CD4-CD8- thymocytes from MRL-lpr/lpr mice exhibit abnormal proportions of alpha beta- and gamma delta-TCR+ cells and demonstrate defective responsiveness when activated through the TCR.

MRL-lpr/lpr (lpr) mice develop profound lymphadenopathy resulting from the accumulation of CD4-CD8- (double-negative, DN) cells in the peripheral lymphoid organs. Earlier studies from our laboratory demonstrated an increased proportion of DN cells in the thymus of lpr mice with age. Inasmuch as the DN thymocytes constitute a heterogenous population of cells, in the present study, we investigated the TCR phenotype of DN thymocytes and their responsiveness to activation through the TCR. The DN thymocytes of young (1 month of age) lpr mice contained approximately 65% CD3+ cells of which approximately 60% were alpha beta-TCR+ and approximately 39% were gamma delta-TCR+ as detected by using pan anti-TCR mAbs. In old (4-6 months of age) or young MRL-(+/+) mice, similar proportions of CD3+, alpha beta- or gamma delta-TCR+ DN thymocytes were detected. Interestingly, however, in old (4-6 months of age) lpr mice, the CD3+ T cells increased to approximately 86% and the majority of these (approximately 81%) were alpha beta-TCR+ and only approximately 3% were gamma delta-TCR+. Also, in old lpr mice, there was a 10-fold increase in the absolute number of alpha beta-TCR+ DN cells in the thymus, whereas, the absolute number of gamma delta-TCR+ DN cells in the thymus did not alter significantly. Furthermore, a majority (approximately 84%) of the old lpr DN thymocytes expressed CD45R, similar to the peripheral DN T cells. In contrast, only a small number (approximately 1%) of DN thymocytes from young lpr or MRL-(+/+) mice expressed CD45R. The DN thymocytes from young lpr or MRL-(+/+) mice demonstrated strong and similar proliferative responsiveness to stimulation with PMA + calcium ionophore or PMA + IL-2, or to immobilized mAb directed against the TCRs (CD3, alpha beta and gamma delta). In contrast, the DN thymocytes and the DN peripheral T cells from old lpr mice demonstrated marked defect in responding to the above stimuli. The present study suggests that with the onset of lymphadenopathy, the DN cells in the thymus of old lpr mice are increasingly skewed toward the alpha beta-TCR repertoire, the majority of which express CD45R and respond poorly to mitogenic stimuli or when activated through the TCR. It is suggested that migration of such cells continuously to the periphery may result in severe lymphadenopathy seen in old MRL-lpr/lpr mice.     

Cytokine secretion by C3H-lpr and -gld T cells. Hypersecretion of IFN-gamma and tumor necrosis factor-alpha by stimulated CD4+ T cells.

Mice homozygous for lpr and gld develop profound lymphadenopathy characterized by the expansion of two unusual T cell subsets, a predominant Ly-5(B220)+ CD4- CD8- double negative (DN) population and a minor CD4 dull+ Ly-5(B220)+ population. The mechanisms promoting lymphoproliferation are unknown, but one possibility is a abnormality in the production of cytokines that regulate T cell growth. In the present report, unfractionated LN cells and sorted T cell subsets from C3H-lpr, -gld, and -+/+ mice were compared for spontaneous and induced secretion of a spectrum of lymphokines. In addition, CD4+, CD4 dull+ Ly-5(B220)+, and DN T cells were examined for expression of CD3 epsilon, TCR-alpha/beta heterodimers, Ly-6C, and CD44 and for proliferative responses to immobilized anti-TCR mAb and cofactors. These studies revealed that sorted DN T cells did not secrete IL-3, IL-4, IL-5, IL-6, GM-CSF, TNF-alpha, or IFN-gamma spontaneously or after TCR-alpha/beta cross-linking. In contrast, stimulated unfractionated lpr and gld LN cells proliferated strongly and secreted high levels of IFN-gamma and TNF-alpha and low levels of IL-3, IL-4, and IL-6. Despite a 5- to 10-fold deficit in the frequency of CD4+ and CD8+ T cells, cytokine secretion by lpr and gld LN generally exceeded that of +/+ LN. Comparisons of cytokine secretion by stimulated CD4+ T cells revealed that +/+, lpr, and gld CD4+ Ly-5(B220)- T cells proliferated strongly, but only lpr and gld cells produced significant levels of IFN-gamma. The lpr and gld CD4+ T cells also produced higher levels of TNF-alpha and IL-2 than +/+ cells. In contrast to normal CD4+ T cells, lpr and gld CD4+ Ly-5(B220)+ T cells proliferated weakly and did not secrete TNF-alpha, IL-2, or, in most experiments, IFN-gamma after stimulation. Phenotypic studies of T cell subsets revealed that unstimulated lpr and gld CD4+ Ly-5(B220)- T cells express significantly higher levels of CD44 than +/+ CD4+ T cells. In addition, CD4 dull+ Ly-5(B220)+ cells closely resembled DN T cells in size and expression of TCR-alpha/beta, CD3epsilon, CD44, and Ly-6C. Since elevated CD44 expression is generally associated with T cell activation and only previously activated normal CD4+ T cells produce high levels of IFN-gamma in vitro, our data suggest that lpr and gld CD4+ Ly-5(B220)- T cells contain a higher than normal proportion of primed or memory T cells and thus may be polyclonally activated in vivo.(ABSTRACT TRUNCATED AT 400 WORDS)     

Differentiation potential of 14-day fetal mouse thymocytes in organ culture. Analysis of CD4/CD8-defined single-positive and double-negative cells

A two-color flow cytometric analysis was carried out on 14-day fetal mouse thymus lobes maintained for various lengths of time in organ culture. Kinetic analysis showed that the proportions of CD4- and CD8-defined subpopulations changed with time. In particular, there appeared to be accumulation of J11d-, CD4/CD8 double-negative and J11d-, Ly-6A+ single-positive cells, a phenotype associated with "mature" cells. Gated two-color analysis of CD4/CD8 single-positive cells showed that they contained distinct subpopulations as defined by mAb to CD3, TCR (F23.1), Ly-6A, Ly-6C, LFA-1, and J11d. Thus, the precursor cells found in the 14-day fetal mouse thymus were capable of generating all the subpopulations of CD4/CD8-defined single-positive and double-negative cells seen in the normal adult mouse thymus.     

Expression of the J11d marker on peripheral T lymphocytes of MRL-lpr/lpr mice

MRL-lpr/lpr (lpr) mice spontaneously develop massive lymphadenopathy resulting from the expansion of a unique population of Thy-1+ cells which are CD4- and CD8- (double negative) and the nature of which is not clear. The antibody J11d has been shown to define a differentiation Ag found on immature thymocytes but not on mature and functional peripheral CD4+ or CD8+ T cells. To analyze the possible relationship between the lpr double-negative T cells and the thymocytes, we investigated the simultaneous expression of J11d and Thy 1 Ag on the double-negative lpr lymph node cells by using two-color immunofluorescent staining technique. We observed that lpr mice at 3 to 4 weeks of age, before the onset of lymphadenopathy, did not have significant numbers (less than 4%) of J11d+ T cells in the periphery, similar to the number found in the control MRL +/+ mice. However, with increasing age of approximately 8 to 10 weeks and coinciding with the appearance of lymphadenopathy, a significant number (approximately 35%) of J11d+ Thy-1+ cells started appearing in the periphery of lpr mice and was maintained until the mice died at 20 to 24 weeks of age. The J11d+ T cells belonged to the abnormal double-negative T cell pool, inasmuch as J11d+ CD4+ or J11d+ CD8+ cells were absent in the lymph nodes of 20-wk-old lpr mice. Furthermore, 20-wk-old lpr mice demonstrated increased numbers (approximately 41%) of double-negative T cells in the thymus, a significant proportion of which were J11d+. In contrast, the 20-wk-old +/+ mice or 4-wk-old lpr mice had only 4% double-negative T cells in the thymus. The present study suggests that a significant number of peripheral double-negative T cells of lpr mice bear the immature thymic differentiation Ag J11d. The possibility that the accumulation of double-negative T cells results from abnormal peripheralization of double-negative J11d+ thymocytes, before complete differentiation into CD4+ or CD8+ T cells, is discussed.     

Expansion of the population of double negative CD4-8- T alpha beta-cells in the liver is a common feature of autoimmune mice.

There have been several reports that double negative (DN) CD4-8- T alpha beta-cells might be responsible for the onset of autoimmune diseases in humans and mice. We previously revealed that such DN T alpha beta-cells are generated in the liver of autoimmune MRL-lpr/lpr mice. In the present study, we further characterize the histology of the liver in these mice by light and electron microscopic studies. An intensive accumulation of mononuclear cells in the liver was demonstrated and a significant proportion of these mononuclear lymphocytes was found to intimately interact with Kupffer cells or endothelial cells of the hepatic sinusoids. The majority of such lymphocytes were TcR+CD4-8-Pgp-1+ alpha beta-cells. Identification of DN T alpha beta-cells was then performed in various autoimmune model mice. Interestingly, all autoimmune mice tested (i.e., MRL-lpr/lpr, C3H/HeJ-gld/gld, BXSB, NOD, MRL(-)+/+ and NZB/W F1 mice), showed an increased proportion of DN T alpha beta-cells (greater than 11% among all MNC) in the liver when they became old and diseased. On the other hand, young and old normal mice and young autoimmune mice before the onset of disease did not have such a high proportion of DN T alpha beta-cells (less than 10%) in the liver. Among autoimmune mice, MRL-lpr/lpr and C3H/HeJ-gld/gld mice had lymphadenopathy, which consisted of DN T alpha beta-cells (greater than 25%), after the onset of disease. Autoimmune mice of the other strains had neither lymphadenopathy nor DN T alpha beta-cells in the periphery, even when they were diseased. These results suggest that the expansion of the DN T alpha beta-cell population in the liver is a common feature of autoimmune mice, irrespective of the information of lymphadenopathy.     

Rapid T cell receptor modulation accompanies lack of in vitro mitogenic responsiveness of double negative T cells to anti-CD3 monoclonal antibody in MRL/Mp-lpr mice

The role of the CD8-, CD4- (double negative) (DN) T cells accumulating in MRL/Mp-lpr/lpr (lpr) mice is unclear. Although they bear the TCR/CD3, the lpr DN cells do not respond to Ag, and the specificity of TCR/CD3 on these cells is unknown. With the aid of monoclonal anti-murine CD3 epsilon (145-2C11), we have investigated the function of the CD3 molecule on the DN cells. 145-2C11 was not mitogenic for lpr DN lymph node cells (LNC), even in the presence of the phorbol ester 12-O-tetradecanoylphorbol 13-acetate, whereas MRL/Mp-+/+ (+/+) LNC responded strongly. Surprisingly, CD3 modulation induced by 145-2C11 was much more rapid for lpr DN than for +/+ LNC. For example, the modulation observed after 10 min in lpr DN LNC required at least 2 h in +/+ cells. This was not due solely to a property of the 145-2C11 antibody, because both TPA and the F23.1 anti-TCR mAb also provoked a faster modulation of the TCR in lpr DN LNC. Double-staining experiments showed that co-culturing +/+ and lpr DN LNC did not alter their respective rates of modulation, which suggests an intrinsic defect in the lpr DN cells. Moreover, in LNC from 6-wk-old lpr mice (before the appearance of DN cells), as well as in normal phenotype-bearing T cells (CD8+ or CD4+) from 6-mo-old lpr mice, the CD3 modulation was similar to that of +/+ LNC. After modulation, the CD3 molecule was reexpressed at the surface of both +/+ and lpr DN cells during subsequent incubation of the cells without 145-2C11. In addition, spontaneous recycling of CD3 was similar in +/+ and lpr DN LNC. The rapid modulation of the lpr DN TCR/CD3 is presumably related to the anergy of this cell population.     

Stimulation of murine T cells via the Ly-6C antigen: lack of proliferative response in aberrant T cells from lpr/lpr and gld/gld mice despite high Ly-6C antigen expression

Cross-linking of cell surface Ly-6C molecules with the 6C3 rat monoclonal antibody (MAb) followed by anti-rat immunoglobulin antibody acts in concert with phorbol myristate acetate (PMA) as a potent mitogenic stimulus for normal T cells. Specificity of this stimulation was demonstrated by its absence in T cells from NZB, NOD, or STb/J mice which lack the 6C3 determinant. In 6C3+ normal strains, the extent of 6C3-mediated stimulation varied, depending on the level of 6C3 antigen expression. Analysis of this stimulation in purified T cell subsets revealed that in Ly-6.1 strains (e.g., BALB/c, CBA/J), Lyt-2+ cells responded, but not L3T4+ cells, whereas in Ly-6.2 strains (e.g., C57BL/6, MRL-+/+), both subsets produced IL 2 and proliferated, although with different kinetics. Moreover, in adult MRL-+/+ mice, the minor Lyt-2-/L3T4- subset from the lymph nodes gave low responses to 6C3 cross-linking, whereas that from the thymus reacted strongly. Stimulation via Ly-6C therefore provides a pathway for differential activation of normal T cells. In contrast, the expanding population of Lyt-2-/L3T4- T cells from lpr/lpr or gld/gld mice did not proliferate in response to 6C3 antigen cross-linking plus PMA despite high levels of 6C3 antigen expression. Responsiveness of lpr/lpr T cells could not be restored with IL 1, IL 2, or both. These T cells also failed to be triggered by conjunction of PMA with either Thy-1 antigen cross-linking or concanavalin A. Moreover, they were not stimulated, in the presence of PMA, by doses of ionomycin that were optimal for normal T cells, but did respond to higher ionomycin concentrations (2 micrograms/ml), and this response was not altered by Ly-6C cross-linking. It is concluded that the Ly-6C pathway of T cell activation is not functional in the aberrant lpr/lpr (and gld/gld) T cells, and that this defect may reflect abnormalities of intracellular signaling.     

IL-2 receptor expression in autoimmune MRL-lpr/lpr mice. The expanded L3T4-, Lyt-2- population does not express p75 and cannot generate functional high-affinity IL-2 receptors

Autoimmune MRL-lpr/lpr mice develop an SLE-like disease characterized by a profound lymphadenopathy within an L3T4-, Lyt-2- (DN), B220+ T-cell population. Despite its immature phenotype this subset expresses mature alpha beta TCR belonging predominantly to the V beta 8 gene family and appears to be identical to an activated form of a minor T cell population present in both the thymus and periphery of normal mice. However, the mechanisms underlying the greatly increased cellularity in lpr/lpr-bearing mice are not understood. In this study, the IL-2R expression of lpr/lpr T cells was examined to assess the contribution of IL-2-mediated division to their expansion. The lpr/lpr DN T cells lacked high-affinity IL-2R, even after stimulation, suggesting that IL-2-dependent proliferation plays no role in the expansion of these cells and demonstrating the existence of this unusual T cell phenotype in vivo.     

Altered expression of self-reactive T cell receptor V beta regions in autoimmune mice.

Intrathymic tolerance results in elimination of T cells bearing self-reactive TCR V beta regions in mice expressing certain combinations of I-E and minor lymphocyte stimulatory (Mls) phenotypes. To determine if autoimmune strains of mice have a defect in intrathymic deletion of self-reactive TCR V beta regions, expression of V beta 3, V beta 6, V beta 8.1, and V beta 11 were examined in lpr/lpr and +/+ strains of mice; MRL/MpJ(H-2K, I-E+, Mlsb,), C57BL/6J(H-2b, I-E-, Mlsb,), C3H/HeJ(H-2k, I-E+, Mlsc), AKR/J(H-2k, I-E+, Mlsa); and in autoimmune NZB/N(H-2d, I-E+, Mlsa) and BXSB(H-2b, I-E-, Mlsb) mice. The results suggest that, during intrathymic development, self-reactive T cells are deleted in autoimmune strains of mice as found in normal control strains of mice. However, the TCR V beta repertoire is skewed in autoimmune strains compared to normal strains of mice. For example, MRL-lpr/lpr mice, but not other lpr/lpr strains, had increased expression of V beta 6 relative to expression in control MRL(-)+/+ mice, which is associated with collagen-induced arthritis. These data are consistent with a model of normal affinity for negative selection of self-reactive T cells in the thymus of autoimmune strains of mice followed by expansion of autoreactive T cell clones in the peripheral lymphoid organs. The peripheral lymphoid organs of lpr/lpr mice contain an expanded population of abnormal CD4-, CD8-, 6B2+ T cells. Elimination of self-reactive peripheral T cells suggests that these abnormal cells are derived from a CD4+ subpopulation in the thymus. Flow cytometry analysis of peripheral lymph node T cells from MRL-lpr/lpr mice reveal three populations of CD4+ T cells expressing low, intermediate and high intensity of B220 (6B2). This supports the hypothesis that in lpr/lpr mice, self-reactive CD4+ T cells are eliminated in the thymus, and that these cells lose expression of CD4 and acquire expression of 6B2 in the periphery.     

Prevention of lymphadenopathy in MRL-lpr/lpr mice by blocking peripheral lymph node homing with Mel-14 in vivo

MRL-lpr/lpr mice develop massive lymphadenopathy and autoimmunity. There is evidence that both migration and local proliferation contribute to the accumulation of Ly-2-, L3T4-, 6B2+ T cells in the peripheral lymph node (PLN). Mel-14 is an antibody which binds to the lymphocyte lymph node homing receptor (gp90Mel-14) and can block migration of lymphocytes to the PLN. Treatment of mice from birth to 11 wk of age with Mel-14 and another rat IgG2a mAb, 6B2, resulted in reduction (10- to 20-fold) in lymphadenopathy. Mel-14, but not 6B2, preferentially reduced the percentages of Thy-1+, 6B2+ lymphocytes in the lymph node. Treatment with a third antibody, anti-Ly-1, had no effect on lymphadenopathy. Mel-14 treatment resulted in diversion of the Ly-2-, L3T4-, 6B2+, gp90Mel-14 cells to the spleen and consequently induced marked splenomegaly. Thymocytes from MRL-lpr/lpr and MRL-+/+ mice were analyzed by two-color flow cytometry analysis after depletion of Ly-2+ and L3T4+ T cells. There was no difference in the percent of Ly-2-, L3T4-, 6B2+, gp90Mel-14 positive thymocytes comparing these two strains. Mel-14 treatment did not alter Ig levels or autoantibody production. These studies suggest Mel-14 reduced lymphadenopathy by interfering with homing to PLN, whereas 6B2 may have interfered with marrow production of precursor cells or killed 6B2+ cells after they exited the marrow. The data are consistent with the idea that lymphadenopathy occurs in MRL-lpr/lpr mice due to increased homing gp90-Mel-14 T cells to the PLN and that gp90Mel-14 is a necessary receptor for the abnormal 6B2+ T cells.     

Autoimmune CD4+ T cells interfere with immune tolerance to a thymic-independent antigen

The ability of autoimmune T cell subsets to interfere with tolerization of B cells can be studied by using thymic-independent Ag. We have defined an abnormality within the CD4+ T cell compartment in young NZB and MRL-lpr/lpr mice by studying tolerance of spleen and B cells to the thymic independent Ag, fluorescein-Brucella abortus. Tolerization of spleen cells is defective in MRL-lpr/lpr mice, but not MRL-+/+ or C3H.lpr mice, suggesting that the defect requires both the autosomal MRL background and the lpr gene to be present. T enriched cells from NZB mice and from MRL-lpr/lpr mice (but not MRL-+/+ or C3H.lpr mice) reverse tolerance in spleen cells from [NZB X DBA/2]F1 and C3H/HeJ mice, respectively. This interference is removed by treatment with anti-CD4 antibody and C. Supernatants from cultured T cells of NZB and MRL-lpr/lpr mice also prevent tolerance in spleen cells of [NZB X DBA/2]F1 and MRL-+/+ mice, respectively, unless CD4+ cells are removed prior to T cell culture. Removal of T cells from NZB and MRL-lpr/lpr spleen cells allows normal tolerization of B cells, which is abrogated by the addition of syngeneic T cells or cultured T cell supernatants. This effect also depends on the presence of CD4+ T cells. These studies show that in MRL-lpr/lpr mice, through interaction of the lpr and MRL background genes in a T cell subset, and in NZB mice, CD4+ T cells interfere with B cell tolerance to a thymic-independent Ag.     

Accelerated programmed cell death of MRL-lpr/lpr T lymphocytes.

MRL-lpr/lpr (lpr) mice develop a polyclonal accumulation of abnormal peripheral T lymphocytes, which bear surface alpha beta TCR, CD3, and the B220 isoform of CD45, but lack CD4, CD8, and CD2. These T cells have a constitutively phosphorylated CD3 zeta chain and manifest a defect in signal transduction that results in a lack of IL-2 production and proliferation. We investigated whether this signaling abnormality might contribute to their accumulation via a defect in T cell elimination in the periphery. T cell deletion occurs through a process of programmed cell death with DNA degradation, or apoptosis. Viable lymphocytes from lpr mice were found to undergo rapid programmed cell death in culture within 4 h without additional activation, which was not observed in lymphocytes from normal MRL-+/+ or C57BL/6-+/+ mice. Both nonmature B220+ and mature B220- T lymphocytes from lpr mice display this accelerated programmed cell death, indicating that this is a defect affecting all peripheral T lymphocytes in lpr mice. In vitro apoptosis of lpr T cells could be inhibited with PMA, a stimulator of protein kinase C. Thus, the massive accumulation of T lymphocytes in the lymphoid tissue of lpr mice is not due to a defect in their ability to undergo programmed cell death in vitro. The activation state of lpr T cells may contribute to their rapid degradation of DNA in vitro.     

Unusual alpha beta-T cells expanded in autoimmune lpr mice are probably a counterpart of normal T cells in the liver.

Autoimmune MRL-lpr/lpr (lpr) mice develop severe lymphadenopathy, characterized by the accumulation of alpha beta-T cells with CD4-8- double negative (DN) phenotype, at the onset of disease. We previously demonstrated that the liver is a major site for the proliferation of such DN alpha beta-T cells. Herein, we further demonstrate that a large proportion of alpha beta-T cells in the liver and other organs, except the thymus, of lpr mice have unique properties, such as DN phenotype, relatively dull TCR intensity, a preponderance of V beta 8+ cells, and Pgp-1 expression. Interestingly, alpha beta-T cells in the liver of normal mice were found to consist of T cells with intermediate intensity of TCR (i.e., brighter than thymic dull TCR and lower than thymic bright TCR) as well as with bright intensity of TCR in the immunofluorescence test. These hepatic alpha beta-T cells with intermediate TCR in normal mice were found to have properties similar to those of alpha beta-T cells in lpr mice. These results suggest that abnormal alpha beta-T cells in lpr mice are a counterpart of normal T cells in the liver. An abnormal expansion of such T cells in the liver might be fundamental to the pathogenesis involved in these autoimmune mice.     

Phenotypic and functional analysis of the cellular response in regional lymphoid tissue during an acute virus infection

A phenotypic and functional analysis has been made of the cellular response in regional lymphoid tissue of C57BL/6J mice infected with lymphocytic choriomeningitis virus. Massive recruitment of nondividing cells occurred from 3 days after infection, with total numbers of CD8+ T lymphocytes, B220+ B cells, and Thy-1- B220- null cells being high from day 4 to day 6. In contrast, the peak counts for CD4+ T cells were recorded on day 4 and declined dramatically thereafter. Enhanced expression of IL-2R and Ly-24, both of which can be regarded as T cell activation markers, was found for both the CD4+ and the CD8+ subsets, being most prominent for the CD8+ T cells on day 6. Evidence of T cell proliferation was not recognized until days 5 and 6, coincident with enhanced responsiveness of the lymphocytes to rIL-2 and the development of virus-specific cytotoxic activity. Elimination of the CD4+ T cells by treatment of mice with mAb did not modify either the pathogenesis of lymphocytic choriomeningitis, or the expression of activation markers on the CD8+ T cells which are known to be the key effectors in this disease. Thus, the pattern of responsiveness for the CD8+ population is of recruitment to the lymph node, progressive increase in the expression of activation markers and enhanced sensitivity to rIL-2, with late proliferation and generation of cytotoxic activity. This model provides a system for the rigorous in vivo analysis of parameters influencing lymphocyte differentiation and activation in a virus infection.     

Strain-dependence and cellular aspects of the acceleration of age-dependent shift in class-specific helper and suppressor activity in the thymus of MRL/Mp mice by the LPR gene

Previous studies of the immunoregulatory activity of thymocytes from SJL/J mice have shown loss of suppressor activity for the antibody response by 24 weeks of age with appearance of helper activity. At the same time, suppressor cells developed which inhibit the generation of cytotoxic T lymphocytes (CTL). We now show a similar pattern of helper and suppressor activity in MRL/Mp mice. Presence of the lpr/lpr genotype significantly accelerated the onset of these changes in thymocyte activity. A similar pattern of thymocyte activity was not detected in C57B1/6 mice. In aged MRL-lpr mice, evidence of increased suppressor cell activity for the CTL response could be demonstrated in spleen, and the suppressor was sensitive to treatment with anti-thy 1.2 + complement. The magnitude of the deficiency in the CTL response in MRL-lpr mice was greater than could be accounted for by suppressor cell activity alone. Measurement of the frequency of CTL precursors (CTLP), the yield of CTL per CTLP, and the ability to produce and to respond to interleukin 2 (IL-2) indicated that a drop in CTLP frequency, subnormal generation of IL-2, and probably an intrinsic defect in the responsiveness of MRL-lpr CTLP to IL-2 was contributing to the defective CTL response. We were not able to link suppressor T cells with reduced responsiveness to IL-2. Ageing involves different patterns of change in immunoregulatory T-cell subsets in different strains of mice, depending on their genetic constitution. The general implications of this conclusion for prediction of immune dysfunction with age in genetically distinct members of an outbred population are discussed.     

Responses of B cells from autoimmune mice to IL-5

Three strains of mice (NZB/W F1 X NZW (NZB/W), BXSB, and MRL/Mp-lpr/lpr (MRL/lpr] develop an autoimmune disease that is clinically and immunologically similar to human SLE. A characteristic of these mice is polyclonal B cell hyperactivity. To explore whether this may be related to hyper-responsiveness to B cell stimulatory factors, we investigated the proliferative and secretory responses of B cells from these mice to semi-purified natural and rIL-5, a major regulator of B cell development in the mouse. As this lymphokine stimulates growth and differentiation of activated B cells, attention was focused on in vivo-activated B cell populations, obtained from the interface of 50/65% Percoll density gradients, from normal or autoimmune mice. This cell population from NZB/W mice secreted IgM and incorporated [3H]TdR at significantly higher levels in response to IL-5, and was more sensitive to IL-5, than a comparable population from several normal murine strains. NZB/W female and male mice displayed heightened responses to IL-5, indicating that this is characteristic of the strain in general and is not associated with the accelerated severe disease of the females. Small resting B cells from NZB/W and normal mice were insensitive to IL-5 stimulation. In contrast to NZB/W mice, no difference was observed in the magnitude of either proliferative or Ig secretory responses between in vivo-activated B cell populations from autoimmune BXSB and MRL/lpr or normal mice. Thus, B cell hyper-responsiveness to IL-5 is a characteristic of NZB/W mice but not of two other lupus-prone murine strains. As one unique feature of NZB/W mouse B cells compared to normal and other autoimmune B cells is an elevated proportion of Ly-1+ B cells, the possibility of IL-5 hyper-responsiveness being associated with this B cell subpopulation was investigated. Fluorescence-activated cell sorter sorted Ly-1+ and Ly-1- B cells both responded to IL-5, however Ly-1+ B cells consistently showed a higher stimulation index in both proliferative and Ig secretory responses to this lymphokine.     

B220+ double-negative T cells suppress polyclonal T cell activation by a Fas-independent mechanism that involves inhibition of IL-2 production

Fas-mediated apoptosis is a key mechanism for elimination of autoreactive T cells, yet loss of function mutations in the Fas signaling pathway does not result in overt T cell-mediated autoimmunity. Furthermore, mice and humans with homozygous Fas(lpr) or Fas ligand(gld) mutations develop significant numbers of B220+ CD4- CD8- double-negative (DN) alphabeta T cells (hereafter referred to as B220+ DN T cells) of poorly understood function. In this study, we show that B220+ DN T cells, whether generated in vitro or isolated from mutant mice, can suppress the ability of activated T cells to proliferate or produce IL-2, IL-10, and IFN-gamma. B220+ DN T cells that were isolated from either lpr or gld mice were able to suppress proliferation of autologous and syngeneic CD4 T cells, showing that suppression is Fas independent. Furthermore, restoration of Fas/Fas ligand interaction did not enhance suppression. The mechanism of suppression involves inhibition of IL-2 production and its high affinity IL-2R alpha-chain (CD25). Suppression also requires cell/cell contact and TCR activation of B220+ DN T cells, but not soluble cytokines. These findings suggest that B220+ DN T cells may be involved in controlling autoreactive T cells in the absence of Fas-mediated peripheral tolerance.     

Differential antitumor effects of administration of recombinant IL-18 or recombinant IL-12 are mediated primarily by Fas-Fas ligand- and perforin-induced tumor apoptosis, respectively.

Systemic administration of rIL-18 protein to mice significantly suppresses the growth of murine tumor cell lines. The antitumor effect of IL-18 appears to be primarily mediated by asialo GM1+ cells. Since IL-18 enhances Fas ligand (FasL) expression on NK cell lines, the IL-18 antitumor effects could be mediated by FasL-induced cross-linking of Fas and subsequent tumor apoptosis. To address this question, rIL-18 or rIL-12 was administered to animals bearing the CL8-1 melanoma inoculated intradermally into wild type (wt), lymphoproliferation gene (lpr) (Fas deficient), or generalized lymphoproliferative disease gene (gld) (FasL deficient) mice. Although rIL-12 treatment retained significant antitumor effects in gld and lpr mice, those of rIL-18 administration were completely abrogated in gld but not lpr or wt mice. In vitro cytotoxicity was significantly enhanced against NK-sensitive YAC-1 cells and CL8-1 cells by rIL-18 administration to wt mice, but not to gld mice. Furthermore, rIL-18 administration augmented the cytotoxicity of liver lymphocytes harvested from perforin-deficient mice, whereas rIL-12 administration did not. Consistent with the role of this pathway, rIL-18 administration also up-regulates the expression of FasL mRNA in splenocytes. Lysis of CL8-1 cells induced by anti-Fas agonistic Ab was enhanced about 1.4-fold by IFN-gamma, a cytokine that is induced by IL-18 in vitro and in vivo. We conclude that the antitumor effect of IL-18 is exerted predominantly through a Fas-dependent pathway. The perforin pathway, however, appears to be the predominant cytolytic pathway mediating IL-12 antitumor effects.     

Expression of T cell antigen receptor beta-chains on subsets of mouse thymocytes. Analysis by three-color flow cytometry

The expression on adult mouse thymocytes of a T cell antigen receptor beta-chain epitope, recognized by the antibody F23.1, has been studied by three-color flow cytometry. Low density F23.1 staining was found mainly on CD4+8+ thymocytes. High density staining was mainly on CD4+8- and CD4-8+ cells. Variable proportions of CD4-8- cells were also F23.1+. Among CD4-8+ cells, F23.1 was expressed only on the J11d- subset with mature T cell function. We conclude that many subpopulations of thymocytes express antigen receptors and are candidates for the population subject to thymic selection, but at present no single subpopulation makes a convincing claim.