Immunoregulation in MRL/Mp-lpr/lpr mice: evidence for decreased helper-T-cell and increased suppressor-T-cell function with age

In vivo and in vitro plaque-forming cell (PFC) responsiveness to sheep erythrocytes (SRBC) was used to assess immunoregulatory function in the autoimmune MRL mouse strain. MRL/Mp-lpr/lpr (MRL/l) mice had good primary and secondary IgM and IgG responses in vivo compared to MRL/Mp-+/+ (MRL/n) mice when young, but with age the MRL/l responses declined markedly. In vitro primary SRBC-specific PFC responses in MRL/l mice declined at the same time as in vivo responses, indicating that the in vivo autoimmune environment could not account for cellular dysfunction. When varied mixtures of T and B cells from MRL/l and MRL/n mice were cultured, abnormalities in MRL/l T-cell function became apparent. T-helper-cell (T_H) function declined rapidly with age, beginning by 2 to $\text{2}\text{1}\text{2}$ months of age. T cells from MRL/l mice 2 months of age and older also had increased suppressor activity when cultured with B cells and MRL/n T cells. The degree of suppressor activity increased with age. The correlation of these findings with results of previous studies by others and with autoimmune disease is discussed.     

Pathogenesis of lupus dermatoses in autoimmune mice. X. Evaluation of histamine-N-methyltransferase activity in the skin of autoimmune

We measured histamine concentration and its metabolizing enzymes in the skin of MRL/Mp-lpr/lpr (MRL/l) and BXSB mice to clarify the contribution of histamine metabolism to the mechanisms of the development of lupus dermatoses. The concentration of histamine seemed to differ with the mouse strain. The activity of histamine-N-methyltransferase (HMT), one of two major metabolizing enzymes, was significantly lower in the tail and back skin of MRL/l mice at the age of 5 months than in the control MRL/Mp-+/+(MRL/n) mice, although there were no characteristic differences among several mouse strains of 1 mo of age. In the back skin of MRL/l mice, an age-dependent decrease of HMT activity was observed along with a corresponding decrease in histamine concentration, whereas an age-dependent increase of both HMT activity and histamine concentration was demonstrated in BXSB mice and other control mouse strains. Autoimmune-prone male BXSB mice and non-autoimmune female BXSB mice at 5 mo of age showed similar HMT activity. Corticosteroid treatment restored HMT activity in the skin of MRL/l mice but not in MRL/n mice. In addition, the change in HMT activity in MRL/l mice treated with corticosteroid appeared earlier than changes in clinicopathological examinations including skin eruptions, dermatopathology and proteinuria. Diamine oxidase (DAO) activity, another major metabolizing enzyme, was not detected in the skin of any autoimmune or control mouse strains. These findings suggest that the low activity of HMT in the skin of MRL/l mice plays a significant pathological role in the development of spontaneous lupus-like eruption. In other mouse strains, it is assumed that HMT activity is regulated by genetic factors.     

Effects of dietary omega3 and omega6 lipids and vitamin E on proliferative response, lymphoid cell subsets, production of cytokines by spleen cells, and splenic protein levels for cytokines and oncogenes in MRL/MpJ-lpr/lpr mice

omega3 Fatty acid rich fish oil (FO) and vitamin E may delay the progress of certain autoimmune diseases. The present study examined the mechanisms of action of omega3 lipids and vitamin E in autoimmune-prone MRL/lpr mice suffering from extensive lymphoproliferation, lupus-like symptoms, and accelerated aging. To determine whether the effects of omega3 lipids in autoimmune disease is linked to vitamin E levels, weanling female MRL/lpr and congenic control MRL/++ mice were fed diets containing 10% corn oil (CO) or 10% FO at two levels of vitamin E (75 IU or 500 IU/kg diet) for 4 months. The appearance of lymph nodes was delayed in the mice fed FO, and higher levels of FO offered further protection against the appearance of lymph nodes. Analysis of the spleen cells revealed that the cells positive for Thy.1 and Fas were significantly higher in the MRL/++ mice. The groups fed high levels of vitamin E generally exhibited higher levels of Fas. The proliferative response of splenocytes of MRL/++ mice to mitogens was significantly higher compared with MRL/lpr mice. Interleukin (IL)-10 production by spleen cells was significantly higher in FO-fed MRL/lpr mice than in CO-fed mice. In mice fed a high level of vitamin E, the production of IL-12 and tumor necrosis factor-alpha was significantly lower and IL-2 was significantly higher than in animals fed a low level of vitamin E. Proinflammatory cytokines were higher in the MRL/lpr mice and both FO and vitamin E lowered the levels of proinflammatory cytokines and lipid mediators. Western blots revealed that c-myc and c-ras were significantly lower and IL-2 and transforming growth factor (TGF)-beta1 levels were significantly higher in the spleens of MRL/++ mice. FO lowered c-myc and high levels of vitamin E in the diets normalized the levels of TGF-beta1 in MRL/lpr mice. The observations from this study suggest that both FO and vitamin E modulate the levels of specific cytokines, decrease the levels of proinflammatory cytokines, inflammatory lipid mediators, and c-myc, and increase TGF-beta1 levels in spleens of MRL/lpr mice and thus may delay the progress of autoimmune diseases.     

Leukocyte-endothelial cell interactions are enhanced in dermal postcapillary venules of MRL/fas(lpr) (lupus-prone) mice: roles of P- and E-selectin

MRL/fas(lpr) mice are affected by a systemic autoimmune disease that results in widespread leukocytic infiltration of the vasculature, including in the skin. The molecular pathways responsible for this leukocyte recruitment are poorly understood. Therefore, the aim of these experiments was to examine the mechanisms of leukocyte trafficking in the dermal microvasculature of MRL/fas(lpr) mice. Intravital microscopy was used to examine leukocyte rolling and adhesion in dermal postcapillary venules of MRL/fas(lpr) mice at 8, 12, and 16 wk of age. When compared with age-matched BALB/c and MRL(+/+) (nondiseased) mice, leukocyte rolling and adhesion in MRL/fas(lpr) mice were significantly enhanced at 12 wk of age, and remained elevated at 16 wk of age. At 8 and 12 wk, leukocyte rolling in all three strains was almost entirely inhibited by an anti-P-selectin mAb. In contrast, at 16 wk some (approximately 10%) leukocyte rolling persisted following P-selectin blockade. This residual rolling was predominantly inhibitable with an anti-E-selectin mAb; however, treatment with anti-E-selectin mAb alone had a minimal effect. P-selectin-deficient MRL/fas(lpr) mice also displayed leukocyte rolling that was significantly lower than in wild-type MRL/fas(lpr) mice. However, in these mice, leukocyte adhesion remained at the elevated levels observed in wild-type MRL/fas(lpr) mice. This adhesion was eliminated by chronic treatment with anti-E-selectin mAb. These findings indicate that leukocyte-endothelial cell interactions are enhanced in the dermal microvasculature of MRL/fas(lpr) mice above the age of 12 wk. Furthermore, the data suggest that the endothelial selectins share overlapping roles in mediating this enhanced leukocyte recruitment.     

Elicitation of experimental allergic encephalomyelitis (EAE) in mice with the aid of pertussigen

Seeking common abnormalities in mice genetically predisposed to lupus-like autoimmune disease, we investigated (1) the ontogeny of Ia antigens (I-A/I-E) on the surfaces of resident peritoneal macrophages (rpM phi) of lupus and normal mice, (2) spontaneous and lectin-induced in vitro production of M phi-stimulating factors (interferon, IFN; M phi-activating factor, MAF; M phi-Ia-inducing/recruiting factor, MIRF), and (3) responses of rpM phi from such animals to Ia-inducing signals. Indirect immunofluorescence techniques showed that Ia+ rpM phi increased numerically during the life spans of MRL/Mp lpr/lpr, while no such increase was observed in age-matched non-lpr MRL/Mp +/+ or (MRL/Mp lpr/lpr X MRL/Mp +/+)F1 hybrid mice. However, neonatal thymectomy, which prevents lymphoproliferation and autoimmune disease in MRL/Mp lpr/lpr mice, had no effect on this enhanced M phi I-A/I-E expression. NZB mice developed a similar increase with age, whereas BXSB and (NZB X NZW)F1 lupus mice, like immunologically normal controls, had low numbers of I-A/I-E+ rpM phi. Cultured splenocytes of lupus mice, including those with high percentages of I-A/I-E+ rpM phi, did not spontaneously (in the absence of mitogens) elaborate MIRF, MAF, or IFN activity. Furthermore, concanavalin A-stimulated splenocytes from lupus mice, particularly strains with early autoimmune disease manifestations [MRL/Mp lpr/lpr, male BXSB, and female (NZB X NZW)F1] produced levels of these lymphokines that were lower than normal controls. MRL/Mp lpr/lpr and NZB rpM phi, when stimulated in vitro with the supernatant of a MIRF-producing T cell hybridoma, did not hyperrespond. Our study shows that increased I-A/I-E+ rpM phi occur in some, but not all, lupus mice and this increase does not correlate with increased spontaneous or mitogen-induced production of M phi-stimulating lymphokines nor with hyperresponsiveness to Ia-inducing signals.     

A proinflammatory role of IL-18 in the development of spontaneous autoimmune disease.

Serum from patients with systemic lupus erythematosus (SLE) contained significantly higher concentrations of IL-18 than normal individuals. MRL/lpr mice, which develop spontaneous lupus-like autoimmune disease, also had higher serum levels of IL-18 than wild-type MRL/++ mice. Daily injections of IL-18 or IL-18 plus IL-12 resulted in accelerated proteinuria, glomerulonephritis, vasculitis, and raised levels of proinflammatory cytokines in MRL/lpr mice. IL-18-treated MRL/lpr mice also developed a "butterfly" facial rash resembling clinical SLE. In contrast, MRL/lpr mice treated with IL-18 plus IL-12 did not develop a facial rash. The facial lesion in the IL-18-treated mice showed epidermal thickening with intense chronic inflammation accompanied by increased apoptosis, Ig deposition, and early systemic Th2 response compared with control or IL-12 plus IL-18-treated mice. These data therefore show that IL-18 is an important mediator of lupus-like disease and may thus be a novel target for therapeutic intervention of spontaneous autoimmune diseases.     

Suppressor T-cell activity in MRL/Mp-lpr/lpr mice: differential effects on primary and memory antibody responses of MRL/Mp-lpr/lpr and MRL/Mp-+/+ spleen cells to thymus dependent and thymus independent antigens in vitro

We have previously shown that suppressor-T-cell (TS) activity in the spleens of autoimmune MRL/Mp-lpr/lpr (MRL/l) mice is increased after 2 months of age. The TS suppress the in vitro primary IgM response to the thymus-dependent (TD) antigen sheep erythrocytes (SRBC) of B and T cells from young congenic MRL/Mp-+/+ (MRL/n) mice which lack the lymphoproliferation (lpr) gene. The TS are nylon wool nonadherent, Thy 1.2 positive, and radiation sensitive. The studies presented here were done to further characterize the TS and to attempt to determine the mechanism of action of these cells. We found that increased TS activity was also present in the proliferating lymph nodes of old MRL/l mice but not in lymph nodes of young MRL/l or MRL/n mice. The splenic TS equally suppressed the primary IgM SRBC response of both young MRL/l and MRL/n B and T cells, indicating that MRL/l SRBC-specific B and T cells are not resistant to suppression. The IgM response of MRL/n B and T cells to the T-independent (TI) antigen trinitrophenyl conjugated to Brucella abortus (TNP-BA) was not suppressed by the TS, although the IgM response to TNP was suppressed when TNP was coupled to the TD carrier SRBC. The results of kinetics studies of TS expression showed that when the TS were added on Day 0 of culture the SRBC response was suppressed as early as Day 2 of culture; however, when the TS were added on Days 1, 2, or 3 of culture, the suppression was reduced. The TS suppressed the in vitro memory IgG response of spleen cells from MRL/n mice which had been primed with SRBC; the memory IgG responses of spleen cells from MRL/l mice were variably suppressed. Taken together, these results suggest that the TS suppress TH function in early events of antibody production and that some activated B or T cells may be resistant to the effects of the TS. Increased TS activity was not present in the spleens of aged New Zealand Black X NZ White (NZB/W) F1 mice. Possible reasons for the presence of increased TS activity in MRL/l mice and its relation to autoimmune disease is discussed.     

Decreased expression of the Ets family transcription factor Fli-1 markedly prolongs survival and significantly reduces renal disease in MRL/lpr mice

Increased Fli-1 mRNA is present in PBLs from systemic lupus erythematosus patients, and transgenic overexpression of Fli-1 in normal mice leads to a lupus-like disease. We report in this study that MRL/lpr mice, an animal model of systemic lupus erythematosus, have increased splenic expression of Fli-1 protein compared with BALB/c mice. Using mice with targeted gene disruption, we examined the effect of reduced Fli-1 expression on disease development in MRL/lpr mice. Complete knockout of Fli-1 is lethal in utero. Fli-1 protein expression in heterozygous MRL/lpr (Fli-1(+/-)) mice was reduced by 50% compared with wild-type MRL/lpr (Fli-1(+/+)) mice. Fli-1(+/-) MRL/lpr mice had significantly decreased serum levels of total IgG and anti-dsDNA Abs as disease progressed. Fli-1(+/-) MRL/lpr mice had significantly increased splenic CD8(+) and naive T cells compared with Fli-1(+/+) MRL/lpr mice. Both in vivo and in vitro production of MCP-1 were significantly decreased in Fli-1(+/-) MRL/lpr mice. The Fli-1(+/-) mice had markedly decreased proteinuria and significantly lower pathologic renal scores. At 48 wk of age, survival was significantly increased in the Fli-1(+/-) MRL/lpr mice, as 100% of Fli-1(+/-) MRL/lpr mice were alive, in contrast to only 27% of Fli-1(+/+) mice. These findings indicate that Fli-1 expression is important in lupus-like disease development, and that modulation of Fli-1 expression profoundly decreases renal disease and improves survival in MRL/lpr mice.     

Undernutrition without malnutrition restricts the numbers and proportions of Ly-1 B lymphocytes in autoimmune (MRL/I and BXSB) mice

MRL/Mp-lpr/lpr (MRL/l) and BXSB mice represent inbred mouse strains in which lymphoproliferative disease and autoimmune disease that includes lethal renal disease routinely occurs by 6 months of age. Chronic energy intake restriction increases longevity and health span of MRL/l and BXSB mice as it does in mice of other short-lived as well as long-lived strains. Chronic energy intake restriction forestalls development of the lymphoproliferative process, prevents development of renal lesions, decreases levels of circulating immune complexes, and permits maintenance of vigorous immunologic function with age. We have reported that in autoimmune-prone mice, a population of Ly-1 B lymphocytes that is associated with autoimmune disease and is greatly expanded among cells of the spleen, peritoneal exudate, and peripheral blood can be reduced in proportion as a consequence of undernutrition without malnutrition. Herein, we demonstrate that in MRL/l and BXSB mice, chronic energy intake restriction imposed at weaning inhibited accumulation of Ly-1 B lymphocytes throughout the lymphoid system, i.e., among cells of the spleen, thymus, mesenteric lymph nodes, bone marrow, peritoneal exudate, and peripheral blood when these tissues or fluids were studied at age 3 or 5 months. These results extend our previous finding that autoimmune-prone mice possess unusually large numbers of Ly-1 B cells in their lymphoid tissues which can be reduced in frequency as a function of diet toward the levels present in long-lived autoimmune-resistant mice.     

Increased oxidative damage to DNA in an animal model of amyotrophic lateral sclerosis

Substantial evidence suggest that oxidative damage may play a role in the pathogenesis of Amyotrophic Lateral Sclerosis (ALS). We examined levels of 8-Hydroxy-2'-deoxyguanosine (8OH2'dG) in the nuclear DNA from the spinal cord, frontal cortex, striatum and cerebellum from G93A mice at 60, 90, and 120 days of age. We also used in vivo microdialysis to measure free levels of 8OH2'dG and 8-Hydroxyguanine (8OHG) at the same time points in the frontal cortex of G93A mice. Increased 8OH2'dG DNA levels were observed in the spinal cord (at 60, 90 and 120 days), in the cortex (at 90, and 120 days), and in the striatum (at 120 days), as compared to age-matched littermate controls. No significant changes were found in the cerebellum at any of the time points studied. Free levels of 8OH2'dG in the cortex of G93A mice were increased, as compared to control mice, at 90 and 120 days. Free levels of 8OHG were found to be significantly higher at 120 days of age in control mice than in G93A mice. These results provide evidence that in this model of ALS oixidative DNA-damage is increased and base excision-repair may be deficient.     

Nutritional factors and autoimmunity. III. Zinc deprivation versus restricted food intake in MRL/1 mice--the distinction between interacting dietary influences

To investigate further the modulation of autoimmune disease by nutritional means, the influence of zinc deprivation upon the development of the immunopathology of MRL/I mice was studied. Because some effects of zinc deficiency may be due to associated inanition and consequent caloric deprivation, mice with similarly restricted food intake but adequate zinc intake were also studied. Zinc restriction was introduced at either 4 or 10 wk of age and was continued throughout the study. When zinc deficiency was introduced at 4 wk of age, a significant delay in the appearance of the physical findings of MRL/I mice, including open sores, necrotic ears, arthritis, and end-stage cachexia, was noted. In addition, zinc deficiency introduced at this age resulted in a lower incidence and titer of antibodies to dsDNA and less severe glomerulonephritis than control mice. Furthermore, the immune response of zinc-deprived MRL/I mice was better preserved than control animals, and most importantly, survival was significantly prolonged. Pair-fed controls also showed delayed progression of their disease, but animals restricted isocalorically from 4 wk of age experienced a more rapid onset of the lupus-like syndrome than did their zinc-deprived counterparts. In contrast, when zinc deprivation was introduced at 10 wk of age, it had little beneficial effect upon disease progression. Indeed, caloric restriction introduced at this age had a greater impact than did zinc deficiency. Nonetheless, despite the variable influence of zinc deprivation and pair-feeding on autoimmune disease, zinc deprivation, whether introduced at 4 or 10 wk of age, resulted in a significantly greater reduction of lymphoproliferation. Successful modulation of disease activity by nutritional changes will depend on understanding the mechanisms of these differential pathologic processes.     

Modulation of renal disease in MRL/lpr mice by suberoylanilide hydroxamic acid

Epigenetic regulation of gene expression is involved in the development of many diseases. Histone acetylation is a posttranslational modification of the nucleosomal histone tails that is regulated by the balance of histone deacetylases and histone acetyltransferases. Alterations in the balance of histone acetylation have been shown to cause aberrant expression of genes that are a hallmark of many diseases, including systemic lupus erythematosus. In this study, we determined whether suberoylanilide hydroxamic acid (SAHA), a histone deacetylase inhibitor: 1) inhibits inflammatory mediator production in vitro and 2) modulates lupus progression in vivo. Mesangial cells isolated from 10-wk-old MRL/lpr mice were stimulated with LPS/IFN-gamma and incubated with SAHA. TNF-alpha, IL-6, NO, and inducible NO synthase expression were inhibited by SAHA. We then treated MRL/lpr mice with daily injections of SAHA from age 10 to 20 wk. The animals treated with SAHA had decreased spleen size and a concomitant decrease in CD4-CD8- (double-negative) T cells compared with controls. Serum autoantibody levels and glomerular IgG and C3 deposition in SAHA-treated mice were similar to controls. In contrast, proteinuria and pathologic renal disease were significantly inhibited in the mice receiving SAHA. These data indicate that SAHA blocks mesangial cell inflammatory mediator production in vitro and disease progression in vivo in MRL/lpr mice.     

Increased protein glycation in fructosamine 3-kinase-deficient mice

Amines, including those present on proteins, spontaneously react with glucose to form fructosamines in a reaction known as glycation. In the present paper, we have explored, through a targeted gene inactivation approach, the role of FN3K (fructosamine 3-kinase), an intracellular enzyme that phosphorylates free and protein-bound fructose-epsilon-lysines and which is potentially involved in protein repair. Fn3k-/- mice looked healthy and had normal blood glucose and serum fructosamine levels. However, their level of haemoglobin-bound fructosamines was approx. 2.5-fold higher than that of control (Fn3k+/+) or Fn3k+/- mice. Other intracellular proteins were also significantly more glycated in Fn3k-/- mice in erythrocytes (1.8-2.2-fold) and in brain, kidney, liver and skeletal muscle (1.2-1.8-fold), indicating that FN3K removes fructosamines from intracellular proteins in vivo. The urinary excretion of free fructose-epsilon-lysine was 10-20-fold higher in fed mice compared with mice starved for 36 h, and did not differ between fed Fn3k+/+ and Fn3k-/- mice, indicating that food is the main source of urinary fructose-epsilon-lysine in these mice and that FN3K does not participate in the metabolism of food-derived fructose-epsilon-lysine. However, in starved animals, the urinary excretion of fructose-epsilon-lysine was 2.5-fold higher in Fn3k-/- mice compared with Fn3k+/+ or Fn3k+/- mice. Furthermore, a marked increase (5-13-fold) was observed in the concentration of free fructose-epsilon-lysine in tissues of fed Fn3k-/- mice compared with control mice, indicating that FN3K participates in the metabolism of endogenously produced fructose-epsilon-lysine. Taken together, these data indicate that FN3K serves as a protein repair enzyme and also in the metabolism of endogenously produced free fructose-epsilon-lysine.     

Lack of nitric oxide synthases increases lipoprotein immune complex deposition in the aorta and elevates plasma sphingolipid levels in lupus

Systemic lupus erythematosus (SLE) patients display impaired endothelial nitric oxide synthase (eNOS) function required for normal vasodilatation. SLE patients express increased compensatory activity of inducible nitric oxide synthase (iNOS) generating excess nitric oxide that may result in inflammation. We examined the effects of genetic deletion of NOS2 and NOS3, encoding iNOS and eNOS respectively, on accelerated vascular disease in MRL/lpr lupus mouse model. NOS2 and NOS3 knockout (KO) MRL/lpr mice had higher plasma levels of triglycerides (23% and 35%, respectively), ceramide (45% and 21%, respectively), and sphingosine 1-phosphate (S1P) (21%) compared to counterpart MRL/lpr controls. Plasma levels of the anti-inflammatory cytokine interleukin 10 (IL-10) in NOS2 and NOS3 KO MRL/lpr mice were lower (53% and 80%, respectively) than counterpart controls. Nodule-like lesions in the adventitia were detected in aortas from both NOS2 and NOS3 KO MRL/lpr mice. Immunohistochemical evaluation of the lesions revealed activated endothelial cells and lipid-laden macrophages (foam cells), elevated sphingosine kinase 1 expression, and oxidized low-density lipoprotein immune complexes (oxLDL-IC). The findings suggest that advanced vascular disease in NOS2 and NOS3 KO MRL/lpr mice maybe mediated by increased plasma triglycerides, ceramide and S1P; decreased plasma IL-10; and accumulation of oxLDL-IC in the vessel wall. The results expose possible new targets to mitigate lupus-associated complications.     

Proliferative activity of autoimmune MRL mouse serum IgG to interleukin 3-dependent cell line through autocrine mechanism

Serum of an autoimmune MRL/Mp-lpr/lpr (MRL/l) mouse supported the proliferation of interleukin 3 (IL-3)-dependent cell line, FDC-P2. This IL-3-like activity initially appeared at 1 month of age and increased with age. Females showed higher titers than did males. MRL/Mp-+/+ mouse sera also exhibited such activity, though somewhat later in life only in female. Other autoimmune mice, NZB, NZB/NZW F1, and BXSB, demonstrated no such activity in either males or females, young and old. The active component of MRL/l sera was shown to be IgG. F(ab')2 or Fc fragments of MRL/l-IgG lost such activity. Not all IL-3-dependent cell lines, however, responded to MRL/l-IgG. We subcloned MRL-IgG responding and nonresponding clones from FDC-P2 cells and both were still dependent to IL-3. Such nonresponding IL-3-dependent cell lines, however, could be stimulated by the culture supernatant of the responding cell line, FDC-P2/185-4, after being stimulated with MRL/l-IgG. In this culture supernatant, IL-3 was found, thus the existence of an autocrine system was suggested in the IL-3-dependent MRL/l-IgG responding cell line.     

Treatment of autoimmune MRL/Ipr mice with monoclonal antibody to Thy-1.2: a single injection has sustained effects on lymphoproliferation and renal disease

MRL/Mp-lpr/lpr (MRL/lpr) mice spontaneously develop an autoimmune disease characterized by anti-DNA antibodies, immune-complex glomerulonephritis, and massive proliferation of a distinct population of T cells. The proliferating T cells have the phenotype Thy-1.2+, T200+, Lyt-1+,2-,3-, but Thy-1.2 and Lyt-1 are expressed in abnormally low density. These cells appear to function as helper cells, and neonatal thymectomy prevents both lymphoproliferation and autoimmunity, which suggests that autoimmunity in MRL/lpr mice is secondary to T cell proliferation. We therefore attempted to reduce lymphoproliferation by treating MRL/lpr mice with a single injection of rat monoclonal antibody (MAb) to Thy-1.2 (30-H12, IgG2b). Mice were treated at 8 wk, before the onset of overt disease. We found that MRL/lpr mice were resistant to depletion of circulating T cells (CTC) by anti-Thy-1.2; 0.6 mg of antibody totally depleted CTC from normal mice, but had little or no effect on CTC in MRL/lpr mice. However, treatment with 6 mg of MAb against Thy-1.2 reduced CTC in MRL/lpr mice by over 70%. Moreover, this single treatment markedly reduced the proliferation of CTC over the ensuing 3 mo, despite clearance of the anti-Thy-1.2 from the circulation within 3 wk. Treated mice maintained better renal function than untreated controls, as assessed by levels of blood urea nitrogen (BUN), although anti-DNA antibodies were not significantly reduced. The effect of anti-Thy-1.2 was specific; treatment with rat MAb to the common leukocyte antigen T200 produced only a transient effect on circulating lymphocytes and did not reduce renal disease. The prolonged effects of a single injection of anti-Thy-1.2 suggest that the MAb produces a sustained alteration in immune regulation. The improvement in renal disease is in accord with evidence that autoimmune disease in MRL/lpr mice is T cell dependent. Monoclonal anti-lymphocyte antibodies may be useful in the treatment of autoimmunity.     

Inhibition of suppressor of cytokine signaling 1 mediates the profibrotic effect of TWEAK/Fn14 signaling on kidney cells

Tumor necrosis factor-like weak inducer of apoptosis (TWEAK) engagement with the receptor Fn14 contributes to the fibrotic process of kidney cells in systemic lupus erythematosus. Downregulation of the protein suppressor of cytokine signaling 1 (SOCS1) correlates with amplified production of proinflammatory factors and cell apoptosis, which participate in the pathogenesis of lupus nephritis. To elucidate the potential role of SOCS1 in TWEAK/Fn14 signaling, we determined the SOCS1 levels in primary kidney cells from MRL/MpJ (control strain) or MRL/lpr (lupus-prone) mice. These cells (mesangial cells, glomerular endothelial cells, and tubular epithelial cells) were also evaluated after stimulation with TWEAK (0 to 250 ng/mL). The results showed that the lupus-prone cells exhibited reduced SOCS1 expression. TWEAK induced the production of profibrotic factors (laminin, fibronectin, (CC motif) ligand 20, etc.) in kidney cells from both mouse strains. TWEAK stimulation also decreased both the mRNA and protein levels of SOCS1 in all cells. Moreover, the effect of TWEAK on mesangial cells was amplified by pre-transfection of SOCS1 siRNA but was partly reduced with SOCS1 overexpression by adenoviral delivery. Therefore, TWEAK/Fn14 activation contributes to renal fibrosis in lupus nephritis involving the depression of SOCS1 function.     

Plasma fibronectin in mammary and uterine carcinomas

Plasma fibronectin was determined in cancer patients and in age- and sex-matched controls and analyzed as a function of age, size of tumor, receptor content of the tumor, metastases and treatment. In the control population, plasma fibronectin increased with age exponentially. The age-dependent increase in plasma fibronectin was strongly attenuated in the cancer population. As normal and cancer curves intersect at about 40-46 years, below this age cancer plasmas have slightly higher values than normal, above this age the inverse is true. No correlation was found between estrogen or progesterone receptor levels and plasma fibronectin values, nor with plasma albumin. Tumor patients with distant metastases gave slightly but significantly higher values than those with local or no metastases. No significant difference was found between tumors when Bloom grading was taken as the second parameter instead of age. The size of the tumor or the type of treatment had no influence. Increased proteolytic activity, increased trapping of plasma fibronectin in tissues and especially in the stromal (desmoplastic) reaction and/or modifications in plasma fibronectin biosynthesis may well be responsible for these results.     

Functional defects of culture-grown bone marrow-derived macrophages from autoimmune MRL/MpJ-lpr/lpr mice

To investigate the primary defects and development of macrophages in MRL/MpJ-/pr/lpr (MRL/l) mice, we used a pure population of macrophages derived from bone marrow precursor cells cultured in the presence of L-cell conditioned medium (LCM) as a source of colony stimulating factor. Bone marrow-derived macrophages (BMM phi) from MRL/l mice had lower antigen presenting activity as detected by the induction of antigen-specific T cell proliferation, than age- and sex-matched control mice (CBA/J). Cell surface antigens (Ia and Mac-1) were determined quantitatively by a cell sorter as markers of macrophage differentiation. The BMM phi from MRL/l contained a much smaller number of Ia antigen-positive macrophages than those from normal mice. Treatment of BMM phi with an Ia-inducing of factor (IFN-gamma) markedly increased the expression of Ia antigens. This increase was significantly greater in BMM phi from MRL/l mice than in BMM phi from control mice. Expression of Mac-1 antigen was not different in BMM phi from the two strains. The Fc-mediated phagocytosis of IgG-coated sheep red blood cells was decreased in BMM phi from MRL/l mice compared with those from control mice. The function of nonspecific phagocytosis as measured by latex-bead incorporation was also impaired in MRL/l mice. The functional defects of MRL/l BMM phi found in these experiments are not secondary defects acquired under the influence of environmental signals during development, but are derived from the primary abnormalities which already exist in myeloid stem cells.