Restoration of an early, progressive defect in responsiveness to T-cell activation in lupus mice by exogenous IL-2

Splenic T-cells from lupus strain (NZB/W F1, Mrl/lpr) mice lack the ability to respond to concanavalin A (Con A) by secretion of IL-2 and hence expression of IL-2 receptor and proliferation. These defects were found not only in an aged group (> 5 months) of mice in which obvious clinical 'SLE like' symptoms and elevated levels of serum autoantibodies were observed, but also in mice as young as 4-wk. We demonstrate here that the defective mitogenic activation of T-cells from lupus mice is due to the inability of T-helper cells to produce IL-2 and this defect can be restored by exogenous IL-2 in vitro. Con A-induced cell proliferation and IL-2 receptor expression on CD3+ cells from lupus mice occur only in the presence of exogenous IL-2, whereas normal T-cells from BALB/c and CBA control mice are activated by the mitogen and undergo complete cell cycling in the absence of exogenous IL-2, as they are able to secrete sufficient endogenous IL-2. The detection of impaired T-helper function in young lupus mice, before development of overt disease, and the reversible nature of the defect indicate that defective IL-2 activity may be fundamental to the mechanism of development of pathology in SLE.     

Resting B cells from autoimmune lupus-prone New Zealand Black and (New Zealand Black x New Zealand White)F1 mice are hyper-responsive to T cell-derived stimuli

To determine whether B cells from New Zealand Black (NZB) and (New Zealand Black x New Zealand White)F1 (NZB/W) mice possess intrinsic defects that lead to altered immune responsiveness, we purified resting B cells from these mice and compared their surface phenotype and function with those of resting B cells isolated from BALB/c and DBA/2 nonautoimmune mouse strains. Flow cytometric analysis of freshly isolated resting B cells revealed that NZB and NZB/W resting B cells are conventional B2-type cells similar to their nonautoimmune counterparts. Despite this, resting B cells from young NZB and NZB/W mice express lower levels of CD23 on their surface and aberrant levels of intracellular IgM. Upon stimulation, resting B cells from young NZB and NZB/W mice demonstrate increased proliferation, IgM secretion, or enhanced expression of costimulatory molecules in response to a variety of different T cell-derived stimuli, including cytokines and signals generated through CD40. Therefore, B cell hyper-responsiveness to T cell stimuli is immunodominant or codominant in NZB/W mice. Taken together, our results suggest that intrinsic B cell hyper-responsiveness may play a role in the pathogenesis of autoimmune disease in NZB and NZB/W mice. The increased clonal expansion of these B cells together with increased Ig production and enhanced costimulatory capacity serve to amplify the immune response. In the context of normal but incomplete T cell tolerance, B cell hyperresponsiveness to the limited signals provided by partially tolerant T cells may be sufficient to yield an autoantibody response.     

Effects of parturition, suckling and pseudopregnancy on variables of disease activity in the B/W mouse model of systemic lupus erythematosus

OBJECTIVE: The pituitary hormone, prolactin, accelerates systemic lupus erythematosus in NZB/NZW F1 (B/W) mice. Our study evaluated disease activity in B/W females experiencing the physiologic hyperprolactinemia of mating, pregnancy, suckling, and pseudopregnancy. METHODS: Nonsuckling postpartum, suckling and pseudopregnant mice were compared to virgin females. Serum prolactin, anti-DNA antibodies (anti-DNA), gp70-anti-gp70 immune complexes, IgM, IgG, albuminuria, and renal function were monitored serially. RESULTS: Females that whelped 2 litters had apparent stimulation of anti-DNA; those that suckled their young had similar premature appearance of anti-DNA as well as delayed, but marked, hypergammaglobulinemia. Pseudopregnant mice, which characteristically secrete repeated surges of prolactin, had significant acceleration of multiple variables of disease activity. CONCLUSIONS: Pregnancy, parturition and suckling did not immediately accelerate lupus in B/W dams, and longevity was not affected in females that had borne litters. Pseudopregnancy was the most effective stimulator of variables of autoimmunity.     

B cells are anergic in transgenic mice that express IgM anti-DNA antibodies

B lymphocytes in individuals with systemic lupus erythematosus (SLE) secrete pathogenic autoantibodies to DNA which cause clinical nephritis. (NZB X NZW) F1 (BW) female mice also secrete pathogenic anti-DNA autoantibodies, and therefore are considered to be an animal model of SLE. The rearranged immunoglobulin (Ig) genes that encode an anti-DNA antibody from a diseased BW mouse have been cloned, and transgenic (Tg) mice have been created by microinjection of these constructs into fertilized eggs from normal mice. As we reported previously, when the construct contains the C gamma 2a heavy chain constant (CH) region, the mice spontaneously secrete anti-DNA IgG and they develop mild nephritis. This demonstrated that the Ig encoded by the transgene is pathogenic. In contrast, here we report that when the construct contains the same anti-DNA Ig variable (V) regions used previously, along with the C mu region, the autoreactive B cells are rendered tolerant. Most B cells in the Tg mice express the mu transgene product on their surface, and rearrangement of endogenous light chain genes is partially suppressed. Furthermore, most hybridomas made from Tg B cells secrete IgM anti-DNA. Despite this, the Tg mice have reduced levels of total serum Ig and they do not secrete anti-DNA IgM either spontaneously or following immunization with DNA. We conclude that most B cells in the Tg mice have been rendered anergic. Anergy is however reversible in vitro; lipopolysaccharide stimulation of Tg B cells leads to the production of a significant amount of IgM anti-DNA antibody. The studies demonstrate that in this line of Tg mice on a normal mouse genetic background potentially pathogenic B cells that express a high-affinity Ig specific for a natural autoantigen are subject to tolerance by induction of anergy.     

Mycophenolate mofetil suppresses autoimmunity and mortality in the female NZB x NZW F1 mouse model of systemic lupus erythematosus

OBJECTIVE: To examine the effects of the immunosuppressant, mycophenolate mofetil (MM), on autoimmunity, glomerulonephritis, and mortality in the female NZB x NZW F1 (B/W) mouse model of systemic lupus erythematosus (SLE). METHODS: The development of murine lupus was assessed during the lifespan of 10 female B/W mice given 200 mg/kg/day of MM compared to 10 female B/W mice given vehicle. At 6 week intervals, mice were examined for weight change, albuminuria, antibodies to DNA, and IgG immunoglobulin levels. Morbidity and mortality were assessed daily. In a parallel study, MM treated and control B/W mice were examined at 18 weeks of age for splenocyte phenotype and adhesion molecule expression, as well as antibody titers and in vitro cytokine production in response to immunization with dinitrophenyl-keyhole limpet hemocyanin (DNP-KLH). RESULTS: The administration of MM was well tolerated without apparent side effects. Weight gain in MM treated and control mice was identical through 36 weeks of age. In the treatment group, MM suppressed the development of albuminuria and anti-DNA antibodies compared to the control animals. There were no significant differences between groups in serum concentrations of total IgG. At 60 weeks of age survival in the MM treated group was 100% compared to 10% in the control group. MM did not alter the percentages of CD4, CD8, or IgM positive splenocytes; however, the percentage of CD4+ T lymphocytes expressing very late antigen 4 and intercellular adhesion molecule 1 was reduced. MM inhibited the antibody response to DNP-KLH immunization in vivo; however, in vitro cytokine production in response to KLH was not suppressed. CONCLUSION: MM suppressed the development of autoimmunity and prolonged lifespan in the female B/W mouse model of SLE. Suppression of autoimmunity was achieved without obvious side effects or altered CD4:CD8 T cell ratios. MM may be a useful primary or adjunctive therapy in human SLE.     

Functional CD4+ T cell subsets defined by expression of CD45RC and NTA260 antigens and age-associated polarization in murine lupus

Using two mAb, one specific to the alternative exon 6-dependent epitope of CD45 molecules (JH6.2) and one a natural thymocytotoxic autoantibody (NTA) with an unknown reactive epitope (NTA260), we subdivided splenic CD4+ T cells from 2-month-old BALB/c mice into five phenotypically distinct subsets. CD45RC+NTA260- (S I) cells were phenotypically analogous to CD4+ T cells predominating in newborn mice and produced a significant amount of IL-2, but not so IL-4, IL-10 or IFN-gamma when stimulated with immobilized anti-CD3 mAb in vitro. They appeared to consist mainly of naive ThP cells. The CD45RC+NTA260+ (S II) subset also produced IL-2, but not other cytokines; however, the IL-2 levels produced were much higher than seen with the S I subset, thereby suggesting the predominance of further maturated ThP cells. The CD45RC-NTA260+ (S III) subset mainly produced IL-4, IL-10, IFN-gamma and less IL-2, and contained memory cells that helped the secondary antibody response to a recall antigen, and hence contained Th2 and probably a mixture of Th0 and Th1 cells. The CD45RC-NTA260- (S IV) subset was a poor responder to the immobilized anti-CD3 mAb. The CD45RCbrightNTA260dull (S V) subset consisted of a small number of cells that were phenotypically analogous to activated CD4+ T cells. While an age-associated decrease in the proportion of S I and less markedly in S II and in turn increase in S III subsets of CD4+ T cells occurred in normal BALB/c mice, autoimmune disease-prone (NZB x NZW)F1 mice showed a marked age-associated decrease in the proportion of not only S I, II but also III subsets. As aged (NZB x NZW)F1 mice carry CD4+ T helper cells for IgG anti-DNA antibody production, such age-associated polarization to the S IV subset appears to be critical in the pathogenesis of autoimmune disease in these mice.     

A subset of CD4+ T cells expressing early activation antigen CD69 in murine lupus: possible abnormal regulatory role for cytokine imbalance

Systemic lupus erythematosus (SLE), which spontaneously develops in (NZB (New Zealand Black) x NZW (New Zealand White)) F1 mice, is strictly dependent on CD4+ T cells. We found that in these mice with overt SLE, CD4+ T cells expressing CD69 molecules, an early activation Ag, are dramatically increased in peripheral lymphoid tissues and inflammatory infiltrates in the kidney and lung, but not in peripheral blood, while CD8+ and NK1.1+ T cells were virtually CD69-. Various adhesion molecules, including LFA-1, ICAM-1, CD43, CD44, P-selectin, and E-selectin, were up-regulated. Analysis of the TCR repertoire showed no skewed TCR Vbeta usage. Studies on in vitro cytokine production of spleen cells on TCR cross-linking indicated that compared with findings in young mice, the aged mice showed severely impaired production of IL-2, IL-3, and IL-4, whereas the levels of IL-10 and IFN-gamma remained relatively intact. FACS-sorted CD69-CD4+ T cells from aged mice produced substantial amounts of these cytokines, including IL-2, IL-3, and IL-4, whereas CD69+CD4+ T cells were poor producers. Intriguingly, when cocultured, CD69+CD4+ T cells significantly inhibited the production of IL-2 by CD69-CD4+ T cells. IL-2 production by spleen cells from young mice was also markedly inhibited in the presence of CD69+CD4+ T cells obtained from aged mice. We propose that CD69+CD4+ T cells that are continuously activated by self peptides bound to MHC class II molecules in (NZB x NZW)F1 mice may be involved in the pathogenesis of SLE through abnormal regulatory effects on cytokine balance.     

Characterization of the effects of the partial dopamine agonist terguride on cocaine self-administration in the rat

One notable functional abnormality in murine and human systemic lupus erythematosus (SLE) is the defect in the production of IL-2 in association with the deficit in naive CD4+ T cells. The mechanism is unknown, but one idea is that naturally occurring autoantibodies with specificities to the naive CD4+ T cell subpopulation are related to this event. We selected hybridoma monoclonal autoantibodies from SLE-prone (New Zealand Black (NZB) x New Zealand White (NZW))F1 mice that reacted with restricted populations of CD4+ T cells. One of these, H32, was specific for L-selectin, as determined by 1) distribution of Ag H32 on lymphoid cells similar to Mel-14, an epitope of L-selectin; 2) shedding of 80-kDa molecules with epitope H32 from the surface of lymph node cells coincidentally with Mel-14, when stimulated with phorbol ester; 3) cross-inhibitory activities on Ag binding between H32 and Mel-14; and 4) reactivity of H32 with recombinant mouse L-selectin. Pretreatment of 51Cr-labeled lymphocytes from BALB/c mice with H32 significantly inhibited their homing to lymph nodes in vivo. The BALB/c splenic H32+ CD4+ T cell subset produced few cytokines except IL-2, thus corresponding to naive ThP-type cells. This subset was markedly selectively depleted in aged (NZB x NZW)F1 mice. There was an age-associated increase in frequencies and titers of anti-L-selectin autoantibodies in sera from (NZB x NZW)F1 mice. Thus, abnormalities of naive CD4+ T cell subset, including IL-2 production in subjects with SLE, are at least partly attributed to the generation of autoantibodies to L-selectin.     

In vitro role of IL-1 in heightened IgG, anti-DNA, and nephritogenic idiotype production by B cells derived from the murine MRL/lpr lupus model

The MRL/lpr murine model resembles human lupus both in its serologic and immunopathologic features, and is characterized by high-level IgG and autoantibody production. The precise mechanisms for this B cell hyperactivity are poorly understood. This study explored the role of IL-1 in determining high-level IgG and autoantibody production in the MRL/lpr murine lupus model by blocking IL-1 activity with a recombinant IL-1 receptor antagonist (IL-1Ra). IgG and autoantibody production (anti-DNA ab and Id-H130 activity) by B cells derived from MRL/lpr mice was significantly suppressed by treating B cell cultures with IL-1Ra. In contrast, IgG and autoantibody production by B cells derived from young MRL/lpr, MLR/++, or normal C3H/HeJ mice showed virtually no suppression with IL-1Ra. Collectively, these findings indicate that IL-1 may be an important factor in determining the heightened production of IgG, anti-DNA, and id-H130 antibody production in lupus-prone MRL/lpr mice. Furthermore, heightened IL-1 activity appears to be influenced by both age and the presence of the lpr mutation.     

Effects of administration of monoclonal antibodies (anti-CD4 or anti-CD8) on the development of autoimmune diseases in (NZW x BXSB)F1 mice

(NZW x BXSB)F1 (W/BF1) mice spontaneously develop autoimmune diseases, characterized by lymphadenopathy, lupus nephritis, and immune thrombocytopenia associated with various autoantibodies such as anti-DNA, anti-platelet and anti-cardiolipin antibodies (Abs). In the present study, we investigate the effects of administration of monoclonal Abs (anti-CD4 or anti-CD8 mAb) on the development of autoimmune diseases in W/BF1 mice. MAb was administered from the age of 7 weeks. Prolongation of survival rate and reduction of severity of autoimmune diseases were observed after treatment with anti-CD4 mAb. However, anti-CD8 mAb treatment accelerated the diseases. Serum levels of IFN-gamma and IL-10 in old W/BF1 mice were significantly high, whereas IL-4 levels were low in comparison with those of young W/BF1 mice; the expression of mRNA of IFN-gamma, IL-4 or IL-10 in CD4+ T cells of old W/BF1 mice was parallel to the serum levels of each cytokine. These observations suggest that CD4+ cells are involved in the development of autoimmune diseases in W/BF1 mice, and that CD8+ cells have a suppressive effect on the development of autoimmune diseases in W/BF1 mice.     

B cell selection and allelic exclusion of an anti-DNA Ig transgene in MRL-lpr/lpr mice

We have used an Ig transgene (VH3H9) that increases the frequency of anti-DNA autoantibodies to address whether the production of antinuclear Abs in systemic lupus erythematosus is the consequence of a breakdown of B cell tolerance. We have shown that nonautoimmune mice regulate anti-DNA B cells, and that lupus-prone MRL-lpr/lpr mice are defective in this regulation. Here we show that a subset of anti-DNA B cells, namely those that stain nuclei in a homogeneous fashion, not only fail to be deleted in MRL-lpr/lpr mice, but undergo preferential clonal expansion. In addition, we describe a surprising finding: the VH3H9 transgene is less efficient at inhibiting endogenous heavy chain gene rearrangement on the autoimmune-prone MRL-lpr/lpr genetic background than on the nonautoimmune BALB/c background.     

Central T cell tolerance in lupus-prone mice: influence of autoimmune background and the lpr mutation

Lupus-prone mice develop a systemic autoimmune disease that is dependent upon the B cell help provided by autoreactive alphabeta CD4+ T cells. Since autoreactive T cells with high affinity for self peptides are normally deleted in the thymus, their presence in these mice suggests the possibility that intrathymic negative selection may be defective. Here, we directly compared central T cell tolerance in response to a conventional peptide Ag in lupus-prone MRL/MpJ mice with a nonautoimmune strain using an MHC class II-restricted TCR transgene. Our results did not demonstrate any defects after Ag exposure in the induction of intrathymic deletion of immature CD4+ CD8+ thymocytes, in TCR down-regulation, or in the number of apoptotic thymocytes in MRL/MpJ compared with nonautoimmune mice. Furthermore, we found that the lpr mutation had no influence upon the Ag-induced thymic deletion of immature thymocytes. These data support the notion that T cell autoreactivity in MRL/MpJ mice is caused by defects in peripheral control mechanisms.     

Polyreactive anti-DNA monoclonal antibodies and a derived peptide as vectors for the intracytoplasmic and intranuclear translocation of macromolecules

Naturally occurring polyreactive anti-DNA mAbs derived from a nonimmunized (NZB x NZW)F1 mouse with spontaneous lupus erythematosus penetrated and accumulated in the nuclei of a variety of cultured cells. These mAbs and their F(ab')2 and Fab' fragments, covalently coupled to fluorescein, peroxidase, or a 15-mer polynucleotide, also translocated to the cell nuclei. A 30-amino acid peptide corresponding to the combined sequences of the complementary-determining regions 2 and 3 of the heavy chain variable region of one mAb was able to penetrate into the cytoplasm and nucleus of cells of several lines. This peptide recognized DNA and was strongly polyreactive. Streptavidin-peroxidase conjugates complexed with the N-biotinylated peptide were rapidly translocated into cells. Similarly, peroxidase or anti-peroxidase polyclonal antibodies covalently coupled to the N-cysteinylated peptide through an heterobifunctional maleimide cross-linker were also rapidly internalized and frequently accumulated in nuclei. The peptide carrying 19 lysine residues at its N-terminal was highly effective in transfecting 3T3 cells with a plasmid containing the luciferase gene. Thus, penetrating mAbs and derived peptides are versatile vectors for the intracellular delivery of proteins and genes.     

Genetic determinants of autoimmune disease and coronary vasculitis in the MRL-lpr/lpr mouse model of systemic lupus erythematosus

MRL-lpr/lpr (MRL/lpr) mice are a model of human autoimmune disease. They exhibit a number of characteristics of systemic lupus erythematosus, including anti-DNA Abs, anti-cardiolipin Abs, immune complex-mediated vasculitis, lymphadenopathy, and severe glomerulonephritis. Although the autoimmune disorder is mediated primarily by mutation of the Fas gene (lpr), which interferes with lymphocyte apoptosis, MRL/lpr mice also have other predisposing genetic factors. In an effort to identify these additional factors, we have applied quantitative trait locus (QTL) mapping using an intercross between MRL/lpr mice and the nonautoimmune inbred strain BALB/cJ. A complete linkage map spanning the entire genome was constructed for 189 intercross progeny, and genetic loci contributing to features of the autoimmunity were identified using statistical analytic procedures. As expected, the primary genetic determinant of autoimmune disease in this cross was the Fas gene on mouse chromosome 19, exhibiting a lod score of 60. In addition, two novel loci, one on chromosome 2 (lod score, 4.3) and one on chromosome 11 (lod score, 3.1), were found to contribute to levels of anti-DNA Abs. Interestingly, the chromosome 19 and chromosome 11 QTLs, but not the chromosome 2 QTL, also exhibited associations with anti-cardiolipin Abs (lod scores, 38.4 and 2.6). We further examined the effects of these QTLs on the development of coronary vasculitis in the F2 mice. Our results indicate that the QTLs on chromosomes 11 and 19 also control the development of vasculitis, demonstrating common genetic determinants of autoantibody levels and vasculitis.     

A tumor-specific Th2 clone initiating tumor rejection via primed CD8+ cytotoxic T-lymphocyte activation in mice

We established a CD4+ T-cell clone specific for syngeneic methylcholanthrene-induced sarcoma, S1509a raised in an A/J mouse, involved in tumor regression. The phenotype of the T-cell clone was CD3+, TCR-beta+, CD4+, CD45RB+, LFA-1+, ICAM-1+, CD44+, and VLA-4+. The CD4+ T-cell clone specifically proliferated through antigen stimulation with attenuated S1509a in the presence of syngeneic accessory cells, and this antigen-induced proliferation was inhibited with anti-CD4 and anti-I-Ek monoclonal antibodies. The CD4+ T-cell clone designated YS1093 secreted interleukin (IL) 4, IL-5, and IL-6, but not IFN-gamma, tumor necrosis factor alpha, or IL-2, thus indicating that the clone belongs to the Th2 type. YS1093 cells and their culture supernatant after antigen stimulation augmented the primed cytotoxic T lymphocyte killing activity at the effector phase. YS1093 cells having Th2-type characteristics made the homologous growing tumor regress in the tumor-bearing syngeneic mice when YS1093 cells were transferred into the tumor-bearing mice i.v. The in vivo tumor regression initiated by YS1093 cell transfer essentially required the presence of CD8+ T cells in the tumor-bearing hosts, thus suggesting that some specific Th2 cells are positively involved in tumor regression by activating primed CD8+ cytotoxic T lymphocytes against the homologous tumor in situ.     

Autoimmunity develops in lupus-prone NZB mice despite normal T cell tolerance

NZB mice spontaneously develop an autoimmune disease characterized by production of anti-RBC, -lymphocyte, and -ssDNA Abs. Evidence suggests that the NZB mouse strain has all of the immunologic defects required to produce lupus nephritis but lacks an MHC locus that allows pathogenic anti-dsDNA Ab production. The capacity to produce diverse autoantibodies in these mice raises the possibility that they possess a generalized defect in self-tolerance. To determine whether this defect is found within the T cell subset, we backcrossed a transgene encoding bovine insulin (BI) onto the NZB background. In nonautoimmune BALB/c mice, the BI transgene induces a profound but incomplete state of T cell tolerance mediated predominantly by clonal anergy. Comparison of tolerance in NZB and BALB/c BI-transgenic mice clearly demonstrated that NZB T cells were at least as tolerant to BI as BALB/c T cells. NZB BI-transgenic mice did not spontaneously produce anti-BI Abs, and following antigenic challenge, BI-specific Ab production was comparably reduced in both BI-transgenic NZB and BALB/c mice. Further, in vitro BI-specific T cell proliferation and cytokine secretion were appropriately decreased for primed lymph node and splenic T cells derived from NZB BI-transgenic relative to their nontransgenic counterparts. These data indicate that a generalized T cell tolerance defect does not underlie the autoimmune disease in NZB mice. Instead, we propose that the T cell-dependent production of pathogenic IgG autoantibodies in these mice arises from abnormal activation of T cells in the setting of normal but incomplete tolerance.     

MHC-specific graft-protective and delayed-type hypersensitivity (DTH) suppressive activity of a CD4+ CD8+, alpha beta T cell receptor (TCR) positive lymphoma isolated from a tolerant mouse

Two lymphomas were found in, and isolated from A (H-2a) mice in which permanent transplantation tolerance was induced to CBA (H-2k) histocompatibility antigens by the neonatal injection of (CBAxA)F1 spleen cells. They proved to be of recipient origin and were transferable to syngeneic A mice, growing as disseminated lymphomas (L33 and L46) and killing the recipients rapidly. Analysis of the cell surface antigens disclosed that both lymphomas had an immature T cell phenotype [Thy-1+, CD5+, CD3low, TCR alpha beta low, CD4low, CD8high, heat-stable antigen (HSA) positive, and CD44-, MHC class II-, CD45R-, sIg-, Gr-1-, CD11b-]. Intraperitoneal (i.p.) injection of syngeneic A mice with viable L33 lymphoma cells resulted in a dose-dependent, significant prolongation of the mean survival times of "specific" CBA and MHC-identical B10.BR skin allografts as compared to the survival of appropriate grafts in non-lymphoma-bearing controls. The survival times of third party MHC-incompatible B10 (H-2b) and B10.D2 (H-2d) allografts were only slightly prolonged in A mice inoculated with L33 cells. The graft-protective effect was not abrogated if the proliferative capacity of the L33 cells was blocked by in vitro mitomycin C (MMC) pretreatment. Furthermore, the inoculation of L33 lymphoma into A mice significantly inhibited their DTH response to the sensitizing CBA histocompatibility antigens. In contrast, the L46 lymphoma had no effect on the survival of CBA allografts and the DTH reactivity. These data suggest that the CD4+CD8+TCR alpha beta + L33 T cell lymphoma originating from a neonatally tolerant mouse has a specific immunosuppressive effect on the in vivo reactivity of syngeneic mice to the tolerance-inducing (MHC class I) alloantigens.     

In vivo occupancy of the striatal dopamine uptake complex by various inhibitors does not predict their effects on locomotion

We have recently found that allogenic bone marrow transplantation (BMT) can be used to treat lupus nephritis in NZB x NZW F1 (B/W F1) and BXSB mice. To elucidate why and how glomerular damage is repaired, serial renal biopsies were carried out using B/W F1 mice before, and after BMT. Donor-derived B cells and macrophages with normal functions developed two weeks after BMT, whereas donor-derived functional T cells were generated after seven weeks of BMT. Visceral epithelial cells as well as macrophages in the glomeruli were activated (probably by T cell-derived lymphokines) at this time; they showed marked phagocytic activity, resulting in clearance of immune complexes (ICs) and repair of damaged basement membranes. These results suggest that normal T cell functions, which have the capacity to activate macrophages and epithelial cells, are essential in repairing IC-mediated glomerular damage.     

Characterisation of Saccharomyces cerevisiae ARO8 and ARO9 genes encoding aromatic aminotransferases I and II reveals a new aminotransferase subfamily

It is known that lpr mice develop systemic lymphadenopathy and lupus erythematosus-like autoimmune disease that are associated with the accumulation of CD4- CD8- (double-negative; DN) CD3+ B220+ abnormal T cells as well as normal mature CD4+ or CD8+ single-positive (SP) CD3+ T cells. In order to clarify the role of B cells in the lymphoproliferation and autoimmunity of lpr mice, we created B-cell-deficient C57BL/6 (B6) lpr mice (B6lpr/lpr microMT/microMT) by crossing B6lpr/lpr mice with B6 microMT/microMT mice in which the B-cell development was arrested at pre-B stage owing to a targeted disruption of the immunoglobulin mu heavy-chain gene locus. In the B-cell-deficient B6-lpr mice, both lymphadenopathy and splenomegaly were markedly suppressed. Although the accumulation of both CD3+ B220- SP normal T cells and CD3+ B220+ DN abnormal T cells was inhibited in the B-cell-deficient lpr mice, the decrease in numbers of CD3+ B220- SP normal T cells occurred more strikingly than that of the CD3+ B220+ DN abnormal T cells. Glomerulonephritis did not develop in the B-cell-deficient lpr mice over 40 weeks. The present results indicate that the B cells thus play a crucial role in the extensive proliferation of normal CD3+ B220- mature SP T cells rather than the accumulation of abnormal DN T cells.