Generation of cytotoxic lymphocytes to syngeneic tumor by using co-stimulator (Interleukin 2)

Cytotoxic lymphocytes (CL) highly active against the syngeneic mastocytoma, P815, were generated from spleen cells of DBA mice cultured with co-stimulator (Interleukin 2) and P815. More CL activity was generated from spleen cells of P815 tumor-bearing mice than from spleen cells of normal mice. Thymus cells from tumor-bearing mice, however, did not produce increased CL activity. Most of the CL were Thy 1 and Ly 1 positive. The optimal culture conditions and kinetics were similar to those for the generation of allogeneic cytotoxic T lymphocytes. The cytotoxic activity against syngeneic P815 was similar in magnitude to the response of DBA spleen cells to allogeneic tumor lines and to the response of allogeneic CBA spleen cells to P815. Although CL generated from tumor-bearing mice did not lyse normal DBA cells, they did lyse, to a much lesser degree, a number of tumor cell lines other than the sensitizing P815. This nonspecific lysis was not H2 restricted nor was it restricted to tumors of lymphoid origin. Generation of nonspecific cytolytic activity was antigen independent, occurring in the presence of co-stimulator alone.     

Characterization of suppressor cells in mice bearing syngeneic mastocytoma.

Suppressor cells from syngeneic P815 mastocytoma-bearing DBA/2 mice that inhibit in vitro generation of specific anti-tumor cytotoxicity were characterized. Suppressive activity was almost completely eliminated by treating suppressive spleen cells with anti-theta serum and complement. Treatment with anti-mouse lg serum and complement or with carbonyl iron did not affect their suppressive activity. When suppressive thymocytes from P815 tumor-bearing DBA/2 mice were tested for their capacity to inhibit the generation of cytotoxicity against L1210 cells, a leukemia line in DBa/2 mice, they did not affect the activity, indicating that the supressor cells in the thymocytes of P815 tumor-bearing mice are specific to the tumor. When Ficoll-Hypaque density cell separation was carried out with cytotoxic spleen cells and suppressive spleen cells from 815 tumor-bearing mice, the dense fraction was enriched for kiler cells whereas the suppressive activitty was mainly recovered in the light fraction. Therefore, killer cells and suppressor cells in P815 tumor-bearing mice are thought to be distinct populations.     

The existence of antibody-like activities against the weakly immunogenic minor histocompatibility antigens

BALB/c mice develop cytotoxic lymphocytes as well as produce specific antibodies against the minor histocompatibility antigens when injected with DBA/2 P815 cells. P815 cells grown in BALB/c mice have IgG antibodies on their surface as demonstrated by the binding of ¹²⁵I-labeled goat anti-mouse IgG and by complement-dependent cytotoxicity. Serum from BALB/c mice hyperimmunized with P815 cells blocked lymphocyte-mediated cytotoxicity by BALB/c immune peritoneal exudate cells. This blocking activity was removed by absorbing hyperimmune serum with DBA/2 spleen cells or P815 cells. This result suggests that specific antibodies were generated against the minor histocompatibility differences between BALB/c and DBA/2 mice. The experimental procedures described may be very useful in demonstrating minute quantities of antibody against minor histocompatibility antigens on tumor cells.     

Effects of humoral factors of the mastocytoma P815 cells on the formation of allospecific killers in mixed culture of lymphocytes and their cytotoxic activity

The influence of the P-815 mastocytoma cells and their humoral factors, contained in culture supernatant and ascitic fluids on the generation of allospecific cytotoxic T-cells (alloCTL) in mixed culture of lymphocytes was studied. Both tumor cells and humoral factors were shown to inhibit generation of allospecific killers. Normal spleen cells and peptonic ascites of DBA/2 mice did not indicate immunosuppressive activity. Immunosuppressive factors did not affect CTL effector function (lysis of target cells). Both tumor cells and immunosuppressive factors did not exert toxic effect on mouse splenocyte. The suppressive effect of tumor cells and humoral factors was not associated with their cytotoxic action on lymphocytes.     

Modulation of F1 cytotoxic potentials by GvHR. Host- and donor-derived cytotoxic lymphocytes arise in the unirradiated F1 host spleens under the condition of GvHR-associated immunosuppression

As an approach to dissect complex cellular events that lead to GvHR-associated immune disorders, we followed cytotoxic activities, including NK cytotoxicity, in the spleens of unirradiated F1 hosts undergoing GvHR induced by parental spleen cells. Spleen cells of (B10 X DBA/2)F1 or (B10 X AKR/J)F1 hosts undergoing GvHR induced by parental B10 spleen cells displayed a prompt and marked increase in NK cell activity within 36 hr, and the heightened activity lasted until day 8. The activity then declined abruptly and disappeared on day 12 of GvHR. Inversely, donor B10-derived CTL specifically directed to the opposite parental alloantigens of the F1 hosts emerged in these F1 host spleens on day 8, and the CTL activity reached a peak on day 12 when the host NK cell activity disappeared. During the period that the donor-derived anti-host CTL were present, these F1 host spleen cells lost not only NK cell activity but also the ability to mount in vitro CTL responses. In contrast, the respective F1 strain mice undergoing GvHR induced by the parental DBA/2 or AKR/J spleen cells showed only transient but marked increases in NK cell activity during the initial 36 hr, and then the activity decreased gradually to return to the normal level on day 10. In such GvHR F1 host spleens, donor-derived CTL could never be detected, and the spleen cells showed normal in vitro CTL responsiveness during the entire observation period of 16 days. These results are discussed from the viewpoint of genetically defined cellular events that lead to the GvHR-associated immune disorders.     

Cell-mediated immune responses in vitro. II. Simultaneous generation of cytotoxic lymphocyte responses to two sets of alloantigens of limited cross-reactivity.

The conditions for generation of simultaneous and independent cytotoxic lymphocyte (CL) responses to each of two sets of alloantigens of limited cross-reactivity by mouse spleen cells in vitro have been investigated. Responder spleen cells were incubated with mitomycin C-treated C57BL/6 (H-2b) or DBA/2 (H-2d) stimulator spleen cells and day 5 CL responses were assayed with 51Cr-labeled EL-4 leukemia (H-2b) and P815 mastocytoma (H-2d) as target cells. Spleen cells from mice of the various H-2 haplotypes tested differed greatly in their ability to develop specific CL responses against alloantigens on the stimulator spleen cells and in the degree of cross-reactive cytotoxic activity against target cells bearing alloantigens not present on the stimulator spleen cells. In contrast to the other strains examined, DBA/1 (H-2q) spleen cells developed specific CL responses to either H-2b or H-2d alloantigens without exhibiting significant cross-reactive activity on the inappropriate target cell. The CL responses to H-2b and H-2d alloantigens by DBA/1 spleen cells were comparable in magnitude and had similar stimulator cell-dose requirements. Further, DBA/1 spleen cells developed CL responses of normal magnitude simultaneously against both target cells when incubated with both mitomycin C-treated C57BL/6 and DBA/2 stimulator cells.     

Genetic studies on a tumor growth-inhibitory factor in serum of normal mice and its relationship to NK activity

It has been shown that normal mouse serum contains a tumor growth-inhibitory factor (GIF). and that strain-dependent levels of GIF correlate with mouse NK activity. To further analyze the genetic control of GIF we have studied the growth-inhibitory activity of normal mouse serum from 8 different mouse strains and their F1 hybrids. A sensitive method using a chromogenic substrate for an endogenous lysosomal enzyme was used to measure the inhibitory activity of normal mouse serum on the mouse B16 melanoma. The highest level of GIF was found in old mice, lower activity in serum of young animals and no activity in suckling mice. To compare the genetic control of GIF and NK, spleen NK activity against B16 as well as YAC-1 targets was measured in parallel in the same animals. Confirming previous results we found the H-2k strains CBA and C3H to have high levels of GIF as well as NK activity, while the strain A/Sn and the A congenic strain A.SW had low levels of both activities. Experiments with H-2d and H-2b strains, however, showed that GIF and NK had a different genetic control; thus the DBA/2 and Balb/c strains had considerably higher GIF activity than the C57B1 and Leaden strains, while the reverse was true for NK activity. In F1 hybrid crosses between strains with high and low activity, high activity was inherited as a dominant trait for both GIF and NK. A backcross analysis in (A X CBA) X A backcross mice, segregating for NK and GIF showed that the two activities did not cosegregate. These studies therefore demonstrate that GIF and NK activity are under different genetic control, and do not support any direct or simple relationship between GIF and NK cells.     

Tumor target-derived soluble factor synergizes with IFN-gamma and IL-2 to activate macrophages for tumor necrosis factor and nitric oxide production to mediate cytotoxicity of the same target.

Inflammatory mouse peritoneal macrophages were activated by IFN-gamma in synergy with IL-2 or Lipid A to mediate TNF production for autocrine generation of cytotoxic nitric oxide (NO) to kill P815 or L1210 tumor targets. It was determined that for IL-2, but not Lipid A, to effectively trigger activation of IFN-gamma-primed macrophages, the tumor targets must be also present for interaction with effector macrophages to mediate the production of TNF and NO. IFN-gamma- and IL-2-activated macrophages from syngeneic DBA/2 and allogeneic C3H mice had identical MHC-unrestricted requirements for interaction with DBA/2 mouse-derived P815 and L1210 targets to mediate production of TNF and NO for tumor cytotoxicity. To further define the mechanistic requirements for macrophage-tumor target interaction, IFN-gamma- and IL-2-activated macrophages were separated from P815 targets in culture by a semipermeable membrane. Under these conditions, both TNF and NO were produced by the macrophage, which indicated that the requirement for tumor target-macrophage interaction may be due to a soluble factor produced by the target rather than to direct physical contact. This was confirmed by experiments in which 24-h cell-free culture fluids, derived from either P815 or L1210 tumor targets, substituted for the intact tumor cells in the stimulation of TNF mRNA synthesis and secretion with NO generation of TNF mRNA synthesis and secretion with NO generation by IFN-gamma- and IL-2-activated C3H or DBA/2 macrophages. The activity in 24-h culture fluids derived from P815 and L1210 tumor targets was tentatively designated as tumor-derived recognition factor(s) (TDRF) since it was produced constitutively by the tumor targets and synergized with IFN-gamma and IL-2 to induce macrophage production of TNF and NO for death of the same targets. A variety of nontransformed human and mouse fibroblasts, mouse spleen lymphocytes, and two adherent mouse fibrosarcomas did not produce detectable TDRF activity, whereas two mouse T lymphomas, EL4 and EL4.IL-2, produced TDRF activity similar to L1210 mouse leukemia and P815 mastocytoma. The C3H/MCA, a TDRF-nonproducing mouse fibrosarcoma, was susceptible to cytotoxicity mediated by macrophages activated by IFN-gamma and Lipid A, but not by IL-2 triggering. Exogenous TDRF derived from L1210 targets reconstituted the cytotoxic activity for C3H/MCA MCA targets mediated by IFN-gamma- and IL-2-activated macrophages accompanied by the production of TNF and cytotoxic NO.(ABSTRACT TRUNCATED AT 400 WORDS)     

The antimetastatic function of concomitant antitumor immunity. I. Host Ly-1+2+ effector T cells prevent the enumeration of metastatic tumor cells in a biological assay

A mouse survival assay was evaluated for its suitability to enumerate metastatic P815 tumor cells in the draining lymph node and spleen of a B6D2 F1 (H-2b X H-2d) host bearing a primary intradermal P815 tumor. The mouse survival assay is based on the linear relationship between the log10 number of P815 tumor cells (H-2d) injected i.p. into mice and their mean survival time. It was found that the assay is capable of quantifying as few as 10 tumor cells in lymph node and spleen, but only if cell suspensions of these organs are treated with anti-H-2b serum and complement, in order to selectively destroy H-2bd host cells. This was necessary because host cells from the lymph node and spleen of a tumor-bearing host possessed antitumor functions, in that they were capable of destroying the H-2d P815 tumor cells when admixed with the tumor cells and injected i.p. into 800-rad irradiated test recipients. The kinetics of acquisition and loss of host cells with antitumor function and the Ly phenotype of these host cells suggest that they are the same cells that give the tumor-bearing host the capacity to express concomitant immunity against a tumor implant.     

Studies of thymopoietin pentapeptide (TP5) on experimental tumors: I. TP5 relieves immunosuppression in tumor-bearing mice

The allogeneic and syngeneic immune responses of tumor-bearing mice (C57BL/6 mice bearing 3LL and DBA mice bearing P815) were evaluated by the cytotoxic lymphocyte precursor unit (CLP-U) and MLC. In general, tumor-bearing mice showed slightly enhanced immune responses 4 days after tumor inoculation. This enhanced immune response rapidly declined and about 7–10 days after tumor inoculation, both allogeneic and syngeneic responses were markedly lower than normal. Mice treated with TP5, starting 2 weeks before tumor inoculation, retained normal or enhanced allogeneic and syngeneic responses up to 3 weeks after tumor inoculation. When this tumor-induced suppressive effect was studied in cell transfer experiments, spleen cells from tumor-bearing mice enhanced the growth of tumors in syngeneic recipients whereas spleen cells from TP5-treated mice inhibited the growth of tumors in syngeneic recipients. Moreover, the spleen cells from TP5-treated mice also showed enhanced cytotoxic activity against tumor cells in vitro. These findings suggest that the tumors, after a transient stimulatory phase, induced immune suppressive mechanisms in the hosts' immune defenses. Treatment with TP5 prevented the development of these immune suppressive effects and spleen cells from TP5-treated tumor-bearing mice inhibited tumor growth in freshly tumor-inoculated recipients.     

Changes in the host natural killer cell population in mice during tumor development. 2. The mechanism of suppression of NK activity

Our earlier studies revealed that a rapid and progressive loss of splenic NK activity in mice during the development of a number of transplanted tumors as well as of spontaneous tumors was due to an inactivation of natural killer (NK) lineage cells rather than to their disappearance. The mechanism of this inactivation have now been explored in CBA/J mice receiving transplanted Ehrlich ascites tumors and in C3H/HeJ mice bearing spontaneous mammary tumors or receiving transplants of syngeneic mammary tumor lines of recent origin. A poor activation state or maturation arrest of NK lineage cells due to a low interferon level in vivo was ruled out, since the host NK activity could not be restored after administration of either an interferon inducer poly(I:C) or interferon-alpha, although such treatments enhanced the activity in tumor-free mice by four- to eightfold. Possible presence of host suppressor cells acting on the effector or preeffector stage of NK cells was explored by mixing spleen cells from tumor bearers with normal spleen cells either during the NK assay, or for a 20-hr period of in vitro short-term culture prior to the NK assay. Mixing during the NK assay led to a reduction of NK activity explicable by a simple dilution of active NK cell concentration rather a suppression of active NK cells. On the other hand, a 20-hr coculture of the mixed population at various ratios led to a complete abrogation of the NK activity, indicating that the suppressor cells acted on the preeffector stage of the NK Lineage. A further characterization of suppressor cells revealed that they were (1) contained in the adherent fraction of the spleen of tumor bearers, (2) of monocyte/macrophage morphology, (3) capable of phagocytosing latex particles, and (4) positive for surface Mac-1 antigen, as noted from a radioautographic binding of 125I-labeled monoclonal anti-Mac-1 antibody. The mechanism of the suppression was identified, at least in part, as being mediated by prostaglandin-like molecules, since the presence of indomethacin, a prostaglandin-inhibitor, during the 20-hr coculture period completely abrogated the suppression. Indomethacin exerted no direct effect on the recruitment or killer activity of NK lineage cells in vitro. NK cell suppression may be another normal immunoregulatory mechanism which alters the host-tumor balance in favor of the tumor rather than the host.     

The preparation of xenoantiserum specific for a murine mastocytoma cell line

Summary A method is described whereby a xenoantiserum directed toward membrane components of DBA/2 murine mastocytoma P815 cells was raised. This antiserum was found to be specific for tumor cell extracts and had no reactivity with comparable extracts of normal cells when tested by complement fixation. The antiserum was capable of killing P815 cells in the presence of guinea-pig complement but had no reactivity with L1210 leukemia cells or a variety of normal DBA/2 cell preparations. When mixed with varying numbers of tumor cells and injected IP to either DBA/2 or B6D2 Fl mice, the antiserum demonstrated a protective effect by either prolonging survival time or, when low numbers of cells were injected, apparently facilitating complete removal from the body of tumor cells. When administered following resection of SC grown tumors in B6D2 Fl mice, the antiserum prevented tumor recurrence in 50% of treated mice in comparison to animals treated with normal rabbit serum, in which recurrence occurred in all test animals.     

In vivo activity of lymphokine-activated macrophages in host defense against neoplasia

Purified splenic macrophage (M phi) from normal DBA/2J mice and mice bearing P815 tumors were examined for responsiveness to lymphokine (LK) preparations containing high concentrations of IFN-gamma. For both normal and tumor-bearing M phi, LK treatment induced morphologic changes and increased the percentage of Ia+ cells from 35 to 55%. Although neither population exhibited spontaneous cytotoxicity toward P815 targets, LK treatment induced considerable tumoricidal activity in tumor-bearing M phi (32 to 80% lysis) but only minimal activity in normal M phi (8 to 17% lysis). Subcutaneous injection of 1 X 10(6)P815 cells into DBA/2J led to progressive tumor growth and death of 100% of the recipients after 27 +/- 3 days. Injection of a 1:18 mixture of P815 with either LK-activated normal or tumor-bearing M phi caused tumor regression after 10 days, and prolonged life until 43 +/- 4 days with tumor-bearing M phi and 39 +/- 3 days with normal M phi. Untreated normal or tumor-bearing M phi were unable to cause the effect (30 +/- 2 days), and lymphocytes could not be substituted for M phi (25 +/- 3 days). In x-irradiated recipients, no effect of LK-activated M phi could be observed (control = 19 +/- 2 days; LK-activated tumor-bearing M phi = 21 +/- 3 days). In addition, administration of an admixture of LK-treated M phi and x-rayed tumor before challenge with viable P815 enabled the recipient to inhibit tumor growth and caused tumor necrosis with inflammatory cell infiltration of the tumor. These observations suggest that, in part, LK-activated M phi may interact in vivo with host-derived cellular components and enhance the immune reactivity of the host against the tumor.     

Augmentation of Mouse Natural Killer Cell Activity by Lactobacillus casei and Its Surface Antigens

Lactobacillus casei YIT 9018 (LC 9018) augmented the natural killer (NK) cell activity of spleen cells from inbred BALB/c mice injected intravenously with LC 9018 or intraperitoneally with polyinosinate-polycytidylate. Augmentation of this activity by LC 9018 was also observed in male C3H/He, CBA/N, and C57BL/6 mice. The spleen cells exhibited no cytolytic activity against P815, a cell line insensitive to NK cells. The cytolytic activity of the spleen cells increased 2 days after the injection of 250 μg of LC 9018/mouse, peaked on day 3, and gradually declined thereafter. The increase caused by LC 9018 was also observed in normal and Meth A-bearing mice. In vitro treatment with anti-asialo GM1 antibody plus complement completely-abrogated the LC 9018-augmented murine NK cell activity. The NK activity on the 3rd day after LC 9018 injection was reduced by in vitro treatment with anti-Thy 1.2 monoclonal antibody plus complement to half of that observed when treatment was with complement alone. This suggests that there were two populations of NK cells in the spleen cell suspension derived from LC 9018-treated mice. One population was asialo GM1-positive and Thy 1-negative, the other was asialo GM1-positive and Thy 1-positive.     

Natural killer cell activity in murine muscular dystrophy. III. NK-sensitive myoblast cells and lack of NK activity in beige/dystrophic hybrid mice

The NK-susceptibility of dystrophic mouse myoblast cells was investigated. Spleen cells from 8- to 10-week-old normal (+/+) and dystrophic (dy2J/dy2J) male C57BL/6J mice were fractionated on Percoll density gradients and the cells at each density interface were incubated with either 51Cr-labeled YAC-1 or myoblast cells in a 6 hr 51Cr-release assay. Myoblast target cells were obtained from either heterozygous (+/dy2J) or homozygous (dy2J/dy2J) muscle cultures or a transformed tetraploid myoblast line (M14D2). The data indicate that the interface between the 50 and 60% (1.060-1.075 g/ml) Percoll density fractions of spleen cells from either normal or dystrophic mice contains the largest proportion of asialo GM-1 positive and NK-1 positive cells displaying NK activity. Myoblast cells from either heterozygous (phenotypically normal) or homozygous dystrophic mice were not significantly different in susceptibility to NK-mediated lysis by Percoll enriched normal or dystrophic mouse NK cells. However, dystrophic mouse spleen cells had the highest NK activity against both myoblast targets as compared with normal mouse spleen cells. The transformed myoblast cell line, M14D2, was significantly less susceptible to NK-mediated lysis by dystrophic mouse spleen cells when compared with freshly cultured myoblast target cells. Target cell binding studies revealed that conjugate forming cells from the 50% Percoll density interface of dystrophic mouse spleen cells were approximately twofold greater than that of normal mouse spleen cells against either heterozygous or homozygous dystrophic mouse myoblast targets. Cold target inhibition studies revealed that the natural killing of dystrophic mouse myoblast cells was due to a YAC-1 reactive NK cell. Breeding experiments between C57BL/6J homozygous "beige" (bgJ/bgJ) mutant mice and dystrophic (dy2J/dy2J) mice produced beige/dystrophic hybrid mice which displayed clinical symptoms of the dystrophy process by 3 to 4 weeks of age. Spleen cells from these hybrid mice showed no significant differences in NK activity against YAC-1 target cells when compared with homozygous beige mice. Taken together, these results demonstrate the first reported evidence that murine myoblasts are susceptible to NK-mediated lysis. In addition, the data indicate that although dystrophic mouse NK cells recognize myoblast cells as targets, the NK cell studies with the beige/dystrophic hybrid mice do not indicate a direct in vivo role for NK cells in the dystrophy process.     

Acute toxoplasma infection of mice induces spleen NK cells that are cytotoxic for T. gondii in vitro

Murine spleen natural killer (NK) cells from normal and Toxoplasma-infected BALB/c mice were examined for their reactivity against RH strain tachyzoites in vitro. First, the effect of suspending medium on survival of extracellular RH tachyzoites was determined. Optimal parasite viability (by ethidium bromide-acridine orange staining) was observed when tachyzoites were incubated in phosphate-buffered saline (PBS) containing 10% horse serum (HS) for as long as 5 hr. In addition, parasite viability in PBS-HS correlated with subsequent infectivity, because freshly harvested and PBS-HS-incubated tachyzoites were equivalent in their ability to cause lethal infections in normal mice and to survive within normal mouse macrophages. Furthermore, viability and tumoricidal capacity of murine spleen NK cells incubated in PBS-HS was comparable to that of NK cells incubated in a standard cytotoxicity medium. Incubation of effector NK cells and target tachyzoites in PBS-HS in vitro revealed that spleen NK cells from 3-day Toxoplasma-infected mice had significantly greater cytotoxicity for extracellular RH tachyzoites than did control cells from uninfected mice. Moreover, Toxoplasma gondii-induced spleen NK cell toxoplasmacidal activity was significant at all effector to target cell ratios tested, and appeared to be mediated by direct contact between the host cell and the parasite. These in vitro results suggest that NK cells may be important in host defense against T. gondii.     

Enhanced natural killer (NK) cell activity and NK-sensitive thymic cells in murine muscular dystrophy

Studies have shown that there is an abnormality in the thymus of dystrophic mice with respect to age-dependent thymus weight changes and altered morphology (T. DeKretser and B. Livett, Nature (London), 263, 682, 1976). Recently, others have shown that natural killer (NK) cells can lyse cells of a large, immature, rapidly dividing cell subpopulation within the thymus of normal young (3 weeks of age) mice (M. Hansson, K. Karre, R. Kiessling, J. Roder, B. Anderson, and P. Hayry, J. Immunol., 123, 765, 1979). The NK susceptibility of dystrophic mouse thymocytes as targets was therefore studied. Spleen cells from normal (+/+) and dystrophic ($\text{dy}{}^{\mathrm{2J}}\text{dy}{}^{\mathrm{2J}}$) male C57BL/6J mice 8–10 weeks old were passed over nylon wool and the nonadherent cells were incubated with ⁵¹Cr-labeled YAC-1 lymphoma target cells or thymocytes in a ⁵¹Cr-release assay. Spleen cells from dystrophic mice killed twofold more YAC-1 target cells than did spleen cells from normal mice. Thymocytes from 3- to 4-week-old dystrophic mice were three to four times more susceptible to NK lysis by dystrophic mouse spleen cells as compared with normal mouse spleen cells. Spleen cells from dystrophic mice had the same NK activity against dystrophic and normal mouse thymocytes as targets. Normal mouse spleen cells killed three- to fourfold more dystrophic mouse thymocytes than that of normal mouse thymocytes as targets. Target cellbinding studies revealed that conjugate-forming cells from nylon nonadherent dystrophic mouse spleen cells were found to be two- to fourfold greater than for normal mouse spleen cells using YAC-1 tumor cells as targets. The number of lymphocytes bound per YAC-1 target cell ranged from 2 to 5 for dystrophic mouse spleen cells as compared with 1 to 2 for the normal control group. Using both normal and dystrophic mouse thymocytes as targets, the conjugate-forming cells from dystrophic mouse spleen cells were also found to be twofold greater than in the normal control group. Cold target inhibition studies revealed that the natural killing of dystrophic mouse thymocytes was due to a YAC-1-reactive NK cell. Effector cell depletion studies using monoclonal anti-Thy-1.2 plus complement treatment and plastic petri dish adherence also revealed that the natural killing of dystrophic mouse thymocytes was not due to either T lymphocytes or macrophages. Taken together, these results show an increase in NK-sensitive thymocyte targets in dystrophic mice, in combination with an increase in splenic NK activity.     

Ontogeny of cell-mediated cytotoxicity: induction of CTL in early postnatal thymocytes.

In this study we characterized the time when cytotoxic T lymphocytes (CTL) can be induced in the thymus and spleen from their immediate CTL precursors (CTL-P). In contrast to fetal or newborn thymus, the thymus of 1 to 2-day-old C57BL/6 mice contained cells that, after cultivation in vitro with allogeneic DBA/2 stimulating cells, exhibited high levels (as great or greater than that induced in adult thymocytes) of CTL activity as measured by the ability to lyse P815 (DBA/2) tumor target cells. However, CTL activity induced in spleen cells remained how during the first 5 days of life, increased sharply between 6 to 9 days, and reached adult levels at 11 to 20 days. Furthermore, early postnatal spleen cells did not suppress the adult splenic CTL response. These results suggest 1) that the full potential to generate CTL in response to an allogeneic stimulus commences in the thymus on the first day after birth and 2) a different temporal appearance of immediate CTL precursors in the thymus and spleen.     

Murine trophoblast can be killed by lymphokine-activated killer cells

The ability of fetal trophoblast cells in the placenta to resist cell-mediated lysis may be important for successful pregnancy. Previous studies in this laboratory demonstrated that cultured midterm mouse trophoblast cells are not susceptible to allospecific CTL generated by standard in vitro protocols, to antibody-dependent cell-mediated cytotoxicity, or to naive or IFN-activated NK cells, despite expressing the requisite target structures. However, we now report that murine trophoblast can be killed, in a non-MHC-specific manner, by LAK cells. Normal mouse spleen cells cultured for 4 days in IL-2-containing lymphokine preparations characteristically killed both NK-sensitive (YAC-1) and NK-resistant (EL4, P815) target cells, and mediated significant lysis of both cultured and freshly isolated trophoblast cells (35 to 55%, E/T 100/1). Pretreatment of the LAK cells with anti-ASGM1 antibody and C markedly reduced the lysis of trophoblast and YAC-1 targets, suggesting that the responsible cells belonged to the NK lineage. The ability of IL-2-activated NK cells to kill midterm murine trophoblast cells was confirmed using a population of highly lytic NK cells generated by culturing spleen cells from severe combined immunodeficiency mice in 500 U/ml rIL-2 for 5 days. These effector cells killed YAC-1, EL4 and P815 target cells at much lower E/T ratios than was achieved with the normal splenic LAK cells, and mediated significant lysis of both freshly isolated (45 to 50%, E/T 20/1) and cultured trophoblast cells (68 to 76%, E/T 20/1). The susceptibility of trophoblast to LAK cells and IL-2-activated NK cells supports the need for suppressor mechanisms regulating IL-2 activity at the maternal-fetal interface.     

Alloantigen-induced cytotoxicity against syngeneic tumor cells: analysis at the clonal level

It has been shown that peritoneal exudate cells (PEC) from BALB/c mice immunized with minor histocompatibility antigens presented by DBA/2 or B10.D2 spleen cells are capable of lysing syngeneic YC8 tumor cells in a 4-hr 51Cr-release assay. In this study, we employed limiting dilution analysis to determine the frequency of CTL precursors (CTL-P) reactive against both the specific DBA/2 (or P815) target and the syngeneic tumor YC8. The mean frequency of anti-DBA/2 CTL-P in PEC from BALB/c mice immunized with DBA/2 was 1/302. Between one-third and one-fifth of limiting dilution microcultures that exhibited lytic activity against DBA/2 lymphoblasts (or P815) were also able to lyse YC8. No lysis of YC8 was observed in the absence of a parallel lysis on DBA/2 lymphoblasts or P815 target cells. T cell clones, derived by micromanipulation from microcultures selected for cytotoxic activity against YC8 and/or P815, maintained either the specific anti-allogeneic or the doubly reactive ( antiallogeneic plus anti-syngeneic tumor) phenotype. Fourteen clones (six specific and eight doubly reactive) were tested for cytotoxic activity on a panel of target cells with different haplotypes. All showed H-2-restricted specificity for minor histocompatibility antigens shared by DBA/2 and B10.D2. The restriction element for some of the clones mapped in the K region of the H-2 complex, whereas for other clones the restriction element mapped in the D region; both K- and D-restricted clones were able to lyse YC8. When the clones that exhibited lysis on YC8 were tested on two other BALB/c tumor targets, LSTRA, a Moloney virus induced lymphoma, and RL male-1, a radiation induced lymphoma, two of seven were found to lyse all three syngeneic tumor targets equally well, but not syngeneic BALB/c blasts. These clones were functionally categorized as conventional CTL because they were unable to proliferate when cultured with antigen in the absence of exogenous lymphokines, and were unable to produce lymphokine with IL 2 activity when stimulated by the appropriate splenocytes. When tested in vivo in a Winn assay, a strong anti-tumor activity against YC8 was exerted by the anti-DBA/2 clones DY4 -3 and DY16 -3. These clones lysed both YC8 and the immunizing target cells in vitro. No in vivo effect in neutralizing YC8 tumor growth was observed with clone D2-1, a clone that lysed DBA/2 targets but not YC8 in vitro.