Effect of a streptococcal preparation (OK432) on natural killer activity of tumour-associated lymphoid cells in human ovarian carcinoma and on lysis of fresh ovarian tumour cells

The streptococcal preparation OK432 was studied for its effects on natural killer (NK) activity of peripheral blood lymphocytes (PBL) from normal donors and from ovarian cancer patients, and of tumour-associated lymphocytes (TAL) from peritoneal effusions. OK432 augmented NK activity against the susceptible K562 line and induced killing of the relatively resistant Raji line. Freshly isolated ovarian carcinoma cells were relatively resistant to killing by unstimulated PBL and TAL. OK432 induced significant, though low, levels of cytotoxicity against 51Cr-labelled ovarian carcinoma cells. Augmentation of killing of fresh tumour cells by OK432 was best observed in a 20 h assay and both autologous and allogeneic targets were lysed. PBL were separated on discontinuous Percoll gradients. Unstimulated and OK432-boosted activity were enriched in the lower density fractions where large granular lymphocytes (LGL) and activity against K562 were found. Thus, OK432 augments NK activity of PBL and TAL in human ovarian carcinomas and induces low, but significant, levels of killing of fresh tumour cells. Effector cells involved in killing of fresh ovarian tumours copurify with LGL on discontinuous gradients of Percoll.     

Natural killer cell activity and autologous tumor killing activity in cancer patients: overlapping involvement of effector cells as determined in two-target conjugate cytotoxicity assay

The relationship between natural killer (NK) cell activity and autologous tumor killing activity was examined in patients with carcinomatous pleural effusions (PE) by means of a two-target conjugate cytotoxicity assay. Enrichment of large granular lymphocyte(s) (LGL) by discontinuous Percoll gradient centrifugation resulted in an augmentation of cytotoxicity against both K562 cells and tumor cells freshly isolated from PE of the same patients in a 4-hour 51Cr release cytotoxicity assay. At the single-cell level, the LGL-enriched fraction contained an increased number of effector cells that bound to autologous tumor cells and to K562 cells, as well as an increased frequency of cells cytotoxic to these target cells. In the two-target conjugate cytotoxicity assay, a single lymphocyte in the LGL population simultaneously bound to both a fluorescein-labeled K562 cell and a nonfluorescent autologous tumor cell. A significant number of lymphocytes in these mixed two-target conjugates lysed both autologous tumor cells and K562 cells after 6 hours' incubation, although overall lysis of K562 cells was higher than that of autologous tumor cells. These results indicate that a single LGL is involved in the lysis of both autologous tumor cells and K562 cells and thus provide direct evidence of involvement of subsets of NK cells in autologous tumor cell killing.     

Human natural killing against ovarian carcinoma.

Natural killing (NK) by lymphocytes from normal individuals against primary and established ovarian carcinoma cell lines was tested in short-term chromium release assays. Two established cell lines and 5/6 primary cell lines tested showed significant susceptibility to NK. Primary cell lines are, in general, less sensitive to NK than long-term cultured target cells. A common NK recognition determinant on ovarian carcinoma cells and on the erythroleukaemic K562 cells was demonstrated by cold target inhibition assays. The recognition structure was also present on an ovarian cell line resistant to NK but not on the insensitive leukaemic cell line, SB. The activity against ovarian carcinoma cells was associated with the presence of large granular lymphocytes (LGL) previously shown to be the major effector cells against K562 targets. In fractions obtained by Percoll gradient centrifugation of lymphocytes, only fractions with a high content of LGL demonstrated good NK activity. LGL mediated NK against both non-adherent K562 and the adherent ovarian carcinoma target cells independent of monocytes.     

Significance of cytotoxic activity of peripheral blood lymphocytes against autologous tumor cells in patients with bladder cancer

Cell-mediated immunity is an important and central mechanism of host resistance to cancer. Most reported studies have used cultured tumor cell lines as targets to assess antitumor cell-mediated cytotoxicity. However, it is difficult to translate the data generated from the cytotoxic activity against cultured tumor cell lines to cytotoxicity against autologous tumors. In a recent study, we have reported on the prognostic significance of circulating cytotoxic lymphocytes against autologous tumor cells in patients with bladder cancer. In this study, we examined whether established bladder cancer cell line like T24 or NK-sensitive K562 target cells can be substituted for autologous bladder cancer cells. The cytotoxic activity of peripheral blood lymphocytes (PBL) against freshly isolated autologous tumor cells, the T24 human bladder cancer cell line and the NK-sensitive K562 human myelogenous leukemia cell line was studied in 63 patients with primary initial bladder cancer by a 12-h 51Cr release assay. The mean percent cytotoxic activity of PBL directed against autologous tumor cells, T24 cells and K562 cells were 11.3%, 18.2% and 29.4%, respectively, using an E:T of 40:1. The cytotoxic activity against T24 cells in patients with bladder cancer was higher than that in normal individuals. The anti-K562 and the anti-T24 cytotoxic activities in patients with low-stage or low-grade bladder cancer were relatively higher than those in patients with high-stage or high-grade cancer, but not statistically significant. There was no correlation between the anti-autologous tumor cytotoxic activity and either the histologic grade or stage in patients with bladder cancer. The extent of the anti-autologous tumor cytotoxic activity was not paralleled with that of either the anti-K562 or the anti-T24 cytotoxic activity. In contrast, the anti-K562 cytotoxic activity correlated positively with the anti-T24 cytotoxic activity. Separation of PBL revealed that the anti-K562 and the anti-T24 cytotoxic activities were mediated mainly by the NK cells, whereas the anti-autologous tumor cytotoxic activity was mediated by both the NK cells and the T lymphocytes. These findings demonstrate that cytotoxicity against T24 or K562 cells is not of prognostic value. The magnitude of the anti-autologous tumor cytotoxic activity of PBL derived from bladder cancer patients might represent an independent and important immunological parameter to monitor disease progression.     

Lymphokine-activated killer activity of tumor-associated and peripheral blood lymphocytes isolated from patients with ascites ovarian tumors

Peripheral blood lymphocytes (PBLs) and tumor-associated lymphocytes (TALs) were isolated from 36 patients with advanced ovarian adenocarcinoma and peritoneal effusions for study of lymphokine-activated killer activity. PBLs and TALs cultured in vitro for 3-5 days in the presence of interleukin-2 (IL-2, supernatant of the MLA 144 gibbon cell line, or human recombinant IL-2) expressed higher levels of cytotoxicity as compared to cells cultured in medium alone, against natural killer (NK)-susceptible (K562) or NK-resistant targets (Daudi and the human ovarian carcinoma cell line SW626). When ovarian tumor cells, freshly isolated from carcinomatous ascites or surgical specimens, were used as target cells in the cytotoxicity assay, 8 of 14 PBLs and 5 of 7 TAL preparations lysed the autologous tumor after treatment with IL-2, while no spontaneous reactivity was observed in any of the 14 patients tested. Although levels of lysis were usually relatively low, these data demonstrate that PBLs and TALs from ovarian cancer patients (TALs usually exhibiting low NK activity) when stimulated in vitro by IL-2 acquire some cytotoxic potential against the autologous tumor.     

Lysis of fresh human tumor cells by autologous peripheral blood lymphocytes and pleural effusion lymphocytes activated by OK432

Lymphocytes from peripheral blood (PBL) and from pleural effusions (PEL) of cancer patients were tested for cytotoxicity against tumor cells freshly isolated from carcinomatous pleural effusion of the same patient. Significant lysis of autologous tumor cells was recorded for 4 of 28 PBL samples and for 5 of 28 PEL cases when investigated in a 4-hour 51Cr release assay. In vitro treatment of lymphocytes for 20 hours with the streptococcal preparation OK432 resulted in an induction or augmentation of cytotoxicity against autologous tumor cells in 21 of 28 PBL and PEL specimens. OK432-induced cytotoxicity required active cell metabolism, RNA and protein syntheses, but not DNA synthesis of lymphocytes. Supernatants of OK432-stimulated lymphocytes, and interferon and interleukin 2 failed to induce autologous tumor killing. Nylon wool-nonadherent lymphocytes were involved in both spontaneous and OK432-induced lysis of fresh autologous tumor cells. OK432-activated lymphocytes from normal donors and cancer patients caused lysis of fresh allogeneic tumor cells and also K562 cells.     

In vitro and in vivo susceptibility of human leukemic cells to lymphokine activated killer activity

The susceptibility of human myeloid and lymphoid leukemic blasts to the lytic action of recombinant interleukin-2 (rIL-2)-generated lymphokine activated killer (LAK) cells was analyzed. With the exception of the K562 cell line, all 9 leukemic cell lines tested were resistant to the natural killer activity of freshly isolated peripheral blood lymphocytes (PBL) from healthy donors but were susceptible to the lytic action of PBL cultured for 3 days in the presence of rIL-2. Of the 32 primary myeloid and lymphoid acute leukemia samples investigated, the great majority were natural killer cell-resistant but were variably sensitive to LAK effectors. Variations in LAK activity were observed according to the donor of PBL, while little or no difference was documented in the capacity to elicit LAK activity of PBL cultured with 100 or 1,000 U of rIL-2/ml. Pretreatment of the leukemic target cells with neuraminidase did not increase substantially their sensitivity to LAK activity. LAK cells generated from the PBL of patients at the onset of the disease or in complete clinicohematological remission lysed Raji cells as efficiently as normal LAK effectors. Finally, LAK cells were capable of abrogating the tumor growth in nude mice of a human leukemic T cell line. These findings demonstrate the susceptibility in vitro and in vivo of human leukemic blasts to the lytic effect of LAK cells and point to a possible clinical exploitment of this new form of adoptive immunotherapy in the management of acute leukemia.     

Lysis of fresh human tumor cells by autologous large granular lymphocytes and T-lymphocytes: two distinct killing activities induced by coculture with autologous tumor

The specific and natural killer (NK)-restricted nature of autologous tumor killing by blood lymphocytes was studied in patients with carcinomatous pleural effusions. Large granular lymphocytes (LGL) and small T-lymphocytes were isolated by centrifugation on discontinuous Percoll density gradients. Tumor cells freshly isolated from pleural effusions of cancer patients were classified according to their susceptibility to purified LGL from normal donors in a 4-hour 51Cr release assay. Of 15 NK-sensitive tumors, 14 were lysed by fresh autologous LGL, whereas only 2 were killed by T-cells. Neither LGL nor T-cells were cytotoxic to NK-resistant autologous tumor. LGL and T-cells were then cultured in vitro with autologous tumor cells for 6 days. In 13 of 15 autologous mixed lymphocyte-tumor cultures (MLTC) NK-sensitive tumor-cultured LGL maintained their autotumor killing activity, whereas LGL cultured alone lost the activity. Depletion of high-affinity sheep erythrocyte-rosetting cells from Percoll-purified LGL resulted in an enrichment of effector cells. LGL from autologous MLTC were able to kill NK-susceptible allogeneic effusion tumor and K562 as were fresh LGL. No lysis of NK-resistant autologous tumor was observed with cultured LGL. In contrast, activation of T-cells in autologous MLTC resulted in the generation of autotumor killer cells in 10 of 15 NK-sensitive and 3 of 6 NK-resistant tumor samples. However, cultured T-cells were incapable of killing allogeneic tumor and K562. In autologous MLTC T-cells proliferated in response to autologous tumor, whereas no proliferation was observed in the culture of LGL. The enrichment of blasts from cultured T-cells on discontinuous Percoll gradients induced an augmentation of autotumor cytotoxicity, with no reactivity in blast-depleted, small, resting T-lymphocytes. These results indicated that 2 distinct types of autotumor-recognizing lymphocytes, LGL and T-cells, are present in the peripheral blood of cancer patients.     

Lymphokine activated killing of fresh human leukaemias

The relative susceptibility of 10 human leukaemias comprising acute phase leucocytes from 5 acute myeloid and 5 lymphoid neoplasms, and 2 immunoblastic lymphomas to killing by peripheral blood mononuclear cells (PBMC), before and after target cell treatment with phytohaemagglutinin (PHA), and by interleukin-2 (IL-2) activated peripheral blood lymphocytes (PBL) was investigated in short term 51Cr release assays using effector cells from 10 allogeneic donors. Optimal lectin-dependent cellular cytotoxicity (LDCC) was verified against K562 and L1210 cells and lymphokine-activated killing (LAK) against K562 and Daudi cells. Under these conditions, the majority of the leukaemias tested revealed only a finite sensitivity to any of the cytotoxic mechanisms, which was dependent on the donor origin of the effectors. The leukaemias were more consistently susceptible to LDCC than LAK and removal of adherent cells to enrich for the latter activity in effector populations, was ineffective. Lymphocytes from a patient in long term (greater than 5 yr) remission exhibited LAK against the autologous target E84, a natural killer (NK)-sensitive acute myelomonocytic leukaemia. These cells failed to cross-compete for lysis of K562 by LAK cells, suggesting the existence of different recognition structure(s) on the two targets.     

健康人和骨肉瘤病人来源的LAK细胞体外抗瘤作用

采用５１Ｃｒ释放试验对健康人和骨肉瘤病人外周血单个核细胞（ＰＢＭ）在重组白细胞介素－２（ｒＩＬ－２）条件下，ＬＡＫ细胞的诱导形成及对４种传代瘤细胞的体外杀伤活性进行探讨。实验结果表明：２种来源ＬＡＫ细胞对Ｋ５６２（人慢性髓样红白血病细胞系）、ＳＭＭＣ７７２１（人肝癌细胞系）、ＬＡＸ（人肺腺癌细胞系）的杀伤活性均在５５％以上（按效靶比例５０：１），而对ＯＳ细胞（人骨肉瘤细胞系）的活性普遍低下，杀伤率低于３５％。结果证实：１）健康人和骨肉瘤病人的ＰＢＭ均能在ｒＩＬ－２条件下诱导形成具有广谱抗瘤活性的ＬＡＫ细胞群，二者的杀伤格局和效力相近。２）骨肉瘤细胞本身对ＬＡＫ细胞的杀伤作用存在强烈抗性。     

Cytotoxicity against the K562 erythroleukemia cell line by human natural killer (NK) cells which do not bear free Fc receptors for IgG.

When Fc receptors (FcR) on normal human peripheral blood lymphocytes were induced to modulate by overnight (18 h) incubation in the presence of soluble or particulate immune complexes, the natural killer (NK) activity of the effector lymphocyte suspension, as measured against the K562 erythroleukemia cell line, was significantly, but only partially, inhibited. The NK activity which remained was always strong, and was not significantly inhibited by inclusion of antigen-antibody complexes in the cytotoxicity assay, nor was it further depleted by adsorbing the modulated cells on plastic surfaces coated with immobilized antigen-antibody complexes. Antibody-dependent cell-mediated cytotoxicity (ADCC) against rabbit antibody-sensitized Chang liver cells was totally abrogated following the modulation process, and could not be restored by exposure of modulated effector cells to trypsin, indicating that the FcR had actually been shed and were not merely being blocked with immune complexes. Although freshly isolated peripheral blood lymphocytes active in natural (or "spontaneous") cytotoxicity have been shown to bear FcR, our data indicate that NK activity against the K562 cell line can be effectively mediated by NK cells which have lost their FcR. This supports the concept that NK activity against K562 is independent of FcR, and, therefore, of IgG.     

Generation in vitro of HLA-restricted EB virus-specific cytotoxic human T cells by autologous lymphoblastoid cell lines: the role of previous EB virus infection and foetal calf serum

The cytotoxic response of human lymphocytes to the autologous lymphoblastoid cell line (LCL) was investigated with five Epstein-Barr virus (EBV)-seropositive and four seronegative donors and an additional donor who seroconverted during the course of the study. LCL stimulation was carried out usually at a stimulator-to-responder cell ratio which varied from 1:200 to 1:20,000. Cytotoxic T cells from 7- and 14-day cultures were assayed on autologous and allogeneic LCL target cells and the K562 line, using the ⁵¹Cr release assay. Without exception, the cytotoxic T cells generated in 7- and 14-day LCL-stimulated cultures from seropositive donors were strongly lytic for the autologous LCL. With some donors, the cytotoxic response increased with increasing autologous LCL stimulation, while with others even the lowest level of stimulation induced a potent response. Overall, the cytotoxic T cells generated in cultures from seropositive donors showed a striking preferential lysis of the autologous LCL and cross-reactive killing of allogeneic LCL target cells matched for certain HLA-B antigens. Lysis of the K562 line, an indicator target for natural-killer-like activity, was consistently negligible. In comparison to the considerable self-preferred lysis obtained with T cells from LCL-stimulated cultures, the level of autologous killing by T cells generated in control unstimulated cultures was relatively low. The cytotoxicity patterns obtained with cytotoxic T cells generated in cultures from seronegative donors were markedly different from those obtained with seropositive donors. The level of autologous killing by T cells harvested from LCL-stimulated cultures was considerably lower than that obtained with seropositive donors and often did not increase above that seen in control cultures, except at the highest stimulatory dose. Moreover, preferential lysis of the autologous LCL target cells by T cells from LCL-stimulated cultures was essentially due to the foetal calf serum (FCS)-induced cytotoxicity and there was no obvious HLA-antigen-restricted killing of allogeneic target cells. Lysis of K562 target cells was generally more pronounced at the highest level of stimulation than that observed with seropositive donors. The distinctive cytotoxic T-cell response patterns observed with the seropositive and seronegative donor cultures were both observed with cultures from an individual donor who was tested before and after infectious mononucleosis. Our cytotoxicity data are interpreted as indicating that with LCL-stimulated cultures from seropositive donors the cytotoxic T-cell response to autologous LCL is predominantly directed against EBV-associated antigens and is HLA-antigen restricted. In contrast, with seronegative donor cultures, the cytotoxic T-cell response is primarily due to FCS-induced cytotoxicity, although a response against other LCL-associated antigens may be superimposed in cultures stimulated with high levels of autologous LCL.     

Isolation and characterization of cytotoxic granules from human lymphokine (interleukin 2) activated killer cells

Cytotoxic granules were isolated from human lymphokine-activated killer (LAK) cells and analyzed for their biochemical properties. Isolated granules of approximately 85-95% purity were obtained by differential centrifugation followed by discontinuous Percoll gradient centrifugation. The murine lymphocyte granule marker N-alpha-carbamazepine-L-lysine thiobenzyl ester-esterase as well as cytotoxic activity toward the human tumor cell lines K562, Raji, Daudi, and CEM were associated with LAK granule fractions. Granule-associated N-alpha-carbamazepine-L-lysine thiobenzyl ester-esterase activity increased in recombinant interleukin 2 expanded human LAK cells in parallel with cytotoxic activity for Raji tumor cell targets. Cytotoxic LAK cell granules mediated calcium-dependent killing of the tumor cell lines K562, Raji, Daudi, and CEM. However, no calcium-dependent hemolytic activity was found. Preincubation of human granules with calcium, a treatment which totally inactivates the hemolytic and cytotoxic activity of murine lymphocyte granules [perforin 1 (P1)] had no effect on human LAK granule cytotoxicity for nucleated cells. Human LAK granules appear to contain P1 detected as cross-reactive antigen detected by mouse anti-P1 and human anti-C9 in Western blot analysis. In addition, Northern blot analysis of polyadenylated RNA isolated from human LAK cells using a murine P1 complementary DNA probe showed a cross-hybridizing 2.8- to 3.0-kilobase mRNA species identical in size to murine P1 mRNA. These results demonstrate that despite similar biochemical composition, functional differences exist between human and murine cytotoxic granules. Human LAK granules were synthesized in response to recombinant interleukin 2 activation and appeared in parallel with cytotoxicity for tumor targets, suggesting an important role for LAK granules in tumor cell cytotoxicity by human LAK cells.     

Suppression of natural killer cell activity by adherent effusion cells of cancer patients. Suppression of motility, binding capacity and lethal hit of NK cells

Adherent cells from carcinomatous pleural effusions of lung cancer patients were tested for their ability to suppress natural killer (NK) cell activity, and the mechanism involved in the suppression of NK cell activity was determined. Adherent effusion cells (AEC) were isolated from malignant pleural effusions of patients by centrifugation discontinuous Ficoll-Hypaque gradients and adherence to serum-coated plastic dishes, and large granular lymphocytes (LGL) were purified from the peripheral blood of normal individuals by centrifugation on discontinuous Percoll gradients and further depletion of high-affinity sheep erythrocyte rosette formation. LGL-mediated lysis of K562 cells was suppressed when LGL were cultured with AEC for 20 h, then washed and tested in a 4-h 51Cr release assay. More profound suppression of NK cell activity was observed when cytotoxicity was assayed in flat-bottomed wells rather than in round-bottomed wells. Cytotoxicity assays conducted at the single cell level in agarose revealed that the frequency of LGL binding to K562 cells and of dead conjugated target cells was reduced after overnight contact with AEC. In agarose microdroplet assays, functional LGL from normal donors exhibited definitive motility, expressing polarized shape. In contrast, a small number of LGL with non-polarized configuration migrated from the agarose droplet after overnight culture with AEC. These results indicate that functionally suppressed NK cells lose their motility, binding capacity and killing activity, which could be responsible for the suppression of NK cell activity by AEC.     

Cytolysis of mammary tumor targets by resting, interleukin-2 stimulated and in vitro cultured peripheral blood lymphocytes from breast cancer patients

The cytotoxic capacity of resting, interleukin-2 (IL-2)-stimulated and in vitro cultured (3-5 days in 10 U/ml IL-2 containing media) peripheral blood lymphocytes (PBLs) from breast cancer patients to a panel of established mammary tumor cell lines was ascertained. Significant cytolysis (ranging from 7.8 to 12.4%, at an effector: target ratio of 20:1) of all mammary tumor targets (MCF-7, 734B, ZR-75-1, ZR-75-30, BT-20 and Hs578T) by PBLs was demonstrable in 18 h chromium release assays. Natural killer (NK) cytotoxicity was distinct from IL-2 stimulated (5 U/ml) and in vitro cultured PBL cytotoxicity in that resting PBLs were not cytolytic to RAJI cells, normal breast epithelia (Hs578Bst) and fibroblasts. Basal NK activity against mammary tumor targets was significantly reduced in patients receiving chemotherapy when compared to both untreated patients and normal controls. In criss-cross cold target inhibition studies, ZR-75-1 and K562 targets were not mutually competitive in NK cell assays (using resting PBLs) but were mutually competitive in lymphokine-activated killer (LAK) assays (using in vitro cultured PBLs). In eleven independent experiments, basal NK activity of ZR-75-1 cells was increased by a cold target excess of K562 (8.2 +/- 2.4% vs 30.5 +/- 5.2%, mean +/- SE, p greater than 0.01, cold:hot target ratio = 10:1). Interestingly, no such parallel increase of cytolysis of 734B targets by K562 cells was observed. Basal cytotoxicity against ZR-75-1 and K562 targets was serologically depleted using antibodies to natural killer cells HNK-1 and Leu 11b. Thus mammary tumor cell lines parallel autologous tumor cells, yet show features that are distinct from NK-resistant and sensitive lymphoid cell lines in their susceptibility to natural resistant cytolytic mechanisms.     

以SMMC—7721为靶细胞MTT法检测LAK细胞活性方法的建立

目的建立以贴壁生长的癌细胞为靶细胞、MTT法检测LAK细胞活性的方法。方法用MTT比色法测定LAK细胞对体外培养的K562、Raji、SMMC－7721细胞的杀伤活性。结果LAK细胞对已知的NK敏感细胞K562及NK耐受细胞Raji均有明显杀伤作用,贴壁生长的SMMC-7721肝癌细胞对NK细胞不敏感,而对LAK细胞敏感,在效靶比为40：1时,LAK细胞对肝癌细胞的杀伤率达90％以上,其杀伤效应随效靶比增高而增高。结论SMMC-7721细胞可作为检测LAK细胞活性的靶细胞。以贴壁细胞作为靶细胞的MTT法检测LAK细胞活性较传统的悬浮细胞如Raji作为靶细胞具有灵敏、准确、简单、可靠的优点,更适用于国内一般实验室开展。     

Cytotoxicity to tumor cells of monocytes from normal individuals and cancer patients

This study was aimed at characterizing the parameters which regulate human monocyte-mediated cytotoxicity to tumor cells as well as characterizing the target cell specificity, kinetics, etc., of the cytotoxic mechanism. Normal human peripheral blood monocytes were cytotoxic to tumor cells in an in vitro assay, measuring release of [³H]thymidine from human target cells. Monocyte cytolysis was observed with several adherent tumor lines including T24, a bladder cancer line; LR, a melanoma line; and an SV40-transformed W138 fibroblast line, with maximal cytolysis observed at 72 h. Lymphokines were not required to induce and only infrequently enhanced monocyte cytotoxicity. Prolonged exposure of monocytes to lymphokines or in vitro culturing of monocytes prior to lymphokine exposure did not alter the monocytes' response to lymphokine signals with respect to cytotoxicity. Lymphokines induced monocytes to exhibit enhanced spreading, suggesting that monocytes were susceptible to lymphokine signals but that the development of cytolytic function was independent of lymphokines. In contrast to the cytolysis of adherent tumor cells, monocytes were less effective in killing the non-adherent lymphoid target cells K562, Raji, and CEM. Monocytes were selectively cytotoxic to tumor cells and generally did not kill normal human fibroblast cell lines or PHA-stimulated lymphocytes. Monocytes from cancer patients exhibited normal cytotoxicity to several human tumor lines. Plasmas from some cancer patients were inhibitory to cytotoxicity mediated by both autologous monocytes and normal monocytes.     

Extravascular natural cytotoxicity in man: Anti-K562 activity of lymph-node and tumour-infiltrating lymphocytes

A major distinction is reported between the cytolytic activity of peripheral blood lymphocytes (PBL) and that of lymph-node and tumour-infiltrating lymphocytes (TIL) against targets of the NK-sensitive K562 cell line in short-term 51Cr release assays. In the PBL of normal donors and lung cancer patients in whom disease was advanced anti-K562 reactivity, though variable, was consistently detectable and this activity could be augmented to a similar extent in patients and controls by treatment of effectors with exogenous interferon (IF). By contrast anti-K562 activity in lymph-node cells (LNC) and TIL was virtually absent and significant levels could not be induced by exposure to IF. This activity was not attributable to coexistent suppressor cells for NK function since admixture of LNC and TIL with normal PBL failed to modulate K562 killing by the latter. The results imply that K562-reactive NK cells and their precursors may frequently be present at sub-threshold levels in the lymph nodes of tumour-bearing patients and a similar explanation could account for the inactivity of TIL. However, in the latter situation, actively-induced NK dysfunction in situ incapable of regeneration by IF, and attributable to as yet undefined tumour-associated factors, may also be involved.     

Inhibition of Colony Formation of Drug-resistant Human Tumor Cell Lines by Combinations of Interleukin-2-activated Killer Cells and Antitumor Drugs

The cytotoxicity of interleukin-2-activated killer (LAK) cells with or without anticancer drugs against cell lines with acquired drug resistance was evaluated in vitro by colony assay. Human non-small cell lung cancer cell lines, PC-9 and PC-14, human leukemia cell line, K-562, and their sublines resistant to cisplatin (CDDP), PC-9/CDDP and PC-14/CDDP, and to adriamycin (ADM), K-562/ADM, were used as target cells. PC-9/CDDP demonstrated a marked increase in susceptibility to killing by both peripheral blood lymphocytes (PBL) and LAK cells, as compared to the parental cell line, PC-9. The cytotoxicity of PBL and LAK cells against PC-14/CDDP and K-562/ADM was similar to that against their parental cell lines. Moreover, the combination of LAK and CDDP had a synergistic effect on PC-14 and PC-14/CDDP.     

Inhibition of colony formation of drug-resistant human tumor cell lines by combinations of interleukin-2-activated killer cells and antitumor drugs

The cytotoxicity of interleukin-2-activated killer (LAK) cells with or without anticancer drugs against cell lines with acquired drug resistance was evaluated in vitro by colony assay. Human non-small cell lung cancer cell lines, PC-9 and PC-14, human leukemia cell line, K-562, and their sublines resistant to cisplatin (CDDP), PC-9/CDDP and PC-14/CDDP, and to adriamycin (ADM), K-562/ADM, were used as target cells. PC-9/CDDP demonstrated a marked increase in susceptibility to killing by both peripheral blood lymphocytes (PBL) and LAK cells, as compared to the parental cell line, PC-9. The cytotoxicity of PBL and LAK cells against PC-14/CDDP and K-562/ADM was similar to that against their parental cell lines. Moreover, the combination of LAK and CDDP had a synergistic effect on PC-14 and PC-14/CDDP.