B and T cell immune response to small nuclear ribonucleoprotein particles in lupus mice: autoreactive CD4(+) T cells recognize a T cell epitope located within the RNP80 motif of the 70K protein

Systemic lupus erythematosus is characterized by the presence of high titers of autoantibodies reacting with various components of the U1 small nuclear ribonucleoprotein particle (snRNP). It has been suggested that these antibodies are produced by an antigen-driven mechanism under the dependence of antigen-specific T cells. To investigate the role of T cell help in this process, we sought, with 20 overlapping peptides, the Th epitopes on the U1-70K snRNP in unprimed H-2(k) MRL / lpr lupus mice and immunized CBA normal mice. The peptide 131 - 151 was recognized by both IgG autoantibodies and CD4(+) T cells from 7 - 9-week-old MRL / lpr mice. In this test, antigen-presenting cells (APC) from MRL / lpr mice were required; APC from naive CBA mice failed to stimulate CD4(+) cells from MRL / lpr mice. The potential role of MRL / lpr B cells as APC, the expression of MHC class II molecules at their surface and their activation state (expression of CD69, CD80 / B7-1 and CD86 / B7-2 molecules) were studied. Peptide 131 - 151 bound both I-A(k) and I-E(k) class II molecules and favored an IL-2-positive T cell response but not IFN-gamma, IL-6 and IL-10 secretion. Segment 131 - 151 is localized within the RNP80 motif and contains residues that are highly conserved in many nuclear, nucleolar and cytoplasmic RNA binding proteins.     

Quantitation and IgG subclass distribution of antichromatin autoantibodies in SLE mice

Antibodies to a native chromatin preparation were found in most mice suffering from spontaneous SLE. All MRL/Mp-lpr/lpr (MRL/lpr) sera tested (more than 500) contained antibodies to chromatin and antichromatin levels increased with age. Approximately 50% of the IgG antichromatin antibody in the MRL/lpr sera was of the IgG2a subclass, 30% IgG2b, 10% IgG1, and 10% IgG3. Interestingly, the relative restriction of antichromatin autoantibodies to the IgG2a subclass was apparent in MRL/lpr mice as young as 1 month, well before the onset of lymphadenopathy. Antichromatin autoantibodies were also detectable in sera from MRL/Mp- +/+ (MRL/+), NZB, (NZB x NZW)F1 (B x W), and BXSB mice, but were not found in sera from normal mice. A similar subclass distribution skewed toward IgG2a was seen for MRL/+, B x W, and NZB mice. These results indicate that the spontaneous autoantibody directed against chromatin is a good marker for murine SLE, and is predominantly of the IgG2a subclass.     

The anti-La response of a single MRL/Mp-lpr/lpr mouse: Specificity for DNA and VH gene usage

Autoantibodies to ribonucleoproteins (RNP) occur prominently in human systemic lupus erythematosus and murine lupus models. In previous studies we demonstrated a relationship in MRL/Mp-lpr/lpr (MRL/lpr) mice between antibodies to Sm, an RNP autoantigen, and antibodies to DNA. Thus, many anti-Sm monoclonals bound DNA and expressed the same V region genes as anti-DNA. In addition, many had multiple V_HCDR3 Arg residues suggestive of selection by DNA, and some had somatic mutations suggesting selection for mutant B cells by DNA. To determine whether autoantibodies to other RNP antigens are also associated with the anti-DNA response, we have analyzed the response to the La RNP. Six anti-La B cell hybridomas were generated from a single MRL/lpr mouse. Southern blot analysis of Ig V gene rearrangements and V gene sequences indicated two clonally related pairs, suggesting an oligoclonal response. Antibodies from all six hybridomas bound single-stranded DNA, while antibodies from five hybridomas bound double-stranded DNA. Two hybridomas expressed a V_H7183 gene which is used by members of two previously reported anti-DNA clones and two anti-Sm/DNA clones of MRL/lpr origin. These data demonstrate an association between the anti-La and anti-DNA responses in MRL/lpr mice, suggesting that cross-reactive anti-RNP and anti-DNA responses are a general feature of autoimmunity in this lupus model.     

Specificities of IgM and IgG anti-histone H1 autoantibodies in autoimmune mice.

Autoantibodies to histone H1 represent the most common specificity among anti-histone autoantibodies in systemic autoimmune diseases. Here we analyse anti-H1 autoantibodies in mice from the following autoimmune strains: MRL/Mp-lpr/lpr, NZB and NZB x NZW/F1. Autoantibodies of the IgM isotype bind predominantly to epitopes located in the COOH-terminal domain of the H1 molecule, whereas IgG autoantibodies in the MRL/Mp-lpr/lpr and NZB strains also recognize epitopes requiring the integrity of both the COOH-terminal and the central globular domains of H1. In both of these strains, the titre of these IgG anti-H1 antibodies rises during the course of the disease. The importance of three-dimensional structure of histone H1 was attested by a significant decrease in IgG binding after cleavage of the H1 molecule within the folded globular domain. The binding of these sera to H1 variants from various species was also investigated and a strong binding of MRL/Mp-lpr/lpr sera to certain phylogenetically distant histone H1 variant molecules (sea-urchin sperm H1 and chicken erythrocyte H5) was observed. This cross-reacting binding can be explained by the presence in MRL/Mp-lpr/lpr sera of autoantibodies to H1(0), a variant found in non-dividing cells and exhibiting sequence homologies to the above mentioned variants. The significance and the possible implications of these data for the pathogenesis of autoimmunity are discussed.     

Natural antibodies that react with V-region peptide epitopes of DNA-binding antibodies are made by mice with systemic lupus erythematosus as disease develops.

Cross-reactive idiotypes (CRI) have been detected on anti-DNA autoantibodies associated with lesions typical of systemic lupus erythematosus. In order to analyse the antigenic make up of idiotypes on anti-DNA monoclonal antibodies (mAb) V-88 (IgG1 kappa) and F-423 (IgG3 kappa), derived respectively from an adult (NZB x NZW)F1 and a fetal MRL/Mp-lpr/lpr mouse, a set of overlapping hexapeptides representing the VH and VL regions of mAb V-88 and F-423 were synthesized and reacted with a range of sera in pepscan enzyme-linked immunosorbent assays (ELISA) taken from normal and lupus mouse strains. Serum pools were collected both from normal BALB/c and lupus MRL/Mp-lpr/lpr and (NZB x NZW)F1 mice at 10, 20 and 30 weeks of age and analysed for the presence of spontaneously produced anti-V-region peptide IgM and IgG antibodies. IgM antibodies from both the lupus mice reacted with the same V-region epitopes, and although some epitopes mapped to similar locations in the two mAb, the maps for V-88 and F-423 were not identical. In MRL/Mp-lpr/lpr mice, as lupus disease progressed there was a switch from IgM antibodies to IgG anti-peptide antibodies whose specificity for the peptide antigens coincided with but was better defined than that of the IgM antibodies. The identified idiotopes were located in both complementary determining regions (CDR) and framework region (FR) regions, indicating that some contribute to CRI shared by other related antibodies, while others were unique to either mAb V-88 or F-423. In conclusion, we have dissected and identified a mosaic of antibody V-region idiotopes that contribute to the idiotype of an anti-DNA autoantibody and against which autoantibodies are made naturally in lupus disease.     

IgG anti-cardiolipin antibodies in murine lupus

The frequency and nature of IgG anti-cardiolipin and anti-ds-DNA antibodies among MRL/lpr, MRL/+ and NZB/W F1 mice (murine lupus strains) and non-autoimmune inbred strains of mice (NIH/Swiss and Balb/c) were analysed by ELISA. High titres of anti-ds-DNA were detected in autoimmune strains (MRL/lpr, 69%; MRL/+, 50%; and NZB/W, 80% positive), whereas anti-cardiolipin antibodies were detected only in MRL/lpr (69%) and MRL/+ (17%) mice. IgG subclass analysis of these antibodies in 20 MRL/lpr sera revealed that all four subclasses were represented. When tested for fine antigenic specificity, anti-cardiolipin antibodies in MRL/lpr and MRL/+ mice bound to acidic phospholipids rather than to neutral phospholipids and were not inhibited by DNA. In MRL/lpr mice, anti-cardiolipin antibodies were first detected at 2 months, peaked around 5 months and then declined preterminally. To determine whether complications associated with anti-cardiolipin antibodies were present in MRL/lpr mice, blood counts were performed and litter sizes were determined. Although no significant decreases in the red and white blood cell counts were observed in MRL/lpr mice, platelet counts were significantly lower compared with NIH/Swiss (P < 0.001) and Balb/c (P < 0.005) mice. MRL/lpr mice had significantly fewer pups per delivery compared with a normal strain (MRL/lpr, 5.3+2.6; NIH/Swiss, 72 +/- 2.1; P < 0002). These observations indicate that the serological characteristics of IgG anti-cardiolipin antibodies in MRL/ lpr mice are similar to those of anti-cardiolipin antibodies in humans with lupus. Whether these autoantibodies are pathogenetically related to thrombocytopenia and a small litter size in MRL/lpr mice remains to be determined.     

Laboratory protocols for the identification of Th cell epitopes on self-antigens in mice with systemic autoimmune diseases

T cells play a critical role in both the immunological and clinical manifestations of systemic autoimmune diseases such as systemic lupus erythematosus (SLE). Although in normal mice multiple T cell epitopes have been characterized in several self-proteins, there is little information on the fine specificity of autoreactive T cells in lupus model mice and humans. In SLE-prone mice and humans, the only Th cell epitopes identified at the molecular level in self-antigens concern histones and nucleosomes, and the 70-kD U1-snRNP protein. T cell characterization in certain autoimmune mice such as MRL lpr/lpr and NZB/NZW mice has been largely impaired by their hyporesponsiveness in response to mitogen and minimal IL-2 secretion. In addition, MRL lpr/lpr mice also develop lymphadenopathy characterized by the progressive accumulation of functionally immature CD4(-) CD8(-) T cells. It is therefore important to optimize the methods used to measure T cell proliferation and cytokine production ex vivo in order to identify minimal activation in the presence of appropriate antigen. The protocol described in this article has been used for identifying in young MRL lpr/lpr and NZB/NZW mice a CD4(+) T cell epitope in the murine 70-kD U1-RNP protein.     

High expression of interleukin-1beta in the corneal epithelium of MRL/lpr mice is under the control of their genetic background

MRL/Mp mice bearing the Fas deletion mutant gene, lpr (MRL/lpr), spontaneously develop polyarthritis, sialoadenitis and dacryoadenitis, resembling rheumatoid arthritis (RA), and also corneal involvement such as keratopathy and scleritis, which is a major complication in RA patients. In this study, we found that the expression levels of IL-1beta and MMP-1 mRNAs in cornea were high in both MRL/lpr and MRL/Mp-+/+ strains of mice at an age younger than when they develop any inflammatory lesions. This was not true of other inbred strains, even those bearing the lpr gene, and also not of (NZB x NZW) F1 lupus mice. There was no significant difference in the expression of IL-1alpha and TGFbeta in cornea in these strains. Using crosses between MRL/lpr and C3H/HeJ-lpr/lpr (C3H/lpr) mice, at least the expression of IL-1beta was found to be under the control of the MRL genetic background, likely with a recessive mode of inheritance. Considering that IL-1beta in cornea was detected particularly in the epithelial layer, the high expression of IL-1beta in cornea is most likely involved in the genetic predisposition for corneal involvement and possibly also for arthritis in an MRL strain of mice.     

Fine specificities of anti-nuclear antibodies in murine models of graft-versus-host disease.

Two models of murine graft-versus-host disease (GVHD) were studied with respect to autoantibody production and development of systemic lupus erythematosus (SLE) like disease. One model was induced by injection of (B10.A(4R) x B10.A(2R]F1 mice with parental (B10.A(4R] spleen and lymph node cells (groups I GVHD), the other by injection of (DBA/2 x C57/B16)F1 mice with DBA/2 cells (group II GVHD). Group I GVHD mice remained in a seemingly healthy condition and did not show any proteinuria, in spite of high titres of anti-nuclear antibodies including antibodies to dsDNA, anti-Sm and anti-ribosomal P protein antibodies. Measured levels of these autoantibodies as well as their isotypes were comparable with those found in MRL/lpr and NZB/W mice. Group II GVHD mice developed SLE-like disease signs, including severe proteinuria. At 4 months after induction of the GVHD, almost 50% of these mice had died. At the time nephritis was present, group II mice also produced anti-dsDNA and anti-nuclear antibodies of other (unknown) specificities, but no anti-Sm or anti-P. Furthermore, the incidence of these antibodies was lower than observed in group I GVHD, MRL/lpr or NZB/W mice. It is concluded that (high avidity) anti-dsDNA as well as anti-Sm and anti-P may be present in the circulation without giving rise to the development of nephritis.     

Sequential autoantigenic determinants of the small nuclear ribonucleoprotein Sm D shared by human lupus autoantibodies and MRL lpr/lpr antibodies.

Autoantibodies directed against the Sm proteins of the spliceosome complex are found in approximately 25% of systemic lupus erythematosus (SLE) patients sera. To determine which regions of the Sm D polypeptide are involved in the lupus autoimmune response, binding to overlapping octapeptides of Sm D has been evaluated with sera from nine Sm D-positive patients, six patients with other autoimmune serology, and five normal human sera. Lupus patient sera which are Sm precipitin-positive bind various combinations of five regions of the peptide. The major antigenic region, Epitope 5 (REAVA(GR)10GGPRR), is bound by eight of nine Sm precipitin-positive sera tested. This region of Sm D shows significant sequence homology with Epstein-Barr nuclear antigen-1. To determine the fine specificity of the murine Sm response, four unique Sm D MoAbs derived from MRL lpr/lpr mice and three adult anti-Sm-positive MRL lpr/lpr mouse sera have been analysed. Two of these monoclonals, KSm 4 and Y12, as well as the MRL lpr/lpr sera tested, show binding with Epitope 5. Another of these monoclonals, KSm 2, binds octapeptides 84-91, DVEPKVKSKKREAVAG, which corresponds to Epitope 4 of this study. Antibodies from SLE patients with autoimmune serology other than anti-Sm bind the carboxyl glycine-arginine repeat (GR)10 peptides of Sm D. However, none of the antibodies tested from patients who do not have lupus and who have different autoimmune serology binds any of the Sm D octapeptides. Normal controls did not significantly bind any of the Sm D octapeptides. These results describe two major regions of shared antigenicity of Sm D between sera from SLE patients and MRL lpr/lpr mice, thereby establishing a basis for the cross-species similarity of autoimmunity to the Sm autoantigen in SLE.     

Sex differences in the regulation of experimentally induced autoantibodies in (NZB x NZW)F1 mice.

The ability to induce autoantibodies to erythrocytes in male and female (NZB x NZW)F1 mice was examined. Female (NZB x NZW)F1 mice were shown to produce significantly more autoantibody than the male (NZB x NZW)F1 mice. The regulation of this experimentaly induced autoantibody was studied by examining the ability of male and female (NZB x NZW)F1 mice to generate antigen-specific suppressor cells. A sex difference was found in the ability to generate these suppressor cells. Male mice generated antigen-specific suppressor cells in response to rat RBC which were capable to suppressing the experimental induction of red cell autoantibodies whereas female mice were unable to generate those antigen-specific suppressor cells.     

Involvement in lupus disease of idiotypes Id.F-423 and Id.IV-228 defined, respectively, upon foetal and adult MRL/Mp-lpr/lpr DNA-binding monoclonal autoantibodies.

The derivation of a monoclonal IgG3K autoantibody, designated F-423, from a foetal MRL/Mp-lpr/lpr mouse is described. It has immunochemical properties similar to DNA-binding monoclonal antibodies derived from adult mice with lupus disease in that it reacts with single-stranded DNA and, to a lesser extent, with double-stranded DNA and some forms of RNA. Its similarities to antibodies from adults extend further: it carries a public idiotype, Id.F-423, that can also be detected on antibodies from adult MRL and (NZB x NZW)F1 mice, and F-423 itself expresses other idiotypes defined originally on antibodies from adult lupus mice of both strains. Its potential involvement in pathological processes is demonstrated by two observations: (i) immunization of young MRL/Mp-+/+ mice with antibody F-423 induced the nephritic and immunological changes associated with systemic lupus erythematosus; and (ii) heterologous rabbit anti-Id.F-423 anti-idiotypic antibodies suppressed the progression of lupus disease in adult MRL/Mp-lpr/lpr mice. Similar effects were found with monoclonal antibody IV-228, an antibody derived from an adult MRL mouse and previously known to be directly nephrotoxic, and with anti-Id.IV-228 antibodies. It is concluded that even during foetal life mice of lupus-prone strains have lymphocytes capable of making pathogenic autoantibodies long before symptoms of lupus disease appear.     

Murine lupus strains differentially model unique facets of human lupus serology

Systemic lupus erythematosus (SLE) is a polygenic autoimmune disease characterized by the production of anti-nuclear autoantibodies that lead to subsequent end organ damage. Previous array-based studies in patients with SLE have shown that high immunoglobulin (Ig)G anti-nuclear autoantibody reactivity was associated with severe renal lupus, whereas IgM polyreactivity was associated with less severe disease. To ascertain how different murine lupus strains recapitulate these different autoantibody profiles seen in patients, serum from New Zealand black (NZB)/NZ white (W) F(1), Murphy Roths large (MRL)/lpr, NZ mixed (M)2410 and BXSB strains were compared using a comprehensive array-based screen. The array results were verified using enzyme-linked immunosorbent assays (ELISAs). Serum from MRL/lpr mice exhibited high levels of IgG anti-nuclear antibodies as well as anti-glomerular antibodies and variable levels of antibodies to myosin, Matrigel and thyroglobulin. Elevated anti-nuclear IgG antibodies were associated with severe nephritis in this strain. In contrast, NZM2410 mice exhibited lower IgG autoantibody levels with less severe nephritis but a significantly higher polyreactive IgM autoantibody profile. ELISA analysis confirmed these results. The NZB/NZW F(1) and BXSB strains exhibited an intermediate serological profile. Hence, just as in patients with SLE, whereas strong IgG reactivity to nuclear antigens is associated with severe renal disease, a polyreactive IgM seroprofile is also less ominous in murine lupus.     

Analysis of the clonal origins of autoantibodies against thyroglobulin and DNA in autoimmune thyroiditis and systemic lupus erythematosus.

We have analysed the isoelectric focusing (IEF) spectra of antithyroglobulin autoantibodies in the sera of patients with autoimmune thyroiditis, and of anti-dsDNA autoantibodies in the sera of patients with systemic lupus erythematosus (SLE), NZB/NZW F1 hybrid, MRL-lpr/lpr and MRL/++ male and female mice. Ninety-two per cent of patients with anti-thyroglobulin autoantibodies had a polyclonal spectrotype compared with only 25% of SLE patients analysed for anti-dsDNA. Fifty-five per cent of the latter had monoclonal spectrotypes, the remainder being either biclonal or having a dominant clone on a polyclonal background. By contrast, only two out of 61 autoimmune thyroiditis patients expressed monoclonal anti-thyroglobulin autoantibodies. All of the lupus mice had highly restricted spectrotypes (monoclonal or biclonal) of anti-dsDNA autoantibodies. The implications of these results for the aetiology of autoimmunity are discussed.     

Differential induction of lupus associated antinuclear antibodies in MRL mice by monoclonal anti-Sm antibodies.

The effect of monoclonal autoantibodies on immunoregulation was investigated in MRL/MpJ-lpr/lpr mice. Passive transfer of KSm2 (a monoclonal IgG2a antibody directed against the 16 kD polypeptide of Sm) induced IgG antibodies to the other major immunoreactive polypeptides of Sm (28 and 29 kD) in all mice studied, and to polypeptides of the closely related antigen nRNP/Sm in 63% of the mice. In addition an increment in IgG anti-dsDNA antibodies, and in IgA and IgM anti-Sm antibodies, over control levels was observed. These effects were not due to polyclonal activation since anti-histone antibody levels were unaffected. Two other IgG2a monoclonal antibodies: KSm5 (directed against the 28 and 29 kD Sm polypeptides) and OX 12 (directed against an irrelevant antigen) failed to modulate the autoimmune responses of the mice in any way. These results demonstrate specific antibody-mediated connectivity between B cell clones producing autoantibodies against three distinct antigens.     

Autoantibody repertoire analysis in normal and lupus-prone mice

We have analyzed at the clonal level (limiting dilution assay) the repertoire of lipopolysaccharide (LPS)-responsive murine B cells committed to the production of autoantibodies characteristic of systemic lupus erythematous (SLE), i.e. anti-single-stranded DNA (ssDNA), anti-double-stranded DNA, anti-Sm and rheumatoid factors (RF). Our results demonstrated that: (1) the frequency of precursor B cells producing each lupus autoantibody (approximately 1 in every 100-400 LPS-responding B cell) was similar in two non-autoimmune (C57BL/6 and BALB/c) and four SLE-prone (NZB, (NZB x NZW)F1, MRL/MpJ and BXSB/MpJ) mice despite the marked differences in autoimmune responses in the different SLE-prone mice, and (2) the relative frequency of autoantibody-secreting precursor B cells was constant throughout life, and equally distributed among activated and resting B-cell populations and among B cells from the peritoneal cavity and spleen. The lack of association of anti-ssDNA secretion with anti-Sm or RF secretion in cultures set up with a smaller number of B cells ruled out the possibility that the similar frequency of different autoantibody-secreting cell precursors is due to the poly-specificity of IgM autoantibodies. Notably, the frequencies of autoantibody-secreting precursor cells were significantly lower, approximately 4 and 10 times, than those of anti-tetanus toxoid and anti-dinitrophenyl antibody-producing precursor B cells, respectively. The similar frequency of precursor B cells producing four different lupus autoantibodies on the one hand and the considerable variation in each autoimmune response among SLE-prone mice on the other, support the hypothesis that specific stimulatory mechanisms may govern each autoimmune response in different SLE strains of mice.     

AID dysregulation in lupus-prone MRL/Fas(lpr/lpr) mice increases class switch DNA recombination and promotes interchromosomal c-Myc/IgH loci translocations: modulation by HoxC4

Immunoglobulin gene somatic hypermutation (SHM) and class switch DNA recombination (CSR) play important roles in the generation of autoantibodies in systemic lupus erythematosus. Systemic lupus is characterized by the production of an array of pathogenic high-affinity mutated and class-switched, mainly IgG, antibodies to a variety of self-antigens, including nuclear components, such as dsDNA, histones, and chromatin. We previously found that MRL/Fas(lpr/lpr) mice, which develop a systemic autoimmune syndrome sharing many features with human lupus, display greatly upregulated CSR, particularly to IgG2a, in B cells of the spleen, lymph nodes, and Peyer's patches. In MRL/Fas(lpr/lpr) mice, the significant upregulation of CSR is associated with increased expression of activation-induced cytidine deaminase (AID), which is critical for CSR and SHM. We also found that HoxC4 directly activates the promoter of the AID gene to induce AID expression, CSR and SHM. Here, we show that in both lupus patients and lupus-prone MRL/Fas(lpr/lpr) mice, the expression of HoxC4 and AID is significantly upregulated. To further analyze the role of HoxC4 in lupus, we generated HoxC4(-/-) MRL/Fas(lpr/lpr) mice. In these mice, HoxC4-deficiency resulted in reduced AID expression, impaired CSR, and decreased serum anti-dsDNA IgG, particularly IgG2a, autoantibodies, which were associated with a reduction in IgG deposition in kidney glomeruli. In addition, consistent with our previous findings in MRL/Fas(lpr/lpr) mice that upregulated AID expression is associated with extensive DNA lesions, comprising deletions and insertions in the IgH locus, we found that c-Myc to IgH (c-Myc/IgH) translocations occur frequently in B cells of MRL/Fas(lpr/lpr) mice. The frequency of such translocations was significantly reduced in HoxC4(-/-) MRL/Fas(lpr/lpr) mice. These findings suggest that in lupus B cells, upregulation of HoxC4 plays a major role in dysregulation of AID expression, thereby increasing CSR and autoantibody production and promoting c-Myc/IgH translocations.     

Genetic association between natural autoantibody responses to histones and DNA in murine lupus.

Genetic regulation of the spontaneous anti-histone antibody production in systemic lupus erythematosus (SLE) was studied using the H-2-congenic and T cell receptor beta chain gene complex (TCR beta)-congenic NZB and NZW strains and their crosses. We found that the original, parental H-2d/d NZB mice produced significantly higher titers of serum IgM class anti-histone antibodies than did the congenic H-2d/z or H-2z/z NZB mice. However, none of these three NZB strains produced IgG antibodies. The NZW strain of any H-2 haplotype did not produce IgM and IgG anti-histone antibodies. The IgG anti-histone antibodies were produced only by H-2d/z heterozygous NZB x NZW F1, but not by homozygous H-2z/z or H-2d/d NZB x NZW F1 mice. In studies using (NZB x NZW) F1 x NZB backcross mice, only the progeny having both H-2d/z and NZW-type TCR beta genotypes produced high amounts of IgG antibodies. There was a tight linkage between the NZW-type TCR beta and the production of IgG anti-histone antibodies in TCR beta-congenic NZB x NZW F1 mice. All these findings were in keeping with our preceding observations on the genetic regulation of anti-DNA antibodies in these mice and suggest that certain common mechanisms such as super-antigen-mediated or common idiotope-mediated regulations may underlie the production of these two distinct autoantibodies in NZB x NZW F1 mice.     

Expression in transgenic mice of dominant interfering Fas mutations: a model for human autoimmune lymphoproliferative syndrome.

Most humans with autoimmune lymphoproliferative syndrome (ALPS) carry heterozygous dominant mutations in one allele of the gene encoding Fas/APO-1/CD95. ALPS patients, like Fas-deficient MRL lpr/lpr mice, have lymphoproliferation, autoimmunity, increased CD4(-)/CD8(-) T lymphocytes, and apoptosis defects. Consistent with the phenotypic variability of lpr/lpr mice of different background strains, human genetic studies indicate that a Fas mutation is insufficient to induce ALPS in all mutation carriers. To investigate the dominant function of human Fas mutations and the additional genetic factor(s) involved in the development of ALPS, we generated transgenic mice expressing, in addition to endogenous Fas, mouse Fas molecules bearing mutations in the intracellular death domain corresponding to mutations identified in ALPS patients. Transgenic mice developed mild features of ALPS, including hepatosplenomegaly, elevated proportions of lymphocytes in spleen and lymph nodes, apoptotic defects, and hepatic lymphocytic infiltrates. Therefore defective murine Fas proteins act in a dominant manner to impair apoptosis of activated lymphocytes and disrupt lymphocyte homeostasis. The influence of genetic background on phenotype was studied by comparing transgenic mice on FVB/N and (FVB/N x MRL) backgrounds with syngenetic control mice and with MRL and MRL lpr/lpr mice. While expression of transgenic mutant Fas contributed mainly to hepatosplenomegaly and accumulation of lymphocytes, MRL background genes played a major role in the production of autoantibodies and elevated serum immunoglobulin levels. Moreover, compared to FVB/N (+/+) mice, a substantial Fas-specific apoptotic defect was found in MRL (+/+) mice, suggesting a mechanism for the known tendency of this strain to develop autoimmunity.     

Accelerated expression of anti-Sm and Y2 idiotype differ in dependence on T cell subsets in MRL/+ mice.

We investigated the role of MRl T cells in the induction of anti-Sm antibodies and Y2 idiotype. Four injections of Sm antigen in Freund's complete adjuvant were required to induce peak amounts of specific anti-Sm antibody in young BALB/c and MRL/+ mice. The Y2 idiotype was expressed in MRL/+ mice but not in BALB/c mice. Expression of both anti-Sm, predominantly IgG2a heavy chain, and Y2 idiotype was augmented in MRL/+ mice after two injections of Sm if, prior to immunization, mice received splenic T cells from naive MRL/lpr or immunized, but not naive MRL/+ mice. These results suggest that the lpr gene contributes to the ability of autoimmune T cells to augment the anti-Sm antibody response. Treatment of primed MRL/+ donor T cells with anti-CD4, but not anti-CD8, antibodies and complement removed the ability to augment anti-Sm antibody production. In contrast, augmentation of Y2 idiotype production was abrogated by pretreatment of donor T cells with either anti-CD4 or anti-CD8. These results suggest that, while MRL/+ CD4+ T cells play an important role in anti-Sm antibody production, additional interaction between CD4+ and CD8+ T cells augments Y2 expression.