Activation of nonspecific killer cells by interleukin 2-containing supernatants

In the absence of specific antigen stimulation, nonspecific killer cells were induced by culturing C57BL/6 lymph node or spleen cells with interleukin 2-containing supernatants. These supernatants were obtained from stimulation of either rat spleen cells with concanavalin A or a variant of the T cell lymphoma, EL4 (H-2b) with phorbol myristic acetate. The ability of the EL4 supernatant to induce nonspecific killer cells was abrogated by absorption with an interleukin 2-dependent T cell line or by concanavalin A-stimulated spleen cell blasts, but not by lipopolysaccharide-stimulated spleen cell blasts or by a non-interleukin 2-producing EL4 line. Partially purified interleukin 2 from EL4 supernatants could also support nonspecific killer cell induction. The induction of cytolytic cells by interleukin 2 is sensitive to gamma-irradiation and has a D omicron of 120 rad. The nonspecific killer cells induced are likely cytotoxic T lymphocytes; the majority of the precursor and effector cells bear the Thy-1 alloantigen marker. These nonspecific killer cells killed a broad spectrum of target cells, including concanavalin A- and lipopolysaccharide-induced splenic blasts of syngeneic or allogeneic mice, a syngeneic tumor, and a cloned allogeneic cytotoxic T cell line. The frequency of precursors for nonspecific killer cells in C57BL/6 lymph node and spleen cells are 1/7000 and 1/12,000, respectively. Clonal analyses revealed that these nonspecific killers exhibit heterogeneity with respect to their target cell specificities. The induction of nonspecific killers by interleukin 2-containing supernatants is partially dependent on nylon wool-adherent cells; in antigen-stimulated cultures the most specific killer cells were obtained from cultures in which nylon wool-nonadherent lymph node responder cells were stimulated with nylon wool-nonadherent allogeneic splenic stimulator cells that were treated with anti-Thy-1 antibody and complement. The relevance of these findings with respect to the frequencies and fine specificities of cytotoxic T lymphocytes generated in interleukin 2-supplemented cultures is discussed.     

Resistance to the cytolytic action of lymphotoxin and tumor necrosis factor coincides with the presence of gap junctions uniting target cells

The resistance of target cells to the cytolytic action of lymphotoxin (LT) and recombinant tumor necrosis factor (rTNF) has been investigated by using clonally derived cell lines with defined gap junction-mediated, intercellular communication properties. Gap junction-competent Chinese hamster ovary cells are normally insensitive to the action of LT/TNF. However, treatment with 12-o-tetradecanoylphorbol-13-acetate, which promotes the loss of gap junctions, or culturing at low cell density to reduce intercellular contacts, significantly increased their sensitivity to LT/TNF. The LT/TNF-sensitive murine CL-1D and L929 cell lines, which in normal culture conditions are unable to form gap junctions, were not changed in their susceptibility to LT/TNF after treatment with phorbol ester or low culture density. However, the formation of gap junctions by CL-1D can be promoted by treatment with 8-bromo-cyclic adenosine monophosphate (1 mM), and this treatment completely suppressed the ability of LT and rTNF to kill CL-1D. Additionally, the LA25-normal rat kidney cell line, which is infected with a temperature-sensitive mutant of Rous sarcoma virus (LA25), is gap junction-competent and resistant to the effects of LT at the restrictive temperature (39 degrees C). However, when shifted to the permissive temperature (33 degrees C), LA25-normal rat kidney cells express the pp60v-src viral gene product, lose their ability to form gap junctions, and become sensitive to the lytic activity of LT. The results demonstrate that the expression of the retroviral pp60v-src, a tyrosine protein kinase, is sufficient to render cells susceptible to the lytic effects of LT and rTNF. Collectively, these experiments demonstrate a strong correlation between the resistance of target cells to the action of LT/TNF and their ability to cooperate metabolically through gap junctions. The results do not completely exclude the possibility that other mechanisms, such as LT receptor modulation, are also occurring under these experimental conditions. These data also suggest that a possible physiologic function of the stable cytotoxic lymphokines is to induce cytolysis/cytostasis of cells that have lost gap junctional contact, such as those in the process of mitosis or metastasis that have separated from the main tissue mass.     

Detection of lymphotoxin produced in mixed lymphocyte cultures (MLC): variation in target cell sensitivity

In an attempt to resolve some of the uncertainty as to whether soluble cytotoxin—lymphotoxin (LT)—is produced in mixed leukocyte cultures (MLC), we established one-way MLC between the lymphocytes of normal individuals and two lines of lymphoblastoid cell lines (LCL). Cell-free culture fluid harvested after 5 days was tested for LT employing not only the stimulating LCL cells as targets, but also two lines of cells known to be sensitive to LT. The LCL cells—RPMI 8866 and NHDL-2—were found to be completely resistant to LT under the conditions of our assay. By contrast, when the sensitive cells were used in the cytotoxicity assay, LT was readily detected. These results emphasize the importance of intrinsic target cell sensitivity in the study of lymphocyte-mediated cytotoxic phenomena and raise questions as to the mechanism whereby cells may be resistant to LT.     

Development of Mechanisms of Protection Against Oxidative Stress in Doxorubicin-Resistant Rat Tumoral Cells in Culture

We have compared some mechanisms involved in the defense against doxorubicin-induced free radical damage in rat hepatoma and glioblastoma cell lines and their doxorubicin-resistant variants presenting an overexpression of the multidrug resistance gene.

Immediate in vivo production of malondialdehyde was minor and was not different in sensitive and resistant cells. Alpha-tocopherol was undetectable in all cell lines. Glutathione levels were not different in sensitive and resistant cells and these levels did not vary upon doxorubicin treatment. Resistant cells exhibited either a 50% decrease (hepatoma) or a 25% increase (glioblastoma) of glutathione-S-transferase activity. Glutathione reductase presented no important change upon acquisition of resistance. In contrast, selenium-dependent glutathione peroxidase activity was consistently 2-6-fold increased in the resistant cells, which suggests a magnification of protection mechanisms against hydroxyle radical formation from H₂O₂ in resistant cells. Depletion of glutathione levels by buthionine sulfoximine sensitized hepatoma resistant cells to doxorubicin, but had no effect on doxorubicin cytotoxicity to glioblastoma cells.     

Standardization of a sensitive and rapid assay for lymphotoxin.

Actinomycin-treated mouse L cells and human HeLa cells are sensitive indicators of lymphotoxin activity in supernatant fluids of mitogen-stimulated lymphocytes. Without actinomycin, various strains of these cells are 10–200 times less sensitive. The concentration of actinomycin used amplifies the toxic effect of LT but is not itself cytotoxic. Actinomycin-treated indicator cells permit detection of LT activity where toxicity is not often found, as in supernatants of mixed lymphocyte cultures and of cell-mediated cytotoxicity reactions. This assay makes available to any investigator a sensitive indicator of LT activity.     

Development of Mechanisms of Protection Against Oxidative Stress in Doxorubicin-Resistant Rat Tumoral Cells in Culture

We have compared some mechanisms involved in the defense against doxorubicin-induced free radical damage in rat hepatoma and glioblastoma cell lines and their doxorubicin-resistant variants presenting an overexpression of the multidrug resistance gene.

Immediate in vivo production of malondialdehyde was minor and was not different in sensitive and resistant cells. Alpha-tocopherol was undetectable in all cell lines. Glutathione levels were not different in sensitive and resistant cells and these levels did not vary upon doxorubicin treatment. Resistant cells exhibited either a 50% decrease (hepatoma) or a 25% increase (glioblastoma) of glutathione-S-transferase activity. Glutathione reductase presented no important change upon acquisition of resistance. In contrast, selenium-dependent glutathione peroxidase activity was consistently 2-6-fold increased in the resistant cells, which suggests a magnification of protection mechanisms against hydroxyle radical formation from H₂O₂ in resistant cells. Depletion of glutathione levels by buthionine sulfoximine sensitized hepatoma resistant cells to doxorubicin, but had no effect on doxorubicin cytotoxicity to glioblastoma cells.     

Spontaneous cytotoxicity (SCMC) of normal human lymphocytes against a human melanoma cell line: a phenomenon due to a lymphotoxin-like mediator.

Spontaneous cell-mediated cytotoxicity (SCMC) of normal human lymphocytes against various allogenic tumor cell lines has recently been identified as a non-T lymphocyte function. In this study evidence is presented that SCMC against a human melanoma cell line (IGR3) involves a nonspecific lymphotoxin-like mediator(s) (LT), which is rapidly produced by lymphocytes that are retained on IgG-anti-IgG columns. LT was shown to inhibit in 48-hr cultures the DNA synthesis of growing IGR3 and HeLa cell monolayers. Furthermore, in short term 51Cr-release assays using IGR3 target cells, LT increased strongly the SCMC of normal allogeneic lymphocytes, although it exhibited little cytotoxicity by itself in this assay. LT was detectable in cell-free supernatants harvested after 6 hr from co-cultures of IGR3 melanoma cells and normal effector lymphocytes, but not in supernatants from melanoma cells alone or lymphocytes alone. Lymphocyte preparations that had been passed through IgG-anti-IgG columns had lost the capacity to generate LT and were poor effectors in SCMC. However, in the presence of LT, a small proportion of null cells, which pass through IgG-anti-IgG columns, was capable of inducing strong SCMC. Absorption of the supernatants, containing LT activity, with an insolubilized rabbit-anti-human IgG antiserum did not remove the mediator, suggesting that it is not an immunoglobulin.     

Production of macrophage activating factor by human leukemic T cell lines

Human leukemic T cell lines were tested for their ability to produce a macrophage activating factor. When mouse peritoneal macrophages were cultured for 48 hr in the presence of culture supernatants from cell lines HPB-ALL, CCRF-CEM, or MOLT-4, glucose oxidation via the hexose monophosphate pathway was enhanced by five to seven fold. Culture supernatants from cell line HPB-MLT stimulated the oxidation to a lesser extent. However, cell line CCRF-HSB-2 was essentially inactive as a producer. The active supernatants also stimulated the release of hydrogen peroxide from macrophages, whereas the inactive one did not. Since treatment of the cell lines with 12-o-tetradecanoyl phorbol acetate or phytohemagglutinin had little effect on the production of the factor except HPB-ALL, the cell lines seemed to secrete the factor constitutively. The stimulatory effect was dose-dependent and evident at a concentration as low as a 1/80 dilution. The factor was resistant to heat treatment at 100 C for 20 min, nondialysable and sensitive to protease digestion. The activating factor could be partially purified by anion exchange and gel filtration chromatographies.     

Regulation of cellular immune response against autologous human melanoma. I. Evidence for cell-mediated suppression of in vitro cytotoxic immune response

The potential existence of down-regulation of cytotoxic immune response against an autologous human melanoma line was investigated as a possible explanation for cytotoxic unresponsiveness against the autologous melanoma cells. The melanoma cell line, PJ-M, was established and lymph node resident lymphocytes (LNL) were isolated from a lymph node which was partially infiltrated with the melanoma cells. Autologous peripheral blood lymphocytes (PBL) were sensitized in in vitro co-culture (IVC) against radiated PJ-M cells in the presence or absence of PJ-M-sensitized LNL and enriched suppressor (OKT8+) or inducer (OKT4+) LNL populations, and were assayed for cytotoxicity in a 4-hr 51Cr-release microcytotoxicity assay. Significant cytotoxic response against PJ-M could be generated in the PBL, but not in the LNL. The addition of sensitized, unfractionated LNL, OKT8+, or OKT4+ LNL populations abrogated cytotoxic response in the PBL against PJ-M. The suppression of cytotoxic response was induced selectively against the PJ-M targets, because IVC of PBL in the presence of the sensitized LNL did not affect the generation of polyclonal cytotoxic alloreactivities, nor did they abrogate the generation of cytotoxic response against allogeneic targets in IVC against the corresponding allogeneic targets. These results suggest the possibility that cytotoxic immune response against the autologous melanoma cells might have been suppressed by the individual's own immunoregulatory circuit.     

Valine-Resistance, a Potential Marker in Plant Cell Genetics. II. Optimization of Uv Mutagenesis and Selection of Valine-Resistant Colonies Derived from Tobacco Mesophyll Protoplasts

The induction and selection of valine-resistant mutants from haploid tobacco (Nicotiana tabacum L.) mesophyll protoplast-derived cells have been studied. Using cells from an original mutant plant obtained previously, we performed reconstruction experiments in order to determine the best conditions for the recovery of resistant cells among a population of sensitive cells. Optimal selective conditions were shown to depend on various factors including cell density, time of addition of valine and seasonal variations affecting the mother plants.-Using cell densities of approximately 10( 4) cells/ml, we defined efficient selective conditions: more than 25% of the putative mutant clones selected from UV-mutagenized protoplasts were reproducibly confirmed to be valine resistant. Further characterization of some regenerated mutant plants indicated that valine-resistance was associated with an uptake deficiency, as in the case of the original mutant plant of the Val(r)-2 line used for reconstruction experiments. Spontaneous mutation rates for valine-resistance were below accurately detectable levels, i.e., less than 10(-6) per cell per generation. Induced mutation frequency varied nonlinearily with UV dose from 10(-5) to 5 x 10(-4) resistant clones per surviving colony. Two independent loci (vr2 and vr3) were previously shown to be involved in valine-resistance due to amino acid uptake deficiency. Haploid tobacco plants were produced through anther culture from an F(1) double-heterozygous plant obtained from a cross between the original mutant plant and a wild-type plant. Study of the level of resistance to valine of protoplast-derived cells allowed the classification of these haploid plants in four types: sensitive, resistant and two intermediary resistant types believed to result from the presence of a mutant allele at only one of the two loci involved. The frequencies of UV-induced mutations in cells derived from haploid plants of one of the intermediary types were compared to those observed in wild-type cells. The results are considered in light of the amphidiploid structure of the tobacco genome.     

Potentiation of cytotoxic effect of lymphotoxin by anti-cancer drugs and elevated temperatures

The cytotoxic lymphokine, lymphotoxin (LT), has been shown to possess antitumor effect in vitro and in vivo. We examined the effect of the combination of partially purified LT with anti-cancer drugs and elevated temperatures on mouse transformed fibroblast cell line, L-929, and two human carcinoma of the cervix cell lines, HeLa and ME180. The cells were treated for 7 hr with Adriamycin, cisplatin, or bleomycin. These cells were then incubated for 24 hr in the presence of LT. At the end of the incubation period, cytotoxicity was measured by the neutral red dye uptake assay. There was 10- to 47-fold potentiation of cytotoxicity of LT on L-929 cells. The potentiation of cytotoxicity on human carcinoma of cervix cell lines ranged from 3- to 23-fold. L-929 cells and ME180 cells were incubated for 7 hr at 40 or 42 degrees C followed by 24 hr of incubation in the presence of LT. The elevated temperature treatment also enhanced (5- to 9-fold) the cytotoxic effect of LT. DNA, RNA, and protein syntheses of the ME180 cells was measured following incubation at 42 degrees C. It was observed that all three parameters were suppressed by incubation at this temperature. It was, therefore, possible that the repair of LT damaged cells was hampered by the elevated temperature treatment. It is suggested that LT may have a potential as an anti-tumor agent in combination with selected therapeutic drugs and hyperthermia.     

Hierarchy of in vitro sensitivity and resistance of tumor cells to cytotoxic effector cells,cytokines, drugs and toxins

Summary Drug resistance of tumor cells has led to the development of other therapeutic modalities including biological response modifiers, lymphokine-activated killer cells (LAK), and cytokines alone and in combination. The premise of these alternative modalities is that drug resistance can be overcome by other cytotoxic agents or cytotoxic effector cells. However, the relationship between tumor cell sensitivity to these different agents and the cytotoxicity caused by drugs is not known or well understood. Thus, understanding the relationship between these different systems of tumor cell cytotoxicity is essential for optimal therapeutic intervention. To this end, we compared the tumor cell cytotoxicity mediated by recombinant tumor necrosis factor (rTNF), cytotoxic effector cells (natural killer cells, monocytes, LAK cells), chemotherapeutic drugs, and microbial toxins. Human tumor cell lines sensitive and resistant to rTNF or drugs were used to evaluate the effectiveness of the other cytotoxic modalities. Sensitivity was considered as tumor cell cytotoxicity above 15% while resistance refers to that below 10%. Cell lines tested consisted of several histological types such as brain, lung, colon and ovarian tumors. In our experiments, cell lines made resistant to rTNF by coculture were also relatively resistant to unactivated monocytes and their supernatants. These lines were sensitive to all other methods tested including activated monocytes, natural killer and LAK cells, drugs, and toxins. The tumor lines naturally resistant to rTNF were found to have various degrees of sensitivity and resistance to these other systems. Upon the analysis of our data, a pattern emerged that suggested a hierarchy of sensitivity and resistance of the tumor cells to the cytotoxic mechanisms explored. From a majority of cell lines resistant to rTNF to a minority of lines resistant to LAK, we found an interesting gradation of sensitivity and/or resistance to the other cytotoxic modalities employed. The hypothesis of an underlying common mechanism of action within these systems is discussed.Supported in part by grant CA43 121 from the Department of Health and Human services, NIH, and NRSA clinical and fundamental immunology training grant A107 126, NIH (J. S.), and in part by a grant from the Concern Foundation, Los Angeles and a gift from the Boiron Foundation     

Inhibition of the lymphocyte blastogenic response to antigen by serum-free culture supernatants of leukemic B cells

Suppressive factors were detected in culture supernatants of the guinea pig B-cell L₂C leukemia. Dialyzed culture supernatants (DCS) inhibited the blastogenic response of sensitized lymph node cells (LNC) to a wide dose range of the sensitizing antigen (ovalbumin or PPD) but failed to inhibit the proliferative response to PHA or Con A. In addition, DCS inhibited the response of blast cells to preformed T-cell growth factor (TCGF). The inhibitor(s) in DCS was noncytotoxic, heat stable (30 min at 80 °C), resistant to treatment with trypsin, and exerted its effect subsequent to activation of sensitized LNC by antigen. Washing of DCS-treated cells restored normal reactivity to a subsequent antigen challenge. The target cell for the inhibitor may be cells responding to amplification signals produced by activated T cells. KCl (3 M) extracts of L₂C cells behaved like DCS in inhibiting only antigen responses. Both undialyzed culture supernatants (UCS) and leukemic sera inhibited mitogen, allogeneic, and antigen-stimulated proliferative responses by greater than 80%. These soluble factors may participate in the depression of cell-mediated immunity associated with lymphoid malignancies.     

The human LT system. IV. Studies on the large MW LT complex class: association of these molecules with specific antigen binding receptor(s) in vitro.

The present studies demonstrate that a portion of lymphotoxin (LT) cell-lytic activity present in supernatants from: 1) lectin (Con A, PHA) stimulated nonimmune; or 2) antigen (soluble or cellular) stimulated immune human lymphocytes in vitro, is associated with immunoglobulin (Ig) or “Ig-like” receptor molecule(s). This concept was supported by three findings: 1) LT activity in these supernatants was partially inhibited by heterologous anti-human (IgG) Fab′₂ antisera; 2) LT activity present in soluble antigen stimulated immune human lymphocyte supernatants could specifically bind to and be eluted from Sepharose 4B columns to which the specific stimulating antigen was covalently attached; and 3) LT activity present in primary one-way mixed lymphocyte culture (MLC) supernatants could be removed by absorption on the specific stimulator cells. The amount of total LT activity found to be associated with “Ig” in these supernatants was variable, but ranged from 5 to 20% in lectin stimulated cell supernatants to 20 to 50% in antigen or MLC stimulated supernatants. Physical-chemical studies on the molecular weight class of LT molecules having reactivity with anti-Fab′₂ sera, as well as antigen binding capacity, revealed these properties reside in the large (>200,000) MW LT class, termed complex. The nature and biological significance of these “antigen specific” LT complexes, as they relate to mechanisms of cytotoxicity in vitro, will be discussed.     

The hematopoietic and epithelial forms of CD44 are distinct polypeptides with different adhesion potentials for hyaluronate-bearing cells.

CD44 is a polymorphic integral membrane protein which recognizes hyaluronate and whose proposed roles encompass lymphocyte activation, matrix adhesion and the attachment of lymphocytes to lymph node high endothelial venules (HEVs). Immunochemical and RNA blot data have supported the existence of two forms of CD44: a hematopoietic form expressed by cells of mesodermal origin (and by some carcinoma cell lines) and an epithelial form weakly expressed by normal epithelium but highly expressed by carcinomas. This report describes the isolation of a cDNA encoding a distinct CD44 polypeptide expressed by epithelial cells. Re-expression of each form of CD44 in a B cell line allowed cells transfected with the hematopoietic but not the epithelial form to bind to viable rat lymph node HEV cells in primary culture.     

No cross-resistance between ALA-mediated photodynamic therapy and nitric oxide.

Photodynamic therapy (PDT) interactions with nitric oxide (NO) are not well understood. In this work, we attempted to elucidate whether NO cytotoxicity and PDT from aminolevulinic acid (ALA) have independent cell damage mechanisms. We employed the murine mammary adenocarcinoma cell line LM3 and its NO-resistant variant LM3-SNP obtained after successive exposures to sodium nitroprusside (SNP). No cross-resistance was found between NO cytotoxicity and ALA-PDT; LM3-SNP cells were not more resistant to ALA-PDT than the parental line, instead they were more sensitive. We also induced resistance to ALA-PDT in LM3-SNP cells after multiple cycles of photodynamic treatment. We isolated two clones, identified as Clon 1 and Clon 3, which were 9.2 and 12.5 times more resistant to ALA-PDT than the parental lines, showing that resistance to NO did not interfere in the development of PDT resistance. In addition, the sensitivity to NO decreased in Clon 1 and increased in Clon 3, but they did not show any modifications in NO production. All the cell lines have similar GSH content and GSH transferases activities. However, GSSG content is markedly lower in LM3-SNP, Clon 1, and Clon 3 compared to parental LM3 line and consequently GSH/GSSG ratios are also higher. Our results suggest that different degrees of NO resistance of tumours would not correlate with resistance to PDT.     

Characterization of natural cytotoxic effector cells isolated from rat liver

Nonparenchymal liver cells (NPC) from normal untreated female Wistar/Furth rats were tested for natural cytotoxicity in a 4-hour 51Cr release assay against the murine lymphoma YAC-1, the murine mastocytoma P815, and the syngeneic rat mammary carcinoma TMT-081 tumor cell lines. NPC exerted strong cytotoxicity against all three target cells. In contrast, fresh spleen cells displayed cytotoxicity only against YAC-1, although after culture for 24 h at 37 degrees C cytotoxicity was displayed against all three target cells. Fresh spleen cells contained 2-15% large granular lymphocytes (LGL) as assessed by Giemsa staining whereas NPC contained 10-23% LGL and 10-25% Kupffer cells. Centrifugal elutriation produced fractions that were increased in one or the other of the cell types. More cytotoxic activity was observed in the fraction containing more LGL. The cytolytic activity of fresh spleen cells could be eliminated by either in vivo or in vitro treatment with anti-asialo-GM1 antiserum. On the other hand, the cytolytic activity of NPC was resistant to in vivo treatment, but was partially sensitive to in vitro treatment. Furthermore, the activity of cultured spleen cells was also partially sensitive to in vitro treatment. NPC and cultured spleen cells also were more resistant to suppression by prostaglandin E2 and nordihydroguaiaretic acid than fresh spleen cells. We conclude that LGL is mainly responsible for natural cytotoxicity of NPC and that some effector cells in NPC may be highly activated.     

Shedding of ICAM-1 from human melanoma cell lines induced by IFN-gamma and tumor necrosis factor-alpha. Functional consequences on cell-mediated cytotoxicity.

ICAM-1-mediated cell-cell adhesion is essential for various immunologic functions, including non-MHC-restricted cytotoxicity. The present study was designed to establish whether shedding of ICAM-1 from melanoma cells occurred and to characterize the effects of soluble ICAM-1 on some cell adhesion-dependent functions. The shed soluble ICAM-1 molecule was detected and quantified by a specific ELISA. Shedding of ICAM-1 could be induced by IFN-gamma and TNF-alpha alone, or more effectively, by a combination of the two cytokines together. The use of purified soluble ICAM-1 enabled us to test for the functional significance of the ICAM-1 shedding from tumor cells. Conjugate formation between the cloned NK cell line CNK6 and the erythromyeloid cell line K562, as well as between lymphokine-activated killer cells and the melanoma cell line M26, could be inhibited by purified soluble ICAM-1 and cell-free supernatants from melanoma cell cultures containing shed ICAM-1. Furthermore, the non-MHC-restricted cytotoxicity mediated by NK and lymphokine-activated killer cells could be abrogated either by purified soluble ICAM-1 or by melanoma cell culture supernatants containing shed ICAM-1. Thus, shedding of ICAM-1 may be one of the mechanisms by which neoplastic cells escape immunosurveillance.     

Antigen presentation in the rat. II. An Ia+ radiosensitive T cell can present antigen to primed Ia- T cells

We demonstrated previously the presence of an Ia+ (OX-6+) antigen-presenting cell within the rat T cell fraction that is capable of presenting antigen to antigen-primed OX-6-T cells. This antigen-presenting cell (T-APC) reacted with the monoclonal antibodies W3/25 and W3/13, which is known to react mainly with rat T cells. Further characterization of the T-APC indicated that the cell also reacted with the monoclonal antibody OX-19, which is highly specific for rat T cells. Moreover, the antigen-presenting function of the T-APC was sensitive to treatment with mitomycin C or gamma-irradiation (2000 rad). Under similar conditions, antigen presentation by partially purified dendritic cells or macrophages was totally resistant to these treatments. The antigen-presenting activity of gamma-irradiated T-APC was not reconstituted by the addition of the lymphokines IL 1, IL 2, or Con A supernatants. Although unirradiated T-APC were able to stimulate an MLR response, this function was also sensitive to gamma-irradiation, whereas the MLR-stimulating ability of macrophages and dendritic cells was resistant to gamma-irradiation. These data indicate that Ia+ T cells from the rat are capable of presenting antigen to antigen-primed T lymphocytes and that, in contrast to antigen presentation by macrophages and dendritic cells, the function of T-APC is gamma-radiation sensitive.     

Different phenotypic variants of the mouse B cell tumor A20/2J are selected by antigen- and mitogen-triggered cytotoxicity of L3T4-positive, I-A-restricted T cell clones

The L3T4+, Lyt-2-, cloned BALB/c T cell lines 5.9.24 and 5.8.6 are cytotoxic for the BALB/c B cell tumor line A20/2J. The T cell cytotoxicity against A20/2J cells could be triggered either by the specific antigen ovalbumin (OVA), which is recognized by the T cell clones in association with I-Ad determinants, or by the T cell mitogens Con A and rabbit anti-mouse brain (RaMBr) antiserum. Repeated exposure of A20/2J cells to 5.9.24 and 5.8.6 T cell cytotoxicity selected variant cell lines that had developed resistance to cytotoxicity. The variant lines could be classified into four different variant phenotypes of which three were stably maintained in vitro. The type of variant obtained appeared to be related to the nature of the ligand used to trigger T cell cytotoxicity during selection. Cytotoxicity triggered by the antigen OVA generated type 1 variants that expressed abnormally low levels of I-Ad determinants at the cell surface. Type 1 variants were resistant to OVA-triggered 5.9.24 T cell cytotoxicity, but were fully susceptible to cytotoxicity triggered by Con A or RaMBr antiserum. RaMBr-triggered cytotoxicity generated two unique types of variant cell lines: type 3 variants that were deficient in cell surface Fc receptors and resistant to 5.9.24 cytotoxicity only when triggered by RaMBr antiserum, and type 4 variants that were resistant to cytotoxicity triggered by all three ligands. One type 4 variant, the IC-1 cell line, appeared to be resistant to soluble cytotoxic factors released by 5.9.24 T cells after activation by antigen. All of these variant lines retained sensitivity to cytotoxicity by classic Lyt-2+ cytotoxic T lymphocytes (CTL), a finding that indicates that L3T4a+ T cells and Lyt-2+ CTL use different molecules to attack their target cells. The variant phenotypes were inherited by clones derived from the original cell lines. Because the variants were generated without mutagenesis, they are thought to have been derived by the immunoselection of pre-existing variant cells that arose spontaneously in the parental A20/2J cell line. It is postulated that inheritable variation of A20/2J cells may represent changes that normally occur during B cell differentiation in response to T cell signals. The variant A20/2J cell lines described here provide material for the investigation of B cell surface structures that may regulate T-B cell interactions.