Natural killer cell-mediated recognition of human trophoblast

Large numbers of natural killer cells are present within the maternal decidua close to the extravillous trophoblast cells. Most of these natural killer cells express high levels of inhibitory NK receptors (KIR) specific for HLA class I molecules. Since trophoblast cells only express HLA-C and HLA-G, the KIR expressed by decidual NK cells can only recognize these HLA class I molecules in order to avoid NK-mediated rejection of fetal tissues. We show that HLA-C recognition by decidual NK cells can be mediated by p58, LIR-1 and (indirectly) by CD94/NKG2A receptors. On the other hand, HLA-G recognition is not only mediated by LIR-1 and (indirectly) by CD94/NKG2A but also by a newly identified receptor termed p49. The p49 receptor, unlike the other KIR, appears to be selectively expressed by decidual NK cells.     

Rejection of mouse melanoma elicited by local secretion of interleukin-2: Implicating macrophages without T cells or natural killer cells in tumor rejection

Tumor cells transduced with cytokine genes provide a model to study host-effector mechanisms involved in tumor rejection. Local IL-2 production within a tumor site mimics a specific helper-T-cell response, bypassing an immunization phase. Growth of mouse B16F10 melanomas transduced with interleukin-2 (IL-2) in syngeneic hosts were significantly delayed. IL-2-producing B16F10 cells were super-transduced with inter-feron-γ to up-regulate expression of major-histocompatibility-complex (MHC) antigens. Expression of class-1- or class-11-MHC molecules did not augment tumor rejection of IL-2-secreting tumor cells. Rejection of IL-2-transduced B16F10 cells in syngeneic mice was unaffected by depletion of CD8⁺ T-cell and NK1.1⁺ natural-killer (NK) cell populations. Tumor rejection occurred in SCID mice even after depletion of NK1.1⁺ cells, confirming that T cells and NK cells were not required for tumor rejection. Histologic examination of sites of tumor rejection showed inflammation, characterized by infiltrates of macrophages, occasional neutrophils, and areas of necrosis. When mice were treated systemically with macrophage-colony-stimulating factor to expand monocyte pools, tumor rejection was significantly augmented further. This study shows that in situ IL-2 production can result in tumor rejection mediated by inflammatory events, possibly involving macrophages, and mimicking a delayed-type hypersensitivity (DTH) response even in the absence of T cells and NK cells. Furthermore, tumor rejection can be enhanced by systemic administration of a cytokine to expand potential inflammatory cell populations. © 1995 Wiley-Liss, Inc.     

Strategies to endow cytotoxic T lymphocytes or natural killer cells with antibody activity against carcinoembryonic antigen.

Cytotoxic T lymphocytes (CTLs) and natural killer (NK) cells are main effecter cells in cellular immunity against tumor cells. T-cell immunotherapy is based on the assumption that tumor(-associated) antigen (TA) peptides are correctly presented by HLA class I molecules on target tumor cells, and NK cell immunotherapy is based on the hypothesis that cell surface TAs or ligands for NK receptors are widely expressed in tumor cells. However, human tumor cells often lose HLA class I molecules, and target cell ligands for NK receptors are not always expressed in human tumor cells. These altered HLA class I phenotypes and non-ubiquitous expression of NK receptor ligands constitute the major tumor escape mechanism facing tumor-specific CTL and/or NK cell mediated responses. These facts also indicate that it is not easy to eliminate the target tumors only by activating tumor-specific CTLs or NK cells with cancer vaccine treatments. On the other hand, it is easily confirmed by immunohistochemistry whether or not antibody-recognized TAs exist on the cell surface of target tumor cells. Therefore, endowing CTLs or NK cells with antigen-binding specificity of anti-TA antibody is a promising approach for re-targeting the activities of these effector cells to tumor cells in an HLA-independent manner. This review summarizes the following four new strategies for re-targeting CTLs or NK cells to carcinoembryonic-antigen-expressing tumor cells: (1) bispecific antibody technology; (2) antibody-cytokine fusion protein technology; (3) chimeric immune receptor technology, and (4) antibody-HLA/peptide complex technology.     

IFN-γ–STAT1-mediated NK2R expression is involved in the induction of antitumor effector CD8+ T cells in vivo

The induction of antitumor effector T cells in the tumor microenvironment is a crucial event for cancer immunotherapy. Neurokinin receptor 2 (NK2R), a G protein-coupled receptor for neurokinin A (NKA), regulates diverse physiological functions. However, the precise role of NKA–NK2R signaling in antitumor immunity is unclear. Here, we found that an IFN-γ–STAT1 cascade augmented NK2R expression in CD8⁺ T cells, and NK2R-mediated NKA signaling was involved in inducing antitumor effector T cells in vivo. The administration of a synthetic analog of double-stranded RNA, polyinosinic–polycytidylic acid (poly I:C), into a liver cancer mouse model induced type I and type II IFNs and significantly suppressed the tumorigenesis of Hepa1-6 liver cancer cells in a STAT1-dependent manner. The reduction in tumor growth was diminished by the depletion of CD8⁺ T cells. IFN-γ stimulation significantly induced NK2R and tachykinin precursor 1 (encodes NKA) gene expression in CD8⁺ T cells. NKA stimulation combined with anti-CD3 monoclonal antibody (mAb) treatment significantly augmented IFN-γ and granzyme B production by CD8⁺ T cells compared with the anti-CD3 mAb alone in vitro. ERK1/2 phosphorylation and IκBα degradation in activated CD8⁺ T cells were suppressed under NK2R deficiency. Finally, we confirmed that tumor growth was significantly increased in NK2R-deficient mice compared with that in wild-type mice, and the antitumor effects of poly I:C were abolished by NK2R absence. These findings suggest that IFN-γ–STAT1-mediated NK2R expression is involved in the induction of antitumor effector T cells in the tumor microenvironment, which contributes to the suppression of cancer cell tumorigenesis in vivo. In this study, we revealed that IFN-γ–STAT1-mediated NK2R expression is involved in the induction of antitumor effector CD8⁺ T cells in the tumor microenvironment, which contributes to suppressing the tumorigenesis of liver cancer cells in vivo.     

Molecular mechanisms of HLA class I antigen abnormalities following viral infection and transformation

In humans as in other animal species, CD8+ cytotoxic T lymphocytes (CTLs) play an important if not the major role in controlling virus-infected and malignant cell growth. The interactions between CD8+ T cells and target cells are mediated by human leukocyte antigen (HLA) class I antigens loaded with viral and tumor antigen-derived peptides along with costimulatory receptor/ligand stimuli. Thus, to escape from CD8+ T-cell recognition and destruction, viruses and tumor cells have developed strategies to inhibit the expression and/or function of HLA class I antigens. In contrast, cells with downregulated MHC class I surface expression can be recognized by NK cells, although NK cell-mediated lysis could be abrogated by the expression of inhibiting NK cell receptors. This review discusses the molecular mechanisms utilized by viruses to inhibit the formation, transport and/or expression of HLA class I antigen/peptide complexes on the cell surface. The knowledge about viral interference with MHC class I antigen presentation is not only crucial to understand the pathogenesis of viral diseases, but contributes also to the design of novel strategies to counteract the escape mechanisms utilized by viruses. These investigations may eventually lead to the development of effective immunotherapies to control viral infections and virus-associated malignant diseases.     

Participation of CD11a-c/CD18, CD2 and RGD-binding receptors in endogenous and interleukin-2-stimulated NK activity of CD3-negative large granular lymphocytes

The effect of RGD-sequence-containing pentapeptides and monoclonal antibodies (MAbs) against the adhesion molecules CD11a-c/CD18, ICAM-1 (CD54) and CD2 on the binding and cytotoxicity of endogenous (freshly purified) and IL-2-stimulated CD3-negative NK cells has been studied. Antibody to CD18 exerted the most significant inhibition of adhesion and cytotoxicity of endogenous NK cells to MOLT-4 lymphoma cells, followed by antibodies to CD2 and CD54. Antibodies to either CD11a, CD11b or CD11c did not inhibit adhesion when used separately, whereas as a mixture their inhibitory capacity was as strong as that of anti-CD18. Antibodies against CD18, CD54 and CD2 exerted an additive effect on the inhibition of adhesion. Their combination eradicated the binding of endogenous NK cells. The RGD-containing peptide did not inhibit the binding or cytotoxicity of freshly purified NK cells to MOLT-4, whereas some inhibition was detected against the adenocarcinoma cell line COLO-205. According to FACS analysis, IL-2 increases the expression of CD2 and CD54 on NK cells. However, the relative contribution of the adhesion molecules to the NK cell binding did not change as a result of the stimulation with IL-2. The RGD-peptide substantially inhibited the binding of IL-2-stimulated killer cells to COLO, and the combination of this peptide with MAbs to CD18, CD54 and CD2 practically blocked the adhesion. Our results indicate that both CD11a-c/CD18- (involving the 3 heterodimers) and CD2-dependent adhesion pathways are used by LGL in endogenous and IL-2 stimulated natural killing. In addition, RGD-binding receptors are involved in adhesion to some target cells.     

Activating NK cell receptor ligands are differentially expressed during progression to cervical cancer

Human papillomavirus-induced cervical carcinomas often show impaired expression of MHC class I molecules resulting in the inability of tumor cells to directly present viral peptides to cytotoxic T lymphocytes. Loss of MHC class I expression combined with the expression of activating NK cell receptor ligands renders tumor cells potentially susceptible to NK cell attack. Thus, in this study, we analyzed the expression of activating NK cell receptor ligands, NK cell accumulation and activation status in situ in normal ectocervical tissue (NCT), cervical intraepithelial neoplasia (CIN) and squamous cervical carcinoma (CxCa). We observed that expression of the DNAM-1 ligand CD155 was frequently upregulated in CxCa, but not in CIN. The NKG2D ligand MICA was upregulated in fewer CxCa biopsies. In contrast, another NKG2D ligand ULBP2 was preferentially expressed in differentiated epithelial cells of NCT. Increased numbers of NK cells were detected in CIN as compared to NCT and CxCa. Expression of activating NK cell receptor ligands combined with loss of MHC class I was not correlated with enhanced NK cell accumulation or activation status. Furthermore, we demonstrate that cervical cancer cell lines are killed by the NK cell line, NKL, in a NKG2D- and DNAM-1-dependent manner in vitro. Since a significant number of CxCa biopsies showed low MHC class I expression combined with high expression of one or more of the tested activating NK cell receptor ligands, we conclude that CxCa might be a promising target for NK cell-based adoptive immunotherapy.     

Tumor-specific peptides in cutaneous T-cell lymphoma: Association with class I major histocompatibility complex and possible derivation from the clonotypic T-cell receptor

We wished to identify and characterize tumor-associated class I peptides which could potentially serve as immunogens for an immunoprotective CD8 response in cutaneous T-cell lymphoma (CTCL). Candidate idiotypic peptides were identified from the third complementarity determining region (CDR3) of the clonotypic T-cell receptor (TCR) expressed on malignant T cells and native class I peptides were identified from CTCL cells. Idiotypic peptides were designed by sequencing of patients' CDR3 and identifying 9 amino acid peptides that could be accommodated in the peptide-binding motif of the class I alleles. Three candidate idiotypic peptides were synthesized and tested by measuring release of tumor necrosis factor-α (TNF-α) from autologous CD8 cells. Native peptides were acid-eluted from class I molecules on CTCL lymphocytes, fractionated, tested in the TNF-α assay and sequenced. Two unique idiotypic peptides were specifically recognized by autologous CD8 cells from CTCL patients. In addition, a native peptide eluted from class I molecules of CTCL tumor cells was identified, in the protein data base, as a novel molecule with partial sequence homology to the conserved portion of the patient's TCR. This homology was used to construct an extended native peptide sequence that was immunogenic for CD8 cells from both CTCL patients. Our results demonstrate that peptides derived from the TCR can be used as tumor-specific immunogens that are recognized by CD8 cells. Moreover, novel class I peptides isolated from the tumor cell also serve as immunogens. These peptides might form the basis of an anti-tumor vaccine for immunotherapy of CTCL. Int. J. Cancer 76:304–311, 1998.© 1998 Wiley-Liss, Inc.     

Lack of MHC class I surface expression on neoplastic cells and poor activation of the secretory pathway of cytotoxic cells in oral squamous cell carcinomas.

Cytotoxic T lymphocytes (CTLs) and natural killer (NK) cells use the secretory pathway of perforin/granzymes to kill their target cells. In contrast to NK cells, CTL responses are MHC class I restricted. In this study we analysed the relative activation of CTL and NK cells in relation with MHC class I expression on oral squamous cell carcinomas (OSCCs). MHC class I expression was investigated in 47 OSCCs by immunohistochemistry using HCA2, HC10 and beta2-m antibodies. The presence of CTLs, NK cells, and its activation, was investigated in 21 of these OSCCs using respectively, CD8, CD57 and GrB7 antibodies. The Q-Prodit measuring system was used for quantification of cytotoxic cells. All OSCCs showed weak or absent staining of beta2-m on the cell surface. The absence of beta2-m was significantly associated with absent expression of MHC class I heavy chain as detected by HC10 antibody (P = 0.004). In tumour infiltrates CTLs always outnumbered NK cells, as reflected by the ratio CD57/CD8 being always inferior to one (mean: 0.19; SD: 0.15). The proportion of activated cytotoxic cells as detected by granzyme B expression was generally low (mean: 8.6%; SD 8.9). A clear correlation between MHC class I expression and the relative proportion of NK cells/CTLs was not found. This study shows that the majority of OSCCs show weak or absent expression of MHC class I molecules on the cell surface, possibly due to alterations in the normal beta2-m pathway. The low proportion of granzyme B-positive CTLs/NK cells indicates that the secretory pathway of cytotoxicity is poor in these patients. The lack of correlation between MHC class I expression and CTL/NK cell activation as detected by granzyme-B expression suggests that, next to poor antigen presentation, also local factors seem to determine the final outcome of the cytotoxic immune response.     

The combined actions of NK and T lymphocytes are necessary to reject an EGFP+ mesenchymal tumor through mechanisms dependent on NKG2D and IFN gamma

Better understanding of the mechanisms that mediate spontaneous immune rejections ought to be important in the quest for improvements in immunotherapy of cancer. A set of intraperitoneal tumors of mesenchymal origin that had been chemically induced in ubiquitously expressing EGFP transgenic mice provided a model in which both T and NK cells were absolutely required for tumor rejection. Tumor cells were traceable because of being fluorescent and readily grafted in RAG1(-/-) immunodeficient mice, whereas they were rejected in a majority of syngeneic C57BL/6 and EGFP-transgenic mice. Tumor-cell clones with the highest EGFP expression tended to be rejected, but a direct involvement of EGFP as the antigen recognized for the immune rejections was ruled out. Rejections were absolutely dependent on NK cells as well as on CD4(+) and CD8(+) T lymphocytes according to selective depletion studies. Furthermore, CD8(+) and CD4(+) T lymphocytes as well as NK cells were detected in the inflammatory infiltrate that mediates tumor rejection along with some DC. The effects of IFN gamma, produced at the tumor site by T and NK lymphocytes, were only required at the malignant cell level and were necessary for tumor eradication. NK recognition of tumor cells was mediated by the NKG2D-activating receptor and blocking its function in vivo partially interfered with rejection. Therefore, complete rejection of these mesenchymal tumors requires a concerted set of activities including direct tumor-cell destruction and IFN gamma production that are mediated by both NK and T cells.     

Novel natural immunogenic peptides from Numb1 and Notch1 proteins for CD8+ cells in ovarian ascites

Notch is a plasma membrane receptor involved in the control of cell fate specification and in the maintenance of the balance between proliferation and differentiation in many cell lineages. Disruption of Notch has been implicated in a variety of hematological and solid cancers. Numb is also expressed in many adult mammalian cells. Adult cells divide symmetrically, and Numb is symmetrically partitioned at mitosis. The Numb-mediated regulation of Notch is believed to play a causative role in naturally occurring breast cancers. Reduction of Numb levels in breast tumors is regulated by proteasomal degradation. We reasoned that if the disregulated negative control of Notch by Numb protein is the consequence of Numb proteasomal degradation, then degradation of Numb can generate peptides which are transported, presented by MHC-I molecules. Surprisingly we found few candidate naturally processed peptides from Notch1, Notch2, and Numb1. CD8+ T cells expressing TCRs which specifically recognized peptides Notch1 (2112-2120) and Numb1 (87-95) were presented in the ascites of ovarian cancer patients. Many of these cells were differentiated and expressed high levels of Perforin. The natural immunogenicity of Notch1 and particularly of Numb1 suggests a mechanism of immunosurveillance which is overcome during tumor progression. Immunotherapy with tumor antigens from Notch and Numb should be important for treatment of cancer patients.     

Development of spontaneous uterine tumors in low molecular mass polypeptide-2 knockout mice.

The presentation of antigenic peptides by MHC class I molecules is important for tumor rejection by CTLs. Such antigenic peptides are generated as a result of the degradation of intracellular proteins by the proteasome pathway, a process that is influenced by the IFN-gamma-inducible low molecular mass polypeptide-2 (LMP2) subunit of the proteasome complex. LMP2 knockout mice thus exhibit a defect in proteasome function. Female LMP2(-/-) mice are now shown to develop uterine neoplasms, with a disease prevalence of approximately 36% by 12 months of age. This observation indicates that proteasome function is essential for MHC class I-mediated tumor rejection by CTLs.     

Expression of mRNA and proteins for toll-like receptors, associated molecules, defensins and LL-37 by SRIK-NKL, a CD8+ NK/T cell line

Natural killer (NK) cells, innate lymphocyte effectors, kill virus-infected host and tumor cells in non-MHC, non-TCR restricted fashion, unlike T cells. The role of NK cells in recognition and killing of pathogens remains unknown. Expression of the ten human pathogen associated molecular pattern or toll-like receptors (TLR's), associated molecules, and antimicrobial peptides alpha, beta defensins, and LL-37 by NK cells has not been investigated previously. We report our CD8+ NK/T cell line SRIK-NKL, derived from leukemic phase of acute lymphoblastic lymphoma, expresses mRNA and protein for 8/10 TLR's, associated proteins for signaling, defensins, cathelicidin/LL-37, and responds to live bacteria by cell proliferation and increased IFN-gamma, TNF-alpha, TNF-beta, and MIP-1alpha production.     

A novel mechanism of antitumor response involving the expansion of CD3+/CD56+ large granular lymphocytes triggered by a tumor-expressed activating ligand.

We describe a patient with acute myeloid leukemia (AML) who developed polyclonal large granular lymphocyte (LGL) proliferation. The reciprocal evolution of AML and LGLs suggested that these LGLs had an anti-tumor activity. The patient's LGLs killed autologous leukemia cells in a different way to classical T lymphocyte-mediated cytotoxicity since it did not rely on the recognition of target antigens presented by major histocompatibility complex (MHC) class I molecules by the CD3/TcRalphabeta complex. This killing was also different from natural killer (NK)-mediated cytotoxicity, which depends on the absence of MHC class I molecule recognition by NK inhibitory receptors. The LGLs were polyclonal, had a CD3+/CD8+/CD56+ phenotype, and did not express the natural killer cell receptors (NKRs) for MHC class I molecules. The LGLs did not express the NK-specific activating natural cytotoxicity receptors but expressed the 2B4 non-MHC restricted triggering receptor, whose ligand CD48 was expressed by leukemic cells and normal bone marrow cells. The 2B4 receptor participated in the ability of LGLs to lyse patient's leukemia. This represents a novel function for 2B4 in man, since this molecule, at variance with the murine system, was considered not to have direct effects on CD8+ T cell-mediated cytotoxicity. This case report allowed us to describe a novel T lymphocyte-mediated anti-tumor mechanism which relied on (1) the abnormal expansion of the rare 2B4-positive CD3+/CD8+/CD56+ T lymphocyte subset, (2) an as yet undescribed cytotoxicity mechanism in man which depended on 2B4 molecule. The relevance of this observation in human cancer immunotherapy has to be further investigated.     

NK1.1+ cells are important for the development of protective immunity against MHC I-deficient, HPV16-associated tumours

Loss or downregulation of MHC class I molecules on tumour cells is a common mechanism by which tumours can escape T-cell mediated immune responses. In this study, we examined the role of different immune cell lineages in the development of immunity against tumours of the same aetiology but with different MHC class I expression. In vivo depletion of CD8+ cells, but not of CD4+ or NK1.1+ cells in the immunization period resulted in complete elimination of the protective effects of immunization with irradiated TC-1 cells (MHC class I-positive cell line) against the TC-1 tumour challenge. After immunization with irradiated TC-1/A9 or with MK16 tumour cells (MHC class I-deficient sublines) a remarkable dependence on the presence of NK1.1+ cells was observed, while the tumour growth inhibition after CD4+ or CD8+ depletion was not efficient. Cytotoxic activity induced by TC-1 cell immunization was significantly abrogated in the CD8+ and CD4+ but not NK1.1+ cell-depleted mice, as compared to the immunized only controls. After MK16 or TC-1/A9 cell immunization, NK1.1+ but not CD8+ and CD4+ cell-depleted mice displayed significant reduction of specific cytotoxicity. Mice immunized with TC-1 cells showed similar percentage of IFNγ producing cells in CD8+, CD4+ and NK1.1+ cell populations. On the other hand, the highest proportion of IFNγ producing cells after immunization with TC-1/A9 or MK16 cells was concentrated into the NK1.1-positive spleen cell population. Our data demonstrate that the development of immunity against MHC class I-deficient tumours is highly dependent on the activity NK1.1+ cell population.     

The combination of ionizing radiation and peripheral vaccination produces long-term survival of mice bearing established invasive GL261 gliomas.

PURPOSE: High-grade glioma treatment includes ionizing radiation therapy. The high invasiveness of glioma cells precludes their eradication and is responsible for the dismal prognosis. Recently, we reported the down-regulation of MHC class I (MHC-I) products in invading tumor cells in human and mouse GL261 gliomas. Here, we tested the hypothesis that whole-brain radiotherapy (WBRT) up-regulates MHC-I expression on GL261 tumors and enhances the effectiveness of immunotherapy. EXPERIMENTAL DESIGN: MHC-I molecule expression on GL261 cells was analyzed in vitro and in vivo by flow cytometry and immunohistochemistry, respectively. To test the response of established GL261 gliomas to treatment, mice with measurable (at CT imaging) brain tumors were randomly assigned to four groups receiving (a) no treatment, (b) WBRT in two fractions of 4 Gy, (c) vaccination with irradiated GL261 cells secreting granulocyte-macrophage colony-stimulating factor, or (d) WBRT and vaccination. Endpoints were tumor response and survival. RESULTS: An ionizing radiation dose of 4 Gy maximally up-regulated MHC-I molecules on GL261 cells in vitro. In vivo, WBRT induced the expression of the beta2-microglobulin light chain subunit of the MHC class I complex on glioma cells invading normal brain and increased CD4+ and CD8+ T cell infiltration. However, the survival advantage obtained with WBRT or vaccination alone was minimal. In contrast, WBRT in combination with vaccination increased long-term survival to 40% to 80%, compared with 0% to 10% in the other groups (P < 0.002). Surviving animals showed antitumor immunity by rejecting challenge tumors. CONCLUSION: Ionizing radiation can be successfully combined with peripheral vaccination for the treatment of established high-grade gliomas.     

Primitive Neuroectodermal Tumor in an Ovarian Cystic Teratoma: Natural Killer and Neuroblastoma Cell Analysis

In the present study, we report an extremely rare case of a 31-year-old woman with neuroblastoma arising in an ovarian cystic teratoma. We analyzed the expression of activating receptors on natural killer (NK) cells derived from the patient''s peripheral blood and peritoneal fluid. In addition, we investigated the presence of specific ligands recognized by different NK cell receptors on tumor cells. We show that NK cells isolated from peritoneal fluid expressed certain triggering receptors including DNAM-1 (CD226) and CD16 with lower intensity as compared to peripheral blood NK cells. Remarkably, at variance with most cases of childhood neuroblastoma, the tumor cells from this patient expressed substantial amounts of HLA class-I molecules. These molecules are known to be protective against NK cell-mediated lysis. In addition, neuroblastoma cells expressed B7-H3 (CD276), another surface molecule that inhibits NK cell function. Finally, this tumor did not express the PVR (CD155) and nectin-2 (CD112) ligands for the DNAM-1 activating NK receptor, which plays a crucial role in NK/neuroblastoma interactions. Altogether, these findings indicate that the neuroblastoma cells of this patient express an NK-resistant surface phenotype, which is at least in part similar to that previously described in a fraction of childhood neuroblastoma.Key words: Activating natural killer receptors, Natural killer cells, Neuroblastoma, Ovarian cancer     

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.     

Characteristics of human T-lymphotropic virus type-1 (HTLV-1)-infected cell line MT-2, which is not killed by a natural killer cell line NK-92 but is killed by lymphokine-activated killer cells

Natural killer (NK) cell-mediated cytolysis (NK-lysis) is triggered by costimulatory signals of adhesion molecules and is downregulated by negative signals of killer cell inhibitory receptors (KIRs). Recently, a NK cell line, NK-92, was established. This cell line can kill several tumor cells, which possess adhesion molecules CD54 and CD102. However, the NK-92 cannot kill a human T-lymphotropic virus type 1 (HTLV-1)-infected cell line, MT-2, although lymphokine-activated killer (LAK) cells can kill MT-2. In this report we investigated the reason for LAK sensitivity but NK-92 resistance of the MT-2. The MT-2 highly expressed CD54 and CD102, suggesting that the costimulatory signals may be intact. Then we tested the responsibility of the negative signals by determining HLA type of the MT-2 and KIRs of the effector cells. The MT-2 expressed HLA-A24, B40, B51, Cw3, and HLA-G. The NK-92 did not express KIR2DL1, KIR2DL2,3, nor KIR3DL1, but 24% of the cells weakly expressed CD94. The blocking tests against these HLA class I molecules and KIRs did not restore the NK-92 resistance, although blocking against HLA-G slightly increased its lysis. Finally, in order to eliminate the class I molecules from the cell surface, we treated the MT-2 using a buffered citric acid solution (pH 3.8). By using this treatment, the expression of class I molecules and HTLV-1 antigen decreased, and then the MT-2 was killed by the NK-92. These findings suggest that an aberrant class I molecule of the MT-2 transferred a negative signal to the NK-92 and induced the NK-92 resistance. It remains to be elucidated whether or not the HTLV-1 infection contributed to the alteration of the class I molecule.