Defective tumoricidal capacity of macrophages from A/J mice. I. Characterization of the macrophage cytotoxic defect after in vivo and in vitro activation stimuli.

Macrophages from A/J mice fail to develop tumoricidal activity after any of several in vivo or in vitro treatments that activate cells from C3H/HeN mice. Peritoneal macrophages from A/J mice treated i.p. with viable Mycobacterium bovis, strain BCG, killed Corynebacterium parvum, or pyran copolymer fail to develop in vitro tumoricidal activity; varying the numbers of macrophages from treated mice added to target cells, or the dose and time of treatment, or the treatment schedule of these in vivo activation stimuli did not evoke cytotoxic activity. Moreover, cytotoxic activity by macrophages from A/J mice was not observed with any of four target cell lines derived from three different mouse strains. In vitro treatment of peritoneal exudate macrophages from A/J mice with lymphokine-rich supernatants, bacterial endotoxins, or T cell mitogens was also ineffective; varying the numbers of treated macrophages added to target cells, the dose of in vitro activation stimuli, or the time of treatment did not evoke cytotoxic activity. Thus, A/J mice exhibit a profound defect in macrophage tumoricidal capacity to both in vivo and in vitro activation stimuli over a wide range of experimental conditions.     

Lack of response of murine peritoneal macrophages to in vitro activation by muramyl dipeptide (MDP). I. Macrophage activation by MDP is species dependent

Peritoneal exudate macrophages from mice, rats, and guinea pigs were assessed using six different parameters of macrophage activation to determine whether the cells were stimulated under similar experimental conditions. Peritoneal exudate macrophages from mice, irrespective of strain, were far less responsive to a variety of in vitro stimulatory effects of N-acetylmuramyl-L-alanyl-D-isoglutamine than those from rats or guinea pigs, while no significant differences were noted with the reactivity to stimulation by endotoxic lipopolysaccharide. We conclude that macrophage activation by MDP in vitro is species dependent.     

Macrophage sensitivity to endotoxin: genetic control by a single codominant gene.

The effects of LPS on macrophages in vitro have been examined. LPS triggers macrophages to produce LAF and PGE2 in vitro. LPS is also cytotoxic for macrophages derived from LPS-sensitive mice and will significantly inhibit their phagocytic ability. Both LAF production and cytotoxicity are due to the direct effects of LPS on the macrophage and do not require the particpation of lymphocytes. Each of these functions is abnormal in C3H/HeJ mice. The nature of the gene(s) controlling these macrophage responses to LPS has been determined. The response of (C3H/HeJ X C3H/HeN)F1 macrophages was intermediate when compared to the parental responses and no sex linkage was found. Backcross linkage analysis suggested that the same autosomal codominant gene controls both macrophage and B lymphocyte-LPS sensitivity.     

Cytotoxic T cells in the peritoneal cavity of mice infected with ectromelia virus.

Peritoneal exudate cells from mice infected with ectromelia virus were cytotoxic for virus-infected target cells as measured in a 51Cr release assay. Cytotoxic activity seemed to be T cell-dependent as it was largely abolished by treatment with anti-theta serum and complement but was not impaired by macrophage depletion. The kinetics of development of cytotoxicity in the peritoneal cavity lagged behind spleen cytotoxicity by 1-2 days. Peak activity in peritoneal cells was present about 6 days after intravenous infection with virus. These studies suggest that macrophages present in the free peritoneal cell populations of ectromelia-infected mice are not cytotoxic for virus-infected target cells. The effect of macrophages in virus clearance is therefore likely to be due to phagocytic rather than cytotoxic effects.     

Macrophages as effector cells of protective immunity in murine schistosomiasis. VI. T cell-dependent, lymphokine-mediated, activation of macrophages in response to Schistosoma mansoni antigens

Macrophages from Schistosoma mansoni-infected mice kill significant numbers of skin stage schistosomula and murine fibrosarcoma cells in vitro. In order to determine whether the macrophage tumoricidal and larvicidal activation observed in mice as a result of S. mansoni infection are mediated through T cell-dependent (lymphokine) or B cell-dependent (antibody or immune complex) mechanisms, the development of macrophage populations with cytotoxic activity against schistosome larvae or tumor cells was monitored in S. mansoni-infected nude or mu-suppressed mice. Whereas peritoneal cells from S. mansoni-infected congenitally athymic mice had no activity in either assay, cells from mu-suppressed S. mansoni-infected mice showed cytotoxic activity equivalent to that of cells from untreated S. mansoni-infected counterparts. Cells from mu-suppressed uninfected mice were not activated. The mu-suppressed animals had no detectable nonspecific IgM or specific antischistosome IgM, IgG, or IgE antibodies and showed a 90% reduction in numbers of splenic IgM+ cells upon fluorescence activated cell sorter analysis. These results indicate that antibody is not required for in vivo activation of macrophages during S. mansoni infection. Further experiments showed that lymphoid cells from S. mansoni infected mice respond in culture with various specific antigens (such as living or dead whole schistosomula or soluble adult worm antigens) by production of factors capable of activating macrophages from uninfected control mice to kill schistosomula or tumor cells in vitro. Macrophage-activating factors were produced by T cell-enriched, but not T cell-depleted or B cell-enriched, populations from spleens of schistosome-infected mice in response to schistosome antigen. Similar lymphokines may be responsible for the macrophage activation observed during chronic murine schistosomiasis. These observations emphasize the potential contribution of T cell-mediated immune mechanisms in resistance to S. mansoni infection.     

Defective tumoricidal capacity of macrophages from C3H/HeJ mice

Peritoneal macrophages from C3H/HeN mice treated i.p. with T cell mitogens or viable BCG organisms were cytotoxic to syngeneic tumor cells in vitro. Macrophages from endotoxin-unresponsive C3H/HeJ mice treated with BCG or T cell mitogens, however, were not tumoricidal. Furthermore, unlike cells from C3H/HeN mice, macrophages from C3H/HeJ mice could not be activated for tumor cytotoxicity after in vitro treatment with bacterial endotoxins or with lymphokine-rich supernatants. The subnormal induction of cytotoxic macrophages after in vitro or in vivo treatments in C3H/HeJ mice appears to be a highly selective defect. Macrophage responses (yield, phagocytosis, or peroxidase staining) in inflammatory exudates induced by BCG, T cell mitogens, or heterologous serum in C3H/HeJ or C3H/HeN mice were identical. C3H/HeJ macrophages also responded normally in vitor to chemotactic lymphokines. Thus, C3H/HeJ macrophages possess a profound and selective defect in tumoricidal capacity. This defect was not dependent upon exogenous endotoxins. Defective macrophage cytotoxic responses may reflect non-LPS related functions regulated by the LPS gene.     

Enhancement of macrophage IL-1 production by Leishmania major infection in vitro and its inhibition by IFN-gamma

Peritoneal cells from highly susceptible BALB/c mice were infected with Leishmania major and cultured for various times in vitro. The culture supernatants contained significant levels of IL-1 which were consistently higher than those in the cell cultures stimulated with an optimal concentration of LPS. This finding extends to a macrophage cell line, P388D1, and peritoneal exudate cells stimulated with starch in vivo. However, the level of IL-1 produced was significantly reduced when the cells were preincubated with a lymphokine preparation (supernatant of Con A-stimulated rat spleen cells). The level of IL-1 produced seems to be directly correlated with the degree of parasitization of the macrophages. A similar and dose-dependent reduction in IL-1 production by infected macrophages could also be obtained when the cells were preincubated with IFN-gamma. This finding is in direct contrast to that of visceral leishmaniasis in which peritoneal macrophages from BALB/c mice infected with Leishmania donovani not only fail to produce IL-1 but also lose the capacity to produce IL-1. This apparent discrepancy is discussed in terms of a possible difference in the induction of cell-mediated immunity between the two leishmanial diseases.     

Site of action of a soluble immune response suppressor (SIRS) produced by concanavalin A-activated spleen cells.

The cellular site of action of SIRS, a soluble immune response suppressor released by Con A-activated spleen cells which suppresses antibody responses to heterologous erythrocytes by murine spleen cells in vitro, was investigated. Exposure of spleen cells to SIRS for 2 hr at 37 degrees C or 1 hr at 4 degrees C was sufficient to suppress 5-day antibody responses in vitro. Similar exposure of splenic or peritoneal exudate macrophages to SIRS also suppressed antibody responses by untreated splenic lymphoid cells; exposure of splenic lymphoid cells to SIRS was without effect. SIRS did not act via T cells which might have contaminated the macrophage preparations. SIRS-mediated suppression could be partially overcome by an excess of normal peritoneal exudate macrophages, but not by an excess of T or B cells. These data indicate that the target cell of SIRS activity is the macrophage. The results are discussed in the context of macrophage functions that could be affected by SIRS.     

Recruitment of exogenous macrophages into metastases at different stages of tumor growth

Summary The endogenous tumor-associated macrophage content and recruitment of labeled peritoneal exudate cells into experimental murine B16 melanoma metastases has been examined at different stages in the progressive growth of metastatic lesions. The recruitment of thioglycollate-elicited peritoneal exudate cells and peritoneal exudate cells activated in vitro with muramyl dipeptide was studied. Tumor-associated macrophages and labeled peritoneal exudate cells were identified in paraffin sections by specific histochemical staining and their density in individual metastases measured morphometrically. The density of tumor-associated macrophages and exogenously recruited peritoneal exudate cells was high in very small lesions but decreased rapidly as a function of enlargement of metastases, MD:Aⁿ; where MD is macrophage density, A is the cross-sectional area of the lesion and n is a negative number. No significant difference was observed in the recruitment of activated and nonactivated peritoneal exudate cells. These results suggest that decreased recrutiment of macrophages from the circulation may explain the decrease in the density of tumor-associated macrophages as metastases grow and indicate that macrophage activation is not accompanied by enhanced localization and/or uptake of macrophages into metastases.     

Leukocyte adherence inhibition response to murine sarcoma virus-induced tumors. II. Requirement for T-cell subpopulations and macrophages

Murine sarcoma virus (MSV)-immune T cells from C57BL/6 mice respond to intact RBL-5 tumor cells with the production of leukocyte adherence inhibition factor (LAIF), which mediates an adherence inhibition response of macrophages. LAIF is elaborated by isolated Lyt-2+ cells incubated with RBL-5 cells, whereas Lyt-1+ cells elaborate a substance that enhances macrophage adherence. Spleen macrophages or peritoneal exudate macrophages from MSV-immune mice when present at concentrations of 0.1% changed the response of Lyt-1+ cells from the formation of an adherence enhancing factor to the formation of an adherence inhibiting factor. Migration inhibition factor (MIF) was formed by Lyt-1+ cells, but not by Lyt-2+ cells under identical culture conditions. Addition of either spleen macrophages from mice with progressively growing tumors or tumor-infiltrating macrophages suppressed LAIF formation by both Lyt-1+ and Lyt-2+ cells. Tumor-infiltrating macrophages elicited an adherence enhancing factor from Lyt-2+ cells when present at high concentrations. The results suggest that the extent of macrophage adherence in vitro is the outcome of an interaction of macrophages with mediators that have opposing effects.     

Impairment of T cell-mediated immunity to Listeria monocytogenes in pregnant mice

In order to study pregnancy-induced changes in cell-mediated immunity to Listeria monocytogenes, acquired resistance and T cell functions in pregnant mice were compared with those in nonpregnant mice after immunization with viable listerial cells. Impaired generation of acquired resistance was evident in pregnant mice from the impaired elimination of bacteria and poor survival after secondary challenge. Delayed footpad reactivity to listerial antigen was also lower in the pregnant mice. When immune spleen cells were examined for their ability to produce macrophage activating factor in vitro, culture supernatants from pregnant-mouse spleen cells with listerial antigen showed far less ability to render macrophages cytostatic for P815 mastocytoma cells. To elucidate further the impairment of listeria-immune T cell generation in pregnant mice, a local transfer experiment was carried out. When a given number of immune spleen cells was transferred locally into the footpads of naive mice, both delayed footpad reaction and local protection were much lower in the pregnant mice. This local transferability of the reactions was abrogated after treatment of cells with anti-Thy 1 antibody plus complement. These findings indicate that pregnancy impairs the generation of specific T cells capable of contributing to acquired resistance to L. monocytogenes. Possible mechanisms for this impairment and the relationship to macrophage functions are discussed.     

Refractoriness to migration inhibitory factor of macrophages of LPS nonresponder mouse strains.

The responsiveness to macrophage migration inhibitory factor (MIF) of peritoneal exudate cells (PEC) from the LPS unresponsive C3H/HeJ and C57BL/10ScCR mice was assessed by the indirect agarose microdroplet macrophage migration inhibition assay. No migration inhibition with PEC from C3H/HeJ nor C57BL/10ScCR mice was detected, whereas PEC from both C3H/HeN and C57BL/10Sn mice were significantly inhibited by even a 1/32 dilution of MIF-containing supernatants. Responsiveness to MIF of C3H/HeJ PEC could, however, be induced. In vivo inoculations of Mycobacterium bovis, strain BCG, 7 days before in vitro assay rendered C3H/HeJ PEC responsive to MIF. The lack of responsiveness to MIF by C3H/HeJ PEC appeared related to some form of suppression, since a mixture of PEC from C3H/HeN mice with 10 to 15% PEC from C3H/HeJ mice resulted in undetectable migration inhibition at any MIF dilution. In contrast to the usual lack of responsiveness of their macrophage to MIF, C3H/HeJ mice were able to produce MIK in response to PPD as well as their counterpart C3H/HeN mice after BCG sensitization. These results demonstrate that macrophages from C3H/HeJ and C57BL/10ScCR mice are unable to be inhibited in their in vitro migration of MIF (possibly being directly or indirectly influenced by a suppressor cell), whereas lymphoid cells from at least one of these strains, the C3H/HeJ mice, can produce MIF in response to antigenic stimulation.     

Changes in lymphocyte and macrophage subsets due to morphine and ethanol treatment during a retrovirus infection causing murine AIDS

Infection by LP-BM5 murine leukemia virus (MuLV) suppressed significantly the percentage of peripheral blood cells showing surface markers for macrophages, lymphocytes and activated lymphoid cells. Chronic administration of a 7% (36% calories) ethanol diet or injection of 1.9 mg/mouse/day of morphine for a 7 day period were followed by 3 week periods of abstinence and then 1 week periods of consumption of 5% ethanol diets or morphine injection to female C57BL/6 mice resulted in changes in the numbers of macrophages and lymphocyte subsets. The number of lymphocytes of various subsets were not significantly changed by the ethanol exposure except those showing activation markers which were reduced. The percentage of peripheral blood cells showing markers for macrophage functions and their activation were significantly reduced after "binge" use of ethanol. Ethanol retarded suppression of cells by retroviral infection. However by 25 weeks of infection there was a 8.6% survival in the ethanol fed mice infected with retrovirus which was much less than virally infected controls (45.0%). Morphine treatment also increased the percentage of cells with markers for macrophages and activated macrophages in virally infected mice, while suppressing them in uninfected mice. The second and third morphine injection series suppressed lymphocyte T-helper and T-suppressor cells, but not total T cells. However, suppression by morphine was significantly less during retroviral disease than suppression caused by the virus only. At 25 weeks of infection 44.8% of morphine treated, infected mice survived. Morphine treatment also caused deaths such that the survival in morphine treated, retrovirally infected was higher than would have been expected if the death rate in virally infected, and morphine injected animals were combined during combined treatment. Thus these drugs of abuse can modulate peripheral blood lymphoid subsets, suppression caused by retroviral infection, and survival.     

The effect of vitamin B6 deficiency on cytotoxic immune responses of T cells, antibodies, and natural killer cells, and phagocytosis by macrophages

The effect of vitamin B6 on cytotoxic immune responses of T cells, natural killer (NK) cells, cytotoxic antibody production, and macrophage phagocytosis was assessed in 5-week-old female C57B1/6 mice. Mice were fed 20% casein diets with pyridoxine (PN) added at 7, 1, 0.1, or 0 mg/kg diet, which represents 700, 100, 10, and 0% of requirement, respectively. Compared to mice fed 7 or 1 mg PN diet, animals fed 0 or 0.1 mg PN diet showed significantly reduced primary splenic and peritoneal T-cell-mediated cytotoxicity (CMC). Animals fed 0 mg PN diet also showed significantly depressed secondary T CMC of splenic and peritoneal lymphocytes against P815 tumor cells. Complement-dependent antibody-mediated cytotoxicity against P815 cells, phagocytosis of SRBC by macrophages, and native and interferon-induced NK cell activities against YAC cells were not affected by the level of vitamin B6 intake. The percentage of macrophages present in the peritoneal exudate cells was increased in animals fed the 0 mg PN diet. The immune responses were not enhanced or altered by the excess intake of vitamin B6 (7 mg PN). It appears that vitamin B6 is an essential nutrient for maintenance of normal T-cell function in vivo.     

Role of tumor-derived cytokines on the immune system of mice bearing a mammary adenocarcinoma. II. Down-regulation of macrophage-mediated cytotoxicity by tumor-derived granulocyte-macrophage colony-stimulating factor

Peritoneal elicited macrophages (PEM) from mammary tumor-bearing mice have a decreased capacity to become cytotoxic against syngeneic, allogeneic, and xenogeneic target cells upon in vitro stimulation with LPS, as compared with PEM of normal mice. A regulatory mechanism other than PG release is suggested because the addition of both indomethacin and LPS to macrophage cultures from tumor-bearing mice caused no changes in their cytotoxic capability. Because tumor products have been implicated in the down-regulation of immune responses, we investigated whether pretreatment with supernatants from the tumor cell line DA-3, derived from the in vivo mammary adenocarcinoma D1-DMBA-3, affects the cytolytic capacity of macrophages. This treatment inhibits, in a dose-dependent fashion, the ability of stimulated normal PEM to kill target cells. Partial purification of DA-3 cell line supernatant showed that most of the inhibitory activity was exerted by factors with a molecular mass greater than 10 kDa and less than 30 kDa. However, slight inhibition could also be observed with fractions containing molecules less than 10 kDa. The data suggest that more than one factor released by the mammary tumor cells may be involved in the down-regulation of macrophage-mediated cytotoxicity. Because the DA-3 cells constitutively produce granulocyte-macrophage CSF (GM-CSF), which has a molecular mass of 27 kDa, we pretreated PEM from normal mice in vitro with rGM-CSF for 24 h. This resulted in a dose-dependent decrease in their capacity to kill tumor target cells upon LPS stimulation. Furthermore, PEM from normal mice injected with rGM-CSF for 25 days displayed a profound decrease in their cytolytic ability against DA-3 targets upon in vitro stimulation with increasing amounts of LPS. The pretreatment of PEM from normal mice with a combination of DA-3 cell supernatants and specific anti-GM-CSF partially neutralized the inhibitory effect of the DA-3 supernatant on macrophage tumoricidal capability. These results indicate that tumor-derived GM-CSF is an important factor involved in the decreased macrophage cytotoxicity during mammary adenocarcinoma progression.     

A T cell-independent mechanism of macrophage activation by interferon-gamma

A primary interest in immunity to intracellular pathogenic microorganisms and tumors is to understand the mechanisms by which macrophages are activated for various functions. Two parameters of macrophage activation are the expression of the class II histocompatibility proteins or Ia molecules (1), and cytotoxic activity. The ability of T cells to induce these responses has been extensively documented and occurs via their secretion of interferon-gamma (IFN-gamma) after interaction with antigen (2-6). However, in a recent study using mice with the severe combined immunodeficiency (scid) mutation (7) which have no detectable T or B cell functions (7-9), we were surprised to find the induction of Ia expression on macrophages and the partial inhibition of bacterial growth after infection with Listeria monocytogenes (10). We have now utilized neutralizing monoclonal antibodies specific for murine IFN-gamma to investigate the mechanism of macrophage activation in scid mice. We show here that IFN-gamma can be produced by scid mice in the absence of lymphocyte-mediated immunity, and this IFN-gamma is important for macrophage activation during infection with Listeria. These results indicate the presence of an important T lymphocyte-independent mechanism of macrophage activation and IFN-gamma production in response to infection.     

Macrophages in resistance to rickettsial infection: susceptibility to lethal effects of Rickettsia akari infection in mouse strains with defective macrophage function

We have confirmed the requirement of macrophages in the antigen-induced T-lymphocyte proliferative response and in the generation of migration inhibition factor (MIF) by immune lymphocytes. Extending these observations, we have found that autologous and non-syngeneic, oil-induced peritoneal exudate macrophages were equally effective in restoring the proliferative response and MIF production by column-purified lymph node T cells. MIF activity was optimally restored when T cells were reconstituted with 1 to 40% exudate-derived macrophages whereas 10 to 30% macrophages were needed to optimally restore the T-cell proliferative response. Normal resident macrophages from the peritoneal cavity were also capable of restoring T-cell reactivity as were normal or BCG-activated pulmonary alveolar macrophages. It was also found that the addition of as few as 1.0% glycogen-elicited peritoneal exudate cells restored the production of MIF by T cells. Quantitative considerations demonstrated that the responsible cells in these preparations were polymorphonuclear cells rather than macrophages. In contrast, neither MIF production nor the proliferative response by T cells were restored by the addition of red blood cells. In these studies we were able to demonstrate that freeze-thawed macrophages could restore antigen-induced MIF production, but not antigen-induced cellular proliferation. The ability of freeze-thawed macrophages to stimulate T cells to produce MIF was apparently associated with the macrophage membranes and not with a soluble factor in the macrophage extracts. These results demonstrate that multiple sources of phagocytic cells may interact cooperatively with lymphocytes in reactions of cell-mediated immunity. Further, at least in the case of MIF production, this interaction involves a membrane-bound determinant that is effective even in the absence of viable macrophages.     

Activation of macrophages by peroxidases

Peritoneal macrophages from C57BL/6 mice were activated in vitro with various peroxidases and their cytotoxic activity toward 3T12 cells was determined. Destruction of 3T12 cells by macrophages stimulated with horseradish peroxidase, lactoperoxidase, and microperoxidase was observed at peroxidase concentrations as low as 9, 1.6, and 200 nM, respectively. A 50% cytotoxic effect was obtained at peroxidase concentrations of 0.9, 1.6, and 1.5 microM, respectively. The macrophage-stimulating activity of horseradish peroxidase was not destroyed by boiling. This, together with the high activity of microperoxidase, indicates that the macrophage-stimulating activity of the peroxidases is probably associated with the heme portion of the enzymes. On a molar basis the peroxidases are much less potent macrophage activators than interferon (alpha + beta) and endotoxin. Nevertheless, our data clearly indicate that peroxidases are a group of enzymes capable of inducing macrophage activation, resulting in cytostatic and/or cytocidal activity.     

Infection of macrophages with Friend virus: relationship to the spontaneous regression of viral erythroleukemia.

Resident peritoneal macrophages from normal mice were refractory to infection with the RFV or conventional strains of Friend virus (FV). Stimulation of DNA synthesis in the macrophage population by induction of an exudate in vivo or treatment in vitro with macrophage colony-stimulating factor resulted in productive infection following exposure to virus. Similarly, normal resident macrophages did not become infected in vivo following transfer to leukemic mice, while exudate macrophages did become infected. Bone marrow macrophage stem cells were stimulated to replicate and mature in clonal agar cultures in the presence of colony-stimulating factor. These replicating stem cells could be infected with RFV, as shown by virus production in the resultant progeny macrophages. Transfer of normal resident peritoneal macrophages to leukemic progressor mice caused regression of the disease. In contrast, transfer of normal bone marrow cells was ineffective in causing leukemia regression. During erythroleukemogenesis induced by RFV, macrophage precursor cells in all of the mice became infected with virus. In mice with a progressive and lethal leukemia, mature end-stage macrophages were produced which were also infected with virus. In mice in which the leukemia would later spontaneously regress, the infected stem cells were eliminated and the marrow became repopulated with uninfected cells. The resultant progeny macrophages which appeared in the peritoneal cavity were uninfected and thus capable of participating in or causing leukemia regression.     

Effect of concanavalin A treatment on the allogeneic response of mice to challenge with P 815 mastocytoma: interleukin 2 treatment reverses concanavalin A suppression in vivo

Mice injected repeatedly with concanavalin A (Con A) prior to and following challenge with P 815 mastocytoma are suppressed in their cell-mediated cytotoxicity responses. Earlier studies showed that pretreatment of the animals with silica to affect macrophage (M phi) functions reversed the Con A suppression. In the present paper we have shown that peritoneal exudate cells (PEC) induced/activated by ip injection of Con A were able to transfer suppression to normal mice. Separation of the PEC populations into adherent and nonadherent cells abrogated their capacity to transfer suppression. It was further shown that Con A is not functioning in this in vivo system to block effector activity of cytotoxic cells on target cells, and PEC induced with Con A were not directly cytotoxic to target P 815 cells. Finally, we were able to show that the cytotoxicity response of Con A-suppressed mice could be enhanced by treatment with concentrated culture supernatants of normal mouse spleen cells, rich in interleukin 2 (IL 2) activity. Attempts to detect a recently described mouse serum inhibitor of IL 2 in normal or Con A-treated mice were unsuccessful and spleen cells from Con A-treated mice lost their capacity to generate IL 2 in vitro when cultured under appropriate conditions. Taken together, these results suggest that suppression of cell-mediated immune responses in Con A-treated mice results from interruption of the normal generation of IL 2 helper effects necessary for the activation of cytotoxic effector T cells in vivo.