Cellular origin of blocking factors from cultured spleen cells of tumor-bearing mice

Spleen cells from mice bearing methylcholanthrene-induced tumors were cultured for 2 days without further stimulation. Blocking factors were consistently detected in culture supernatants by their ability to suppress leukocyte adherence inhibition reactions between soluble tumor antigens and peritoneal cells of tumor-bearing mice. The blocking factors were specific for individual tumors. The cellular origin of these factors was investigated by depleting the spleen cell population of various cell types before culturing. The cells involved were removed by treatment with antibodies to certain membrane markers (Thy-1, Ly-2, Ia, I-J) but not by anti-Ly-1 antibodies. Removal of adherent cells also prevented production of blocking factors, which was restored by reconstitution with syngeneic but not allogeneic cells from normal mice. The normal reconstituting cells were shown to bear Ia, but not I-J or IgM. This indicates that blocking factors (previously shown to have I-J determinants in their molecules) originate from suppressor T lymphocytes (Thy-1+, Ly-1-2+, I-J+), with macrophages (I-J-, Ia+) in the role of accessory cells.     

Role of self carriers in the immune response and tolerance. IV. Active T cell suppression in the maintenance of B cell tolerance to a "T-independent" antigen.

Previous studies indicated that T cells are required for tolerance induction by hapten-modified syngeneic spleen cells (TNP-SC) in vivo. The role of T cells in the maintenance of this unresponsive state has been examined herein. By three criteria--limiting dilution precursor analysis, removal of T cells by anti-Thy-1 + C, and direct mixing experiments--we show that T cells are required for the continued suppression of the B cell response to the T-independent antigen, TNP-POL. Suppressor cells can also be induced by TNP-teratoma cells, which lack detectable H-2 antigens. Both anti-Ly-1 + C and anti-Ly-2 + C treatment reversed suppression induced by TNP-SC. These results demonstrate that normal B cell reactivity is present in the spleens of mice rendered tolerant by haptenated self, but that Ly-1,2,3 or Ly-1 + Ly-2,3 suppressor T cells prevent their responsiveness.     

CD4+ T cells mediate abscess formation in intra-abdominal sepsis by an IL-17-dependent mechanism

Abscess formation associated with intra-abdominal sepsis causes severe morbidity and can be fatal. Previous studies have implicated T cells in the pathogenesis of abscess formation, and we have recently shown that CD4(+) T cells activated in vitro by zwitterionic capsular polysaccharides from abscess-inducing bacteria such as Staphylococcus aureus and Bacteroides fragilis initiate this host response when transferred to naive rats. In this study, we show that mice deficient in alphabetaTCR-bearing T cells or CD4(+) T cells fail to develop abscesses following challenge with B. fragilis or abscess-inducing zwitterionic polysaccharides, compared with CD8(-/-) or wild-type animals. Transfer of CD4(+) T cells from wild-type mice to alphabetaTCR(-/-) animals reconstituted this ability. The induction of abscesses required T cell costimulation via the CD28-B7 pathway, and T cell transfer experiments with STAT4(-/-) and STAT6(-/-) mice demonstrated that this host response is dependent on STAT4 signaling. Significantly higher levels of IL-17, a proinflammatory cytokine produced almost exclusively by activated CD4(+) T cells, were associated with abscess formation in Th2-impaired (STAT6(-/-)) mice, while STAT4(-/-) mice had significantly lower levels of this cytokine than control animals. The formation of abscesses was preceded by an increase in the number of activated CD4(+) T cells in the peritoneal cavity 24 h following bacterial challenge. Confocal laser-scanning microscopy analysis revealed that CD4(+) T cells comprise the abscess wall in these animals and produce IL-17 at this site. Administration of a neutralizing Ab specific for IL-17 prevented abscess formation following bacterial challenge in mice. These data delineate the specific T cell response necessary for the development of intra-abdominal abscesses and underscore the role of IL-17 in this disease process.     

Activation of T lymphocytes through the Ly-6 pathway is defective in A strain mice

The Ly-6 alloantigens have been shown to participate in the process of T cell activation based on the ability of anti-Ly-6 mAb to induce IL-2 production and proliferation of T lymphocytes. In the present investigation we have demonstrated that peripheral T lymphocytes from A strain mice exhibited abnormally low proliferative responses after stimulation through Ly-6A/E and Ly-6C molecules when compared to responses of T cells from numerous other mouse strains. The abnormal activation of the Ly-6 pathway of A strain T cells was not due to ineffective FcR cross-linking of the anti-Ly-6 mAb, to inappropriate cellular expression of the Ly-6A/E alloantigen in A strain T cells, or to an active suppressive phenomenon. T lymphocytes from A strain mice proliferated normally when the cells were activated by mAb to Thy-1 or the CD3/TCR complex suggesting that A strain mice did not exhibit a generalized T cell activation defect. Cell separation studies of T cells and accessory cells demonstrated that this defect was quantitative, rather than qualitative, and that it was complex, residing at both the T cell and accessory cell levels. These results suggest that activation of T lymphocytes via the Ly-6 molecule may involve a signaling pathway and/or cell-cell interactions distinct from those required for optimal activation via CD3/TCR.     

Suppressor T cells and self-tolerance. Active suppression required for normal regulation of anti-erythrocyte autoantibody responses in spleen cells from nonautoimmune mice

Spleen cells from young, nonautoimmune strains of mice cultured with syngeneic E do not develop a significant anti-mouse E response in vitro, consistent with a state of self-tolerance to this Ag. In order to study the role of active suppression in regulating mouse RBC-(MRBC) specific cells in nonautoimmune cell populations, the effect of depleting T cell subsets on the generation of anti-MRBC autoantibodies by nonautoimmune spleen cells was determined. Spleen cells from young BALB/c and C57BL/6 mice were found to generate significant numbers of IgM and IgG anti-MRBC autoantibody-forming cells in culture with MRBC after depletion of Ly-2+ cells by anti-Ly-2 and C treatment. The response which develops is Ag dependent, Ag specific, and dependent upon L3T4+ Th. The magnitude and isotype of this response is similar to the anti-MRBC response generated by spleen cells from 12-mo-old, autoimmune NZB mice and young NZB mice also treated to remove Ly-2+ cells. Addition of isolated Ly-2+ T cells, but not L3T4+ or Ly-2- T cells, to spleen cells depleted of Ly-2+ cells restores apparently normal regulation of the anti-MRBC response in vitro. These data demonstrate that control of a specific autoantibody response to MRBC by nonautoimmune spleen cell populations requires active regulation by an Ly-2+ T cell subset.     

Absence of cross-reactivity between murine Ly-6C and Ly-6G.

BACKGROUND: The Ly-6 family has many members, including Ly-6C and Ly-6G. A previous study suggested that the anti-Ly-6G antibody, RB6-8C5, may react with Ly-6Chi murine bone marrow (BM) cells. This finding has been interpreted as cross-reactivity of RB6-8C5 with the Ly-6C antigen, and has been generalized to many hematopoietic cell types, using the terminology Ly-6G/C. The present study was undertaken to determine whether anti-Ly-6G antibodies truly cross-react with the Ly-6C antigen on multiple hematopoietic cell types. METHODS: Splenocytes, thymocytes, and BM cells obtained from Ly-6.1 and Ly-6.2 strains of mice were stained with a variety of antibodies to Ly-6C and Ly-6G. Flow cytometric analysis was performed on these populations. RESULTS: Evaluation of anti-Ly-6C and anti-Ly-6G staining showed only Ly-6C expression and no Ly-6G expression on subsets of splenic T and B cells and thymocytes from Ly-6.1 and Ly-6.2 mice. Bone marrow cells were identified that express both Ly-6G and Ly-6C; no Ly-6G+Ly-6C- populations were seen. CONCLUSIONS: Multiple Ly-6C+ hematopoietic cell populations were identified that do not stain with anti-Ly-6G antibodies. This calls into question the use of the Ly-6G/C nomenclature and suggests that epitopes recognized by anti-Ly-6G antibodies should simply be designated Ly-6G.     

In vivo and in vitro effects of monoclonal antibody to Ly antigens on immunity to infection

Injection of CBA mice with Brucella abortus strain 19 leads to chronic infection during which both cell-mediated immunity (delayed hypersensitivity and macrophage activation) and antibody production occur. Protection was efficiently transferred to naive mice using spleen cells from mice infected 5 or 12 weeks earlier. Selective lysis in vitro of these cells by antibody to cell surface antigens showed that Thy-1⁺ Ly-1⁺2⁺ T lymphocytes were required for transfer. Treatment with anti-Ia serum neither suppressed nor enhanced adoptive transfer. Thus Ia⁺ B lymphocytes were not required, and Ia⁺ suppressor T cells were not active in the response. Three injections per week of anti-Ly-1 monoclonal antibody beginning 5 days before infection led to a 10-fold increase in bacterial numbers 25 days after infection when acquired immunity was well established in untreated mice. The delayed hypersensitivity response was unaffected. In addition cells from these in vivo treated mice were unable to transfer resistance. Beginning the treatment on the day of infection abolished the IgG antibody response without affecting bacterial numbers. The studies emphasize the unique role of Ly-1⁺2⁺ T cells in immunity to Brucella and indicate the usefulness of these techniques in dissecting out those components of the immune response which contribute to recovery from infection.     

The therapeutic significance of concomitant antitumor immunity

It is shown that progressive growth of the SA1 sarcoma in its semisyngeneic AB6F1 host results in the generation of concomitant immunity to growth of a tumor challenge implant, and in the generation of T cells in the spleen capable, on passive transfer, of causing regression of an established tumor in gamma-irradiated recipients, but not in normal recipients. T cells that passively transferred concomitant immunity against an established tumor were first generated around day 6 of tumor growth, reached peak numbers on day 9, and slowly decreased in number thereafter. They were of the Ly-1-2+ phenotype, in that they were functionally eliminated by treatment with monoclonal anti-Ly-2 antibody and complement, but not by treatment with anti-Ly-1 antibody and complement. The paradoxical ability of T cells from a donor with a relatively large tumor to cause the regression of a tumor in sublethally gamma-irradiated recipients is explained with reference to the facts that the recipient tumor was only half as large as the donor tumor at the time of passive transfer, and that the recipient was incapable of generating suppressor T cells that would function to inhibit the expression of adoptive immunity.     

Ly-6.2: A new lymphocyte specificity of peripheral T-cells

A new cell-membrane alloantigen determining locus, Ly-6, has recently been described, and the single specificity Ly-6.2 has been defined by the serum (BALB/c× A)F₁ anti-CXBD. Using both fluorescence and cytotoxicity, we found this specificity predominantly on peripheral (extrathymic) T cells, as tissues react thus: thymus, 0–5 percent; spleen, 25 percent; lymph nodes, 69 percent; bone marrow, 15 percent. These reactions agree with the proportion of (Thy⁺, Ig^–) cells present in these tissues. Cortisone-resistant thymus cells were positive. Absorption studies with thymus cells demonstrated the sparse or absent representation of Ly-6.2 on intrathymic T cells. Examination of spleen and lymph node cells from T cell-depleted C57BL/6 mice (after in vitro treatment with anti-Thy-1 serum or examination of tissues of C57BL/6-nu/nu mice) also showed a depletion of Ly-6.2⁺ cells. Conversely, removal of Ig⁺ B cells, which caused a relative increase in the number of T cells in the residual population, also increased the number of Ly-6.2⁺ cells. Additive effects of anti-Thy-1.2 and anti-Ly-6.2 could not be demonstrated, which suggests that the same population was Thy-1.2⁺, Ly-6.2⁺. However, additive effects could be shown with an anti-Ia serum and anti-Ly-6.2. The Ly-6.2 specificity is not found on red cells, liver, brain, or antibody-forming cells, but has been identified on a T-cell (but not B-cell) tumor and on kidney. Ly-6.2 can therefore be considered to be a marker for peripheral T cells, and it differs from the Thy-1 and the Ly-1,2,3, and 5 specificities in its relative absence from the thymus.     

Regulation of B lymphocyte responses to IL-4 and IFN-gamma by activation through Ly-6A/E molecules

The Ly-6 family of cell surface molecules has previously been shown to participate in T cell activation. We show that Ly-6A/E proteins also modulated the response of normal B lymphocytes in three separate in vitro assays. First, unfractionated or small resting B cells proliferated when cultured with IFN-gamma, IL-4, and an anti-Ly-6A/E mAb. Second, this anti-Ly-6A/E mAb restored B cell proliferation responses that were inhibited when coculturing the B cells in IFN-gamma, IL-4, and anti-IgM. Third, anti-Ly-6A/E specifically up-regulated the cell surface expression of its own Ag, and this response was dependent upon co-stimulation with IFN-gamma. Mixing of T and B cells in culture suggested that T cells did not contribute substantially to the B cell proliferative response. Moreover, up-regulation of Ly-6A/E was observed for one B cell lymphoma, WEHI-231. Therefore, it appeared that modulation of B cell function by anti-Ly-6A/E was due to a direct effect of the mAb binding to the B cells. Taken together, these data suggest Ly-6A/E proteins are functional on B cells and may play a regulatory role in B cell activation.     

Characterization of responding cells in oxidative mitogen stimulation. I. Ia+ cells and Ly-1+2+ cells are required for the proliferative response

Addition of anti-Ia sera to cultures of mouse spleen cells stimulated with oxidative mitogens, neuraminidase/galactose oxidase (NaGO) or sodium periodate (NaIO4), inhibits the subsequent proliferative response 30 to 70%. Anti-H-2K or D sera were not specifically inhibitory. Similar inhibition was seen when cells were pretreated with anti-Ia sera and washed before exposure to the mitogenic enzymes. Treatment with anti-Ia serum and complement depletes greater than 89% of the NaGO and the NaIO4 responses but 2% or less of the phytohemagglutinin (PHA) response. The response to NaGO was sensitive to depletion with anti-Thy-1 serum, rabbit anti-mouse brain serum, anti-Ly-1, or anti-Ly-2 serum. Mixtures of Ly-1 and Ly-2-depleted populations did not restore responsiveness. Thus both an Ia+ cell and an Ly-1+2+ T cell are required for [3H]TdR incorporation in response to NaGO treatment.     

Role of Ly-6A/E and T cell receptor-zeta for IL-2 production. Phosphatidylinositol-anchored Ly-6A/E antagonizes T cell receptor-mediated IL-2 production by a zeta-independent pathway.

Ly-6A/E molecules were originally implicated in regulation of T cell activation because anti-Ly-6A/E mAb induce IL-2 production. More recently we have shown that anti-Ly-6A/E also inhibits IL-2 production induced by anti-CD3. In the present study we used mutant and transfected cell lines that varied in expression of Ly-6A/E or TCR-zeta to test whether the positive and negative modulations of IL-2 production by anti-Ly-6A/E occur by distinct mechanisms. Anti-Ly-6A/E inhibited anti-CD3-induced IL-2 production for Ly-6E.1-transfected EL4J cells, but did not affect IL-2 production of the parental Ly-6A/E-negative EL4J cells. These results indicate that TCR-mediated IL-2 production can occur in the absence of Ly-6A/E expression and establish that anti-Ly-6A/E-induced inhibition of IL-2 production was the result of antibody binding to Ly-6A/E. As expected, MA5.8 (zeta-negative) or CT108 (zeta-truncated) variants of the 2B4.11 T cell hybridoma did not produce IL-2 when stimulated with anti-Thy-1 or anti-Ly-6A/E mAb. In contrast, anti-Ly-6A/E inhibited anti-CD3-induced IL-2 production by MA5.8 and CT108. Furthermore, anti-Ly-6A/E-induced IL-2 production was restored for zeta-transfected MA5.8. Thus, although induction of IL-2 by anti-Ly-6A/E depends on zeta expression, inhibition of IL-2 by anti-Ly-6A/E occurs by a zeta-independent mechanism. Interestingly, anti-Ly-6A/E, but not anti-Thy-1, inhibited anti-CD3-induced IL-2 production by MA5.8 and Ly-6E.1-transfected EL4J. Therefore, inhibition of IL-2 production by anti-Ly-6A/E was not a general property of a mAb binding to a phosphatidylinositol-linked molecule, as has been suggested for induction of IL-2 production. Taken together these data suggest that the molecular mechanisms of induction and inhibition of IL-2 production by anti-Ly-6A/E are separable and expression of TCR-zeta is one variable that distinguishes these two pathways.     

An epizootic Staphylococcus infection in a nude mouse colony

An epizootic of Staphylococcus infection causing abscesses was encountered in a small-scale breeding colony of nude mice of BALB/c background. The incidence of abscess was sporadic and mostly nude (nu/nu) mice aged over 3 months were affected. Staphylococcus aureus was isolated from the face, oral cavity, and feces of almost all nu/nu and heterozygous (nu/+) mice in the colony. After a prolonged time period, up to 10 to 14 months of age, almost all the S. aureus-carrying nu/nu mice produced abscesses and eventually died. Athymicity of the host seemed to be a prerequisite for the abscess formation since nu/+ mice were spared from the lesions. Also, transfer of immunocompetent spleen cells cured the abscesses of the affected nude mice.     

Down-regulation of IL-2 production by activation of T cells through Ly-6A/E

Ly-6A/E molecules are expressed on the surface of T cells and have been shown to function in activation by the capacity of anti-Ly-6A/E mAb to induce T cell hybridomas or normal T cells to produce IL-2. Recent evidence suggests that activation through Ly-6A/E may be linked to the TCR signaling pathway. To further investigate the relationship between Ly-6- and TCR-induced T cell activation, we have examined whether an anti-Ly-6A/E mAb (D7) modulates TCR signaling in vitro. We now report that mAb D7 specifically inhibited IL-2 production by T cells also activated through TCR. Such inhibition was noted for normal T cells stimulated by soluble anti-CD3 or alloantigen and for T hybridomas stimulated by soluble anti-CD3. The ability of D7 to inhibit IL-2 production by T hybridomas was dependent on the nature of the TCR activating signal because IL-2 production was not inhibited when T hybridomas were stimulated with Ag or immobilized anti-CD3. Inhibition of IL-2 production by D7 apparently required cross-linking of the mAb because D7 F(ab')2 fragments were not effective for inhibition of IL-2 production. Similar to its ability to enhance anti-Ly-6A/E-induced activation of T and B cells, IFN-gamma enhanced the D7-induced inhibition of IL-2 production by alloantigen-activated normal T cells. These data further support the notion that Ly-6 and TCR signaling pathways are interrelated.     

Interdependence of CD4+ T cells and malarial spleen in immunity to Plasmodium vinckei vinckei. Relevance to vaccine development

We studied immunity to the blood stage of the rodent malaria, Plasmodium vinckei vinckei, which is uniformly lethal to mice. BALB/c mice develop solid immunity after two infections and drug cure. The following experiments define the basis of this immunity. Transfer of pooled serum from such immune mice renders very limited protection to BALB/c mice and no protection to athymic nu/nu mice. Moreover, B cell-deficient C3H/HeN mice develop immunity to P. vinckei reinfection in the same manner as immunologically intact mice, an observation made earlier. In vivo depletion of CD4+ T cells in immune mice abrogates their immunity. This loss of immunity could be reversed through reconstitution of in vivo CD4-depleted mice with fractionated B-, CD8-, CD4+ immune spleen cells; however, adoptive transfer of fractionated CD4+ T cells from immune spleen into naive BALB/c or histocompatible BALB/c nude mice does not render recipients immune. In vivo depletion of CD8+ T cells did not influence the parasitemia in nonimmune or immune mice. Splenectomy of immune mice completely reverses their immunity. Repletion of splenectomized mice with their own spleen cells does not reconstitute their immunity. We conclude that some feature of the malaria-modified spleen acts in concert with the effector/inducer function of CD4+ T cells to provide protection from P. vinckei. To be consistent with this finding, a malaria vaccine may require a combination of malaria Ag to induce immune CD4+ T cells and an adjuvant or other vaccine vehicle to alter the spleen.     

Suppression of IgE antibody production in SJL mice. II. Expression of Ly-1 antigen on helper and nonspecific suppressor T cells.

Under appropriate conditions of immunization combined with irradiation, SJL/J mice show a high and persistent anti-DNP IgE antibody response. Spleen cells transferred from normal untreated SJL mice suppress this response. Elimination of Ly-1+ cells, but not of Ly-2+ cells, abolished the capacity of spleen cells to suppress the IgE response. Thus of the three T cell Ly subclasses presently identified, Ly-1, Ly-2,3, and Ly-1,2,3, the normal SJL spleen cell which suppresses the IgE response of irradiated-immunized SJL mice belongs to the Ly-1 set. It is not known whether this Ly-1 cell suppresses the IgE response directly or by helping another cell in the recipient. The carrier-specific helper cell activity for IgE and probably IgG1 antibody response belongs to Ly-1 subclass in the SJL strain also.     

Ly-4.2: a cell membrane alloantigen of murine B lymphocytes. III. In vitro studies

The alloantigenic specificity Ly-4.2 is present on a restricted population of murine lymphocytes which have previously been shown to have some of the properties generally ascribed to B lymphocytes, both with regard to distribution and function. In the study reported herein, the effect of anti-Ly-4.2 and anti-Thy-1.2 (θ) antisera have been examined in various in vitro systems. (a) T cell-mediated lysis of ⁵¹Cr-labeled P815-X2 target cells by immune allogeneic peritoneal exudate cells is inhibited by anti-Thy-1.2, but not affected by the anti-B (Ly-4.2) reagent. (b) Antibody-dependent lymphocyte-mediated lysis of ⁵¹Cr-labeled sheep red cells was only slightly inhibited by anti-Ly-4.2 and anti-Ig antisera, and not at all by anti-Thy-1.2 antisera, indicating that this type of cell lysis is mediated by neither T (Thy-l⁺) nor B (Ly-4.2⁺,Ig⁺) cells. (c) The response of lymph node lymphocytes to various mitogens was affected thus: PHA, completely inhibited by anti-Thy-1.2 but not by anti-Ly-4.2; Con A, largely inhibited by anti-Thy-1.2, and slightly by anti-Ly-4.2; PWM (pokeweed mitogen), partially inhibited by both antisera; E. coli endotoxin lipopolysaccharide, greatly inhibited by anti-Ly-4.2 but only slightly by anti-Thy-1.2. The findings demonstrate that anti-Thy-1.2 reacts predominantly with T cells and anti-Ly-4.2 with B cells.     

Cellular basis of tolerance to serum albumin in adult mice. I. characterization of T suppressor and T helper cells.

The surface markers and size of suppressor cells were determined in adult (BALB/c x C57BL/Ka)F1 mice which were tolerized with a single injection of deaggregated bovine serum albumin (BSA). Suppressor cells from the spleens of tolerazided donors were assayed in a cell transfer system in which graded numbers of cells were injected into irradiated syngeneic mice along with limiting numbers of T cells primed to BSA and an excess of B cells primed to DNP-BSA. Adoptive hosts were challenged with DNP-BSA in saline, and the anti-DNP response was measured. Suppressor cells were antigen specific as shown by the inhibitory activity of BSA-tolerant spleen cells on the response to DNP-BSA, but not to DNP-BGG. Suppressor cells were eliminated by in vitro treatment with anti-Thy 1.2, anti-Ly-2.2, anti-I-J subregion antisera and C, but not with anti-Ly-1 or anti-I-A subregion antisera. Neither unprimed nor primed helper T cells were detected in the spleen of tolerized donors after in vitro treatment with anti-Ly-2.2 antisera. Both helper and suppressor T cells from the spleens of primed or tolerized donors, respectively, showed a rapid sedimentation velocity (S greater than 3.7 mm/hr).     

Origin of autoreactive T helper cells. I. Characterization of Thy-1+, Lyt-, L3T4- precursors in the spleen of normal mice

A new population of dull Thy-1+, Ly-1-, Lyt-2-, L3T4- PNA- cells, resistant to a double cytotoxic treatment by monoclonal antibodies to these T cell markers plus complement, has been isolated from the spleen of normal adult BALB/c and DBA/2 mice (Tkr cells). These cells exhibit no spontaneous autoreactivity or alloreactivity but can be activated with concanavalin A (Con A). Once activated, they differentiate into bright Thy-1+, Ly-1+, Lyt-2-, L3T4+ PNA- T lymphocytes. Con A-activated Tkr cells also strongly proliferate in the presence of allogeneic or syngeneic dendritic cells in secondary cultures. Moreover, contrary to other Con A-stimulated T cell populations, they induce B lymphocytes to proliferate and to differentiate into Ig-secreting cells at a very high level. Con A-activated Tkr cells are therefore very potent polyclonal B cell activators. Restimulated of Tkr cells by syngeneic dendritic cells can be inhibited by anti-L3T4 or anti-class II monoclonal antibodies. The results suggest that Tkr cells are the precursors of class II-specific autoreactive T helper cells. Tkr cells are absent in the spleen of B6 animals. This indicates that their expression might be genetically controlled. It also suggests that Tkr cells may not be the unique splenic precursors of autoreactive T cells. Con A activation of Tkr cells in Click's medium is 2-mercaptoethanol dependent and highly sensitive to pCO2, like the response of thymocytes. Tkr cells are also absent in the spleen of nude mice. We conclude that Tkr cells represent splenic precursors of autoreactive T helper cells equivalent to Thy-1+, Ly-2-, L3T4- PNA- cortical thymocytes.     

The therapeutic significance of concomitant antitumor immunity

Summary Intravenous injection of 50 g bacterial endotoxin can cause complete regression of an established SA1 sarcoma, but not if the tumor ir growing in mice that are incapable of generating concomitant immunity because they have been made T cell-deficient by thymectomy and -radiation (TXB mice). It also was shown that endotoxin fails to cause complete regression of a tumor that is either too large or too small. Only when administered on day 9 of tumor growth, at the time of peak concomitant immunity, did endotoxin cause the tumor to undergo complete regression. Direct evidence that the antitumor effect of endotoxin is dependent on concomitant immunity consisted in the demonstration that an SA1 sarcoma growing in TXB recipients can be primed for endotoxin-induced regression by IV infusion of splenic T cells from concomitantly immune donors bearing an endotoxin-susceptible 9-day tumor. Surprisingly, the donor T cells that primed the recipient tumor for endotoxin-induced regression were of the Ly-1⁺2^– phenotype, as evidenced by their susceptibility to treatment with anti-Ly-1 antibody and complement, and their complete resistance to treatment with anti-Ly-2 antibody and complement. They were different, therefore, from the T cells that cause the regression of smaller tumors in -irradiated recipients without the aid of endotoxin. It is suggested that the antitumor function of endotoxin depends on its ability to cause intratumor macrophages to acquire and express tumoricidal function, but only after the macrophages have been activated by Ly-1⁺2^– tumor-sensitized T cells.