Tumour-reactive lymphocytes stimulated in mixed lymphocyte and tumour culture

Summary Lymphocytes from cancer patients were stimulated in mixed culture with autologous tumour (MLTC) or pooled allogeneic lymphocytes (MLC). Both protocols induced increased uptake of ³H-thymidine at 5 days and the appearance of lymphoblasts. Blasts were isolated on discontinuous Percoll gradients and either expanded as bulk cultures or cloned directly under limiting dilution conditions in the presence of conditioned medium containing IL-2. Results with MLTC-blast-CTC have been reported elsewhere. MLC-activated cultures lysed autologous tumour but not autologous lymphoblasts. Lysis of some allogeneic tumours, lymphoblasts from members of the inducing pool, and K562 was also apparent. MLC activated cultures did not undergo restimulation in response to autologous tumour or lymphocytes but were restimulated by leukocytes from pool members.MLTC clones showed autologous tumour-specific cytotoxic activity or cross-reactive proliferative responses with tumours of the same site and histology. The majority of MLC clones cytotoxic for autologous tumour were also specific and did not lyse allogeneic tumour, K562, or lymphoblasts from the inducing pool. Two clones lysed autologous tumour and pool members. None of the clones tested proliferated in response to autologous tumour following MLC activation but some were responsive to pool members and one clone was restimulated by autologous monocytes. No association was found between clone phenotype and function. The implication of these data is that the effector cells with activity against autologous tumour induced in MLC arose largely by transstimulation of in vivo-activated tumour reactive lymphocytes by IL-2 release rather than expansion of NK-like effectors or sharing of antigenic specificities between tumour and allogeneic lymphocytes. Since MLC activation of cancer patients lymphocytes does not induce proliferative responses to autologous tumour it is unlikely to be a useful procedure in preparing cells for immunotherapy protocols. Abbreviations used in this paper: PBL, peripheral blood lymphocytes; TIL, tumour infiltrating lymphocytes; MLTC, mixed lymphocyte tumour culture; IL-2, interleukin-2; MLC, mixed lymphocyte culture; LSM, lymphocyte separation medium; BSS, balanced salt solution; HuSe, human serum; PBS, phosphate-buffered saline; CTC, cultured T cells; PHA, phytohaemagglutinin; CM, cultured medium; NK, natural killer; FcR, receptor for the Fc portion of IgG     

Sensitization of lymphocytes against pooled allogeneic cells. II. Characterization of effector cells cytotoxic for autologous lymphoblastoid cell lines

Stimulation of human lymphocytes in mixed leukocyte culture (MLC) with x-irradiated pooled allogeneic normal cells (poolx) was previously shown to result in generation of effector cells cytotoxic for autologous Epstein-Barr virus- (EBV) transformed lymphoblastoid cell lines (LCL). This study was undertaken to determine whether lysis of the autologous EBV- transformed LCL cells by pool-stimulated cells is mediated by cytotoxic Tc lymphocytes (Tc) or natural killer- (NK) like cells, both of which are generated in MLC. In the first series of experiments, proliferating cells were eliminated by treatment of pool-stimulated cells with 5 X 10(-5) M 5-bromodeoxyuridine (BUdR) and light. The remaining cells failed to lyse allogeneic normal lymphocytes and autologous LCL cells, whereas cytotoxicity against NK-sensitive K562 leukemia cells was retained. In the second series of experiments, pool-stimulated effector cells were treated with monoclonal anti-human Tc cell antibodies, OKT3 or OKT8, and complement (C). The cells recovered after antibody and C treatment were diminished in their ability to lyse allogeneic normal lymphocytes as well as autologous LCL cells, whereas their cytotoxicity against K562 leukemia cells was unaffected. These combined results provide strong evidence that lysis of autologous LCL cells by lymphocytes stimulated with pooled allogeneic normal cells is mediated by Tc rather than NK-like cells.     

Human cytotoxic lymphocytes. IV. Frequency and clonal specificity of CD8+CD16-(Leu2+Leu11-) and CD16+CD3-(Leu11+Leu4-) cytotoxic lymphocyte precursors activated by alloantigen or K562 stimulator cells

Cell sorter-purified CD8+CD16- (Leu2+Leu11-) cytotoxic T cell precursors and CD16+CD3-(Leu11+Leu4-) natural killer (NK) cells were cultured under limiting dilution (LD) conditions with allogeneic stimulator cells or with K562 tumor cells in the presence of exogenous interleukin 2. One out of 100-200 alloantigen-stimulated Leu2+ T cells clonally developed into an alloantigen-specific cytotoxic T cell, but only 1 out of 500-3400 of these cells lysed NK-susceptible K562 target cells. In contrast, 1 out of 2-35 alloantigen-stimulated Leu11+ precursor cells developed into an effector cell that lysed K562, but less than 1 out of 500 of these cells lysed allogeneic Con A blast targets. However, clonal activation of Leu11+ precursor cells under LD conditions did not require alloantigenic stimulator cells. Comparable high frequencies (f = 1/3 to 1/28) of anti-K562 cytotoxic lymphocyte precursors were thus measured when Leu11+ precursor cells were cultured on autologous or K562 feeder cells. As shown by a split culture approach, the vast majority of alloantigen-activated Leu2+ effector cells were highly specific for the stimulating alloantigen (i.e., they did not lyse K562), while the majority of Leu11+ microcultures lysed K562 tumor cells but neither autologous nor allogeneic Con A blast targets. On a quantitative basis, these data show that CD8+CD16- T cells and CD16+CD3-NK cells are two mutually exclusive lymphocyte populations which clonally develop into cytotoxic effector cells specific for alloantigen or K562 target cells, respectively.     

Human anti-lymphoma responses generated in vitro and in vivo following sensitization with allogeneic leukocytes

Peripheral blood lymphocytes (PBL) from a patient with poorly differentiated lymphocyte lymphoma (PDLL), after stimulation for 7 days with X-irradiated allogeneic lymphocytes pooled from three or ten donors (poolx), were cytotoxic for autologous lymphoma cells. Some clones lytic for autologous lymphoma cells, that were derived from this patient's pool-stimulated cells, resembled cytotoxic T lymphocytes (CTL), while other clones resembled natural killer (NK)-like cells in that they also lysed NK-sensitive HLA-negative K562 cells. In a second patient with more advanced PDLL, PDL cultured with T-cell growth factor (which is produced following stimulation with mitogens or alloantigens) lysed autologous lymphoma cells. On the basis of these in vitro findings, we asked whether IV transfusions with X-irradiated allogeneic leukocytes would result in anti-lymphoma responses in vivo. Ten days after transfusions with X-irradiated leukocytes from four unrelated donors, the first patient's two previously palpable nodes were no longer palpable and he remained in complete clinical remission for 6 months. The second patient had a temporary partial remission with dramatic reduction in size of multiple cervical and axillary nodes within 2 weeks after receiving the leukocyte transfusions.     

Stimulation with autologous lymphoblastoid cell lines: lysis of Epstein-Barr virus-positive and -negative cell lines by two phenotypically distinguishable effector cell populations

Human lymphocytes, stimulated in vitro for 6 days with x-irradiated or glutaraldehyde-treated autologous Epstein-Barr (EB) virus-transformed lymphoblastoid cell lines (LCL), are cytotoxic for autologous and allogeneic EB+ LCLs as well as for several EB- cell lines that are also susceptible to lysis by interferon-activated natural killer (NK) cells. To determine whether the apparent nonspecific lysis mediated by LCL-stimulated cells is due to a mixture of effector cells directed against different target cells, advantage was taken of our recent finding that monoclonal antibody OKT8 reacts with human cytotoxic T lymphocytes but not with NK cells or NK-like cells generated in mixed leukocyte cultures. The depletion of OKT8+ cells from LCL-stimulated cultures by treatment with OKT8 and complement abolished or markedly depleted cytotoxicity against all EB+ target cells tested, whereas cytotoxicity against EB-, NK-sensitive cell lines including K562, MOLT-4 and HSB-2 was not or only minimally reduced. These results indicate that stimulation with autologous LCL results in the generation of OKT8+ cytotoxic T lymphocytes that lyse EB virus-transformed LCL and OKT8- NK-like cells that lyse EB-, NK-sensitive cells.     

Establishment and functional characterization of human herpesvirus 6-specific CD4+ human T-cell clones.

In order to clarify the protective immune responses against a newly identified herpesvirus, human herpesvirus 6 (HHV-6), we established HHV-6-specific human T-cell clones and examined their functional properties. Five CD3+CD4+CD8- T-cell clones, which proliferated in response to stimulation with two different strains of HHV-6 in the presence of autologous antigen-presenting cells but not with herpes simplex virus type 1 or human cytomegalovirus, were established from peripheral blood lymphocytes of a healthy individual. The proliferative response of all T-cell clones to HHV-6 antigen was inhibited by addition of anti-HLA-DR monoclonal antibody, indicating that these clones were human leukocyte antigen (HLA) class II DR restricted. Of the five clones, two lysed HHV-6-infected autologous lymphoblasts, but not HHV-6-infected allogeneic cells or natural killer-sensitive K562 cells (group 1); one showed cytotoxicity against HHV-6-infected autologous lymphoblasts as well as HHV-6-infected allogeneic cells and K562 cells (group 2); and the remaining two showed no cytotoxic activity (group 3). The cytotoxic activity of group 1 was inhibited by addition of anti-HLA-DR monoclonal antibody to the culture, whereas this monoclonal antibody had no effect on the cytotoxicity of group 2 and did not induce the cytotoxicity of group 3. Perforin, which is one of the mediators of cytotoxicity, was abundantly expressed in group 1 and 2 clones. Moreover, all groups of clones produced gamma interferon after culture with antigen-presenting cells followed by HHV-6 antigen stimulation. These results suggest that HHV-6-specific CD4+ T cells have heterogeneous functions.     

Characterization of the T cell-mediated cellular cytotoxicity during acute infectious mononucleosis

Primary infection with EBV during acute infectious mononucleosis (IM) is associated with a cytotoxic response against allogeneic target cells. C depletion with anti-CD3 (OKT3) and anti-CD8 (OKT8) mAb decreased the allogeneic cytolysis of two EBV-infected lymphoblastoid cell lines (LCL) by 96% and 89%, respectively. Complement depletion with the NK cell-specific mAb Leu-11b and NKH-1a resulted in only a slight decrease (less than 35%) in the lysis of these LCL. mAb inhibition studies with OKT3 and OKT8 inhibited the allogeneic lysis of two LCL by 87% and 82%, respectively. The alloreactive cytotoxic response was strongly inhibited by mAb specific for MHC class I determinants (W6/32, 65% inhibition and BBM.1, 58% inhibition). Acute IM lymphocytes lysed the allogeneic EBV-negative cell lines HSB2 (45%) and HTLV-1 T cell lines (16%). NK cell-depleted lymphocytes from an acute IM patient demonstrated preferential lysis of K562 transfected with human HLA-A2 (73%) compared with the K562 transfected control (20%). Cold target competition studies with allogeneic and autologous target and competitor LCL demonstrated no significant competitive inhibition between allogeneic and autologous cells. We interpret these results as evidence that 1) the acute IM-alloreactive cytotoxic response is mediated primarily by CTL; 2) these alloreactive CTL lyse allogeneic target cells irrespective of EBV antigenic expression; 3) MHC class I expression is sufficient for allogeneic recognition and lysis of target cells; 4) distinct effector CTL populations mediate lysis of autologous and allogeneic target cells; and 5) during acute IM, EBV infection results in the induction of both virus-specific and alloreactive CTL populations.     

The role of HLA class I antigens in recognition of melanoma cells by tumor-specific cytotoxic T lymphocytes. Evidence for shared tumor antigens

CTL lines were established in vitro by stimulating patient lymphocytes with autologous melanoma cells in the presence of IL-2. Resulting CTL lines lysed autologous melanoma and failed to lyse several allogeneic melanomas or K562. The mechanism of target cell recognition by autologous tumor-specific CTL was evaluated in this system, using several CTL lines: DT6, DT105, DT141, DT166, DT169, and DT179. Autologous melanoma lysis was inhibited by W6/32, mAb directed against HLA class I Ag, but not by L243, mAb directed against HLA class II Ag. CTL from DT6, DT141, DT166, DT169, and DT179 lysed fresh and cultured allogeneic melanomas, which shared the HLA-A2 Ag, but failed to lyse allogeneic melanomas, which shared B-region or C-region Ag, or shared no HLA class I Ag. CTL from DM141 lysed DM93, which shared A2 and Bw6, but failed to lyse DM105, which shared only Bw6. DM105 CTL failed to lyse allogeneic melanomas that shared HLA-A1, or that shared B or C region Ag, but they did lyse allogeneic melanoma DM49, which expressed an A region Ag that either was A10 or was serologically cross-reactive with A10. A T cell leukemia line, three EBV transformed B cell lines, and a pancreatic cancer line, all of which expressed HLA-A2, were not lysed by DM6 or DM179 CTL. Furthermore, HLA-matched nonmelanomas failed to inhibit autologous tumor lysis in cold target inhibition assays, whereas an HLA-A2+ allogeneic melanoma, DM93, inhibited autologous tumor lysis as effectively as the autologous tumor itself. HLA-A2, and possibly other HLA-A-region Ag, appear to function in HLA-restricted recognition of shared melanoma associated Ag by CTL.     

T cell growth factor from human splenic cell cultures: conditions for its production, and its utilization for maintenance of cytotoxic T cell lines

We prepared the T cell growth factor (TCGF) from human spleen cell cultures stimulated with phytohemagglutinin (PHA). Various cell culture conditions and agents supporting the active TCGF production of the spleen cells were examined. The highest TCGF activity was obtained in the supernatants under the conditions that 2 x 10(6)/ml spleen cells were stimulated with PHA for 48 hr. Production of TCGF from spleen cells depended markedly on their individual sources. Addition of indomethacin to the culture or irradiation of the responding spleen cells increased TCGF activity in the supernatant of the culture. Further, addition of irradiated cells of an Epstein-Barr virus (EBV)-transformed lymphoblastoid cell line (LCL) to spleen cell cultures stimulated with PHA greatly enhanced TCGF production. Human splenic TCGF facilitated the establishment of human cytotoxic T cell (Tc) lines specific for EBV-transformed LCL cells when those Tc line cells were stimulated periodically with irradiated autologous LCL cells but not with the other two types (K-562 or Molt-4) of cells. Allogeneic LCL stimulators allowed the Tc line cells to proliferate. However, Tc line cells cocultured once with allogeneic LCL stimulators no longer exhibited EBV-specificity in their cytotoxicities.     

A permanent human cytotoxic T-cell line with high killing capacity against a lymphoblastoid B-cell line shows preference for HLA A,B target antigens and lacks spontaneous cytotoxic activity

The optimal conditions for the generation of highly cytotoxic human T lymphocytes (CTL) in vitro against a lymphoblastoid B-cell line (JY) in primary and secondary mixed lymphocyte cultures (MLC) were investigated. Variation of the stimulator:responder (S:R) cell ratio influenced both the specific cytotoxicity and the spontaneous cytotoxicity as well as the recovery of the responder cells. T lymphocytes of donor JR (HLA A23,29; B7,7; DRw5) were stimulated with JY (HLA A2,2; B7,7; DRw4,6) in primary and secondary MLC at S:R ratios of 1:50 and 1:10, respectively, since stimulations at these S:R ratios resulted in the highest specific cytotoxicity against JY, the lowest spontaneous cytotoxicity against K562 and Daudi, and in a good recovery of the responder cells. From these T-lymphocyte cultures an exponentially growing CTL line (JR-2) was obtained by weekly stimulations with irradiated JY cells at a S:R ratio of 1:1. After 2 months of culturing the growth rate of the JR-2 cells declined, but could be restored by the addition of conditioned medium, containing T-cell growth factor (TCGF). Irradiated JY cells or TCGF alone were insufficient to maintain proliferation. JR-2 cells were strongly cytotoxic for JY (50% lysis was obtained at an effector:target ratio of 1:2) but the cytotoxic activity against a classical target cell for spontaneous cytotoxicity (K562) was negligible. The cytotoxic activity of JR-2 cells against JY could be inhibited by a monoclonal antiserum W6/32, which recognizes all HLA A, B, and C specificities, and by a monoclonal antiserum directed against β2 microglobulin, whereas monoclonal anti-Ia antisera showed no inhibition. JR-2 cells lysed fresh HLA A2-homozygous lymphocytes more efficiently than HLA A2-heterozygous lymphocytes, whereas the latter were better killed than HLA A2-negative lymphocytes.     

In search of specific cytotoxic T lymphocytes infiltrating or accompanying human ovarian carcinoma

Summary Lymphocytes infiltrating human ovarian carcinoma obtained directly from the tumour mass (tumour-infiltrating lymphocytes, TIL) or from the carcinomatous ascites (tumour-associated lymphocytes, TAL) were expanded in vitro in long-term cultures with interleukin-2 and tested for their specific cytolytic activity. Killing of the autologous tumour was detected only in a proportion of the patients, less frequently in TIL compared to TAL. In fact two out of ten TIL and four out of nine TAL cultures tested showed significant levels of lysis against the autologous tumour. This cytotoxic activity was not restricted to the autologous tumour, as other tumour cell lines, including non-ovarian ones, were lysed as well. The cultures that were not cytotoxic against the autologous tumour were in most cases able to lyse other tumour cell lines of ovarian or other histology. Cloning of TIL from one patient was performed: of 22 clones tested, 4 displayed higher cytotoxicity against the autologous tumour compared to the uncloned population and 3 out of these 4 did not kill an irrelevant carcinoma cell line. In order to stimulate the expansion of putative specific effectors we performed mixed lymphocyte/tumour cultures (MLTC) with autologous or allogeneic tumour cells. No stimulation of cytotoxicity against the autologous tumour was detected after MLTC in nine different TAL populations, using autologous or allogeneic tumours as stimulators. On the contrary, peripheral blood lymphocytes from two patients after MLTC with the autologous tumour showed increased killing of the autologous and decreased killing of an allogeneic target. In conclusion TIL and TAL from ovarian carcinoma expanded in vitro with interleukin-2 usually have non-MHC-restricted cytotoxicity and variable degrees of reactivity against the autologous tumour. A preferential killing for the autologous tumour was not observed even after MLTC. These results do not exclude the existence of tumour-specific cytotoxic T lymphocytes in ovarian carcinoma; nevertheless they suggest that putative specific effectors have very low frequency and that culture techniques for expanding their growth more selectively are still to be optimized.     

Generation of cytotoxic effector cells against human melanoma

Metastatic or tumor-draining lymph nodes from six of nine melanoma patients undergoing lymph node dissection for metastatic melanoma generated cytotoxic T cells against autologous melanoma when these lymph node cells were treated by in vitro sensitization and recombinant interleukin-2 (IL-2). During the initial lymphocyte culture (2–6 weeks), cross-reactivity with autologous tumor cells, K562 and Daudi cells was usually noted. Cold-target inhibition assay with K562 and Daudi showed K562/Daudi-associated antigens on melanoma cells. During the later phase of lymphocyte culture with repeated in vitro sensitization (over 6–10 weeks), cytotoxicity was noted against autologous and allogeneic melanoma cells but not against K562, Daudi cells or autologous fibroblasts. Repeated in vitro sensitization resulted in the selection of specific cytotoxic lymphocytes against melanoma. Cold-target inhibition assay with autologous and allogeneic melanoma cells revealed shared and individual antigens. Using blocking monoclonal antibodies, MHC-restricted killing was noted in the autologous system. Further, both the autologous and allogeneic systems could be mediated through adhesion molecules such as ICAM-1 and LFA-3 on melanoma cells and LFA-1 on T cells. This study suggests that a constellation of cytotoxic effector cells and melanoma-associated antigens may be pivotal in tumor killing. Thus, future adoptive immunotherapy should modulate and enhance this complex interaction.This work was supported by an Elsa, U. Pardee Foundation grant, the Arizona Chronic Disease Research Commission grant and partly by grant CA23074 from the National Institutes of Health, Bethesda, MD, 20892     

In vitro generation of effector cells cytotoxic to autologous targets from chronic myeloid leukemia patients in remission

Summary Peripheral blood lymphocytes (PBL) from chronic myeloid leukemia (CML) patients in remission were stimulated in vitro, in a 3-cell assay with autologous leukemic cells or autologous bone marrow (BM) cells alone, or each in combination with allogeneic PBL. The responder cells were used as effectors in a 4-h ⁵¹Cr release cytotoxicity assay using autologous targets such as leukemic cells, BM cells, phytohemagglutinin-induced lymphoblasts, and allogeneic K562 (erythroblastoid leukemic cell line) target cells. Sensitization of lymphocytes from CML patients with either autologous leukemic cells or BM cells generated cytotoxic cells (CTCs) capable of killing both the targets. These results suggested that in CML, the PBL may have been sensitized to myeloid maturation-related antigens in vivo, which, on secondary stimulation in vitro, may result in differentiation of CTCs cytotoxic to immature myeloid cells, either from autologous leukemic cells or autologous BM. The inability of PBL from patients with oral cancers to lyse autologous BM cells upon in vitro stimulation, supported this possibility. Clonogenic assays conducted to assess the colony forming potential of BM cells which had interacted with CTCs indicated that there was about 37% reduction in committed granulocyte stem cell colony formation without an appreciable change in committed granulocyte/monocyte stem cell units and clusters. Therefore, since the BM toxicity of the CTCs is not very high, these cells may have a potential clinical use in CML.     

Cloned human cytotoxic T lymphocyte (CTL) lines reactive with autologous melanoma cells. I. In vitro generation, isolation, and analysis to phenotype and specificity

Activation of peripheral blood lymphocytes (PBL) from a melanoma patient either in secondary MLC in which EBV-transformed B cells from the cell line JY were used as stimulator cells, or by co-cultivation with the autologous melanoma cells in a mixed leukocyte tumor cell culture (MLTC) resulted in the generation of cytotoxic activity against the autologous melanoma (O-mel) cells. From these activated bulk cultures four cloned cytotoxic T lymphocyte (CTL) lines were isolated. The CTL clone O-1 (T3+, T4+, T8-, OKM-1-, HNK-, and HLA-DR+), and O-36 (T3+, T4-, T8+, OKM-, HNK-, and HLA-DR+) were obtained from MLC, whereas the CTLC clones O-C7 (T3+, T4+, T8-, OKM-1-, HNK-, and HLA-DR+) and O-D5 (T3+, T4-, T8+, OKM-1-, HNK, and HLA-DR+) were isolated from autologous MLTC. All four CTL clones were strongly cytotoxic for O-mel cells but failed to lyse autologous fibroblasts and autologous T lymphoblasts. Moreover, the CTL clones lacked NK activity as measured against K562 and Daudi cells. Panel studies indicated that the CTL clones also killed approximately 50% of the allogeneic melanoma cells preferentially, whereas the corresponding T lymphoblasts were not lysed. Monoclonal antibodies against class I (W6/32) and class II (279) MHC antigens failed to block the reactivity of the CTL clones against O-mel and allogeneic melanoma cells, indicating that a proportion of human melanoma cells share determinants that are different from HLA antigens and that are recognized by CTL clones. In contrast to the CTL clones isolated from MLTC, the clones obtained from MLC also lysed JY cells, which initially were used as stimulator cells. The reactivity of O-36 against JY could be inhibited with W6/32, demonstrating that this reactivity was directed against class I MHC antigens. These results suggest that the lysis of O-mel and JY cells by O-36 has to be attributed to two independent specificities of this CTL clone. The specificity of the other cross-reactive CTL clone (O-1) could not be determined. The notion that individual CTL clones can have two specificities was supported by the following observations. The cytotoxic reactivity of both O-1 (T4+) and O-36 (T8+) against JY was blocked by monoclonal antibodies directed against T3 and human LFA-1, and against T3, T8, and human LFA-1, respectively.(ABSTRACT TRUNCATED AT 400 WORDS)     

Destruction of autologous human lymphocytes by interleukin 2-activated cytotoxic cells

Human and murine lymphocyte populations differentiate into lymphokine activated killer (LAK) cells after in vitro or in vivo exposure to interleukin 2 (IL 2). LAK cells mediate destruction of neoplastic tissue in vitro and have been reported to spare normal tissue. However, systemic toxicity is observed in mice and patients receiving IL 2 infusions. Some aspects of this toxicity are similar to that seen in graft-vs-host disease, suggesting that IL 2 may cause an immune-mediated destruction of normal tissues. We have evaluated this issue by examining the destructive potential of fresh human lymphocytes cultured in media containing highly purified recombinant human IL 2. In the absence of any exogenous antigen or allogeneic stimulating cells, strong proliferative responses were induced after 6 days of exposure to IL 2. Lymphocytes harvested from these 6-day cultures were highly cytotoxic to K562 and Daudi target cells. These IL 2-activated cells were also cytotoxic against autologous and allogeneic normal lymphocyte target cells. This autologous lymphocyte destruction was detected in media containing autologous serum and was directly dependent on the concentration of IL 2 added to the cultures. These studies demonstrate that populations of IL 2-activated lymphocytes, containing LAK activity, can mediate low-level but significant destruction of normal lymphocytes in vitro.     

Lysis of fresh human tumour cells by autologous tumour-associated lymphocytes: Two distinct types of autologous tumour killer cells induced by co-culture with autologous tumour

Summary The specific and natural killer (NK)-restricted nature of auto-tumour cytotoxicity of tumour-associated lymphocytes was studied in cancer patients with malignant pleural effusions. Large granular lymphocytes (LGL) and small T lymphocytes were isolated from carcinomatous pleural effusions by centrifugation on discontinuous Percoll gradients. Tumour cells freshly isolated from pleural effusions were classified according to their susceptibility to lysis by Percoll-purified LGL from the blood of normal donors in a 4-h ⁵¹Cr release assay. Of 12 NK-sensitive tumour samples, 11 were killed by autologous fresh effusion LGL, whereas only 2 were lysed by autologous T cells. Neither LGL nor T cells were cytotoxic to NK-resistant autologous tumour cells. T cells and LGL were each cultured in vitro with autologous tumour cells for 6 days. Effusion LGL maintained their auto-tumour killing activity in 10 of 12 autologous mixed lymphocyte-tumour cultures (MLTC) with NK-sensitive tumour, while LGL lost the activity when cultured alone. Removal of high-affinity sheep erythrocyte-rosetting cells from Percoll-purified LGL enriched effector cells. Autologous MLTC-derived LGL could also kill NK-sensitive allogeneic effusion tumour cells and K562 cells, as did fresh LGL. In autologous MLTC LGL failed to acquire lytic function to NK-resistant autologous tumour cells. In contrast, in vitro activation of effusion T cells with autologous tumour cells induced auto-tumour killer cells in 9 of 12 NK-sensitive tumour samples and 3 of 6 NK-resistant tumour cases. However, cultured T cells were incapable of killing allogeneic tumour cells and K562 cells. In the autologous MLTC effusion T cells proliferated vigorously in response to autologous tumour cells, whereas LGL showed no proliferation. The enrichment of blasts from cultured T cells on discontinuous Percoll gradients resulted in an enhancement of auto-tumour cytotoxicity, with no reactions recorded in blast-depleted, small, resting T cells. These results indicate that two distinct types of auto-tumour-recognising lymphocytes, LGL and T cells, are present in carcinomatous pleural effusions of cancer patients and that each effector type recognises different membrane moieties of autologous effusion tumour cells.     

Induction of suppressor cells in autologous mixed lymphocyte culture (AMLC) in humans

T cells stimulated for 6-7 days in autologous mixed lymphocyte culture (AMLC) showed suppressive effects when added to fresh mixed cultures where autologous lymphocytes (A) were stimulated by Mitomycin C-treated allogeneic lymphocytes (Xm), in a ratio of A:Xm:AMLC-activated cells of 1:1:0.5. Both cytotoxic and proliferative activities in second cultures, as assayed after 6 days of incubation, were significantly inhibited (percentage suppression of cytotoxic activity observed in 17 experiments was 75.3 +/- 22.4; percentage suppression of proliferation was 60.6 +/- 18.2). Suppressor cells (SC) generated in AMLC were Mitomycin C sensitive and nonspecific in their action; not only A/Xm but also X/Am and X/Ym cultures were suppressed to the same extent. AMLC-Activated cells showed a considerable degree of proliferation in response to alloantigens but failed to express any cytotoxic activity against autologous or allogeneic phytohemagglutinin blasts. Thus, the inhibitory effect observed in this system is not due to cytotoxic elimination of responding or stimulating cells in the second culture but rather reflects a true regulatory (suppressive) mechanism.     

Depletion of human NK cells with monoclonal antibodies allows the generation of cytotoxic T lymphocytes without NK-like cells in mixed cultures

In vitro stimulation of human mononuclear cells with x-irradiated autologous lymphoblastoid cell line (LCL) or allogeneic normal cells in mixed leukocyte cultures (MLC) was previously shown to result in the generation of OKT3+ OKT8+ cytotoxic T lymphocytes (CTL) lytic for allogeneic and autologous LCLs and also of natural killer- (NK) like cells that are OKT3- and primarily OKT8- and are lytic for HLA- NK-sensitive K562 cells. The origin of the NK-like cells was not previously known because, although the majority of fresh human NK cells react with monoclonal antibodies OKM1 and B73.1, lymphocytes bearing these markers are not detected several days after the onset of MLC, when NK-like cells are present. In this study, experiments were undertaken to determine whether NK-like cells generated after stimulation with x-irradiated pooled allogeneic normal cells (poolx) or with autologous LCL are derived from cells expressing antigens reactive with monoclonal antibodies OKM1 or B73.1, which react with fresh NK cells. Mononuclear cells, depleted of monocytes, were stained with OKM1 or B73.1 and fluorescein-labeled goat anti-mouse IgG. Lymphocytes depleted of OKM1+ or B73.1+ cells, by fluorescence-activated cell sorting, and lymphocytes that were stained but not sorted were stimulated for 7 days with either poolx or autologous LCL. The generation of NK-like activity was decreased at least 90% after depletion of cells reactive with OKM1 or B73.1, whereas the generation of CTL against autologous and allogeneic LCL was minimally affected. These findings show that NK-like cells generated in MLC are derived from cells that express the phenotype of fresh NK cells (OKM1+ or B73.1+) and that CTL can be generated in cultures in which relatively little NK-like activity is concomitantly detected, by depleting NK cells with monoclonal antibodies before stimulation.     

Herpes simplex virus (HSV)-specific human T-cell clones recognize HSV glycoprotein D expressed by a recombinant vaccinia virus.

Human cytotoxic T-cell (CTL) clones that lyse autologous cells infected with herpes simplex virus (HSV) type 1 or 2 were generated by stimulating lymphocytes with a recombinant vaccinia virus (recombinant vaccinia-gD-1 virus) that expresses HSV type 1 glycoprotein D (gD-1). Furthermore, CTL clones generated with HSV type 1 or with cloned gD-1 lysed autologous cells infected with the recombinant vaccinia-gD-1 virus. Our findings thus showed that gD serves as a target antigen for human CTLs and that a recombinant vaccinia-gD virus activates HSV-specific human CTL.     

Heterogeneity of allogeneic restriction of human cytotoxic T cell clones specific for Epstein Barr virus

Clones of human cytotoxic T cells (Tc) specific for Epstein Barr virus (EBV) were isolated from peripheral blood lymphocyte (PBL) cultures stimulated repeatedly with autologous EBV-transformed lymphoblastoid cell line (LCL) cells in vitro. The method employed to clone EBV-specific Tc was a limiting dilution technique utilizing T cell growth factor (TCGF). The EBV specificity of Tc clones was determined by showing that they were significantly cytotoxic for autologous LCL cells but not for either autologous PBL or (natural killer-sensitive) K-562 cells. Eight EBV-specific Tc clones derived from a single donor exhibited distinct cytotoxic patterns against allogeneic LCL targets. Two clones were cytotoxic to LCL targets sharing both HLA-A26 and B15 antigens with effectors, and killing by two other clones was strongly restricted to autologous LCL cells. The four remaining clones showed cytotoxicities against various allogeneic LCL targets irrespective of HLA antigen expression. Eight EBV-specific Tc clones derived from a second donor also exhibited a wide spectrum of cytotoxicity to allogeneic LcL targets. We conclude that EBV-specific Tc, induced in vitro, consist of a number of clones with respect to restrictions imposed by the major histocompatibility complex. The determinants regulating these restrictions may include not only private HLA antigenic determinants that are defined by the HLA serotyping, but also undefined HLA antigenic determinants.