CD20 antibody (C2B8)-induced apoptosis of lymphoma cells promotes phagocytosis by dendritic cells and cross-priming of CD8+ cytotoxic T cells.

C2B8 (Rituximab, MabThera) is a chimeric mouse/human monoclonal antibody (mAb) directed against the human B cell-restricted cell surface antigen CD20 which is used as an alternative medication in the treatment of B cell non-Hodgkin lymphomas (NHL). Treatment of CD20+ B cells with C2B8 triggers different cell damaging effects including complement-dependent lysis of tumor cells, antibody-dependent cellular cytotoxicity and induction of apoptosis. Dendritic cells (DC) have recently been shown to ingest cell debris and to present associated antigens even on MHC class I molecules, a mechanism called cross-presentation. In this study, we investigated whether C2B8 treatment of lymphoma promotes the induction of CD8+ T cell responses against lymphoma cell-associated antigens via, cross-presentation. We used Daudi lymphoma cells as a model system in our studies and could demonstrate, that C2B8-treated Daudi cells undergo apoptosis, are phagocytosed by DC and induce in DC typical features of maturation; among them, the induction of CD83 expression as well as the up-regulation of prominent accessory molecules (CD40, CD86) and MHC molecules. Importantly, upon co-culture of such lymphoma cell-pulsed DC with autologous T cells, we could induce efficient cytotoxic T cell (CTL) responses against Daudi cell-associated antigens. These findings suggest that antibody treatment of tumor cells can, in addition to its direct cell damaging effects, under certain conditions, contribute to an induction of potentially protective cytotoxic T cell responses.     

Enhanced tumor immunogenicity through coupling cytokine expression with antigen presentation

The density of tumor antigen in conjunction with major histocompatibility complex (MHC) class I molecules on the cell surface affects cytotoxic T cell (CTL) function in an active antitumor immune response. Thus, methods to enhance antigen expression/presentation could augment the effect of cancer immune therapy. In the present study, we investigated the feasibility of modifying a cytokine signal peptide with a tumor antigenic epitope. We inserted the genes encoding the MHC class I-restricted antigenic epitope of chicken ovalbumin and tyrosinase-related protein 2 into the signal sequence of the interleukin-2 gene, replacing part of the signal sequence at different positions. Our results showed that these modified signal peptides still functioned, as indicated by cytokine secretion. The antigenic epitope within the modified signal peptide could be processed properly and presented on tumor cell surface. Tumor cells demonstrated enhanced immunogenicity as indicated by increased susceptibility to CTL lysis in vitro and decreased tumor grow in vivo after gene modification. These data provide potential perspectives in designing therapeutic or vaccine strategies in immuno-gene therapy of cancer.     

Peripheral T cells of patients with B cell non-Hodgkin's lymphoma show a shift in their memory status

BACKGROUND: Tumor-infiltrating T cells have a positive influence on the clinical course of B cell non-Hodgkin's lymphoma (NHL). T cells in the peripheral blood of patients with B cell NHL, however, have so far rarely been examined. METHODS: Using flow cytometry we examined lymphocyte subpopulations and numbers of na?ve/memory T cell subtypes among peripheral T cells of patients with B cell NHL (N=22), patients with metastasized solid tumors (N=27), and healthy controls (N=20). In addition, we analyzed the intracellular content of effector molecules granzyme B and perforin and expression of the T cell receptor zeta chain. RESULTS: We observed increased percentages of potentially highly cytotoxic CD8+CD56+ T cells in the peripheral blood of patients with NHL. Both, patients with NHL and patients with solid tumors showed a much higher expression of the chemokine receptors CCR4 and CCR5 on their T cells than healthy controls, suggesting a polarization of their T cells following stimulation with antigen and/or cytokines in vivo. Furthermore, patients with B cell NHL and patients with solid tumors had far lower percentages of na?ve CD45RA+CCR7+ T cells than healthy controls and, in the case of CD4+ T cells, patients with solid tumors. In contrast, patients with B cell NHL showed markedly increased levels of memory effector CD45RA-CCR7- CD4(+) T cells when compared to healthy controls and patients with metastasized solid tumors. Patients with NHL also showed elevated levels granzyme B within CD8(+) T cells, indicating that the increase in memory effector cells was of functional relevance. CONCLUSIONS: These findings indicate a marked shift in the composition of peripheral T cells of patients with B cell NHL from na?ve to memory effector-type cells.     

Two mechanisms for tumor evasion of preexisting cytotoxic T-cell responses: lessons from recurrent tumors.

Tumors evade host immunity at both the induction and effector phases Most studies have focused on tumor evasion at the induction phase, and, due in part to poor antitumor CTL responses to most tumors, the mechanism for evasion of CTL effector function is less clear. Here we have taken advantage of the strong CTL responses to a costimulator B7-1-transfected tumor to study the mechanism for tumor evasion of preexisting host immunity. We have investigated six independent recurrent tumors isolated from mice that were challenged with and had rejected B7-1-transfected J558 (J558-B7) tumors. Because the mice had developed strong antitumor CTL responses, these recurrent tumors must have evaded preexisting antitumor CTLs. Indeed, whereas the parental J558-B7 cell line is efficiently lysed by the ex vivo tumor-infiltrating lymphocytes, all of the recurrent tumors are resistant to such lysis. Interestingly, the recurrent tumors can be divided into two groups. The group 1 tumors have vastly reduced levels of cell surface MHC class I with a concurrent reduction in the expression of multiple genes devoted to MHC class I antigen presentation. In contrast, the group 2 tumors have lost the expression of costimulatory molecule B7-1 while retaining cell surface MHC class I and expression of all antigen presentation genes studied. These results demonstrate that tumors can evade preexisting CTLs either by avoiding presentation of the tumor antigen or, surprisingly, by down-regulation of costimulatory molecules. The paradoxical requirements of both antigen and costimulatory molecules at the effector phase raised an interesting question on the nature of antitumor immunity.     

Resistance to lysis by cytotoxic T cells: a dominant effect in metastatic mouse prostate cancer cells

Better understanding of the immunology of prostate cancer is needed for the development of new therapeutic approaches that can be used in conjunction with current treatment methods. The present study was designed to compare the immunological properties of a genetically matched pair of primary tumor- and metastasis-derived prostate cancer cell lines generated from the mouse prostate reconstitution (MPR) model. Only the primary prostate cancer cells were immunogenic in that prior immunization with irradiated primary but not the metastatic prostate cancer cells delayed the growth of subsequently injected live cancer cells. The lack of immunogenicity of the metastatic cells was not attributable to their inability to induce antitumor cytotoxic T cells. Both primary and metastatic cells induced antitumor CTLs in syngeneic hosts, but unlike the primary cells, the metastatic cells were resistant to CTL lysis. Differential resistance to cytolysis in metastatic versus primary prostate cancer cells was not attributable to the differential expression of molecules such as transporter associated with antigen processing (TAP)-1, TAP-2, low molecular weight protein of the proteasome complex (LMP)-2, and LMP-7 that contribute to antigen presentation by class I MHC. IFN-gamma induced surface class I MHC expression, as well as gene expression of TAP-1, TAP-2, LMP-2, and LMP-7 in the metastatic cells, yet the cells remained resistant to cell lysis induced by CTLs. Interestingly, although in comparison to the primary cells the metastatic cells were resistant to cytolysis, both cell types were susceptible to DNA fragmentation induced by CTLs. Cell fusion between primary and metastatic cancer cells resulted in hybrids that also resisted the cytolytic activity of CTLs. Therefore, there is a dominant factor(s) in the metastatic prostate cancer cells that confers specific protection against CTL cytolysis in this model system.     

Effect of tetravalent bispecific CD19xCD3 recombinant antibody construct and CD28 costimulation on lysis of malignant B cells from patients with chronic lymphocytic leukemia by autologous T cells

To develop an effective antitumor immunotherapy for B-lineage non-Hodgkin's lymphoma, we constructed a tetravalent tandem diabody (tanDb) specific for both human CD19 (B-cell marker) and CD3 (T-cell antigen). Here, we report the effective killing of malignant primary B cells from patients with B-cell chronic lymphocytic leukemia (B-CLL) by autologous T cells induced by tanDb at very low E:T ratios. Mononuclear cells from patients with B-CLL were cultured with bispecific antibody fragments in either the presence or absence of monospecific anti-CD28 antibody. Use of tetravalent tanDbs caused almost quantitative elimination of malignant B cells from the blood samples of 19 patients and some cytotoxic activity in 3 of 23 analyzed cases. In contrast, the structurally similar but bivalent diabody and single-chain diabody demonstrated nearly no antitumor activity in an autologous system. tanDb-induced activation and proliferation of T cells occurred only in the presence of CD19+ target cells. Expression of the B7-1 (CD80) and B7-2 (CD86) molecules on the surface of leukemia cells made unnecessary the additional CD28-costimulation of T cells. When only a few tanDb molecules were present, the effect of CD28 costimulation on T-cell activation was more pronounced. Depending on the patient sample, we observed a 10- to 1,000-fold decrease of the half-maximal concentrations of tanDb for cell lysis. Upon CD28 crosslinking by agonistic MAb, specific tumor cell lysis was found at tanDb concentrations as low as 0.5 pM. These data demonstrate that the tetravalent CD19xCD3 tanDb might be a promising tool for the immunotherapy of human B-cell leukemias and lymphomas.     

The shared tumor associated antigen cyclin‐A2 is recognized by high‐avidity T‐cells

Cyclin‐A2, a key cell cycle regulator, has been shown to be overexpressed in various types of malignancies with little expression in normal tissue. Such tumor‐associated genes potentially are useful targets for cancer immunotherapy. However, high‐avidity cyclin‐specific T cells are considered to be thymically deleted. We identified at least one nonameric HLA‐A*0201 binding cyclin‐A2 epitope by a reverse immunology approach. Using a highly efficient T‐cell expansion system that is based on CD40‐activated B (CD40‐B) cells as sole antigen‐presenting cells we successfully generated cyclin‐A2 specific CTL from HLA‐A*0201⁺ donors. Interestingly, high‐avidity cyclin‐A2 specific CTL lines, which recognized peptide‐pulsed and antigen expressing target cells, were indeed generated by stimulation with CD40‐B cells when pulsed with low concentrations of peptide, whereas CD40‐B cells pulsed at saturating concentrations could only induce low‐avidity CTL, which recognized peptide‐pulsed target cells only. One high‐avidity CTL line was subcloned and CTL clones, whose peptide concentration required for half‐maximal lysis were less than 1 nM, could lyse cyclin‐A2 expressing tumor cells. Taken together, cyclin A2 is an attractive candidate for immune intervention in a significant number of cancer patients and high‐avidity T cells can be readily generated using CD40‐B cells as antigen‐presenting cells. © 2009 UICC     

CD1d-restricted T cells license B cells to generate long-lasting cytotoxic antitumor immunity in vivo

Although resting B cells are known for being poorly immunogenic and for inducing T-cell tolerance, we have here attempted to test whether their immunogenicity could be enhanced by CD1d-restricted invariant T cells (iNKT) to a point where they could be used in cellular vaccines. We found that the addition of the iNKT ligand alpha-galactosylceramide (alphaGalCer) to peptide-loaded B cells overcame peptide-specific T-cell unresponsiveness and allowed for the generation of peptide-specific memory CTL immunity. This CTL was induced independently of CD4 T and natural killer cells but required iNKT and CD8 T cells. B cells directly primed CTL, and the alphaGalCer and the peptide must be presented on the same cell. Importantly, our B-cell-based vaccine is comparable in efficiency with dendritic cell-based vaccines, inducing similar CTL responses as well as providing an effective regimen for preventing and suppressing s.c. and metastatic tumors. Therefore, with the help of iNKT, peptide-pulsed B cells can establish long-lasting antitumor immunity and so show promise as the basis for an alternative cell-based vaccine.     

Presentation of renal tumor antigens by human dendritic cells activates tumor-infiltrating lymphocytes against autologous tumor: implications for live kidney cancer vaccines.

The clinical impact of dendritic cells (DCs) in the treatment of human cancer depends on their unique role as the most potent antigen-presenting cells that are capable of priming an antitumor T-cell response. Here, we demonstrate that functional DCs can be generated from peripheral blood of patients with metastatic renal cell carcinoma (RCC) by culture of monocytes/macrophages (CD14+) in autologous serum containing medium (RPMI) in the presence of granulocyte macrophage colony-stimulating factor and interleukin (IL) 4. For testing the capability of RCC-antigen uptake and processing, we loaded these DCs with autologous tumor lysate (TuLy) using liposomes, after which cytometric analysis of the DCs revealed a markedly increased expression of HLA class I antigen and a persistent high expression of class II. The immunogenicity of DC-TuLy was further tested in cultures of renal tumor infiltrating lymphocytes (TILs) cultured in low-dose IL-2 (20 Biologic Response Modifier Program units/ml). A synergistic effect of DC-TuLy and IL-2 in stimulating a T cell-dependent immune response was demonstrated by: (a) the increase of growth expansion of TILs (9.4-14.3-fold; day 21); (b) the up-regulation of the CD3+ CD56- TcR+ (both CD4+ and CD8+) cell population; (c) the augmentation of T cell-restricted autologous tumor lysis; and (d) the enhancement of IFN-gamma, tumor necrosis factor-alpha, granulocyte macrophage colony-stimulating factor, and IL-6 mRNA expression by TILs. Taken together, these data implicate that DC-TuLy can activate immunosuppressed TIL via an induction of enhanced antitumor CTL responses associated with production of Thl cells. This indicates a potential role of DC-TuLy vaccines for induction of active immunity in patients with advanced RCC.     

Amplification of the lytic potential of effector/memory CD8+ cells by vector-based enhancement of ICAM-1 (CD54) in target cells: implications for intratumoral vaccine therapy

We demonstrated that enhanced expression of the costimulatory molecules CD80, CD54 and CD48 (designated rF-TRICOM) on target cells, as delivered via a recombinant fowlpox vector, results in an increased state of stimulation of CD8+ T cells, and consequent increased lysis of target cells. CTL studies in conjunction with antibody-blocking studies demonstrated that the enhanced effector activity of these CD8+ T cells is mediated mainly through CD54. Intracellular staining of CD8+ cells that interact with target cells infected with rF-TRICOM showed that they contain higher amounts of perforin and have a higher level of perforin message. Enhanced expression of costimulatory molecules (specifically CD54) on target cells using rF-TRICOM vectors also leads to the formation of stable conjugates/synapses between targets and T cells. The interaction of T cells with target cells that overexpress costimulatory molecules upon infection with rF-TRICOM leads to enhanced signaling through Lck, ZAP70, and STAT-1 in CD8+ T cells and heightened lytic activity of CD8+ cells through the formation of a greater number of immunological synapses. This, in turn, leads to enhanced signaling in T cells. Finally, studies were conducted in mice in which CEA is a self-antigen in an attempt to understand the potential clinical relevancy of intratumoral vaccine therapy. Mice were transplanted subcutaneously with CEA expressing tumors. Intratumoral (i.t.) vaccination was administered 8 days post tumor transplant. Mice vaccinated i.t. with rF-TRICOM demonstrated significantly reduced tumor growth and 40% of the mice had complete tumor regression. The antitumor effects were further improved by the addition of tumor antigen (CEA) in the vaccination by utilizing rF-CEA/TRICOM, with 80% of the mice experiencing complete tumor regression. These studies thus support the concept of intratumoral vaccination employing vectors expressing costimulatory molecules.     

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.     

Gamma-irradiation suppresses T-cell mediated protective immunity against a metastatic tumor in the afferent phase of the immune-response but enhances it in the efferent phase when given before immune cell transfer

Using a metastasizing animal tumor as a model we describe experimental conditions for obtaining either synergistic or antagonistic effects between host irradiation and T cell mediated antitumor immunity. The results were obtained in the well defined murine lymphoma ESb which is a spontaneous highly metastatic tumor variant expressing a tumor associated antigen that can induce protective immunity and tumor specific cytotoxic T lymphocyte (CTL) activity. Sublethal irradiation of mice during the afferent (induction) phase but not during the efferent (effector) phase of the antitumor immune response had a strong suppressive effect on protective immunity. The radiation mediated defect could be reconstituted by transfer of immune spleen cells. The immune system of syngeneic (DBA/2) and allogeneic (B10.D2) mice changed within 24 h after first contact with the ESb tumor cells from radio-sensitivity to radio-resistance possibly reflecting an active cellular response associated with the change from virgin to an antigen sensitized (primed) state of T lymphocyte differentiation. T cell depletion experiments revealed that the afferent phase was dependent on both CD4 and CD8 host T lymphocytes while the efferent phase was mainly CD8 T cell dependent. A synergistic effect between gamma-irradiation and antitumor immunity was observed in adoptive immunotherapy experiments. When tumor-bearing hosts were irradiated before intravenous transfer of either syngeneic or allogeneic antitumor immune T cells the expression of anti-metastatic protective immunity was greatly enhanced in comparison to identically treated non-irradiated hosts.     

B7+ T cells in myeloma: an acquired marker of prior chronic antigen presentation

Murine T cells do not endogenously upregulate CD80 expression but rather acquire CD80 from antigen presenting cells (APC) during CD28 ligation. Murine CD80+ memory T cells undergo apoptosis in the presence of high levels of antigen while naive CD80+ T cells are capable of acting as APC and T cell:T cell ligation induces anergy and unresponsiveness to antigen rechallenge. Reversing T cell unresponsiveness may be a key factor in the development of immunotherapy strategies for patients with myeloma. We have determined that B7+ T cells (CD80+ or CD86+) are common in patients with myeloma (n = 45), can be either CD4 or CD8, tend to be associated with stable disease and are polyclonal memory T cells (CD45RO). CD80 mRNA expression was present in CD80+ monocytes but not in CD3+ cells with a similar level of CD80 antigen expression. CD80 and CD86 antigen expression was upregulated on B cells but not T cells during incubation with trimeric human CD40 ligand (huCD40LT) + IL-2. Although there was a gradual loss of expression during in vitro culture, CD80+ T cells could be purified for further study. We conclude that B7 expression is common on T cells of patients with myeloma but that this is acquired rather than endogenously produced. B7+ CD45RO+ T cells constitute a population of memory T cells chronically exposed to antigen and warrant further study.     

RNA-electroporated CD40-activated B cells induce functional T-cell responses against HepG2 cells

Hepatocellular carcinoma (HCC) is one of the incurable tumours in the world. Cell-based immunotherapy, in which antigen-loaded antigen-presenting cells (APCs) are able to elicit T cell responses, has become an alternative treatment for liver cancer. Here, we used HepG2 cells' total RNA-electroporated CD40 ligand-activated B (CD40-B) cells as alternative APC for induction of specific CD8⁺ T-cell responses. The antigen-presenting ability of CD40-B cells was determined by phenotypic analysis, showing a polyclonal, strongly activated B-cell population with high expression of co-stimulatory molecules. To demonstrate the ability of total RNA extracted from HepG2 cells electroporated CD40-B cells to induce CD8⁺ T-cell responses, these RNA-loaded cells were co-cultured with autologous peripheral blood mononuclear cells for 7 days followed by analysis of T-cell antigen specificity. These experiments showed that CD40-B cells electroporated with HepG2 cells' total RNA are capable of activating antigen-specific interferon-γ-producing CD8⁺ T cells, and these T cells activated by CD40-B cells show a killing effect on HepG2 cells. These findings demonstrated that the carcinoma cell derived total RNA-electroporated CD40-B cells could be used as alternative APC for the induction of antigen-specific CD8⁺ T-cell responses, which might be used in HCC immunotherapy.     

CD40 activation of carcinoma cells increases expression of adhesion and major histocompatibility molecules but fails to induce either CD80/CD86 expression or T cell alloreactivity

A major obstacle for the development of cancer immunotherapy is the poor capacity of most tumor cells to present antigen. It has previously been shown that ligation of CD40 on the surface of malignant B cells results in the induction of efficient antigen presentation primarily because of upregulated expression of MHC, costimulatory, and adhesion molecules. Ongoing clinical trials are testing the impact of CD40 ligation as immunotherapy for B cell malignancies. Because CD40 is also widely expressed in carcinomas, we studied whether CD40 activation of these cells using soluble recombinant trimeric human CD40 ligand (srhCD40L) can also induce T cell responses. Here, we show that carcinoma cells upregulate expression of CD54 and MHC molecules following in vitro exposure to srhCD40L but do not upregulate CD80 or CD86. CD40-activated carcinoma cells failed to trigger mixed lymphocyte reactions, in sharp contrast to CD40-activated lymphoma cells for which CD40 activation, as expected, resulted in increased expression of MHC, adhesion, and costimulatory molecules, and generated brisk allogeneic lymphocyte reactions. Retroviral-mediated expression of CD80 in carcinoma cells, with or without CD40 activation, triggered mixed lymphocyte reactions, provided cells were treated with IFN-gamma. Thus, the cell surface phenotype induced on carcinoma cells following CD40 activation is not fully capable of inducing T cell proliferation; however, these results support ongoing efforts to exploit costimulation in clinical efforts aimed at increasing carcinoma immunogenicity.     

Generation of diverse mutated tumor antigen-specific cytotoxic T lymphocytes in a lung cancer patient with long survival

We have identified an antigen recognized on a large cell carcinoma of the lung by tumor-specific cytotoxic T lymphocytes (CTL). The antigenic peptide is encoded by a mutated alpha-actinin-4 gene and presented by human leukocyte antigen (HLA)-A2. Using HLA-A2-peptide tetramers, we have derived from patient peripheral blood lymphocytes (PBL) and autologous tumor infiltrating lymphocytes (TIL) several mutated alpha-actinin-4-specific T cell clones. These clones displayed similar tetramer staining but distinct T cell receptor (TCR) usage and antitumor reactivity. Indeed, TIL clones lysed more efficiently the autologous tumor cells and released higher cytokine levels than PBL clones. Importantly, treatment of cancer cells with interferon-gamma enhanced their susceptibility to PBL clone-mediated lysis correlated with increase in HLA-class I expression. The present findings provide evidence that an immune T cell response took place in a lung cancer patient with favorable clinical evolution and suggest that CTL, recognizing a truly tumor-specific antigen, may contribute to controlling the tumor.     

Two antigens recognized by autologous cytolytic T lymphocytes on a melanoma result from a single point mutation in an essential housekeeping gene

We have pursued our analysis of antigens recognized by autologous cytolytic T lymphocytes (CTLs) on the melanoma cells of patient LB33. This patient enjoys an unusually favorable evolution, which is associated with a strong and sustained antitumor CTL response. We reported previously the analysis of two melanoma cell lines, MEL.A and MEL.B, which were derived from metastases removed from the patient at 5 years' distance. Autologous CTL clones derived from blood lymphocytes recognized several antigens presented by different HLA class I molecules on MEL.A. The MEL.B cells resisted lysis by these CTLs because they have lost expression of most HLA molecules, suggesting that they were selected in vivo by the anti-MEL.A CTL response. One of the MEL.A antigens was shown to result from a point mutation in the tumor. Here we report the cloning of a gene that encodes two other MEL.A antigens. This new gene, MUM-2, is expressed ubiquitously. In the melanoma cells of patient LB33, it contains a point mutation that changes one amino acid in the translated protein. Two different antigenic peptides, one presented to CTL by HLA-B44 molecules and another by HLA-C6 molecules, overlap and contain the mutated residue. Gene MUM-2 is homologous to an essential yeast gene, bet5, that was recently shown to be implicated in the vesicular transport of proteins from the endoplasmic reticulum to the Golgi. In a mutant yeast with a disrupted bet5 gene, both the wild-type and the mutated MUM-2 genes could complement for bet5 function. These results indicate that the antigenic mutation does not destroy the function of the protein, a function that is conserved in eukaryotic cells. The identification of these antigens suggests that point mutations could be the major cause of the strong immunogenicity of MEL.A cells.     

In vivo rejection of tumor cells dependent on CD8 cells that kill independently of perforin and FasL

Perforin/granzyme B- and Fas/FasL-mediated killing pathways are the main effector mechanisms of CTL and NK cells in antitumor immune responses. In this study, we investigated the relative role of these two lytic mechanisms in protection of the host from tumor progression, as well as spontaneous metastasis, using the D122 Lewis lung carcinoma and its gene-modified cells. Utilizing perforin knockout mice (B6-PKO) and Fas and FasL mutant (B6-MRL and B6-Smn) mice, we found that perforin expression in the host plays a crucial function in the prevention of metastasis. However, local tumor rejection of an H-2K(b) and B7-1 transfectant, 39.5-B7 cells, was not dependent either on perforin or Fas/FasL expression in vivo. In addition, CTL lysis of 39.5-B7 cells was independent of perforin and Fas/FasL interactions in 18-hour in vitro assays. We also confirmed that CD8 T-cells were responsible for rejecting 39.5-B7 local tumors, yet cytokines, TNF-alpha and gammaIFN were not involved in tumor rejection in vivo. Furthermore, blocking assays using caspase inhibitors (zVAD-fmk, zLETD-fmk and zLEHD-fmk) showed that, whereas caspase activation was partially required to induce 39.5-B7 lysis mediated by the perforin-dependent pathway, 39.5-B7 lysis by CTLs through the perforin-independent mechanism required caspase activation. Thus, these results suggested that perforin, Fas/FasL, gammaIFN and TNF-alpha independent lytic mechanisms, mediated by CD8 T cells, have a crucial role in rejection of 39.5-B7 cells in vivo. Caspase activation is a pre requisite for apoptosis of targets by CTLs.     

CD80 transfected human hepatocellular carcinoma cells activate cytotoxic T lymphocytes to target HCC cells with shared tumor antigens

Human HCC cell lines (BEL-7402, SMMC-7721 and QGY-7703) do not express CD80 molecules, although they express MHC class I molecules and ICAM-1. HCC's poor immunogenicity may therefore be due to lack of CD80 molecules. This study first investigated whether CD80 molecules could provide minimal co-stimulatory signal for establishing an efficient anti-tumor immunity in HCC and second, whether the transfection of CD80 into the BEL-7402 cell line could induce T cell activation for targeting other HCC cell lines expressing shared common antigens. The transfection of cDNA encoding CD80 into ICAM-1+ HCC BEL-7402 cells was confirmed by flow cytometrical analysis. The CD80-transfected cells could enhance the immunogenicity of BEL-7402 cells as detected by T cell proliferation assay, and also activated the T cells at a higher proliferation rate comparing with the BEL-7402 cells transfected with vector only. The CD80-transfected cell line was also found able to activate T cells which subsequently induced cell lysis of SMMC-7721, QGY-7703 and parent BEL-7402 cell lines as detected by cytotoxicity assay. It can be concluded that the cytotoxicity was due to MHC class I restricted CD8+ cytotoxic T lymphocytes, but not natural killer (NK) cells, since this cytotoxic effect could be blocked by anti-MHC class I antibody and the cytotoxicity was shown very low in NK-cell-sensitive K562 cell line. Electroporation of CD80 cDNA into human HCC cells could increase the expression of the functional CD80 molecules and enhance the immunogenicity of the genetically-modified HCC cells to activate T cells for targeting 3 HCC cell lines in an HLA-restricted manner.     

Dendritic cells transduced with tumor-associated antigen gene elicit potent therapeutic antitumor immunity: comparison with immunodominant peptide-pulsed DCs

Several studies have shown that vaccine therapy using dendritic cells (DCs) pulsed with specific tumor antigen peptides can effectively induce antitumor immunity. Peptide-pulsed DC therapy is reported to be effective against melanoma, while it is still not sufficient to show the antitumor therapeutic effect against epithelial solid tumors such as gastrointestinal malignancies. Recently, it has been reported that vaccine therapy using DCs transduced with a surrogate tumor antigen gene can elicit a potent therapeutic antitumor immunity. In this study, we investigated the efficacy of vaccine therapy using DCs transduced with the natural tumor antigen in comparison with peptide-pulsed DCs. DCs derived from murine bone marrow were adenovirally transduced with murine endogenous tumor antigen gp70 gene, which is expressed in CT26 cells, or DCs were pulsed with the immunodominant peptide AH-1 derived from gp70. We compared these two cancer vaccines in terms of induction of antigen-specific cytotoxic T lymphocyte (CTL) responses, CD4+ T cell response against tumor cells, migratory capacity of DCs and therapeutic immunity in vivo. The cytotoxic activity of splenocytes against CT26 and Meth-A pulsed with AH-1 in mice immunized with gp70 gene-transduced DCs was higher than that with AH-1-pulsed DCs. CD4+ T cells induced from mice immunized with gp70 gene-transduced DCs produced higher levels of IFN-gamma by stimulation with CT26 than those from mice immunized with AH-1-pulsed DCs (p < 0.0001), and it was suggested that DCs transduced with tumor-associated antigen (TAA) gene induced tumor-specific CD4+ T cells, and those CD4+ T cells played a critical role in the priming phase of the CD8+ T cell response for the induction of CD8+ CTL. Furthermore, DCs adenovirally transduced with TAA gene showed an enhancement of expression of CC chemokine receptor 7 and improved the migratory capacity to draining lymph nodes. In subcutaneous models, the vaccination using gp70 gene-transduced DCs provided a remarkably higher therapeutic efficacy than that using AH-1-pulsed DCs. These results suggested that vaccine therapy using DCs adenovirally transduced with TAA gene can elicit potent antitumor immunity, and may be useful for clinical application.