The in vitro effect of a thymic epithelial culture supernatant on mixed lymphocyte reactivity and intracellular cAMP levels of thymocytes and on antibody production to SRBC by Nu/Nu spleen cells.

Addition of supernatants from rat thymic epithelial cultures (TES) to rat thymocytes stimulated with T-cell-mitogens or allogeneic cells leads to an increase in ¹⁴C-TdR incorporation. Furthermore, in the presence of TES, spleen cells from athymic nu/nu mice exhibit an enhanced in vitro antibody production to SRBC, whereas TES has no such effect on spleen cells from T-cell-deprived mice. If TES is added together with thymocytes to T-cell-deprived spleen cell cultures, the number of plaque-forming cells to SRBC is enhanced, suggesting that TES induces a helper cell function in thymocytes which, if added alone, have no effect. TES also increases intracellular levels of cAMP in thymocytes in vitro and appears to act on a membrane site distinct from the β-adrenergic receptor. TES fails to affect mitogen responses, MLR and cAMP levels of lymphocytes from other lymphoid organs. The biological activity of TES as compared to that of thymic extracts is discussed.     

Tolerance induction in T helper (Th1) cells by thymic macrophages.

Most macrophages in the peripheral tissues present Ag optimally to a variety of functionally distinct Th cells. Although thymic macrophages have been implicated in deleting autoreactive thymocytes, their role in influencing the functional capacities of mature T cells is not clear. We have established a normal untransformed macrophage cell line, named TMC, from the mouse thymus. The TMC line presents protein Ag to an IL-4-producing Th2 type Th clone after IFN-gamma treatment as evidence by T cell proliferation and the release of IL-3 and IL-4. However, these thymic macrophages are inefficient at stimulating a well characterized cytochrome C-specific IL-2-producing Th1 clone, A.E7. Ag presentation by TMC results in the production of IL-3 but not IL-2 production or proliferation of A.E7 cells. This selective Ag presentation defect to Th1 cells is corrected by the addition of live but not fixed allogeneic irradiated spleen cells, suggesting that the thymic macrophages lack the expression of costimulatory activity required for Th1 activation. This is further demonstrated by the failure of live thymic macrophages to provide costimulatory activity to A.E7 cells stimulated with fixed spleen cells plus the antigenic peptide 81-104. Exposure of A.E7 cells to paraformaldehyde-treated TMC in the presence of 81-104 peptide induces specific hyporesponsiveness, anergy. These data demonstrate that thymic macrophages can have a profound influence on the response of selected T cells to Ag. Furthermore, the nature of the T cell stimulus is also critical because Th1 and Th2 cells responded equally well to the T cell mitogen, Con A, and a bacterial superantigen presented by the thymic macrophages.     

Suppressor cells in spleens from "nude" mice: their effect on the mitogenic response of B lymphocytes.

A cell population recovered after velocity sedimentation fractionation of "nude" but not haired mouse spleen cells suppressed the response of spleen cells from both "nude" and haired mice to the B cell mitogen, LPS. The suppressor activity of these cells was abrogated by treatment with anti-theta antiserum and complement but not by treatment with the same antiserum preabsorbed with mouse brain. It is possible that these suppressor cells come from the pool of T cell precursors known to be present in "nude" bone marrow and spleen, and that they do not require thymic influence in order to perform the suppressor function.     

In vivo generation of suppressor T cells by thymosin in congenitally athymic nude mice

Treatment of nude mice with thymic factors such as thymosin has been mostly ineffective in generating effector T cells. This study examined the effects of treating nude mice with thymosin fraction 5 on the induction of cells that could participate in and/or regulate cytotoxic T lymphocyte (CTL) generation by normal spleen cells in vitro. Splenic lymphocytes from BALB/c nude mice injected with thymosin fraction 5 every other day for 2 wk were tested for their ability to generate CTL in vitro. Two days after the last subcutaneous injection of thymosin, nude spleens were removed, mixed with normal BALB/c spleen cells, and placed into a mixed lymphocyte tumor culture (MLTC) against allogeneic RBL 5 tumor cells. After a 5-day incubation, cultures were tested for the presence of CTL in a 4-hr 51Cr-release assay. Spleen cells from thymosin-treated nude mice did not generate CTL but suppressed the ability of normal spleen cells to generate CTL in vitro. Characterization of the thymosin-induced nude mouse suppressor cells showed them to be Thy 1 positive, nonadherent, cyclophosphamide-sensitive T cells. These data demonstrate that some T cell maturation occurs in vivo under thymosin influence. However, the activity of these cells is initially limited to a regulatory function. These studies suggest that maturation of functional suppressor T cells occurs before CTL. Further immunologic manipulation appears to be necessary in order to induce CTL effector cells in nude mice.     

Effects of costimulator on immune responses in vitro.

We recently described a factor, costimulator, that is required for the concanavalin A-induced proliferation of CBA mouse thymocytes in vitro (see Reference 1). Using the costimulator dependence of mouse thymocytes as an assay, we have now determined that spleen cells from congenitally athymic (nude) BALB/c mice do not produce costimulator in response to Con A, and spleen cells depleted of Thy 1-positive cells do not respond to it in the presence of Con A. Thus, costimulator both requires thymus-derived (Thy 1+ lymphocytes for its production and has an effect on this type of cell. (However, the costimulator-producing and responsive cells may be different.) Purified costimulator preparations are a source of the required second component for the stimulation of adult, CBA/J thymic lymphocytes by PHA, normally a poor mitogen for these cells. They also enhance the level of DNA synthesis in a mixed leukocyte reaction, and the specific generation of cytotoxic lymphocytes to allogeneic tumor cells in vitro. Costimulator is not H-2 restricted in its effects, and it is produced in mixed leukocyte reactions. Finally, it has been possible to grow normal, primary thymic lymphocytes in culture for about 20 days by adding partially purified costimulator to the cultures.     

The induction of hapten-specific immunological tolerance and immunity in B lymphocytes. II. Temporal and dose response relationships of tolerance induction in B lymphocytes of various differentiation states.

The induction of TNP-specific B lymphocyte tolerance by TNBS in sources representing various differentiation states was studied in an adoptive cell transfer system. An adoptive assay was utilized in which the delay of immunization with the T-independent antigen TNP-LPS resulted in an enhanced PFC response. TNBS induced tolerance in spleen cells which was independent of T cell activity, was dose dependent, and could be adoptively transferred. While bone marrow and spleen cells were susceptible to tolerogenesis after cell transfer, TNBS treatment of the donor induced unresponsiveness in splenocytes but not marrow cells. The tolerance dose response relationship and the effect of the temporal relationship between cell transfer and tolerogenesis were studied in B lymphocytes from various sources. Adult spleen cells were resistant to tolerance induction late in the adoptive response, and the tolerance induced by TNBS administration 1 hr after cell transfer was dose dependent. Athymic nude spleen cells and adult bone marrow cells displayed similar characteristics while fetal liver cells were somewhat more susceptible to the induction of unresponsiveness. Neonatal spleen cells were rendered tolerant at much lower doses and at any stage of the adoptive response. The hierarchy obtained in these studies in the order of decreasing resistance to tolerance induction is: adult normal and athymic nude spleen and adult bone marrow, fetal liver, and neonatal spleen. This variation in tolerogenesis appears to be due to the maturity of the cell types which may reflect differences in B lymphocyte sub-populations.     

Paralysis of street rabies virus-infected mice is dependent on T lymphocytes.

Street rabies virus (SRV)-infected T-lymphocyte-deficient (nude) mice, in contrast to euthymic mice, did not develop hindlimb paralysis prior to death. To document the role of T lymphocytes in rabies virus-associated paralysis, 10(8) spleen cells from normal immunocompetent euthymic mice were transferred to nude mice and the recipient mice were challenged with SRV. One hundred percent of the reconstituted mice developed paralysis and died. Depletion of T cells from the donor spleen suspension prior to transfer abrogated the development of paralysis but did not prevent the deaths of the recipient animals. Mice receiving 10(8) rabies virus-immune spleen cells did not become paralyzed and did not die. Nude mice inoculated with either rabies virus-immune or normal mouse serum prior to and following SRV inoculation did not develop paralysis. Immune serum protected the mice, whereas animals inoculated with normal serum died. Central nervous system inflammatory responses in nude mice immunologically reconstituted with normal spleen cells were characterized by diffuse cellular infiltrates in the parenchyma and extensive perivascular cuffing. Perivascular infiltrates included CD8+ and CD4+ T lymphocytes and Mac-1+ macrophage-microglial cells. Inflammatory cells in the parenchyma were limited to CD8+ lymphocytes and Mac-1+ cells. These observations indicate that paralysis of SRV-infected mice is dependent on T lymphocytes. Whether injury leading to paralysis is mediated by T lymphocytes or by an influence of T lymphocytes on macrophage-microglial cells or other cells remains to be determined.     

Thymopoietin enhances the allogeneic response and cyclic GMP levels of mouse peripheral, thymus-derived lymphocytes.

The action of the purified thymic factor, thymopoietin, on populations of post-thymic lymphocytes has been studied. Thymopoietin, at concentrations as low as 1.5 ng/ml, uniquely enhanced the proliferative response of peripheral T cells from lymph node and spleen to allogeneic stimulation. Enhancement of the allogeneic response (MLR) was not produced by several polypeptide hormones, including insulin, ACTH, HCG, or Ubiquitin. Treatment of spleen cells with anti-Thy-1 antiserum almost completely abolished the MLR. Thymopoietin's stimulatory effects could not reverse this. Thymopoietin treatment of Thy-1+-enriched spleen cell populations enhanced the MLR even when thymopoietin was removed as early as 2 min after incubation with responding cells. The interaction of thymopoietin with peripheral Thy-1+ cell populations produced a rapid and transient rise in cyclic GMP levels and slightly decreased cyclic AMP levels. These results suggest that thymopoietin interacts with one or more Thy-1+ subpopulations and that this interaction involves early changes in cyclic nucleotide metabolism.     

Thymus-dependent and thymus-independent developmental pathways for peripheral T cell receptor-gamma delta-bearing lymphocytes

To elucidate the developmental pathways of T cells that bear TCR gamma delta, we have analyzed the kinetics of expression and biochemical characteristics of gamma delta receptors in the thymus and spleen of normal and athymic (nude) mice, as well as nude mice engrafted with neonatal thymuses. TCR gamma delta-bearing thymocytes and splenocytes have a CD4-8- phenotype, and both populations express products of the C gamma 1 locus. TCR gamma delta-bearing cells develop in the thymus before their appearance in the spleen. Young nude mice have no detectable TCR gamma delta-bearing cells in their spleens. When young nude mice are given thymus grafts, TCR gamma delta-bearing cells of host origin first develop in the engrafted thymus, followed by their appearance in the spleen. In the absence of a thymus graft, the spleens of old nude mice eventually develop small numbers of TCR gamma delta + cells, as well as TCR alpha beta + cells. These results demonstrate that there is a major thymic-dependent pathway for TCR gamma delta expression, as well as a minor thymic-independent pathway seen in older nude mice. The development of TCR gamma delta + cells in the thymus before their appearance in the spleen, both in normal ontogeny as well as in the thymus-engrafted nude mouse model, suggests that thymic TCR gamma delta + cells are precursors of the thymus-dependent population of peripheral TCR gamma delta + cells.     

Time and dosage dependence of immunoenhancement by murine type II interferon preparations.

Preparations of Type II immune induced Interferon enhanced the plaque forming cell response of mice to sheep red blood cells both in vivo and in vitro. The enhancement of the antibody response was dependent on the dosage of interferon used and the time of administration of interferon. The expression of the antiviral and immuno-enhancing activities of Type II interferon preparations shared several physical-chemical properties, including pH 2 lability and heat stability. The plaque forming cell response to lipopolysaccharide, a T-independent antigen, could not be enhanced by treatment with Type II interferon. In addition, treatment of spleen cell cultures of nude thymic deficient mice with Type II interferon could not cause an enhancement of the plaque forming cell response to lipopolysaccharide. These data suggest that the immunoenhancing effect of Type II interferon on antibody responses is produced by an effect on T lymphocytes in contrast with the immunosuppressive effect which appears to be mediated through an effect on B lymphocytes.     

Role of self carriers in the immune response and tolerance. III. B cell tolerance induced by hapten-modified-self involves both active T cell-mediated suppression and direct blockade.

The induction of B cell unresponsiveness with hapten-modified syngeneic murine lymphoid cells (hapten-modified self, HMS) can be achieved in vivo and in vitro. Tolerance in vivo in mice required a latent period of 3 to 4 days. Moreover, B cell unresponsiveness could not be induced by HMS in athymic nude mice, although their nu/+ littermates were rendered hyporesponsive by HMS. Pretreatment of normal mice with cyclophosphamide (cyclo) prevented their susceptibility to tolerance induction by haptenated lymphoid cells. Nude mice became sensitive to HMS-induced suppression if they were first reconstituted with spleen cells from normal (but not cyclo-treated) donors.Interestingly, labeling of H-2 antigens was not necessary for tolerance induction by HMS since haptenated teratoma cells (lacking H-2) were tolerogenic in normal recipients.In contrast, suppression of the in vitro response to haptenated flagellin occurred equally well with nude, nu/+ and anti-Ly 2 + C-treated spleen cells. These data suggest that cyclo-sensitive modified self-reactive (T) cells may regulate the immune response and mediate tolerance to HMS in vivo. However, the in vitro “blockade” of B cell reactivity may be directly mediated on hapten-specific PFC precursors.     

Influence of age on the ability of thymic adherent cells to produce factors in vitro which modulate immune responses of thymocytes

Thymic adherent cells from BALB/c mice ranging in age from 1 day to 20 months were cultured in vitro for 1 month. The supernatants, collected at weekly intervals, were assessed for their ability to augment the antigen/mitogen responses of thymocytes from 2- or 4-week-old BALB/c mice and spleen cells from 3-month-old nude BALB/c mice. The results indicate that (a) the ability of thymic adherent cells to produce an augmenting factor(s) declines sharply between 2.5 and 5 months of age; (b) thymic adherent cells of 1-day-old mice synthesize an inhibitory factor(s) in addition to the augmenting factor, while those of young adult mice synthesize only the augmenting factor, and those of 20-month-old mice synthesize primarily the inhibitory factor; (c) supernatants containing the augmenting factor can be neutralized by mixing them with supernatants containing the inhibitory factor; (d) thymocytes which are responsive to the augmenting factor are immature as judged by their sensitivity to dexamethasone and by their ability to bind macrophages; and (e) spleen cells of normal and nude mice are not responsive to either the augmenting or the inhibitory factor of the supernatant.     

Tumoricidal responses in vitro of peritoneal macrophages from conventionally housed and germ-free nude mice

Peritoneal macrophages from untreated nude mice were nonspecifically cytotoxic to tumor cells in vitro and were more responsive to chemotactic stimuli than macrophages from normal mice or from phenotypically normal littermates of nude mice. Tumoricidal and chemotactic responses of activated macrophages from nude mice were quantitatively comparable to responses of macrophages from BCG-infected normal mice. Peritoneal macrophages from germ-free nude mice, however, were not tumoricidal in vitro. These observations suggest that environmental stimuli, rather than thymic deficiency per se, induced activated macrophages in nude mice.     

Soluble suppressor activity of concanavalin A-activated spleen cells on B-lymphocyte colony formation in vitro.

Supernates from concanavalin A (Con A)-activated mouse spleen cell cultures suppress the formation of B-lymphocyte colonies (BLC) in soft agar culture by 30 to 95%. Con A-induced BLC suppressive culture supernates can be heated at 80 °C for 1 hr without losing activity. The BLC suppressive activity is eliminated totally by trypsin treatment and partly by treatment with β-galactosidase. Activity is unaffected by treatment with DNAse, RNAse, and α-glucosidase. By ultrafiltration the BLC suppressive factor(s) was shown to have a molecular weight greater than 300,000. These data suggest that BLC suppression is mediated by a protein-carbohydrate complex. BLC suppression was obtained when normal spleen cells were preincubated in Con A-activated supernates for only 1 hr at 37 °C. BLC suppressor activity was absent in the supernatant fluid of Con A exposed anti-θ-treated spleen cells, nonadherent spleen cells, extensively washed spleen cells, and spleen cells from nude (athymic) mice suggesting that cells responsible for Con A-induced BLC suppression are adherent, fragile cells of the T lineage. Con A-activated spleen cell supernates do not suppress colony formation in soft agar by normal mouse granulocyte-macrophage precursors, by plasmacytoma cells, T-lymphoma cells, or by carcinoma cells. However, colony formation by Abelson's murine leukemia virus transformed B-lymphoma cells was suppressed by 95% suggesting a relationship between this immature B-lymphoma line and B-lymphocyte colony-forming cells. Con A-activated spleen cell supernates do not suppress lymphocyte activation in liquid culture by phytohemagglutinin, Con A, or lipopolysaccharide. Heat-treated supernates—which inhibited BLC development by 90–95%—did not suppress the plaque formation by spleen cells immunized in vivo or in vitro by sheep red blood cells.     

Transplantation of cultured thymic fragments. VI. H-2 recombinant donors

Athymic (nude) mice were transplanted with cultured thymic fragments from syngeneic, allogeneic, and partially allogeneic (recombinant) mice. Lymphocyte proliferation and cytotoxicity in vitro were measured to assess immunologic reconstitution. Transplanted nude mice were immunocompetent whether donor and recipient were disparate for class I, class II, or both H-2 gene types. Furthermore, allotolerance for thymic H-2 class I antigens was achieved independently of class II antigen allotolerance. Class I antigen tolerance was not broken during lymphocyte responses to unrelated alloantigens, ruling out insufficient help as the tolerance mechanism. Splenocytes, isolated from nude mice transplanted with fully allogeneic or syngeneic thymic fragments and stimulated in vitro with trinitrophenyl-modified cells, displayed H-2-restricted, hapten-specific cytotoxicity. Cytotoxic cells from allotolerant mice were restricted to either host or thymic H-2 antigens, depending on the stimulating cell haplotype. Response levels for thymic and host trinitrophenyl-modified cells were comparable. We have shown that allogeneic thymic epithelium transplanted into adult nude mice can induce allotolerance to class I and II H-2 antigens equally, and permits T lymphocyte interaction with cells bearing thymic donor or host H-2 antigens. Our results are consistent with a model wherein T lymphocyte self-receptors retain their genomic repertoire but can be selectively mutated or expanded by appropriate H-2 antigen presentation by the thymus.     

Immune suppression and histophysiology of the immune response

Seven daily intramuscular (im) injections of cortisone acetate (25 mg/Kg b.w.) given to rats or rabbits produced, (i) a pronounced reduction in the numbers of small lymphocytes in thymus-independent areas, (ii) atrophy of the thymic cortex, (iii) atrophy of germinal centres and (iv) a consequent depressed production of germinal centre-derived cells. Lymphocyte depletion was not caused by cell lysis. Moreover cell traffic between peripheral lymphoid organs did not seem to be altered. A revival of the depressed germinal centres in cortisone-treated (inbred) rats could be achieved by a transfer of bone-marrow cell suspensions from normal, cortisone-treated or T-cell-deprived animals. It was concluded that cortisone acetate arrests the migration of B-lymphocytes from the bone marrow to germinal centres in peripheral lymphoid organs, and that the accumulations of lymphoid cells in the bone marrow of cortison-treated animals might be composed of immature or mature T- and B-lymphocytes.     

Biological characterization of T and B lymphocytes separated from normal mouse spleen by a physical adherence column method

The capacity of spleen cell populations enriched for T and B lymphocytes by a physical adherence column method to respond in vitro to phytomitogens and allogeneic lymphocytes was determined. Column filtrate cells (T lymphocytes) responded well to phytohaemagglutinin- and mitomycin-C-treated allogeneic spleen cells, but poorly to pokeweed mitogen. Adherent cell populations from the column (B and some T lymphocytes) responded well to pokeweed mitogen, but poorly to phytohaemagglutinin- and mitomycin-C-treated allogeneic cells.Purified peripheral T lymphocytes prepared from normal mouse spleen by the column method reconstituted the depleted in vitro antibody response to the thymic-dependent SRBC antigen of all B lymphocyte sources tested, namely, spleen cells from congenitally athymic mice, neonatally thymectomized mice, and adult thymectomized mice which had been reconstituted with bone marrow, and a lymphocyte population prepared by incubating spleen cells with anti-θ serum and complement. When transferred with sheep erythrocytes to congenitally athymic mice, purified peripheral T cells restored the in vivo IgM and IgG responses of these animals. These results confirm that the column filtrate is a thymus derived subpopulation of cells capable of cell-mediated immunity and cooperation with B lymphocytes in humoral immunity both in vitro and in vivo.     

Resistance of nude mice to herpes simplex virus and correlation with in vitro production of interferon.

Homozygous nude mice and their phenotypically normal littermates were infected intraperitoneally with herpes simplex virus (HSV). Nude mice did not show increased mortality rates. In fact, at lower virus doses they were consistently less susceptible than the controls. Spleen cells from nude mice, when challenged in vitro with HSV, produced equal amounts of interferon as spleen cells from the normal littermates.     

Differential effects of alloimmunization on T cells mediating graft-vs-host splenomegaly or the allogeneic effect in F1 mice.

Spleen cells from normal BALB/c mice or mice immunized 10 or 30 days previously with C57BL/6 spleen cells were tested for a) their capacity to produce graft-vs-host (GVH) reactions in newborn F1 mice and b) their capacity to produce an allogeneic effect in adult F1 mice immunized with Type III pneumococcal polysaccharide. GVH reactivity of alloimmune spleen cells obtained 10 or 30 days after immunization was significantly increased as compared to the reactivity of normal spleen cells in that a) at comparable cell doses, higher spleen indices were obtained with alloimmune cells than normal cells, and b) alloimmune cells produced severe runting at lower cell doses than normal cells. By comparison, the capacity of alloimmune spleen cells to produce an allogeneic effect was reduced 50% on a per cell basis as compared to normal spleen cells at both 10 and 30 days after immunization. These results give further evidence that T cells producing the allogeneic effect are distinct from the T cell populations which interact to produce GVH splenomegaly.     

Enhancement of the mixed lymphocyte response in the mouse by addition of thymocytes

Synthesis of DNA by mixtures of mouse lymph node and thymic cells was studied in vitro using mitomycin-treated allogeneic spleen cells as stimulator cells. The tests were performed to see whether there occurs a similar cell synergy during this reaction as has been reported during the in vivo graft-vs-host response.It was observed that mixtures of thymocytes and lymph node cells give higher incorporations of isotope-labelled thymidine than can be explained by a pure additive effect of the two cell populations tested separately. This enhancement of the reactivity was more pronounced using combinations of lymph node cells and medullary thymocytes obtained from cortisone-treated donors. Enhancement was also noted between lymph node cells and spleen cells. Blocking of the capacity of lymph node cells to synthesize DNA by treatment with mitomycin abolished this enhanced activity when mixed with thymic cells. On the contrary, mitomycin treatment of thymocytes did not abolish their capacity to increase the reactivity when mixed with normal lymph node cells. Thymocytes, which were unresponsive to the mitomycin-treated cells for genetic reasons, were also found to increase DNA synthesis when combined with lymph node cells. The mechanism by which thymocytes increase DNA synthesis of lymph node cells is not clear, but the results show that they have to be present during the reaction, since culture medium “conditioned” by thymocytes did not exhibit any enhanced capacity to promote a mixed lymphocyte reaction of lymph node cells.The results are thus in agreement with the findings obtained by others showing that mixtures of lymph node cells and thymic cells yield higher immunological reactivities in vivo against foreign transplantation, antigens than can be explained by a pure additive effect of the reactivities by the two cell populations tested separately. However, in contrast to these findings, the thymic cells do not have to be able to synthesize DNA or to react against the foreign cells in vitro to yield an enhanced response when mixed with lymph node cells.