Suppressive effects of soluble histocompatibility antigens on the in vitro generation of cytotoxic T cells to D-end alloantigens

Murine histocompatibility antigens were solubilized from the spleens and lungs of C57BL/6 (H-2b) animals with hypertonic salt (3 M KC1). Aggregate-free soluble antigens were incubated with nonadherent lymph node cells from BALB/c (H-2d) mice for 18 hr prior to their use as responder cells in the mixed-lymphocyte reaction (MLR). It was found that the generation of cytotoxic cells was suppressed while the proliferative response was not affected. The observed suppression was not due to a shift in the kinetics of the generation of cytotoxicity as determined throughout a 10-day culture period. The suppression was specific in that the response in MLR to unrelated H-2f stimulator cells and the subsequent generation of cytotoxic cells were unchanged. Using various H-2 recombinant strains as target cells in the assay of cell-mediated lympholysis, suppression of cytotoxicity was observed when the D end, but not the K end, was shared with the C57BL/6 strain from which the antigens were derived.     

Inhibition of murine suppressor cell function by progesterone

The effects of progesterone on murine suppressor cell function generated in allogeneic MLCs were investigated. BALB/c splenic lymphocytes stimulated in vitro with C3H/He cells significantly suppressed the proliferative response of BALB/c lymphocytes in a secondary MLC. This suppression was highly specific for the sensitizing alloantigens since the suppressor cells had no effect on the proliferative response of BALB/c lymphocytes to third-party alloantigens. In addition, BALB/c lymphocytes stimulated with syngeneic cells were observed to nonspecifically suppress the MLC response to a lesser extent. One to 10 micrograms/ml progesterone added at initiation to suppressor cell generating cultures diminished the ability of both alloantigen specific and nonspecific suppressor cell populations to suppress the proliferative response of homologous lymphocytes to alloantigens. Experiments with pyrilamine, an antihistamine, which blocks cytotoxic T lymphocyte (CTL) generation, suggests that progesterone has a direct inhibitory effect on suppressor cell function independent of its ability to block CTL induction. The effects of progesterone on suppressor cells were not due to shifts in peak response time in MLC or induction of radiosensitive cells in progesterone-treated cultures. Estradiol at doses between 5 and 10 micrograms/ml, and cortisol at dose of 1 microgram/ml, also significantly inhibited suppressor cell function. These results suggest that the steroid hormone milieu within the placenta may effect the activity of allogeneic or nonspecific suppressor cell activity.     

Cooperation between mouse T-cell subpopulations in the cell-mediated response to a natural poxvirus pathogen.

Irradiated CBA anti-DBA/2 cells (10⁶ cells/culture) suppressed the production of effector cells in cultures containing 10⁷ unprimed CBA (responder) and 10⁶ irradiated DBA/2 (stimulator) spleen cells per culture. The suppressive element was cellular and suppression was specific for the stimulating antigen. The suppressive activity resided in the cytotoxic cell population in that both suppressive and cytotoxic activities were found in cells of the same size range, predominantly in T-cells, were produced in response to similar doses of stimulator antigen, and were produced with the same time course following establishment of first sensitization cultures. Eventual suppression correlated with the cytotoxic activity introduced into second sensitization cultures by suppressor cells. The short-term cytotoxic activity and suppressor activity were both highly radioresistant. These studies indicate that the suppressor cells formed in an in vitro mixed lymphocyte culture are cytotoxic to stimulator cells.     

Capacity of different cell types to prime in vivo for secondary in vitro cytotoxic T-cell responses against non-major-histocompatibility antigens

The capacity of several types of cell preparations to induce in vivo a state of memory for a secondary in vitro cytotoxic response against non-major-histocompatibility antigen was markedly reduced (on a per cell basis) by uv-irradiation. This indicated that memory induction requires metabolically active stimulator cells. An “adherent cell preparation” (AC) that was enriched for dendritic cells was among the most effective memory-inducing cell populations; but concanavalin A-activated nylon-wool-nonadherent spleen cells (Con A-NWT) or concanavalin A-activated unfractionated spleen cells (Con A-spl) were on the average equally effective. Normal unfractionated spleen cells (spl) or nonactivated nylon-wool-nonadherent cells (NWT) were markedly less effective on a per cell basis. This pattern of stimulatory activity was in line with the relative stimulatory activity of these cell types in primary cytotoxic responses in the presence of interleukin 2 (IL-2) and also in line with the relative capacity to induce IL-2-dependent proliferation in H-2D-incompatible T-cell populations (cf. W. Dröge et al., J. Immunol.132, 2749, 1984). These differences in the immunogenic potential and the requirement for metabolically active stimulator cells suggested that these cells stimulated the CTL system directly and not indirectly through antigen processing cells of the immunized host. Nevertheless, the secondary cytotoxic response after injection of low numbers of Con A-spl into H-2 heterozygous recipients, (BALB/c × BALB/b)F1, or into recipients with recombinant H-2 haplotype (A.J) was only preferentially but not exclusively restricted to the H-2 haplotype of the immunizing cell populations. Restriction was considerably more complete when AC were used for immunization.     

Specific versus nonspecific target cell destruction by T lymphocytes sensitized in vitro. I. Kinetics

An in vitro culture method giving a high cell recovery rate of 25–38% has been developed to generate a relatively pure population of T cell progeny reacting to xenogeneic cell antigen. The method is basically a modification of the Ginsburg method and utilizes mosaic monolayers that are comprised of syngeneic Lewis and xenogeneic BALB/c fibroblasts. Thoracic duct lymphocytes of Lewis rats were cultured for 6 days on these monolayers and the resulting lymphocyte population, rich in blast cells, was collected and separated free of contaminating fibroblasts by an additional 6 hr incubation without monolayers. Cytotoxic activity of these harvested lymphocytes was assessed by a modification of the Hellström method in which embryonic target fibroblasts, Lewis or BALB/c, were plated at a critical density of 2200 cells/cm² of culture area. This, coupled with the use of a newly developed culture medium, allowed the demonstration of specific as well as nonspecific activity of up to 100% suppression at 48 hr of test incubation. The specific activity was clarified and determined critically by comparing the activity of these lymphocytes to that of lymphocytes grown on syngeneic monolayers, though rich in blast cells, reacting only to the horse serum in the medium. The nonspecific activity was not due to the deterioration of test cultures and needed the continued presence of fully active blast cells for complete suppression of the target cell growth in the later phase of test cultures. By changing the ratio of lymphocytes to target cells and following the kinetics of target cell destruction, it was shown that specific activity effects an active killing of target cells, whereas the nonspecific activity was primarily the suppression of target cell growth. The specific activity was effective with far less lymphocytes per target cell; was nearly complete by 12 hr of test cultures while the nonspecific activity was complete at 48 hr. Yet, the increase in the specific activity was nearly proportional to that of nonspecific activity and even the nonspecific activity seemed to kill sensitive Lewis target cells at its full intensity. These observations are in accordance with an interpretation of the mechanism of the specific target cell destruction as involving contact and recognition followed by the release of lymphotoxin into or onto target cells.     

Propagation of mouse cytotoxic clones with characteristics of natural killer (NK) cells

Splenocytes obtained from normal mice (BALB/c nude, BALB/c, C₃H, C57Bl/6) and from mice bearing lung or pulmonary carcinomas were propagated for 1–12 months in the presence of crude or mitogen-depleted T-cell growth factor (TCGF). Clones from several TCGF-propagated lymphoid cell lines were established by limiting dilution or the soft agar techniques. All the cultured lines and the majority of the clonal populations derived from them exhibited strong cytotoxic activity in vitro (⁵¹Cr release assay) toward a variety of syngeneic and allogeneic tumor target cells, both freshly obtained and passaged in culture, and both lymphoid and solid in origin, and including targets usually resistant to fresh NK cells. Considerable cytotoxic activity was also observed with several rat and human cultured tumor lines. Only low cytotoxic activity was detected against normal lymphoid mouse cells. Cloned populations generally exhibited more restricted target cytotoxicity than the parental cultured lines, and the pattern of reactivity varied among the clones. Of the clones tested for surface markers, all were positive for Thy 1.2, T200, and asialo GM1 and had strong binding to peanut agglutinin (PNA), all had undetectable receptors for IgG or IgM, and some were positive for Lyt 2. The cytotoxic activity was augmented by pretreatment of the effector cells with interferon and inhibited by the presence of mannose or galactose during the assay. Several clones were capable of mediating antibody-dependent cellular cytotoxicity and lectin-induced cellular cytotoxicity (LICC), and produced relatively large quantities of interferon and lymphotoxinlike material. The findings indicated continuous culturing in TCGF of previously antigen-nonstimulated mouse lymphocytes selects for the growth of at least two distinct populations with activated NK activity, one reacting preferentially with lymphoid tumor target cells (designated CNK-L), and the second reacting effectively with both lymphoid and solid tumor targets (designated CNK-SL). Both populations have several features of both T lymphocytes and NK cells.     

Defective T helper activity in the spleen of BALB/c mice immune to a syngeneic fibrosarcoma

Summary BALB/c mice were immunized with the syngeneic 3-methylcholanthrene-induced fibrosarcoma CA-2 by the growth and excision method. When lymphoid cells from different organs of these tumor-free mice were tested in a direct ⁵¹Cr-release assay, peritoneal exudate cells but not spleen cells displayed specific cytotoxicity against the syngeneic tumor target. A cytotoxic response could be obtained by tumor-immune spleen cells when cultured in a mixed lymphocyte tumor cell culture (MLTC) at high but not low density although at the same effector/stimulator ratio. Lack of cytotoxic activity in low density MLTC was not due to an impairment of cytotoxic precursors since cytotoxicity was rescued by adding exogenous interleukin-2 in experimental conditions in which no lymphokine-activated killer cells could develop relevant anti-CA-2 lysis. When low density MLTC were supplemented with either 800 R-irradiated cells or nonirradiated, negatively selected Lyt 1⁺ cells from the same immune mice, induction of a cytotoxic response against CA-2 occurred and interleukin-2 production became detectable. Additional studies indicated that spleen cells of CA-2-immune mice were also impaired in their ability to provide help to syngeneic thymocytes for the generation of cytotoxic T lymphocytes against C57BL/6J alloantigens. Dilution effect of helper cells due to immunization procedures was excluded since spleen cells of mice immunized against another BALB/c tumor, the YC8 lymphoma, or against DBA/2 minor histocompatibility antigens provided good help to thymocytes against the same alloantigens. These results indicate that tumor-immune animals may also have selective T helper defects in an important lymphoid organ like spleen.     

Cell types involved in cytotoxicity induced by heated cells and inhibition of this cytotoxicity by anti-human B cell sera.

We have studied the induction of cytotoxic activity in human peripheral blood lymphocytes by heated allogeneic cells. By separating T and B cells from the responder and stimulator cell populations we found that cytotoxic cells are generated in responder T cell populations by both T and the B stimulator cells. Rabbit antisera to a membrane glycoprotein complex (33,000 and 27,000 m.w. by SDS-gel electrophoresis) isolated from a human B cell line were utilized to explore further the nature of the effector cells in this type of cytotoxicity. This antiserum, present during the 6-day-culture period, blocked generation of cytotoxic effector cells. Depletion of cells bearing the B cell antigen from the responder cell population by anti-B cell serum and complement (C) eliminated cytotoxicity. Furthermore, heated cell-induced cytotoxicity was blocked by simply pretreating the responder or the stimulator cell populations with anti-B cell serum in the absence of C. Apparently the human lymphocyte that functions as the effector cell in heated cell-induced cytotoxicity bears the Ia-like antigen that might be important in triggering this type of cytotoxicity.     

Studies on the specificity of in vitro-induced lymphocytotoxicity to methylcholanthrene-induced fibrosarcoma cell lines

Cytotoxic effector lymphocytes were induced by in vitro immunization of lymph node and spleen cells from CS7B16(H2^b) and Balb/c(H2^d) mice to syngeneic or allogeneic methylcholanthrene-induced fibrosarcoma (MCAF) cell lines. The T cell-dependent cytotoxicity was specific to target cell lines to which the lymphocytes were immunized in vitro. Normal fibroblasts as stimulator cells did not induce lymphocytotoxicity to syngeneic MCAF cells or to normal syngeneic fibroblasts. The results indicate that the in vitro-immunized lymphocytes recognize individual specific tumor-associated antigens of the MCAF cells. In experiments in which the lymphocytes were immunized in vitro to allogeneic MCAF cells, cytotoxic reactions to alloantigens, but not to tumor-associated antigens, were detected. Incubation with phytohemagglutinin (PHA) during the sensitization period modified the specificity of the cell-mediated lysis of MCAF cells: Allogeneic as well as syngeneic target cells were destroyed by these effector cells. PHA induced a nonspecific cytotoxic effect which increased the specific lysis of target cells. The cytotoxicity of the in vitro-immunized lymphocytes was inhibited by incubation with membrane protein preparations from the syngeneic MCAF cell lines. In contrast to the specificity of the cytotoxic effect to the different syngeneic cell lines, the membrane extract of one individual syngeneic MCAF cell line was able to inhibit the lymphocytotoxicity to all other syngeneic cell lines. Membrane protein preparations from allogeneic MCAF cells or from normal syngeneic fibroblasts were not inhibitory. The in vitro-immunized cytotoxic lymphocytes did not impair the tumor growth in vivo as could be demonstrated by passive transfer of the lymphocytes in a Winn assay.     

In vitro studies of splenocyte cytotoxicity against syngeneic mammary tumors of mice

Summary Spleen cells from BALB/c mice immunized with D7T4S (MTV-negative) or D14 (MTV-positive) mammary tumors exhibited marked cytotoxic activity for the corresponding tumor cells in a terminal ⁵¹ -Cr-labeling cytotoxicity assay. A pronounced, seemingly nonspecific cytotoxic effect was displayed by splenocytes derived from normal BALB/c and BALB/cfC3H mice subjected to various surgical procedures 10–14 days before testing. Possible mechanisms underlying this phenomenon are discussed.     

Immunosuppressive activity of murine newborn spleen cells. I. Selective inhibition of in vitro lymphocyte activation.

Cell-mediated immune responses to newborn lymphocyte alloantigens were investiated using mitogen activation, mixed lymphocyte reaction (MLR) and cell-mediated lympholysis (CML). Spleen cells from 1- to 5-day-old (C57BL/6 × Balb/c) F₁ mice co-cultured with maternal strain (BALB/c) splenocytes did not affect DNA synthesis of maternal strain cells in the presence of concanavalin A or phytohemagglutinin. Newborn cells did inhibit the lipopolysaccharide response of maternal strain lymphocytes and these cells also depressed DNA synthesis when added to MLR cultures of BALB/c and C57BL/6 spleen cells. Newborn cells expressed poor stimulatory capacity in semiallogeneic MLR and also caused marked inhibition of DNA synthesis when added to semiallogeneic MLR containing BALB/c (responder) and CB6F₁ adult splenocytes (stimulator). The suppression of MLR by neonatal cells persisted for the first 2 weeks of life and was associated with a soluble factor released during culture. The suppressive activity was almost completely abrogated after depleting the T-cells from newborn splenocytes. However, these same cells did not interfere with the in vitro generation of cytotoxic lymphocytes in the CML assay. The selective immunosuppressive properties of newborn spleen cells may be important during pregancy by protecting the immunologically alien fetus from rejection by the mother.     

Lipopolysaccharide-induced immunomodulation of the generation of cell-mediated cytotoxicity. I. Suppression of the development of cytotoxic lymphocytes

Bacterial lipopolysaccharide from a variety of Gram-negative organisms suppresses the development of cytotoxic killer cells in the murine MLC. Cytotoxic T lymphocytes were generated in vitro by incubating BALB/c responder spleen cells with irradiated C57BL/6 stimulator cells for 5 days in mixed lymphocyte culture (MLC). The addition of LPS at the initiation of MLC suppressed killing of 51Cr-labeled target cells in a dose-dependent manner. LPS was active only during the afferent phase of CMC, since it did not interfere with the efferent phase of the assay. Furthermore, timed addition and timed removal studies suggested that the presence of LPS during the first 48 hr of MLC was critical for maximal suppression of CMC. Lipid A extracted from LPS, which had been shown to be highly suppressive when added to the sensitization phase of the CMC assay, was also inhibitory. Moreover, when LPS was added to MLC in the presence of tritiated thymidine, the proliferative activity of the responder cells increased markedly after 72 hr of culture. These data suggest that LPS, a known B cell mitogen, can modulate the complex sequence of cellular interactions that leads to the generation of cell-mediated cytotoxicity.     

Trophoblast regulation of maternal-paternal lymphocyte interactions

The modification of immunological responses by murine embryonic trophoblast cells was investigated using the mixed-lymphocyte reaction (MLR) and cell-mediated lympholysis (CML) test. In MLR containing Balb/c (responder) and C57BL/6 (stimulator) splenocytes DNA synthesis was markedly reduced in the presence of ectoplacental cone or placental trophoblast cells. These same trophoblast cell populations inhibited the in vitro generation of cytotoxic lymphocytes while cultures containing nontrophoblast regulator cells expressed normal cytotoxicity. DNA synthesis in MLR and cytotoxic activity in CML were not suppressed in cultures containing $\text{3}\text{1}\text{2}$ day blastocyst outgrowths. The potent immunosuppressive properties of the trophoblast may be important during pregnancy by protecting the genetically dissimilar fetus from potentially harmful maternal immune effector mechanisms.     

Early antigen elimination by cytotoxic T cells results in diminished cellular immune responses to allogeneic tumor

Previous reports have suggested that repeated alloantigenic challenge increases humoral responses to alloantigens, but may cause decreasing cellular responses. We stimulated BALB/c (H-2^d) mice with intraperitoneal EL-4 tumor (H-2^b) and serially assessed cytotoxic responses in spleen and peritoneal lymphocytes using ⁵¹Cr-labeled EL-4 target cells. We observed that cytotoxicity generated in the spleen of nonimmune BALB/c mice was much greater than that in immunized mice; similar peak responses were generated in peritoneal lymphocytes in normal and immunized hosts. Complement-mediated cytotoxicity was not necessary for diminished splenic responses in hyperimmune hosts, for the same phenomenon was seen in the Hzl anti-BL/6 system which is free of humoral responses. Irradiation (2000 rad) of the EL-4 tumor challenge prevented tumor cell proliferation and markedly reduced splenic responses in nonimmune mice. We suggest that cytotoxic cells suppressed further generation of cyto-toxicity; by effecting an early elimination of tumor inoculum, tumor proliferation was abrogated and dose of cellular antigen was, consequently, markedly reduced.     

Differential effects of ouabain on human cell-mediated cytotoxicity. I. Inhibition of mitogen-induced cellular cytotoxicity and antibody-dependent cellular cytotoxicity against chicken red cell targets.

The effects of ouabain, a known inhibitor of lymphoproliferation, were studied in relation to the cytotoxic effector function of human peripheral blood mononuclear leukocytes (MNL) against chicken red blood cell (CRC) targets. MNL effectors lysed ⁵¹Cr-labeled CRC targets in the presence of PHA (mitogen-induced cellular cytotoxicity—MICC) or rabbit anti-CRC antibody (antibody-dependent cellular cytotoxicity—ADCC) in the absence of ouabain. The addition of ouabain to the cytotoxic reaction caused profound diminution of MICC with greater than 90% suppression of killing at ouabain concentrations of 5 × 10^?4M; ADCC was much more resistant to the effects of ouabain with only 60 to 70% inhibition of killing at similar ouabain concentrations (P < 0.01). Similar ouabain inhibition of MICC occurred whether the effector cell populations were unseparated MNL, depleted of monocytes, enriched for T cells, or depleted of T cells, suggesting a generalized activity by ouabain against all effector cells active in MICC. Ouabain inhibition of MICC could be overcome by increasing PHA concentrations, indicating that ouabain inhibition was not due to irreversible toxic effects on effector cells. Increasing the concentration of anti-CRC antibody resulted in increased killing in this ADCC system and, paradoxically, ADCC cultures with the highest antibody concentrations were more completely inhibited by ouabain. This enhanced inhibitory effect of ouabain on ADCC cultures with the highest antibody concentrations was not observed when the effector cell population was first depleted of phagocytic cells, suggesting a preferential inhibitory action by ouabain against monocyte effectors in ADCC. Thus, the differential inhibitory effects of ouabain on MICC and ADCC against CRC targets may be in part explained by the differing ouabain sensitivities of the various effector cell subpopulations involved in these cell-mediated cytotoxic events.     

Induction and characterization of minor histocompatibility antigens. Specific primary cytotoxic T lymphocyte responses in vitro

A definite cytotoxic activity was developed in a BALB/c (H-2d) anti-DBA/2 primary mixed leukocyte culture (MLC), which received interleukin 2 (IL-2) on day 3 of culture. This cytotoxic activity was minor histocompatibility antigens (MIHA)-specific at the stimulator level, and was not developed in a syngeneic (BALB/c anti-BALB/c) MLC. The addition of IL-2 on day 3 of culture was crucial; no or very weak cytotoxic activity was developed in MLC receiving IL-2 on day 0 or on both day 0 and day 3. Only appropriate MIHA-allogeneic tumor cells were lysed as the target of the cytotoxic activity. The cytotoxic activity seemed MIHA-specific also at the target level; it lysed tumor cells of DBA/2 mouse origin but not those of BALB/c (syngeneic) origin. Phenotypes of the cytotoxic effector cell were Thy-1+ Lyt-2+. We concluded from these results that MIHA-specific cytotoxic T lymphocytes (CTL) were generated in the MIHA-allogeneic primary MLC. In this newly developed system, we studied genetic and antigenic requirements for primary anti-MIHA CTL responses in vitro. We demonstrated; among spleen cells (SC) of seven B10 H-2-congenic strains only SC of B10.D2 strain whose major histocompatibility complex (MHC) (H-2d) was compatible with the responder MHC effectively stimulated responder BALB/c (H-2d) SC for an anti-MIHA (DBA-C57BL-common) CTL response. Similarly, only SC of two out of seven C x B recombinant inbred strains (C x B.H and C x B.D), which were compatible at the MHC with responder SC, activated responder BALB/c SC for the response. The possibility that cells responding to H-2 alloantigens suppressed the anti-MIHA response was ruled out. Additional experiments showed that compatibility at the H-2K-end or the H-2D-end of the MHC was sufficient for a definite anti-MIHA response. These provided formal evidence that primary anti-MIHA CTL responses in vitro were MHC-restricted at the stimulator level. We then showed that sonication-disrupted SC or Sephadex G-10 column-passed nonadherent SC failed to stimulate responder SC for a primary anti-MIHA CTL response, whereas G-10-passed nonadherent SC responded well to adherent stimulator cells. Further study demonstrated that Ia+ adherent cells were the most active cell type as stimulator. Finally, we confirmed that the primary anti-MIHA CTL responses to adherent stimulator cells was MHC-restricted.     

Induction of allograft tolerance after total lymphoid irradiation (TLI): development of suppressor cells of the mixed leukocyte reaction (MLR).

We searched for the presence of suppressor cells of the MLR in C57BL/Ka leads to BALB/c chimeras. The chimeras were made with total lymphoid irradiation (TLI) and marrow transplantation. Spleen cells from the old chimeras inhibited the MLR of BALB/c responder cells against C57BL/Ka stimulator cells. Inhibition was specific for the stimulator cells, since no effect on the MLR was observed with C3H or BALB.C3H stimulator cells. Maximal inhibition was achieved when the responder cells in the MLR shared the H-2 haplotype of the chimeric recipient. Spleen cells obtained from chimeras young 30 to 40 days after BM transplantation inhibited the MLR nonspecifically, since similar marked inhibition was observed regardless of the H-2 haplotype of the responder or stimulator cells. The finding of antigen-specific and nonspecific suppressor cells is similar to that observed in mice rendered tolerant to bovine serum albumin after treatment with TLI.     

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.     

Nonspecific cytotoxicity of spleen cells and the specific cytotoxic action of thymus-derived lymphocytes in vitro

Spleen cells removed from immunized mice specifically kill allogeneic lymphoma cells in vitro, but in the presence of specific antigen nonspecific target cell growth inhibition also occurs. Only the specific target cell killing was found to be θ-sensitive, the nonspecific cytotoxicity was caused by a population of θ-resistant, adherent, and AMS-sensitive cells. Nonspecific cytotoxic effects were caused by spleen cells from normal mice after incubation with endotoxin, and these effects were inhibited by removal of the adherent cells.     

Metabolic and physiologic studies of nonimmune lymphoid cells cytotoxic for fibroblastic cells in vitro

An in vitro reaction between mouse lymphoid cells and target fibroblastic cells in wells of microtest plates, which appears to simulate the in vivo rejection of hemopoietic allografts, has been analyzed for metabolic and physiologic requirements. Protein synthesis was required for only the first few hours of culture. Inhibition of RNA synthesis and alteration of cell surface charge with various agents were without obvious effects. Metabolic slowing at 4 °C or deviation of the pH of the culture medium suppressed the reaction. Thymus cells, which are not cytotoxic in this system, significantly but not completely inhibited the cytotoxicity of lymph node cells. Antiserum directed against target cells specifically protected them from the cytotoxic lymphoid cells in the absence of complement.Precursors of cytotoxic lymphoid cells were radiosensitive, unlike the cytotoxic cells themselves. BALB/c anti-C57BL/6 spleen cell serum and ⁸⁹Sr both are able to prevent rejection of marrow allografts in vitro. Lymphoid cells incubated with this antiserum plus complement lost much of their cytotoxicity but were still effective at high ratios of aggressor to target cells. Lymphoid cells of mice treated with ⁸⁹Sr were effectively cytotoxic but lost practically all of their cytotoxicity afer incubation with the antiserum plus complement. Thus, it appears that this reaction detects two different cytotoxic lymphoid cells, either of which can function in vitro. Both cell types may need to cooperate in vivo during marrow allograft rejections.