Effects of HC antibody in autologous tumor-specific cytotoxicity by human melanoma tumor-infiltrating lymphocytes

Heteroconjugate (HC) antibody has a potential use in cancer biotherapy because of its ability to mimic antigenic specificity and induce cytotoxicity in the activated lymphocytes against various tumor cells. This study investigated the effects of HC antibody (anti-CD3 MAb x anti-p97 melanoma cell MAb) in autologous tumor-specific cytotoxicity by interleukin-2 (IL-2)-activated melanoma tumor-infiltrating lymphocytes (TILs). HC antibody significantly augmented p97pos uncultured autologous tumor cell lysis mediated by effector TILs or cytotoxic T lymphocyte (CTL) clones derived from TIL. It did not significantly increase p97mix autologous tumor-cell lysis and slightly inhibited the lysis only at higher E:T ratios and higher concentrations (greater than or equal to 100 ng/ml). It inhibited p97neg autologous tumor-cell lysis. HC antibody respectively induced potent lysis of p97pos or modest lysis of p97mix tumor cells by allogeneic effector TILs as well as PBMC. In contrast, parental anti-CD3 MAb primarily suppressed the autologous tumor-specific cytotoxicity, and did not induce lysis of uncultured melanoma cells, regardless of differences in expression of p97 antigens on tumor cells. Although parental anti-p97 MAb did not augment or suppress the autologous tumor-specific cytotoxicity, it completely abrogated HC antibody-mediated augmentation of p97pos autologous tumor cell lysis by effector TILs. Anti-class-I MAb, but not anti-DR MAb, suppressed the autologous tumor-specific cytotoxicity, but failed to block HC antibody-mediated augmentation of p97pos autologous tumor-cell lysis. These results suggest that the levels of p97 antigen expression largely influenced HC antibody-mediated modulation of TIL cytotoxicity against uncultured autologous tumor cells.     

The CC chemokine receptor 4 as a novel specific molecular target for immunotherapy in adult T-Cell leukemia/lymphoma.

Adult T-cell leukemia/lymphoma (ATLL) is a peripheral T-cell neoplasm with dismal prognosis, and no optimal therapy has been developed. We tested the defucosylated chimeric anti-CC chemokine receptor 4 (CCR4) monoclonal antibody, KM2760, to develop a novel immunotherapy for this refractory tumor. In the presence of peripheral blood mononuclear cells (PBMCs) from healthy adult donors, KM2760 induced CCR4-specific antibody-dependent cellular cytotoxicity (ADCC) against CCR4-positive ATLL cell lines and primary tumor cells obtained from ATLL patients. We next examined the KM2760-induced ADCC against primary ATLL cells in an autologous setting. Antibody-dependent cellular cytotoxicity mediated by autologous effector cells was generally lower than that mediated by allogeneic control effector cells. However, a robust ADCC activity was induced in some cases, which was comparable with that mediated by allogeneic effector cells. It suggests that the ATLL patients' PBMCs retain substantial ADCC-effector function, although the optimal conditions for maximal effect have not yet been determined. In addition, we also found a high expression of FoxP3 mRNA and protein, a hallmark of regulatory T cells, in ATLL cells, indicating the possibility that ATLL cells originated from regulatory T cells. KM2760 reduced FoxP3 mRNA expression in normal PBMCs along with CCR4 mRNA by lysis of CCR4+ T cells in vitro. Our data suggest not only that the CCR4 molecule could be a suitable target for the novel antibody-based therapy for patients with ATLL but also that KM2760 may induce effective tumor immunity by reducing the number of regulatory T cells.     

Vaccination with allogeneic GM-CSF gene-modified lung cancer cells: antitumor activity comparing with that induced by autologous vaccine

OBJECTIVE: The aim of this study was to investigate the whole allogeneic (differing tissue-type) tumor cells as vaccine in the mouse lung cancer model. The immunogenic and antitumor activity of allogeneic vaccine was compared with that of autologous cancer cell vaccine. METHODS: C57/BL mice inoculated with Lewis lung cancer (LLC) cells were used as the animal model to test the effects of allogeneic vaccination. LA795 and LLC lung cancer cell lines, which were transfected with the mouse granulocyte-macrophage colony-stimulating factor (GM-CSF) gene, were administered as allogeneic and autologous tumor vaccine, respectively. The irradiated tumor cells were administered as subcutaneous vaccines before the tumor challenge. The immunity of cancer vaccine was tested by mouse interferon-gamma (IFN-gamma) enzyme-linked immunospot (ELISPOT) lactate dehydrogenase (LDH) assays. The serum level of IFN-gamma and interleukin (IL)-4 was tested using the enzyme-linked immunosorbent assay method. RESULTS: Prophylactic vaccination with allogeneic LA795 cells protected against the LLC tumor challenge in C57/BL. The tumor growth was inhibited and the survival was accordingly prolonged. The cytotoxicity of the spleen cells or the purified CD(8)(+) T-cells against LLC cells in the mice immunized with either the autologous or allogeneic cancer cell vaccine was significantly increased, relative to that of the control, untreated group (p<0.05). ELISPOT IFN-gamma assays showed that spleen cells from mice immunized with LA795 cells could be activated after coculture with irradiated LLC cells. In addition, the serum level of Th1-king cytokine IFN-gamma significantly increased after vaccination; however, no statistically difference was found in Th2-kind cytokine IL-4. CONCLUSIONS: The allogeneic cancer vaccine could induce immune responses and protection against lung cancer, which had no significant difference with that of autologous vaccine.     

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.     

Generation and Characterization of Lymphokine-activated Killer Cells against Fresh Human Leukemia Cells

Lymphokine-activated killer (LAK) cells generated from 15 acute leukemia patients in remission showed significant levels of cytotoxicity against Daudi 1A4, a natural killer-resistant cell line. This indicates that lymphocytes of leukemia patients in remission could respond to interleukin-2 to generate conventional LAK cells. However, LAK cells caused lysis of autologous leukemia cells at considerably lower levels in seven out of the 15 patients, with the exception of one case (48.6% cytolysis). None of the remaining eight patients exhibited LAK activity against autologous leukemia cells. On the other hand, patients' LAK could lyse allogeneic leukemia cells including those resistant to autologous LAK. Thus, patients' LAK seem not to be defective in lysis of leukemia cells. In the cold target competition analysis, the binding of patients' LAK to leukemia cells could be inhibited by autologous and allogeneic leukemia cell competitors, implying that almost all leukemia cells could be recognized by patients' LAK. Most LAK cells from normal donors showed significant lysis of allogeneic leukemia cells, but some leukemia cells were found to be resistant to lysis. LAK cells against both leukemia cells and Daudi 1A4 were phenotypically heterogenous, and were predominantly observed in the T3⁻ fraction in the precursor phase. In the effector phase, whereas LAK activity against leukemia cells was also predominantly shown in the T cell-depleted fraction, similar levels of LAK activity against Daudi 1A4 were found in both the T cell-depleted and -enriched fractions.     

Defucosylated anti CC chemokine receptor 4 monoclonal antibody combined with immunomodulatory cytokines: a novel immunotherapy for aggressive/refractory Mycosis fungoides and Sezary syndrome.

PURPOSE: Sézary syndrome (SS) and Mycosis fungoides (MF) in the advanced stage have dismal prognoses. Because CC chemokine receptor 4 (CCR4) has an important role in the skin-homing capacity of MF/SS cells, we postulated that anti-CCR4 monoclonal antibody (mAb) could represent a novel therapeutic agent against aggressive/refractory MF/SS. EXPERIMENTAL DESIGN: The defucosylated next-generation therapeutic mAb KM2760 induces enhanced antibody-dependent cellular cytotoxicity (ADCC). Here, we assessed the therapeutic potential of this antibody against aggressive MF/SS tumor cells in vitro and in animal models in vivo. RESULTS: KM2760 induced robust ADCC by peripheral blood mononuclear cell (PBMC) from healthy controls against a MF/SS cell line as well as against primary tumor cells from patients with aggressive MF/SS. KM2760 also showed significant antitumor activity in disseminated and nondisseminated MF/SS mouse models. In addition, approximately 30% of autologous MF/SS tumor cells were killed in in vitro assays of KM2760-induced ADCC mediated by patients' PBMC after only 4 h, despite the low numbers of natural killer cells present in these PBMCs. It is also shown that ADCC induced by defucosylated therapeutic mAb can be greatly augmented by the immunomodulatory cytokines interleukin-12, IFN-alpha-2b, and IFN-gamma. CONCLUSIONS: The present study has encouraged us in the conducting of a phase I clinical trial of a completely defucosylated anti-CCR4 mAb in patients with CCR4-positive T-cell lymphomas, including aggressive MF/SS (ClinicalTrials.gov identifier: NCT00355472). In the near future, the efficacy not only of defucosylated anti-CCR4 mAb single-agent treatment but also of combination therapy with immunomodulatory cytokines will be clinically established to target aggressive/refractory MF/SS.     

Generation and characterization of lymphokine-activated killer cells against fresh human leukemia cells

Lymphokine-activated killer (LAK) cells generated from 15 acute leukemia patients in remission showed significant levels of cytotoxicity against Daudi 1A4, a natural killer-resistant cell line. This indicates that lymphocytes of leukemia patients in remission could respond to interleukin-2 to generate conventional LAK cells. However, LAK cells caused lysis of autologous leukemia cells at considerably lower levels in seven out of the 15 patients, with the exception of one case (48.6% cytolysis). None of the remaining eight patients exhibited LAK activity against autologous leukemia cells. On the other hand, patients' LAK could lyse allogeneic leukemia cells including those resistant to autologous LAK. Thus, patients' LAK seem not to be defective in lysis of leukemia cells. In the cold target competition analysis, the binding of patients' LAK to leukemia cells could be inhibited by autologous and allogeneic leukemia cell competitors, implying that almost all leukemia cells could be recognized by patients' LAK. Most LAK cells from normal donors showed significant lysis of allogeneic leukemia cells, but some leukemia cells were found to be resistant to lysis. LAK cells against both leukemia cells and Daudi 1A4 were phenotypically heterogenous, and were predominantly observed in the T3- fraction in the precursor phase. In the effector phase, whereas LAK activity against leukemia cells was also predominantly shown in the T cell-depleted fraction, similar levels of LAK activity against Daudi 1A4 were found in both the T cell-depleted and -enriched fractions.     

Specificity of auto-tumor cytotoxicity exerted by fresh, activated and propagated human T lymphocytes

The specificity of auto-tumor cytotoxicity exerted by patients' T lymphocytes was investigated. Lymphocytes, both activated and non-activated, were used as effectors against freshly separated tumor cells. Activation was achieved by treatment with interferon (Hu-IFN-alphas), stimulation with PHA, co-cultivation with autologous tumor biopsy cells (ATS) and allogeneic lymphocytes (MLC). Of these activation systems, ATS was the most efficient in generating auto-tumor cytotoxicity. In some cases the lymphocytes activated in MLC or treated with PHA also damaged autologous tumor cells, but IFN-pretreatment of the lymphocytes had no such effect. When the ATS- or MLC-activated lymphocytes were propagated with conditioned medium known to contain Interleukin-2, their lytic potential against autologous tumors was maintained. In addition to autologous tumor biopsy cells, the effector populations were also confronted with other targets such as Con A blasts and allogeneic tumor biopsy cells. The latter were lysed by the lymphocytes activated in MLC, but not by the ATS cultures. Thus, on the population level, the ATS was specific for the autologous tumor cells. Cold target competition tests suggested that in the MLC-s the autologous tumor cells were killed by a distinct set of lymphocytes because allogeneic cells (tumor cells or the stimulator lymphocytes), even if killed by the same effector populations, did not compete. Thus, in these cultures the auto-tumor specificity of the lysis was on the level of the effector subset. Therefore, it is likely that, independently of the mode of activation, the auto-tumor lysis is the function of lymphocytes which recognize tumor- or organ-specific antigens on the target 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.     

Allogeneic tumor cells expressing fusogenic membrane glycoproteins as a platform for clinical cancer immunotherapy.

PURPOSE: Fusogenic membrane glycoproteins (FMG), such as the vesicular stomatitis virus G glycoprotein (VSV-G), represent a new class of gene therapy for cancer that cause cytotoxic fusion on expression in tumor cells. In addition, FMG-mediated tumor cell death stimulates antitumor immunity, suggesting potential applications for FMG-expressing cellular vaccines. This study addresses the promise of FMG-expressing allogeneic tumor cells, which are most practical for clinical use, as a novel platform for ex vivo and in situ vaccination. EXPERIMENTAL DESIGN: Murine B16 melanoma-derived cell lines expressing autologous or allogeneic MHC class I, expressing fusogenic or nonfusogenic VSV-G, were used to vaccinate mice in vivo against a live tumor challenge. Exosome-like vesicles released by fusing allogeneic cells (syncitiosomes) and intratumoral injection of fusing vaccines were also tested as novel therapeutic strategies for their antitumor effects. RESULTS: Expression of fusogenic VSV-G enhanced the immunogenicity of an allogeneic cellular vaccine, which was more effective than a fusing autologous vaccine. Allogeneic syncitiosomes were only as effective as cellular vaccines when administered with adjuvant, demonstrating that syncitiosomes cannot account entirely for the mechanism of immune priming. Intratumoral injection of FMG-expressing allogeneic cells led to significant tumor regression using both fusogenic or nonfusogenic VSV-G. However, specific priming against tumor-associated antigenic epitopes and protection against secondary rechallenge only occurred if the initial vaccine was competent for cell fusion. CONCLUSIONS: FMG-expressing allogeneic tumor cells are a potent source of antitumor vaccines. Syncitiosomes given with adjuvant and intratumoral injection of fusing cells represent novel strategies well-suited to clinical translation.     

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.     

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.     

Renal cell carcinoma-infiltrating natural killer cells express differential repertoires of activating and inhibitory receptors and are inhibited by specific HLA class I allotypes

Among tumor-infiltrating lymphocytes (TILs) directly isolated from renal cell carcinomas (RCCs), we found substantial numbers of natural killer (NK) cells in most tumor tissues. They could be identified reliably in situ with an antibody directed against the activating receptor (AR) NKp46 that is exclusively expressed by all NK cells. NK-enriched TILs (NK-TILs) showed cytotoxicity against major histocompatibility complex (MHC) class I-negative cell lines. The ability to detect lysis of target cells was dependent on the percentage of NK cells within the TILs, and cytotoxicity was only observed after overnight activation with low-dose interleukin-2 (IL-2). Infiltrating NK cells were found to express various inhibitory receptors (IRs); among these the CD94/NKG2A receptor complex was overrepresented compared to the autologous peripheral blood mononuclear cell (PBMC) population. Other IRs were underrepresented, indicating that NK subpopulations vary in their tumor-infiltrating capacity. IRs expressed by NK-TILs are functional since receptor engagement with MHC class I ligands presented by human leukocyte antigen (HLA)-transfected target cell lines was able to inhibit NK-mediated cytotoxicity. NK-TILs were also able to lyse autologous or allogeneic tumor cell lines in vitro. This activity correlated with low HLA class I surface expression since lysis could be inhibited by interferon (IFN)-gamma-expressing RCC transductants that displayed a higher surface density of HLA class I molecules. Therefore, NK cells infiltrating tumor tissues have an inherent ability to recognize transformed cells, but they require cytokine activation and are sensitive to inhibition by IR ligands.     

体外诱导尤文肉瘤DC疫苗的特异性抗肿瘤免疫鉴定及初步临床应用报告

目的：探讨尤文肉瘤细胞总RNA转染的DC疫苗体外诱导特异性抗肿瘤免疫的能力及临床初步应用的效果。方法：分离尤文肉瘤患者外周血单核细胞体外诱导为DC细胞。Trizol法提取患者尤文肉瘤细胞总RNA,总RNA转染DC并于体外诱导特异性CTL克隆扩增。RT-PCR方法检测肿瘤总RNA加载的DC细胞内EWS-FLI1mRNA的表达。MTT法检测淋巴细胞的增殖和CTL的杀伤活性。在试验成功基础上,将成熟DC疫苗接种患者并测定免疫学OKT值。结果：RT-PCR测定显示尤文肉瘤细胞总RNA转染的DC细胞可以提呈肿瘤特异性抗原,并特异性地表达其特有序列EWS-FLI1。经总RNA转染的DC特异性表面标志及功能相关分子表达均上调,转染后的DC可显著刺激自体T淋巴细胞增殖。诱导的特异性CTL对携带EWS-FLI1抗原的靶细胞的杀伤率显著高于LAK细胞和未经转染的DC。经疫苗免疫的患者血清CD8明显升高（P〈0.05）。结论：尤文肉瘤细胞总RNA转染的DC疫苗可在体外诱导出特异性抗肿瘤免疫,并在临床初步证实可提高尤文肉瘤患者的特异性抗肿瘤免疫力。     

Cetuximab induce antibody-dependent cellular cytotoxicity against EGFR-expressing esophageal squamous cell carcinoma

To evaluate the possibility of treatment with antiepidermal growth factor receptor (EGFR) mAb, Cetuximab against esophageal squamous cell carcinoma (SCC), we performed detail analysis of the antibody-dependent cellular cytotoxicity (ADCC) mediated by Cetuximab against esophageal SCC. Esophageal SCC cell lines with various levels of EGFR (n = 8) were evaluated for their Cetuximab-mediated ADCC by (51)Cr-release assay. As a result, Cetuximab was able to induce ADCC against EGFR-expressing esophageal SCC and the activities reflected the degree of EGFR expression on the esophageal SCC. The activities of Cetuximab-mediated ADCC by patients' PBMC were impaired in comparison with those by healthy donors' PBMC. Moreover, the inhibition of transforming growth factor (TGF)-beta could enhance Cetuximab-mediated ADCC against TGF-beta-producing SCC. In conclusion, Cetuximab was able to induce ADCC against EGFR-expressing esophageal SCC. Some modalities aiming at enhancing the Cetuximab-mediated ADCC may be necessary for successful Cetuximab treatment of patients with esophageal SCC.     

Dendritic cells fused with allogeneic breast cancer cell line induce tumor antigen-specific CTL responses against autologous breast cancer cells

Dendritic cell (DC)/tumor cell fusion vaccine has been revealed as a promising tool for the antitumor immunotherapy. Previous research has shown that fusion hybrids of human DCs and autologous tumor cells can induce cytotoxic T lymphocyte (CTL) responses against autologous tumor cells in animal models and human clinical trials. However, a major restriction factor for the clinical use is the difficulty for preparation of sufficient amount of autologous tumor cells especially for the patients with metastasis cancer whose primary tumor lesion is not clear or has been resected. In this study, allogeneic breast cancer cell line MCF-7 cells were electrofused to autologous DCs from patient with breast cancer as a strategy to deliver shared breast cancer antigens to DCs. Fusion cells generated by autologous DCs and allogeneic MCF-7 were able to induce autologous T lymphocytes proliferation, high levels of IFN-gamma production and CTL responses. CTLs induced by DCs/allogeneic MCF-7 fusion cells were able to kill autologous breast cancer cells in an antigen specific and HLA restriction manner. Our study may provide the experiment basis for the use of allogeneic breast cancer cell line in the DC/tumor cell fusion cell vaccination strategy.     

树突状细胞与肾癌融合细胞疫苗诱导抗肿瘤免疫

目的探讨自体树突状细胞(DC)与肾癌融合细胞疫苗诱导特异性抗肿瘤免疫应答。方法利用肿瘤细胞纯化技术,从手术切除的肾癌组织中分离出高纯度的肾癌细胞,用10%胎牛血清(FCS)的RPMI-1640进行原代培养。分离外周血单核细胞(PBMCs),在含重组人粒细胞-巨噬细胞集落刺激因子(rhGM-CSF)和白细胞介素4(rhIL-4)的培养条件下,诱导分化为DC。用细胞融合技术将DC与肾癌细胞融合制备DC与肾癌融合细胞疫苗。用流式细胞仪检测肾癌细胞、DC和融合细胞的表型;用噻唑盐(MTT)比色法检测融合细胞刺激自体T细胞的增殖能力,乳酸脱氢酶(LDH)释放的细胞毒实验检测融合细胞刺激的细胞毒性T淋巴细胞(CTLs)的杀瘤活性。结果DC高表达主要组织相融性复合体(MHC)Ⅰ类分子、MHCⅡ类分子和共刺激分子(CD86,CD80);原代肾癌细胞高表达一种高分子量的糖蛋白(MUC-1);自体DC与肾癌融合细胞疫苗同时表达肾癌细胞和DC细胞的表面抗原,并能有效刺激自体T细胞增殖,诱导产生的CTLs对自体肾癌细胞具有显著的杀伤活性。结论自体DC与肾癌融合细胞疫苗能诱导特异性抗自体肾癌细胞的免疫应答,为自体DC与肾癌融合细胞疫苗在治疗肾癌的临床应用中提供了实验依据。     

Interleukin-2-stimulated natural killer activity against malignant and benign endometrium

Natural cell-mediated immunity against autologous tumor cells, autologous endometrial epithelium, and allogeneic epidermoid carcinoma cell line HeLa was tested in 8 patients with endometrial carcinoma and one patient with endometrial stromal sarcoma. The average cytotoxicity of unstimulated peripheral blood lymphocytes against autologous tumor and HeLa cells was weak but significant. Pretreatment of effector cells for 3-5 days with 300 U/ml recombinant interleukin-2 (rIL-2) resulted in increased cytotoxicity against malignant target cells in 7 out of 9 cases. The 2 patients' effector cells which were refractory to rIL-2 could be stimulated to appreciable lytic activity against the malignant target cells with a recently described cytokine which induces morphological differentiation of natural killer cells. Benign endometrial cells were weakly sensitive to rIL-2-activated lysis in 2 cases. The precursors of the rIL-2-activated killer cells were mostly CD16-positive and CD3-negative, and co-sedimented with endogenous natural killer cells in discontinuous density gradient centrifugations. These results indicate the rIL-2-activated killer cells have a capacity to distinguish between normal and malignant endometrial cells, and that the precursors of the lytic cells in this system belong to the same subpopulation of lymphocytes as endogenous natural killer cells. In addition, rIL-2 alone may not in all cases be sufficient for optimal generation of cytotoxicity against malignant cells.     

Human cytotoxic T cells specific for autologous melanoma cells: successful generation from lymph node cells in seven consecutive cases

Human T-cell populations specifically cytotoxic for autologous melanoma cells have been successfully generated from lymph node cells obtained from seven consecutive patients. The lymph node cells were stimulated in vitro with autologous irradiated melanoma cells; stimulation was repeated every 10-15 days at a tumor cell-to-lymphocyte ratio of approximately 1:20. Cytotoxic activity was assessed by a 4-hour 51Cr release assay. Mean lysis of autologous tumor cells was 47% at an effector-to-target cell ratio of 20:1, while mean lyses of the human myeloid leukemia cell line K562, allogeneic melanoma cells, and an osteosarcoma cell were 20%, 13%, and 11%, respectively. There was no lysis of autologous fibroblasts, fresh lymphocytes, or phytohemagglutinin-stimulated blasts. Three grades of specificity developed sequentially. In grade I, lysis of autologous tumor cells exceeded lysis of allogeneic tumor cells but did not exceed lysis of K562 cells. In grade II, lysis of autologous tumor cells exceeded lysis of K562 cells and all allogeneic tumor cells tested. In grade III, potent lysis of autologous tumor cells (greater than 40%) exceeded lysis of K562 cells and of all allogeneic tumor cells tested. All seven lymphocyte populations reached or exceeded grade I. Six reached or exceeded grade II. Two progressed to grade III. The generated cells were T cells, as determined by phenotypic analysis with flow cytometry. CD4+ cells and CD8+ cells accounted for 83%-100% of the cells. CD8+ T cells were separated from CD4+ T cells by panning with OKT8 and OKT4 antibodies. The resulting CD8-enriched and CD4-enriched populations were compared as effectors in cytotoxicity assays. The results suggest that the cell responsible for lysis of autologous tumor cells is CD8+. The methods used in this study have repeatedly resulted in the successful generation of cytotoxic T lymphocytes specifically cytotoxic for autologous melanoma cells; it is suggested that these cells have potential application for adoptive immunotherapy of melanoma.