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.     

MHC class-I-restricted auto-tumor-specific CD4+CD8- T-cell clones established from autologous mixed lymphocyte-tumor-cell culture (MLTC).

Autologous mixed lymphocyte-tumor cell cultures (MLTC) were initiated with cytokine (IFN gamma and TNF alpha)-treated ex-vivo tumor cells of lung, ovarian, breast and stomach carcinomas. The cytokine-treated tumors expressed class-I but not class-II molecules. Although the proportion of CD8+ lymphocytes increased in the bulk culture of MLTCs, in 5/7 experiments the majority of the established T-cell clones were CD4+. Among the CD8+ clones a high proportion (77%) was cytotoxic, while the proliferative response was more frequent among the CD4+ clones (70%). In 4/26 cytotoxic T-lymphocyte (CTL) clones (3/17 CD4+ and 1/9 CD8+), derived from a patient with class I+ class II- stomach carcinoma, lysis was restricted to the autologous tumor cells. These auto-tumor-specific clones did not lyse the autologous ConA blasts, the 5 allogeneic ex-vivo tumors, the NK-sensitive K562 or the relatively sensitive Daudi cells. The cytotoxicity of these clones was inhibited by pre-incubation of the tumor cells with W6/32 (alpha-class I) MAb, or by preincubation of the lymphocytes with OKT3 (alpha-CD3) MAb. The alpha-CD4 (OKT4) MAb had only a marginal effect on the CD4+ clones, while the lytic function of the CD8+ clone was inhibited by the alpha-CD8 (OKT8) MAb. The 3 CD4+ CTL clones also responded with proliferation to the autologous tumor cells. This proliferative response was inhibited by the presence of W6/32 MAb. Our results indicate that the auto-tumor lysis exerted by CD4+ CTL clones was restricted by the class-I antigens, and that the CD4 molecules of the clones were not essential for the lytic interaction.     

Allostimulation of patients' lymphocytes generates both T and NK-like cells cytotoxic for autologous melanoma

Killing of autologous melanoma (auto-Me) was obtained with pooled allostimulated peripheral blood lymphocytes (PBL) in 34/42 cases and found not to be due to a cross-reactivity between melanoma and allogeneic normal antigens. To see whether generation of tumour cytotoxic PBL by allostimulation was due to release of IL-2, PBL from 34 patients were divided into two aliquots and stimulated either by alloantigens or IL-2. Allostimulated PBL were cytotoxic for auto-Me in 30/34 cases (85%) whereas IL-2 generated tumour cytotoxic cells in 22/34 cases (64%). Lysis of K562, a target for monitoring NK-like activity, was obtained in 95-100% of cases with both stimuli. A similar frequency of OKT3+, OKT4+, OKT8+ and HNK1+ cells was found in PBL activated by allostimulation and IL-2, whereas a higher frequency of OKM1+ cells was evident in IL-2-stimulated PBL. Cold-target competition studies indicated that allostimulation generated at least two different types of effectors, one lytic to auto-Me but not to K562, and the other which lysed both targets. Allostimulated, FACS-separated T3- cells killed both auto-Me and K562 cells whereas T3+ cells lysed only auto-Me. It is concluded that allostimulation generated two subpopulations of auto-Me killer cells, one of the T lineage and the other NK-like, which both can destroy auto-Me targets.     

Differential regulation by interleukin-4 and interferon-gamma of an autologous melanoma-specific cytotoxic T-cell clone and the tumor-infiltrating lymphocytes from which it was established

To investigate the specificity of human tumor-infiltrating lymphocytes (TIL) against autologous tumors, TIL from five metastatic melanoma patients were expanded with rIL-2 and assessed for cytotoxicity in chromium release assays. TIL from a patient showing preferential cytotoxicity against autologous melanoma cells were further analysed. TIL were cloned by limiting dilution. Four out of 27 clones showed substantial cytotoxicity against autologous melanoma and one clone, designated as No. 8a-5 (CD3+, CD4-, CD8+, CD56-), selectively killed autologous melanoma but did not kill six different allogeneic melanoma, K562, or autologous or allogeneic Con A lymphoblast targets. Cytotoxicity of No. 8a-5 cells was inhibited by anti-HLA class I MAb (w6/32), by anti-beta 2-microglobulin MAb, and by anti-CD3 (OKT3) MAb, suggesting that the specific cytotoxicity was HLA class I-restricted and that the clone utilized the T-cell receptor complex for recognition of targets. Pretreatment with rIFN-gamma increased the sensitivity of autologous melanoma targets to lysis by No. 8a-5 cells. Exogenous rIL-4 enhanced [3H]TdR incorporation by these TIL. In contrast, rIFN-gamma reduced the sensitivity of the autologous melanoma to lysis by uncloned TIL, and rIL-4 suppressed the cytotoxicity and cell proliferation of uncloned TIL. These results indicate that both specific and non-specific cytotoxic cells can be developed from the same TIL and that these can be differentially regulated.     

CD4(+), HLA class I-restricted, cytolytic T-lymphocyte clone against primary malignant melanoma cells

The involvement of HLA-class I in target cell lysis by CD4(+) cytolytic T cells (CTL) has been a controversial issue. A CTL clone of CD4 phenotype was derived from the peripheral blood lymphocytes of a patient with primary melanoma. The CTL clone stably lysed the autologous primary melanoma cells for approximately 9 months in culture. Both the Valpha2/Vbeta8 T-cell receptor and CD4 were involved in CTL cytotoxicity. Of a large panel of allogeneic primary and metastatic melanoma or colorectal carcinoma cells, autologous and allogeneic Epstein-Barr virus-transformed B cells and autologous fibroblasts, only allogeneic metastatic melanoma cells matched with the autologous tumor cells for HLA-class I (B57[17]) were lysed and induced IFN-gamma secretion by the CTL clone. Lysis of the autologous tumor cells was significantly blocked by monoclonal antibody to HLA-B17. Importantly, allogeneic, HLA-class I- and class II-unmatched melanoma cells were lysed by the CTL only following transfection of the cells with B57[17] cDNA. Our results provide direct evidence for the involvement of both CD4 and HLA-class I in tumor cell lysis by CD4(+) CTL.     

Identification of a human T cell clone with the cytotoxic T lymphocyte and natural killer-like cytotoxic function against autologous mammary carcinoma and K562 line

Pleural exudative lymphocytes (PLEL) from a 60-year-old female patient showed high cytotoxicity against the autologous mammary tumor line, HMC-2, and NK-susceptible K562 cells, although PLEL demonstrated only weak cytotoxic potentials against several allogeneic tumor lines. We successfully obtained seven cytotoxic T cell clones from PLEL bulk populations, and assessed the possibility that these lymphocytes are simply natural killer (NK)-like cells or have the dual cytotoxic activity of cytotoxic T lymphocytes (CTL) and NK-like cells. These clones, designated as TcHMC-2, showed strong cytotoxicity against both HMC-2 and K562 cells. In contrast, allogeneic human peripheral blood-derived NK cells could not kill HMC-2 targets. Furthermore, a blocking study of TcHMC-2 cytotoxicity using monoclonal antibodies against CD3, CD8 and human MHC class I products showed that all of these antigen molecules were involved in the cytotoxicity of TcHMC-2 clone against autologous HMC-2 cells, indicating MHC class I recognitive cytotoxicity. These data indicate that the TcHMC-2 clone may have dual cytotoxicity with CTL- and NK-like activity against autologous HMC-2 mammary tumor and K562 cells, respectively.     

Role of MHC class-I antigens and the CD3 complex in the lysis of autologous human tumours by T-cell clones

Peripheral blood lymphocytes (PBL) of 4 patients with malignant effusions were stimulated for 6 days with purified autologous tumour cells, before isolation of the lymphoblasts and cloning by limiting dilution in interleukin-2 (IL-2). Forty-five clones were analyzed for cytotoxicity (CTX) against autologous, allogeneic tumour and erythromyeloid K562 cells of known status with respect to expression of major histocompatibility complex (MHC) antigens, estimated by reaction with the W6/32 (anti HLA, -A, -B, -C monomorphic) and TDR 31.1 (anti HLA-DR) monoclonal antibodies (MAb). All 45 clones were CD3+. Twenty-five (56%) of them were cytotoxic for at least one target; 24 were autoreactive (restricted in 7); 17 were alloreactive; 16 were K562 reactive. Under comparable conditions autoreactivity was partially blocked by W6/32 in 12/20 effector:target combinations; alloreactivity in 8/13 and K562 reactivity in 0/14. Modulation of effector cell surface CD3 antigens by OKT3 monitored by flow cytometry reduced autoreactivity in 9/14 combinations, alloreactivity in 2/6 and K562 reactivity in 0/4. W6/32 blocking and T3 modulation of cytotoxicity were almost invariably concordant against the same target. The data suggest that, to accomplish lysis of autologous and allogeneic tumour targets, certain clones require MHC recognition and a functional CD3 complex, while for others with similar target cell repertoires, there is no such requirement. It is possible that T-cell clones responding to a tumour-associated antigen (TAA) in the context of self MHC antigens can also respond to an allogeneic class-I product in the absence of TAA, and/or that aberrant class-I antigen expression on autologous tumours accounts for the alloreactivity.     

Identification of a Human T Cell Clone with the Cytotoxic T Lymphocyte and Natural Killer-like Cytotoxic Function against Autologous Mammary Carcinoma and K562 Line

Pleural exudative lymphocytes (PLED from a 60-year-old female patient showed high cytotoxicity against the autologous mammary tumor line, HMC-2, and NK-susceptible K562 cells, although PLEL demonstrated only weak cytotoxic potentials against several allogeneic tumor lines. We successfully obtained seven cytotoxic T cell clones from PLEL bulk populations, and assessed the possibility that these lymphocytes are simply natural killer (NK)-like cells or have the dual cytotoxic activity of cytotoxic T lymphocytes (CTL) and NK-like cells. These clones, designated as T_cHMC-2, showed strong cytotoxicity against both HMC-2 and K562 cells. In contrast, allogeneic human peripheral blood-derived NK cells could not kill HMC-2 targets. Furthermore, a blocking study of T_cHMC-2 cytotoxicity using monoclonal antibodies against CD3, CD8 and human MHC class I products showed that all of these antigen molecules were involved in the cytotoxicity of T_cHMC.2 clone against autologous HMC-2 cells, indicating MHC class I recognitive cytotoxicity. These data indicate that the T_cHMC-2 clone may have dual cytotoxicity with CTL- and NK-like activity against autologous HMC-2 mammary tumor and K562 cells, respectively.     

Postoperative sequential testing of cytotoxic activity against the autologous and allogeneic tumor cells in patients with primary lung resected cancer

The objective of this study of 27 primary lung resected cancer patients was to evaluate sequentially the cytotoxic activity against autologous and allogeneic tumor cells during the postoperative period. In patients given a complete resection, the cytotoxic activity against the autologous tumor cells during the postoperative 1-2 weeks was significantly higher than during the postoperative 4-5 weeks (P less than 0.05, Student t test). In patients given an incomplete resection, however, no significant difference was demonstrated between the postoperative 1-2 weeks and during the postoperative 4-5 weeks. In contrast, the cytotoxic activity against the PC-3 cells or K562 cells during the postoperative 4-5 weeks tended to rise in comparison to those at the postoperative 1-2 weeks all patients in any cancer stage and whatever the amount of their lung resection. The phenotype of the effector cells which mediated the cytotoxic activity to the autologous tumor cells was the monoclonal antibody OKT 3(+), 8(+), 4(-) OKM 1(-) and the cells which were cytotoxic to the K562 cells had an OKT 3(-), 4(-), 8(-), OKM 1(+) phenotype. These results suggest that the effectors which mediate cytotoxic activity to the autologous tumor cells and to the K562 cells seems to be different and a concomitant immunity may exist in primary lung resected cancer patients.     

Peripheral blood and tumor infiltrating lymphocytes in non-small cell lung cancer: analysis at the population and clonal level

Tumor infiltrating (TIL) and peripheral blood lymphocytes (PBL) were isolated from 18 patients with non-small cell lung cancer undergoing radical surgery. Surface marker analysis revealed that TILs and PBLs mainly consisted of CD3+ T cells and that TILs generally displayed a lower CD4/CD8 ratio. Differences were found in the expression of CD25 (IL-2 receptor) and DR (MHC class II) antigens, which were increased in TILs, and in the percentage of CD16+ natural killer (NK) cells, which was reduced in TILs as compared to PBLs. Accordingly, the NK activity of TILs was lower than that of PBLs, whereas neither TILs nor PBLs expressed spontaneous cytolytic activity against fresh autologous tumor cells, melanoma cells and the "NK-resistant" A549 lung carcinoma cell line. After 4 days of culture in medium with recombinant-interleukin-2 (rIL-2), TILs and PBLs acquired cytolytic activity against all cell targets, but TILs expressed higher levels of cytotoxicity than autologous PBLs only in 3 patients out of 16 tested. More importantly, both TILs and PBLs displayed similar levels of cytotoxic activity against autologous tumor cells. TILs and PBLs from 8 patients were also analyzed by a limiting dilution microculture system. Cloning efficiency was remarkably lower in TILs, and surface marker analysis of T cell clones confirmed that an accumulation of CD8+ lymphocytes, which displayed cytolytic activity in a lectin-dependent assay, occurred at the tumor site. The non-MHC-restricted cytolytic activity of TIL- and PBL-derived T cell clones against K562, A549, and allogeneic melanoma cells and the cytolytic activity against autologous tumor cells showed no significant differences. Only 53% of TIL clones released IL-2 in response to PHA + TPA stimulation, whereas 68% of PBL-derived clones were IL-2 producers. Moreover, most PBL- and TIL-derived clones released tumor necrosis factor alpha in response to mitogen stimulation.     

Precursor frequency analysis of human cytolytic T lymphocytes directed against autologous melanoma cells.

Limiting numbers of peripheral-blood mononuclear cells (PBMC) from melanoma patients were stimulated with irradiated autologous tumor cells in the presence of interleukins-2 and -4 and in the absence of feeder cells. The responder cells were restimulated every week. After 2 to 4 weeks, the microcultures were tested for their lytic activity against the autologous tumor cells. Significant lysis of the tumor cells was observed with a fraction of these microcultures, whereas no lysis was observed with control microcultures seeded without stimulator melanoma cells. Because our aim was to measure the precursor frequency of CTL showing specificity for the tumor, and not that of NK-like effectors that were also capable of lysing the melanoma cells, we used cold-target inhibition with an excess of NK target K562 to inhibit the NK-like activity. Microcultures whose lysis on the tumor cells was not abolished by K562 competition were observed. The specificity of these CTL clones was confirmed by the absence of lytic activity on autologous T-cell blasts. The numbers of microcultures with anti-tumor CTL activity fitted the zero-order of the Poisson distribution equation, indicating that they resulted from the activity of single T-cell clones. The frequency of anti-tumor CTL precursor cells (CTL-P) of 7 melanoma patients ranged from 1/900 to 1/33,000. Frequencies of anti-tumoral CTL-P were higher and NK-like effectors were less frequent when sorted CD8+ T lymphocytes were used as responder cells.     

Characterization of human autotumor-reactive T-cell clones obtained from tumor-infiltrating lymphocytes in liver metastasis of gastric carcinoma.

Three autotumor-reactive T-cell clones have been established from tumor-infiltrating lymphocytes isolated from a metastatic lesion of human gastric carcinoma in the liver. The clones all were shown to be CD3+, CD8+, CD4-, CD16-, T-cell receptor alpha/beta +, and T-cell receptor gamma/delta-, and they have retained both their autotumor reactivity and the same phenotype for over a year in culture. Each clone had a different rearrangement of the T-cell receptor gamma chain genes as indicated by Southern blot analysis. Tested against a panel of 18 tumor cell targets, the clones preferentially lysed autologous tumor (AuTu) cells, but each clone also showed weak cytotoxicity against one allogeneic cholangiocarcinoma cell line. At the same time, each clone showed appreciable cytotoxicity against K562 targets. In blocking experiments, anti-CD3, anti-WT31, anti-CD8, or anti-HLA class I monoclonal antibodies blocked AuTu cytotoxicity but not cytotoxicity against K562. In contrast, allocytotoxicity against the cholangiocarcinoma was blocked only by anti-CD3 monoclonal antibody. All 10 subclones of one T-cell clone had high levels of AuTu cytotoxicity but variable levels of anti-K562 cytotoxic activity. Proliferation of the T-cell clones was significantly stimulated by the addition of irradiated autologous but not allogeneic tumor cells. Preincubation of cultured AuTu cells with tumor necrosis factor alpha or gamma-interferon (IFN-gamma), but not with IFN-alpha, increased their susceptibility to lysis by the T-cell clones; however, it increased resistance of AuTu to lysis by interleukin 2-activated natural killer cells. The expression of an adhesion molecule, intercellular adhesion molecule 1, on the surface of AuTu was also up-regulated by tumor necrosis factor alpha or IFN-gamma, but not by IFN-alpha. All three cytokines up-regulated HLA-class-I antigens on AuTu. Pretreatment of K562 targets or allogeneic cholangiocarcinoma cells with the same cytokines increased their resistance to lysis by the T-cell clones. Overall, the results indicate that these T-cell clones show specificity for AuTu but also independently recognize a limited number of allogeneic tumor targets and lyse K562 targets. The mechanisms involved in the recognition by the T-cell clones of autologous, allogeneic, and K562 tumor targets appeared to be distinct.     

Cellular immune response to human renal-cell carcinomas: Definition of a common antigen recognized by HLA-A2-restricted cytotoxic T-Lymphocyte (CTL) clones

Cytotoxic T lymphocyte (CTL) clones directed against autologous renal-cell carcinoma (RCC) cell lines were generated by mixed lymphocyte/tumor-cell culture (MLTC) using peripheral blood lymphocytes (PBL). A CD8+, CD4- CTL clone MZ1257-CTL 5/30 with high cytolytic activity for the autologous tumor cell line MZ1257-RCC was established. No lysis of the autologous EBV-transformed B lymphocytes (EBV-B) or K562 cells was observed. A panel of HLA-A2-matched allogeneic RCC lines was recognized by CTL 5/30. Further specificity analysis showed a cross-reactivity with HLA-A2-matched allogeneic tumor cells of various origins, especially melanoma. CTL 5/30 was also cross-reactive with several HLA-A2-positive allogeneic normal kidney cells in culture. The restriction element identified for CTL 5/30 was HLA-A2, as shown by blocking of cytotoxicity using an anti-HLA-A2 monoclonal antibody (MAb) and by resistance of an HLA-A2-negative melanoma variant SK29-MEL. 1.22 against lysis by CTL 5/30. In this report we demonstrate HLA-A2-restricted recognition of a T-cell-defined antigen on autologous renal-cancer cells. This antigen is also expressed and recognized in association with HLA-A2 on normal kidney cells in culture and other HLA-A2-positive tumor cells. It may therefore be a normal differentiation antigen to which tolerance is incomplete in the renal-cell cancer system investigated.     

Isolation of human lymphocyte antigens class I-restricted cytotoxic T lymphocytes against autologous myeloma cells.

Peripheral blood T cells from a patient with multiple myeloma in complete remission were selected in vitro against an autologous myeloma cell line (SBN-1), using a protocol designed for the selection of relatively rare precursor cytotoxic T cells (pCTL). Delayed addition (2 weeks) of interleukin 2 induced T-cell proliferation, and a bulk culture (T-cell line) was obtained 2 days later. This T-cell line displayed cytotoxicity against SBN-1. A CD8+ CD4- cytotoxic T-cell clone (CT5) was then obtained that recognized SBN-1 but not autologous EBV+ B-lymphoblastoid cells, autologous T PHA-blasts, or Daudi, Raji, K562, and 11 allogeneic myeloma cell lines. Moreover, CT5 cytotoxic activity against SBN-1 was blocked by monoclonal antibodies recognizing human lymphocyte antigen class I molecules. This seems to be the first demonstration of myeloma-specific pCTL in peripheral blood T cells of patients with multiple myeloma.     

High frequencies of circulating melanoma-reactive CD8+ T cells in patients with advanced melanoma

To determine whether circulating tumor-reactive T cells are present in melanoma patients, unstimulated T cells from peripheral blood were tested for recognition of HLA-A2- or HLA-A1-matched melanoma cell lines using the ELISPOT assay. Eleven out of 19 patients with metastatic melanoma had a T-cell response with up to 0.81%, 0.78%, 0. 53%, 0.12%, 0.10%, 0.09%, 0.07%, 0.06%, 0.06%, 0.04%, and 0.04% of peripheral blood mononuclear cells (PBMC) secreting IFNgamma upon exposure to various HLA-A2- or HLA-A1-matched melanoma cell lines. These T-cell responses were mediated by CD8+ T cells and could specifically be blocked by an anti-HLA-A2 antibody in HLA-A2-positive patients. Separation experiments performed in one melanoma patient showed tumor-reactive T cells in both the CD8+ effector T cell (CD45RA+/IFNgamma+) as well as the CD8+ memory T-cell compartment (CD45RO+/IFNgamma+). In 3 out of 5 patients, in whom autologous cell lines were available, similar frequencies of T cells in response to HLA-A1- or HLA-A2-matched allogeneic and autologous tumor cells were observed, while 2 patients had a T-cell response restricted to either the autologous or the allogeneic cell lines. These results give evidence for the presence of tumor-reactive CD8+ T cells in more than half of melanoma patients tested. Although some of these patients have clinical evidence for an immunological-mediated tumor control, several patients have growing tumors suggesting presence of escape mechanisms.     

Ex vivo generation and expansion of anti-tumor cytotoxic T-cell lines derived from patients or their HLA-identical sibling

Successful ex-vivo priming and long-term maintenance of anti-tumor cytotoxic T-cell (CTL) lines are preliminary conditions for their use in approaches of adoptive immunotherapy for patients with cancer. We describe the results of a novel procedure for generating in vitro anti-tumor CTL using CD8-enriched peripheral blood mononuclear cells (PBMC) and dendritic cells (DC), pulsed with irradiated tumor cells (TC) as source of tumor antigen. Eight patients were enrolled in our study: 4 sarcoma, 2 renal cell carcinoma, 1 ovarian carcinoma and 1 breast carcinoma. Ten anti-tumor CTL-lines cytotoxic towards patient TC were generated. Five CTL-lines were obtained using both DC and PBMC from the patients (autologous setting). For 5 CTL-lines, DC derived from an HLA-identical sibling were employed (allogeneic setting): patients or siblings PBMC were used to generate CTL-lines in 2 and 3 cases, respectively,. After tumor-specific rounds of stimulation, followed by antigen-independent cycle of expansion, CTL-lines obtained in both autologous and allogeneic setting showed an expansion of the absolute number of cultured cells. In 6 of 10 CTL-lines, the majority of effector cells (>70%) were CD3+/CD8+, while in the remaining 4, 40-70% of effector cells were CD3+/CD4+. Both CD8+ and CD4+ T cells displayed anti-tumor cytotoxic activity. Spectratyping analysis of the TCR-Vbeta subfamilies revealed a preferential expansion of oligoclonal populations in 18 of 24Vbeta subfamily. Altogether these results demonstrate that our experimental approach is suitable for efficiently generating and expanding anti-solid tumor CTL to be used for adoptive immunotherapy.     

Melanoma cell lysis by human CTL clones: differential involvement of T3, T8 and HLA antigens

Three lymphocyte clones, derived by micromanipulation from peripheral blood lymphocytes (PBL) of a melanoma patient and expressing a broad pattern of reactivity against different target cells, were analyzed for the involvement of T-cell markers and HLA antigens in the lysis of target cells by blocking experiments with a panel of monoclonal antibodies (MAbs). The clones lysed autologous melanoma cells (Me 28) and 18 out of 22 allogeneic targets including neoplastic and normal cells of different histological origin. Anti-T3 and anti-T8 MAbs strongly inhibited the cytotoxicity of the lymphocyte clones against Me 28, 3 allogeneic melanomas and 3 carcinomas, but failed to affect the lysis of K562. Anti-HLA class-I MAb (w6/32) produced a significant enhancement of the lysis of Me 28 by the 3 clones without modifying cytotoxicity against one allogeneic melanoma or against K562 cells. Anti-HLA class-II MAb (D1.12) did not affect the lysis of the same targets by the 3 clones. These results thus indicate that some anti-melanoma CTL clones may interact with autologous tumor cells by the T3 and T8 structures in an HLA class-I unrestricted manner.     

Active specific immunotherapy of renal cell carcinoma: cellular and humoral immune responses

We investigated the effect of vaccinating renal cell carcinoma (RCC) patients with irradiated autologous or allogeneic tumor cells and Newcastle disease virus (NDV) as adjuvant on cellular and humoral antitumor immunity. By Western blot analysis, we found that vaccination induced antibody formation in 33 of 34 patients against NDV proteins but not against tumor cell related antigens. NDV proteins detected had molecular weights of 53 kDa, 55-56 kDa, and 66 kDa. ADCC by patients' isolated PBMC and patients' sera against autologous or allogeneic tumor cells was not enhanced after vaccine treatment in a nonradioactive cytotoxicity assay. Target cells infected with NDV were lysed more effectively (p < 0.05) in ADCC after vaccination than noninfected targets. Natural cellular cytotoxicity of patients' isolated PBMC was not altered during vaccine treatment. Specific lysis rates against autologous and allogeneic RCC cells not exceeded 10% (effector:target ratio 50:1). Specific lysis of K-562 cells was > 20%; a slight decrease in lysis during vaccination was not significant. Numbers of lymphocyte subsets from patients' peripheral blood analyzed by FACS revealed significant expression of CD20+ (p < 0.02) and CD39+ (p < 0.03) cell numbers by vaccine therapy. Cytokine detection in patients' sera by ELISA showed significant increases (p < 0.05) for IFN-gamma and TNF-alpha but not for IFN-alpha four h post vaccination. Thus, immunomodulation with autologous or allogeneic RCC tumor cell vaccines is mainly due to cytokine induction, whereas tumor specific humoral or cellular responses are not detectable in patients' peripheral blood.     

Human melanoma-mediated inhibition of autologous CD4+ helper tumor-infiltrating lymphocyte growth in vitro.

Tumor-infiltrating lymphocytes (TIL) were isolated from a human melanoma metastatic to the abdomen. The TIL were 99% CD3+ and 99% CD4+ and CD8-. They were dependent on interleukin-2 (IL-2) for growth, as measured in a thymidine uptake assay, and were not cytotoxic to autologous or allogeneic melanoma or K562. When co-cultured with irradiated autologous tumor cells, or tumor cell supernatants, the TIL not only did not respond, but the IL-2-dependent growth was inhibited significantly. Inhibition occurred during the first 24 hours of co-culture and persisted as long as the tumor was present. After being washed free of inhibitory tumor cells, the TIL again were able to grow in the presence of IL-2, indicating that the inhibition was not caused by irreversible toxicity mediated by the tumor. Addition of excess IL-2 did not reverse the inhibitory effect, but addition of indomethacin, an inhibitor of cyclooxygenase and prostaglandin synthesis, partially blocked the inhibition. These data show melanoma-mediated inhibition of induction and expansion of human T-cells in vitro, which may reflect one of the mechanisms of inhibition of cellular responses in vivo. These results stress the need to examine the techniques for optimal in vitro expansion of tumor-specific TIL or cytotoxic T-cells for adoptive immunotherapy.     

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.