Suppression of T-cell response in autologous mixed lymphocyte-tumor culture by large granular lymphocytes

The role of large granular lymphocytes (LGL) in the autologous mixed lymphocyte-tumor culture (MLTC) was studied in cancer patients with malignant pleural effusions. When blood lymphocytes were cocultured in vitro with autologous tumor cells freshly isolated from carcinomatous pleural effusions, [3H]thymidine incorporation was weakly stimulated on day 6 in 6 of 30 samples. Removal of LGL from the responder population by treatment with the Leu-7 or Leu-11b monoclonal antibody plus complement (C') induced or augmented the proliferative response. LGL and small T-lymphocytes were isolated by discontinuous Percoll gradient centrifugation and tested separately for the proliferative response to autologous tumor. T-cells proliferated in 24 of 30 cases, while LGL showed no proliferation. Addition of LGL to autologous mixed T-cell-tumor cultures suppressed the proliferation of T-cells. LGL, however, did not inhibit T-cell proliferation induced by alloantigens and lectins. The suppressive activity of Percoll-purified LGL was not reduced by OKT3 plus C' treatment, but it was totally abrogated by Leu-11b plus C'. Supernatants produced by 24-hour culture of LGL with autologous tumor contained soluble factors that suppressed the autologous MLTC without killing the autologous tumor or T-blasts. The LGL-mediated suppression was not abolished by anti-interferon-alpha or anti-interferon-gamma antibody. Activation of T-cells in the autologous MLTC induced lytic potential restricted to autologous tumor. In the presence of LGL, T-cells failed to develop autotumor killing activity. Once autotumor killer T-cells were generated in autologous MLTC, their cytotoxicity was no longer inhibited by LGL. These results indicate that LGL from patients with carcinomatous pleural effusions suppress the capacity of autotumor-recognizing T-lymphocytes to proliferate and develop autotumor cytotoxicity in the autologous MLTC. This could explain why fresh T-cells have no cytolytic activity to autologous tumor.     

Autologous mixed lymphocyte-tumor reaction and autologous mixed lymphocyte reaction. II. Generation of specific and non-specific killer T cells capable of lysing autologous tumor

The specific and non-specific nature of autotumor cytotoxicity induced in autologous mixed lymphocyte-tumor culture (AMLTC) and autologous mixed lymphocyte culture (AMLC) was studied in patients with carcinomatous pleural effusions. Small- and medium-sized blood lymphocytes that were isolated by centrifugation on discontinuous Percoll gradients did not lyse autologous, freshly isolated effusion tumor cells. In vitro activation of the small lymphocytes, but not of the medium lymphocytes, with autologous tumor cells generated cytotoxic potential restricted to autologous tumor. When stimulated with autologous non-malignant non-T cells, the medium lymphocytes, but not small lymphocytes, were triggered to cytotoxicity that acted not only on autologous tumor cells but also on allogeneic tumor cells, T blasts, and tumor cell lines. Experiments using monoclonal antibodies (MAb) and complement (C') showed that both types of killer cells were CD2+ CD3+ CD16- T cells. Autotumor cytotoxicity developed in AMLTC was mediated by the CD4- CD8+ T cell subset in 6 of 9 cases and the CD4+ CD8- subset in the other 3 cases. In contrast, cytotoxicity induced in AMLC was exerted exclusively by the CD8+ subset. The enrichment of blasts from cultured T cells on discontinuous density gradients enhanced autotumor killing activity, with no reactivity recorded for blast-depleted, resting T cells. Addition of mitomycin-C-treated large granular lymphocytes (LGL) to AMLTC abolished the induction of autotumor killer cells, whereas non-specific killer cells were generated in AMLC irrespective of the presence of LGL. These results indicate that stimulation of autoreactive T cells in AMLTC and in AMLC could induce 2 distinct types of autotumor killer cells.     

Lysis of fresh human tumor cells by autologous large granular lymphocytes from peripheral blood and pleural effusions

Human lymphocytes and their subpopulations from the peripheral blood and pleural effusions of cancer patients were tested for cytotoxicity against fresh tumor cells isolated from carcinomatous pleural effusions of the same patients. Fresh tumor cells were relatively resistant to lysis by autologous unseparated lymphocytes in a 4 h Cr-release assay. Positive reactions were recorded in 10 of 38 blood samples and 10 of 37 effusion specimens. Purification of large granular lymphocytes (LGL) by discontinuous Percoll gradient centrifugation resulted in enhancement of cytotoxic activity against autologous tumor cells and K562 cells, with no reactivity in LGL-depleted small T-lymphocyte populations. Significant lysis of effusion tumor cells by autologous LGL was observed in 15 of 22 blood specimens and 15 of 21 effusion samples. Further depletion of high-affinity sheep erythrocyte rosetting cells from Percoll-purified LGL populations gave an increase in autologous tumor-killing activity. Depletion of LGL/K562 conjugates from LGL populations decreased lysis of autologous tumor cells and K562 cells. Effusion tumor cells that were susceptible to lysis by allogeneic normal LGL were also killed by autologous LGL, and effusion tumor cells resistant to lysis by allogeneic NK cells were not lysed by autologous LGL. In a single-cell cytotoxicity assay in agarose, 4-26% LGL bound autologous tumor cells and 0.2-5% LGL killed these target cells, while 12-45% LGL bound K562 cells and 2-20% LGL lysed them. These results indicate that cytotoxic potential for autologous effusion tumor cells is present in the peripheral blood and pleural effusions of cancer patients; it is strongly associated with a minor proportion of LGL and restricted to the cell population that can lyse NK-sensitive K562 cells.     

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.     

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.     

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.     

Clinical application of adoptive immunotherapy by cytotoxic T lymphocytes induced from tumor-infiltrating lymphocytes

The tumor-infiltrating lymphocytes (TIL) were cultured with interleukin 2 (IL-2) to induce the cytotoxic T lymphocytes possessing autologous tumor-killing activity from 21 cancer patients (11 with solid tumor and 10 with malignant peritoneal or pleural effusions), and transferred into 7 patients as IL-2-activated TIL adoptively. The clinical application of activated TIL by adoptive transfer could result the complete regression of malignant pleural effusions in a patient with pancreatic cancer, and the nearly complete regression of malignant ascites in a patient with gastric cancer. The autologous tumor cells were isolated at the purity of more than 90% by Ficoll-Hypaque and Percoll discontinuous gradients, and then the TIL were cultured with IL-2 until 4 weeks. The optimal concentration of IL-2 was 1,500 IU/ml to obtain maximum proliferation and autologous tumor killing activity. The cytotoxic activities of activated TIL at 3 weeks-incubation was 72 +/- 15, 42 +/- 26, 27 +/- 21 and 22 +/- 15% against K562, Daudi, KATO-III and autologous tumor, respectively. By negative selection method, it was clarified that the killer cells recognizing autologous tumor consisted of CD4 or CD8 positive T lymphocyte in 43% of patients. The CD8 positive cells and CD56 positive cells increased, the CD4 positive cells and CD16 positive cells decreased by flow cytometry. The activated TIL could lyse not only cultured tumor cell lines, also other autologous tumor cells. The CD56+ cells were isolated by the Panning method, these cells could not lyse autologous tumor cells. Thus, it was indicated that the cytotoxic T lymphocytes recognizing autologous tumor could be generated from TIL and the adoptive immunotherapy of activated TIL was effective in cancer therapy.     

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.     

Human tumor-lymphocyte interaction in vitro. VII. Blastogenesis and generation of cytotoxicity against autologous tumor biopsy cells are inhibited by interferon

In a high proportion of cases blood lymphocytes from cancer patients cultured with autologous tumor biopsy cells undergo blastogenesis. In addition, cytotoxicity against autologous tumor cells is generated. These autoactivated lymphocytes also kill the highly NK-sensitive K-562 and Molt-4 cells. Addition of interferon (IF) at the initiation of the cultures inhibited blastogenesis and the generation of autologous cytotoxicity. On the other hand, lymphocytes already activated for autologous killing in the mixed cultures were not affected by short-term IF treatment prior to the cytotoxic assay. Lymphocytes cultured alone lose their cycotoxicity against K-562. However, when IF was present in these cultures the lymphocytes were cytotoxic for K-562. In addition, lymphocytes cultured for 6 days under conditions which did not result in activation killing of Molt-4 cells could be induced by short-term incubation of the effectors with IF.     

Specific cytotoxicity against autologous tumour and proliferative responses of human lymphocytes grown in interleukin 2

Peripheral blood lymphocytes of cancer patients were sensitized in vitro to autologous tumour cells in mixed lymphocyte-tumour culture (MLTC). Blast cells were isolated on discontinuous Percoll gradients from MLTC which showed significant stimulation of [<3>H]-thymidine incorporation. Cultured T cells (CTC) were derived from these blasts by growth in conditioned medium containing interteukin-2 (IL-2) and maintained for up to 51 days by repeated feeding with IL-2 and in some cases by addition of irradiated allogeneic blood mononuclear cells as “fillers”. These cultures showed specific cytotoxic reactivity against autologous tumour and in only a few cases was natural killing (NK) of K562 cells apparent. Restimulation of CTC with tumour was measured in primed lymphocyte tests (PLT). Increased uptake of [<3>H]-thymidine was found upon stimulation by autologous tumour and allogeneic tumour of the same site and histology but there was no response to non-related tumours or to a panel of allogeneic lymphocytes. No sensitization to autologous HLA D/DR could be detected by restimulation or cytotoxicity against monocytes in the majority of cases. These data suggest that, by careful selection of sensitised blasts from MLTC, it is possible to obtain CTC with both helper (proliferative) and cytotoxic T cells and that such CTC have specific reactivity against tumour cells. These cellular reagents will be useful in defining the antigenicity of human neoplasms and possibly in therapy.     

Specific cytotoxicity of a long-term cultured T-cell clone on human autologous mammary cancer cells

We established an autologous specific T-cell killer clone, TcHMC-1, that has been cultured and has retained its function for over 1 year. TcHMC-1 and target cells (HMC-1-8) were derived from the metastatic pleural effusion of a patient with mammary carcinoma. At culture initiation, pleural exudative lymphocytes (PLEL) already demonstrated a high cytotoxic activity against uncloned HMC-1 breast tumor cell targets but not against autologous fibroblasts and K562 targets, and phenotypically these cells showed 100 and 90% reactivity with OKT3 and OKT8 monoclonal antibodies, respectively. However, at the early phase of cultivation under interleukin 2, PLEL had a relatively high cytotoxicity against some allogeneic tumor cells. Furthermore, the longer these PLEL were cultured with interleukin 2 and stimulated with MMC-treated HMC-1, the less cytotoxic activity of PLEL against HMC-1 targets became. We then cloned PLEL as well as HMC-1 tumor cells, and an autologous pair of TcHMC-1 and a target cell clone, HMC-1-8, was successfully obtained. TcHMC-1 showed more than 60% specific cytotoxicity against HMC-1-8, and it was confirmed, using cold target inhibition assays, that TcHMC-1 did not demonstrate nonspecific cytotoxicity against allogeneic targets as well as the natural killer cell activity. Moreover, we examined the in vivo action of TcHMC-1 against HMC-1-8 cells by the Winn assay using nude mice. The data showed that s.c. injections with a mixture of TcHMC-1 and HMC-1-8 clearly resulted in a failure of tumor development in the nude mice even 12 weeks after injections, whereas mice given injections of HMC-1-8 and allogeneic T-lymphocytes cultured with interleukin 2 developed tumors. The autologous pair of a killer T-cell clone and tumor line could be very useful for future investigations of the specific destruction of autologous tumor cells by cytotoxic T-lymphocytes, including analysis for tumor-specific antigens possibly of rejection type and clonotypic T-cell antigen receptors.     

Autologous mixed lymphocyte-tumor reaction and autologous mixed lymphocyte reaction. I. Proliferation of two distinct T-cell subsets

In patients with carcinomatous pleural effusions blood T lymphocytes proliferated in vitro in response to autologous, freshly isolated effusion tumor cells in the autologous mixed lymphocyte-tumor culture (AMLTC) and to autologous blood non-T cells in the autologous mixed lymphocyte culture (AMLC). Treatment of the stimulator cells with the anti-HLA-DR monoclonal antibody (MAb) abrogated the stimulatory capacity in AMLC, but not in AMLTC. A subset of T cells that formed rosettes with autologous erythrocytes showed proliferative response to autologous non-malignant cells, whereas this subset did not respond to autologous tumor cells. Non-adherent lymphocytes were fractionated by centrifugation on discontinuous Percoll density gradients. Medium-sized T lymphocytes were excellent responders in AMLC, but were weak responders in AMLTC. Small T lymphocytes proliferated preferentially in AMLTC, but responded poorly in AMLC. Large granular lymphocytes (LGL) did not proliferate in mixed cultures of either type. Instead, LGL suppressed the T-cell proliferation in AMLTC. The same suppressor LGL, however, had no inhibitory effect on AMLC. Elimination of the CD4 subset reduced or abolished proliferative response in AMLC in all cases, whereas it was ineffective in diminishing the reaction in 6 of 8 AMLTC. In contrast, removal of the CD8 subset decreased or eliminated T-cell proliferation in 4 of 8 AMLTC, but in none of the AMLC. These results indicate that the autoreactive T lymphocytes detectable in response to tumor cells and non-malignant non-T cells differ in several characteristics. Thus, the reaction in the AMLTC is not due to contaminating non-malignant cells in the stimulator population and may be a tumor-induced proliferative response.     

Functional analysis of mononuclear cells infiltrating into tumors: lysis of autologous human tumor cells by cultured infiltrating lymphocytes

Lymphocytes separated from surgically resected tumor tissue, uninvolved lung tissue, and peripheral blood of lung cancer patients were investigated for cytotoxic potential and analyzed for their phenotypes at the time of surgery and after having been propagated for 4 to 5 wk in the presence of interleukin-2. Most of the tumor lymphocyte infiltrates examined were shown to have a shift in favor of T8 subsets from those found in peripheral blood. No natural killer activity and low cytotoxicity against the autologous tumor were found to characterize the tumor-derived lymphocyte population. Propagation of lymphocytes from the different tissues of the cancer patient in the presence of interleukin-2 preparation induced widespread lytic activity against K562 cells, autologous and allogeneic tumors, but not autologous normal lung or lymphoblasts. However, cytotoxic activity against autologous tumor cells exerted by cultured tumor-infiltrating lymphocytes was found to be significantly higher than the activity of cultured lymphocytes isolated from peripheral blood or uninvolved lung tissue of the same patient. The elevated lytic activity of cells derived from the tumor tissue indicates the accumulation at the tumor site of precursors of natural killer-like cells and specifically stimulated antitumor effectors. Our results suggest the coexistence of two types of anti-autotumor cytotoxic lymphocytes at the tumor site: natural killer-like and specific cytotoxic T-cells.     

The role of autologous tumor cells in preventing lymphokine-activated killer cell induction in vitro

Peripheral blood lymphocytes (PBL), when cultured in vitro in the presence of autologous irradiated tumor and interleukin-2 (IL-2), become more restricted in the spectrum of their cytotoxicity. The cells continue to exhibit cytotoxicity for autologous tumor cells and major histocompatibility complex (MHC)-concordant allogeneic tumor cells of similar histologic type but not for the natural killer target cell line, K562. Furthermore, the addition of autologous tumor at different time points after the initiation with IL-2 alone of conventional lymphokine-activated killer cell cultures modifies both the specificity and the degree of cytotoxicity of these lymphocytes for tumor targets. By varying the culture conditions it may be possible to generate killer cells that will exhibit similarly enhanced and more restricted antitumor effects in vivo.     

Infiltration of interleukin-2-inducible killer cells in ascitic fluid and pleural effusions of advanced cancer patients

Using ascitic fluid or pleural effusion obtained from 13 ovarian or metastatic breast cancer patients, we separated tumor cells from effusion-associated lymphocytes (EAL) with Percoll density centrifugation. Lymphocytes were incubated with recombinant interleukin 2 (IL-2) for 3-4 days and then assessed for tumoricidal activity in a 51chromium-release assay. The IL-2-activated EAL were found to lyse autologous fresh tumor cells, as well as allogeneic fresh tumor cells and FMEX tumor cells, a melanoma cell line which is resistant to natural killer cell activity but is sensitive to lysis by lymphokine-activated killer cells. There was little or no tumoricidal activity seen in freshly isolated EAL or in EAL which were cultured in medium without IL-2. Phenotypically, the IL-2-activated EAL were largely CD3-, although some cytolytic activity was found in CD3+ populations. Also, most activity was found in cells positive for CD2 (OKT11) and CD16 (Leu 11b), and negative for the monocyte marker Leu M3. These results indicate that the activated cell types found in EAL were predominantly natural killer/lymphokine-activated killer-like with a small contribution from T-cells. Finally, EAL were readily activated by IL-2 in medium containing autologous effusion fluid, indicating that in situ activation of tumoricidal activity by IL-2 can occur in the face of potentially inhibitory substances or cells that may exist in the effusions. Direct introduction of IL-2 may therefore be a potential therapeutic modality of effusion-forming cancers.     

Lysis of fresh human tumor cells by autologous peripheral blood lymphocytes and tumor-infiltrating lymphocytes activated by PSK

The protein-bound polysaccharide PSK was tested for the ability to induce in vitro autologous tumor killing (ATK) activity in human cancer patients. Peripheral blood lymphocytes (PBL) and tumor-infiltrating lymphocytes (TIL) demonstrated various levels of cytotoxicity against autologous, freshly isolated tumor cells. When PBL and TIL were cultured overnight with PSK, ATK activity was induced in previously non-reactive cases and augmented in previously reactive samples. The PSK effect was observed with PSK concentrations of 10-100 micrograms/ml that could be obtained in the blood of cancer patients who received standard oral administration of PSK. The manifestation of PSK-induced ATK required active cell metabolism and RNA and protein syntheses, but not DNA synthesis of lymphocytes. PSK-induced enhancement of ATK was not abrogated by monoclonal antibodies (mAb) directed against interferon (IFN) alpha or IFN gamma. In addition, mAb that neutralized interleukin-2 (IL-2) or mAb reactive with alpha-chain or beta-chain of IL-2 receptors (IL-2R) had no effect on PSK-induced ATK activity. Supernatants from PSK-stimulated lymphocyte cultures did not induce ATK. Cell fractionation experiments revealed that CD3-CD16+ large granular lymphocytes (LGL) and/or CD3+CD16- T lymphocytes were responsible for both spontaneous and PSK-induced ATK. PSK-activated LGL, but not T lymphocytes expressed lysis of fresh allogeneic tumor cells. These results indicate that PSK activates PBL and TIL to exhibit ATK independently of IL-2/IL-2R systems.     

Human tumor-infiltrating lymphocytes transfected with tumor necrosis factor gene could augment cytotoxicity to autologous tumor cells.

Human tumor-infiltrating lymphocytes (TILs) derived from pleural or ascitic fluid were incubated with recombinant interleukin 2 and transfected with human tumor necrosis factor (TNF) alpha gene by the lipofection procedure. The resulting TILs secreted significant amounts of TNF in the culture supernatant and exhibited cytotoxicity against established cell lines, such as K562 and Daudi, and autologous tumor cells. The TNF gene-transfected TILs exhibited an augmented killing of autologous tumor cells.     

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.     

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.     

人肿瘤浸润淋巴细胞（TIL）的抗肿瘤活性及与外周血淋巴细胞...

In order to search for more efficient effector cells than the classical LAK cells for tumor immunotherapy, antitumor activity of TIL was studied. Although fresh TIL were unable to kill both NK-sensitive K562 and NK-resistant Anip 973 targets, rIL-2 activated TIL from 8 lung carcinoma and 4 gastric cancer patients did express significant cytotoxicity against allogeneic solid tumor targets Antitumor activity of activated TIL was more efficient than that of activated autologous PBL By limiting dilution assay, TIL were shown to have a higher frequency of LAK precursors than PBL.