently to interferon (IFN). However, cells negative for these monocytes markers were also stimulated to kill TU5 by lymphokine or IFN to an extent similar or greater than that of positive ones. IFN or lymphokines induced killing of TU5 by monocyte-depleted, B73.1-positive, lymphoid cells. These observations demonstrate that human monocytes do kill tumor cells, either in the absence of deliberate stimulation or after exposure to agents such as lymphokines. However, the possible contribution to "monocyte" cytotoxicity of minor NK cell contaminants must be taken into account particularly when agents such as IFN and lymphokines are applied, even when a relatively NK-cell-resistant target such as TU5 is used.     

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Human peripheral blood monocytes were reproducibly shown to lyse a variety of tumor cells in a 3- to 4-hr ⁵¹Cr release assay. Ficoll-Hypaque-purified mononuclear cells were suspended in medium supplemented with either 10% autologous serum or fetal calf serum (PCS). With either serum, highly purified (97–99%) and viable (>99%) monocyte suspensions were obtained by EDTA-reversible adherence to plastic surfaces which had been precoated with autologous serum. When used as effectors in cytotoxicity assays, the monocytes recovered from mononuclear cells suspended in FCS-supplemented medium exhibited higher cytolytic activity and were therefore used for further studies. Using FCS for both coating the plates and supplementing the suspension medium resulted in monocytes with low cytolytic activity. Tumor cell lysis measured by ⁵¹Cr release was detected within 2 hr of incubation and increased gradually with time. The level of lysis was dependent on the effector/target ratio and the tumor target cell employed. The involvement of natural killer lymphocytes in the observed tumoricidal activity was excluded. Detection of cytotoxic activity in a short-term assay will be very helpful in further studies of the mechanism of tumor cell killing by human monocytes since potential complicating effects of long-term in vitro cultivation will be minimized.     

Natural killer-sensitive targets stimulate production of TNF-alpha but not TNF-beta (lymphotoxin) by highly purified human peripheral blood large granular lymphocytes

Highly purified populations of large granular lymphocytes (LGL) have been shown to mediate natural killer (NK) cell activity. The mechanism of target cell killing by NK cells is as yet undefined; however, it has been postulated that such killing may involve soluble cytotoxic factors produced and secreted by NK cells. The data presented show that NK-sensitive, but not NK-resistant, tumor cell lines induce highly purified populations of human LGL to produce factors with cytotoxic and/or cytostatic activities. We have identified one of these factors as tumor necrosis factor-alpha (TNF-alpha), and have shown that production of this factor is enhanced by recombinant human interferon-gamma (rHuIFN-gamma). We have also examined the role of TNF-alpha in the cytotoxic function of NK cells. The data show that although highly purified LGL populations produce low levels of TNF-alpha, the cytotoxic/cytostatic activity of this lymphokine on tumor target cells does not correlate with the cytotoxic activity of highly purified populations of LGL on tumor target cells. Furthermore, NK cell-mediated cytotoxicity is not reliably inhibited by antibodies directed against various epitopes of recombinant human TNF-alpha and/or recombinant TNF-beta (lymphotoxin) or rHuIFN-gamma. These data show that although TNF-alpha is produced by highly purified NK-containing LGL cell populations, this factor does not appear to be responsible for NK cell cytotoxicity against classical NK target cells such as Molt-4 or K562. We suggest that NK function can be attributed to a combination of factors rather than to a single factor alone, and that at least two major phenomena are involved in LGL function: the rapid cytotoxic events which lead to the cell lysis measured in classical in vitro NK assays such as against K562; and the release of factors such as TNF-alpha with cytotoxic/cytostatic activities which would inhibit the growth of invading tumor cells in vivo.     

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.     

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.     

Role of human circulating and tumor-infiltrating lymphocytes in cancer defense and treatment

We have analyzed the anticancer efficacy of various subsets of human circulating and tumor-infiltrating lymphocytes (TIL). These studies showed that circulating natural killer (NK) cells mediate the most potent oncolytic activity against a variety of tumor targets, after enrichment or stimulation with interleukin-2 (IL-2). Interestingly, NK cell oncolytic activity was directed also against tumor targets frequently designated as 'NK-resistant'. This indicates that NK cells display a broader spectrum of killing than is commonly recognized. TIL did not display any tumoricidal activity when unstimulated, but acquired cytotoxic potential after activation with IL-2. Comparative studies of TIL and circulating lymphocytes from patients with ovarian cancer demonstrated that these two groups of lymphocytes manifested similar levels of cytotoxicity and the same spectrum of target cell killing. No specificity in autologous tumor cell killing was displayed by TIL; instead, TIL were effective against autologous as well as allogeneic tumor targets. The lack of TIL tumor specificity was not detected only in ovarian tumors, but was manifested also in renal- and squamous-cell cancers. Characterization studies demonstrated that the primary oncolytic cells in the periphery and among TIL are NK cells. T lymphocytes displayed some, but rather negligible cytotoxic activity. In contrast, when IL-2-activated NK and T cells were analyzed for lytic activity against normal hematopoietic cells, T cells displayed high levels of bone marrow killing. The anti-bone marrow lytic activity of IL-2-activated T lymphocytes may be harmful after therapy with conventionally prepared lymphokine-activated killers. In light of these observations, new directions to adoptive immunotherapy are discussed.     

Human trophoblast and JEG choriocarcinoma cells are sensitive to lysis by IL-2-stimulated decidual NK cells.

Freshly isolated decidual large granular lymphocytes (LGL) show natural killer (NK) activity against K562 cells but not against normal human trophoblast. We now show that these decidual LGL proliferate in vitro in response to recombinant interleukin-2 (rIL-2) and that these rIL-2-stimulated cells acquire a broad cytolytic potential that is characteristic of lymphokine-activated killer (LAK) cells. Both fetal fibroblasts and JEG-3 choriocarcinoma cells are resistant to lysis by freshly isolated decidual effectors but are readily killed by IL-2-stimulated decidual LGL. The ability to kill these target cells is acquired after only 18 hr exposure to rIL-2. rIL-2-activated decidual LGL also kill cultured normal trophoblast cells but much lower levels of cytolysis were seen even after the effectors had been stimulated with rIL-2 for 4-6 days. The preferential killing of malignant over normal human trophoblast cells raises questions about the potential role of IL-2-activated decidual LGL in the control of unduly invasive or malignant trophoblast populations in vivo.     

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.     

Characterization of bovine mononuclear cell populations with natural cytolytic activity against bovine herpesvirus 1-infected cells

Freshly isolated or overnight cultured peripheral blood mononuclear cells from immune or nonimmune animals had natural cytolytic activity against bovine herpesvirus 1 (BHV-1)-infected tumor target cells. No lysis was demonstrated against tumor target cells alone. This natural cytolytic activity was present in mononuclear cells from the spleen, lymph node, and peripheral blood but little or no cytolytic activity was detected in bone marrow or thymus cells. When monoclonal antibodies and complement to deplete bovine mononuclear cell subpopulations from the nonadherent cells were used, results indicated the effector cell was not a T cell, B cell, or activated monocyte. From nonadherent populations separated on density gradients, it was determined that the effector cells were large, low density mononuclear cells. These results indicate the nonadherent effector cells mediating lysis of BHV-1-infected xenogeneic adherent target cells were large null lymphocytes and/or immature monocytes.     

Monocyte- and natural killer cell-mediated spontaneous cytotoxicity against human noncultured solid tumor cells

Unstimulated human peripheral blood mononuclear cells from healthy donors exhibited spontaneous cytotoxicity against noncultured solid tumor targets in a 12- to 24-hr 51Cr release or 111In release assay. Both purified monocytes (greater than 99% monocytes) and natural killer (NK)-enriched lymphocytes exhibited comparable levels of spontaneous cytotoxicity against fresh melanoma tumor targets. This cytotoxicity was observed under endotoxin-free conditions. NK-depleted lymphocytes did not lyse the melanoma targets. Culture supernatants of monocytes incubated with the melanoma tumor cells did not exhibit cytotoxic activity against these targets. Purified monocytes lacked NK activity against the K562 targets in a 4-hr 51Cr release assay. Treatment of the monocytes with anti-Leu 1 1b and anti-Leu7 monoclonal antibodies plus complement did not reduce monocyte-mediated lysis of the melanoma targets, demonstrating that contaminating NK cells, if any, were not responsible for the lysis of noncultured melanoma targets by monocytes. In contrast, Leu 1 1b+ NK cells were responsible for the lysis of the melanoma targets by NK-enriched lymphocytes. The addition of recombinant interferon-gamma (rIFN-gamma), but not lipopolysaccharide, into the 51Cr release assay or pretreatment of monocytes with rIFN-gamma significantly increased their cytotoxicity against noncultured solid tumor cells. Monocytes cultured for 3 days with medium alone lost their cytotoxic activity. The addition of rIFN-gamma from the beginning of these cultures prevented the loss of the cytotoxic activity of monocytes. In summary, both unstimulated monocytes and NK-enriched lymphocytes exhibit comparable levels of spontaneous cytotoxicity against fresh solid tumor targets.     

CD3 negative "small agranular lymphocytes" are natural killer cells

We describe here that CD3-, CD16+ and/or CD56+ small lymphocytes, in a highly reproducible fashion, mediate a significant level of K562 killing that is, on a "per cell" basis, comparable to the cytolytic activity of CD3- LGL. The CD3- small lymphocytes appeared to have no granules based on light and electron microscopy and lack of right-angle scatter on the FACS; we thus refer to them as small "agranular" lymphocytes (SAL). The lytic activity against K562 is inhibited by treatment with either L-leucine methyl ester or EGTA, which are reported to effect granule-dependent killing. We suggest that the SAL have lytic molecules in their cytoplasm (which are sensitive to these treatments) but that these molecules are not organized into discrete granules as found in LGL. The CD3- SAL are phenotypically very similar to LGL and both SAL and LGL mediated equal and reproducible antibody-dependent cell-mediated cytotoxicity. These observations force redefinition of the concept of NK cells to include both CD3- LGL and CD3- SAL.     

Enhancement of human monocyte tumoricidal activity by recombinant M-CSF

Activated monocytes are an important component of immunologic defense against neoplastic disease. A variety of agents capable of inducing tumoricidal activity have been described, including bacterial LPS, IFN-gamma, IL-1, IL-2, TNF, and GM-CSF. We now show that pretreatment of monocytes with recombinant human macrophage-specific colony stimulating factor (M-CSF) augments the tumoricidal activity of human peripheral blood monocytes induced by other activating agents. Monocytes were preincubated for three days with M-CSF at 10(3) U/ml, washed, and treated for an additional two days with secondary activators. Tumoricidal activity was measured in a 6-h 51Cr-release assay using NK-resistant WEHI 164 cells that had been treated with actinomycin D. Pretreatment of monocytes with M-CSF significantly increased tumoricidal activity induced by LPS, IFN gamma, LPS plus IFN gamma, and LPS plus PMA. Pretreatment with IL-1, IL-2, IL-3, IL-4, or GM-CSF was not as effective as M-CSF in increasing tumoricidal activity. Enhanced tumoricidal activity was directly correlated to the increased TNF production resulting from M-CSF pretreatment. TNF antiserum completely blocked tumoricidal activity, demonstrating that TNF was responsible for the M-CSF-mediated increase in tumor cell lysis. M-CSF pretreatment also enhanced non-TNF mediated tumoricidal activity by monocytes, as seen by increased killing of the TNF-resistant target P815. This study demonstrated that in addition to the role of M-CSF in the proliferation and differentiation of monocyte/macrophage precursors, M-CSF also augments an effector function of mature blood monocytes.     

Monoclonal antibody against K562 cell line accelerates killing of the target cells by large granular lymphocytes

A monoclonal antibody (MoAb 11-4) was raised against K562, a human erythroleukemia cell line sensitive to natural killer cell-mediated cytotoxicity (NK-CMC). Immunological analysis revealed MoAb to be IgG_2b. Alone, the MoAb was not cytotoxic for K562 and did not bind to the effector cells, but the addition of this antibody to macrophage-depleted human peripheral blood lymphocytes increased killing of K562 in a 4-hr NK-CMC assay. The maximum increase in NK-CMC was observed when MoAb 11-4 was added to target cells prior to the formation of effector/target cell conjugates. This effect was dose dependent, was specific for K562, and, contrary to conventional antisera, occurred at very low concentrations of MoAb. When MoAb was added either to Percoll-purified large granular lymphocytes (LGL) or to LGL-depleted lymphocytes, only the latter demonstrated a significant increase in the killing of K562 in a 4-hr chromium release assay. Kinetics studies revealed that although the overall LGL-mediated lysis was only slightly increased at 4 hr, the maximum lytic activity was reached within 2 hr. These studies suggest that (1) human LGL and LGL-depleted cell populations bear Fc receptors for mouse IgG_2b and (2) although the cytotoxic activities of both cell populations are increased by treatment with MoAb 11-4, the kinetics of this increase are different.     

Immunomagnetic bead separation of mononuclear cells from contaminating granulocytes in cryopreserved blood samples

Density gradient centrifugation usually allows efficient separation of mononuclear cells from granulocytes using fresh human blood samples. However, we have found that with cryopreserved blood samples, density gradient centrifugation fails to separate granulocytes from mononuclear cells and have explored using immunomagnetic anti-CD15 microbeads as an alternate method to separate these cell populations. Using cryopreserved blood samples from 10 healthy donors we have shown that granulocytes express a significantly higher level of CD15 antigen than monocytes and lymphocytes, which allows for their efficient separation from mononuclear cells using anti-CD15 microbeads. This procedure is critical for purification of individual cell populations from cryopreserved leukocyte samples and could also potentially be applied to avoid granulocyte contamination of mononuclear cells isolated from stored blood and from patients with sepsis or thermal injury.     

16. Environmental specimen cryobanking

Density gradient centrifugation usually allows efficient separation of mononuclear cells from granulocytes using fresh human blood samples. However, we have found that with cryopreserved blood samples, density gradient centrifugation fails to separate granulocytes from mononuclear cells and have explored using immunomagnetic anti-CD15 microbeads as an alternate method to separate these cell populations. Using cryopreserved blood samples from 10 healthy donors we have shown that granulocytes express a significantly higher level of CD15 antigen than monocytes and lymphocytes, which allows for their efficient separation from mononuclear cells using anti-CD15 microbeads. This procedure is critical for purification of individual cell populations from cryopreserved leukocyte samples and could also potentially be applied to avoid granulocyte contamination of mononuclear cells isolated from stored blood and from patients with sepsis or thermal injury.     

Tumoricidal potential of native blood dendritic cells: direct tumor cell killing and activation of NK cell-mediated cytotoxicity

Dendritic cells (DCs) are characterized by their unique capacity for primary T cell activation, providing the opportunity for DC-based cancer vaccination protocols. Novel findings reveal that besides their role as potent inducers of tumor-specific T cells, human DCs display additional antitumor effects. Most of these data were obtained with monocyte-derived DCs, whereas studies investigating native blood DCs are limited. In the present study, we analyze the tumoricidal capacity of M-DC8(+) DCs, which represent a major subpopulation of human blood DCs. We demonstrate that IFN-gamma-stimulated M-DC8(+) DCs lyse different tumor cell lines but not normal cells. In addition, we show that tumor cells markedly enhance the production of TNF-alpha by M-DC8(+) DCs via cell-to-cell contact and that this molecule essentially contributes to the killing activity of M-DC8(+) DCs. Furthermore, we illustrate the ability of M-DC8(+) DCs to promote proliferation, IFN-gamma production, and tumor-directed cytotoxicity of NK cells. The M-DC8(+) DC-mediated enhancement of the tumoricidal potential of NK cells is mainly dependent on cell-to-cell contact. These results reveal that, in addition to their crucial role in activating tumor-specific T cells, blood DCs exhibit direct tumor cell killing and enhance the tumoricidal activity of NK cells. These findings point to the pivotal role of DCs in triggering innate and adaptive immune responses against tumors.     

Alpha-interferon induces remission in hairy cell leukemia without enhancement of natural killing

The number of large granular lymphocytes (LGL) and the capacity of peripheral blood mononuclear cells (PBMC) to lyse K 562 target cells in a natural killer (NK)-like fashion was evaluated in seven hairy cell leukemia (HCL) patients undergoing treatment with recombinant interferon-alpha-2 (rIFN-alpha-2). In HCL patients, whose peripheral blood showed high numbers (greater than or equal to 15 X 10(3)/microliters) of leukemic cells the number of LGL and their capacity to lyse K 562 tumor target cells were very low prior to treatment but increased significantly (p less than 0.05) following interferon (IFN) therapy. In patients with low numbers of hairy cells (HC) in their peripheral blood, both these parameters were higher and remained largely unaffected throughout IFN treatment. In vitro, HC proved to be completely insensitive to natural killing when tested against unstimulated and IFN-activated LGL from healthy donors. These results fail to support the concept of IFN-mediated enhancement of host antitumor actions, responsible for the favourable clinical results in HCL.