Renin lineage cells repopulate the glomerular mesangium after injury.

Mesangial cell injury has a major role in many CKDs. Because renin-positive precursor cells give rise to mesangial cells during nephrogenesis, this study tested the hypothesis that the same phenomenon contributes to glomerular regeneration after murine experimental mesangial injury. Mesangiolysis was induced by administration of an anti-mesangial cell serum in combination with LPS. In enhanced green fluorescent protein-reporter mice with constitutively labeled renin lineage cells, the size of the enhanced green fluorescent protein-positive area in the glomerular tufts increased after mesangial injury. Furthermore, we generated a novel Tet-on inducible triple-transgenic LacZ reporter line that allowed selective labeling of renin cells along renal afferent arterioles of adult mice. Although no intraglomerular LacZ expression was detected in healthy mice, about two-thirds of the glomerular tufts became LacZ positive during the regenerative phase after severe mesangial injury. Intraglomerular renin descendant LacZ-expressing cells colocalized with mesangial cell markers α8-integrin and PDGF receptor-ß but not with endothelial, podocyte, or parietal epithelial cell markers. In contrast with LacZ-positive cells in the afferent arterioles, LacZ-positive cells in the glomerular tuft did not express renin. These data demonstrate that extraglomerular renin lineage cells represent a major source of repopulating cells for reconstitution of the intraglomerular mesangium after injury.

Soluble human CD83 ameliorates lupus in NZB/W F1 mice.

In the present study we explored the immunomodulatory potential of prokaryotically expressed soluble CD83 in the treatment of murine lupus using the NZB/W F1 mouse model. Therefore female NZB/W F1 lupus mice were treated either with sCD83 or PBS for 4 weeks. sCD83 treated mice showed a significantly delayed onset of anti-dsDNA autoantibody production when compared with the control group. Importantly, during the treatment period with sCD83 none of the mice showed elevated levels of anti-dsDNA autoantibodies. In addition, NZB/W F1 mice which received sCD83 displayed lower concentrations of anti-histone IgG autoantibodies. Furthermore, there was no difference in total IgG antibodies, indicating a modulatory role for sCD83 in the production of self-reactive antibodies without decreasing total IgG. These results indicate that administration of sCD83 has profound immune-modulatory effects on the induction of autoantibodies in NZB/W F1 lupus mice and may thus be a promising approach to interfere with autoimmunity in SLE and other autoantibody-driven diseases.

Toll-like receptor 2 is required for autoantibody production and development of renal disease in pristane-induced lupus.

OBJECTIVE: The mechanisms involved in breaking immunologic tolerance against nuclear autoantigens in systemic lupus erythematosus (SLE) are not fully understood. Our recent studies in nonautoimmune mice provided evidence of an important role of Toll-like receptor 2 (TLR-2) in antichromatin autoantibody induction by high mobility group box chromosomal protein 1-nucleosome complexes derived from apoptotic cells. The objective of this study was to investigate whether TLR-2 signaling is required for the induction of autoantibodies and the development of SLE-like disease in murine pristane-induced lupus. METHODS: Lupus-like disease in C57BL/6 and TLR-2(-/-) mice was induced by pristane injection. The numbers of immune cells and serum cytokine concentrations were determined by flow cytometry. Renal disease was assessed by quantification of proteinuria, histologic analyses, and enzyme-linked immunospot assay. RESULTS: Pristane-injected TLR-2(-/-) mice generated reduced numbers of splenic CD138+/cytoplasmic κL/λL chain-positive plasma cells and displayed diminished IgG responses against double-stranded DNA, histones, nucleosomes, some extractable nuclear autoantigens, and cardiolipin when compared with wild- type controls. TLR-2 deficiency prevented the pristane-induced systemic release of interleukin-6 (IL-6) and IL-10. The absence of TLR-2 attenuated peritoneal recruitment of CD11c+ cells and formation of lipogranulomas. Importantly, the renal disease that developed in pristane-treated TLR-2(-/-) mice was less severe than that in control mice, as reflected by milder proteinuria, reduced glomerular deposition of IgG and complement, and decreased renal infiltration of autoantibody-secreting cells. CONCLUSION: TLR-2 is required for the production of prototypical lupus autoantibodies and the development of renal disease in pristane-induced murine lupus. Interference with TLR-2 signaling may be a promising novel strategy for the treatment of SLE.

High frequency of autoantibody-secreting cells and long-lived plasma cells within inflamed kidneys of NZB/W F1 lupus mice.

Autoantibodies to double-stranded (ds) DNA represent a serological hallmark of systemic lupus erythematosus (SLE) and may critically contribute to the pathogenesis of lupus nephritis. Self-reactive antibodies might be partially produced by long-lived plasma cells (PCs), which mainly reside within the bone marrow and spleen. In contrast to short-lived PCs, long-lived PCs are extremely resistant to therapy and may sustain refractory disease courses. Recently, antibody-secreting cells were found within the inflamed kidneys of New Zealand black/white (NZB/W) F1 lupus mice as well as of patients with SLE. To analyze the longevity of the IgG-producing cells present in nephritic kidneys of NZB/W F1 mice we performed in vivo BrdU-labeling. We identified a higher frequency of long-lived than short-lived renal PCs, indicating that survival niches for long-lived PCs also exist within inflamed kidneys. Using ELISPOT assays, we found that on average 31% of renal IgG-producing cells reacted with dsDNA and 24% with nucleolin. Moreover, the frequencies of IgG-secreting cells specific for the autoantigens dsDNA and nucleolin were higher in the kidneys compared with those in the spleen and bone marrow.

Bortezomib and sirolimus inhibit the chronic active antibody-mediated rejection in experimental renal transplantation in the rat.

BACKGROUND: To date, no effective immunosuppressive standard for the prevention or treatment of alloantibody production in acute and chronic rejection of renal transplants has been established. Alloantibody formation has been recognized in the well-established rat model of Fischer to Lewis renal transplantation. We used this renal allotransplantation model to test the effectiveness of sirolimus (SRL), bortezomib (BZ) or their combination in an already established humoral rejection situation. METHODS: After 3 weeks, transplanted rats were treated either with placebo (P), SRL, BZ or combination of SRL and BZ. Rats were monitored for donor-specific alloantibodies as well as humoral responses in the spleen and bone marrow, renal function and histological changes in the graft. RESULTS: In all three treatment arms, glomerular, tubulointerstitial and vascular changes of chronic antibody-mediated rejection were ameliorated compared to the P group. Production of alloantibodies against components of glomerular basement membrane was reduced in all three treatment arms. The humoral response was strongly reduced, as shown by decreased numbers of IgG-secreting cells, plasma cells and partially B cells in all treatment groups with a trend of SRL/BZ combination being most effective. Infiltration of the graft with inflammatory cells like cytotoxic T cells, T helper cells, B cells and macrophages was efficiently blocked by BZ and the SRL/BZ combination and, except for B cells, by SRL. CONCLUSIONS: BZ and SRL represent promising drugs with anti-humoral activity in the situation of an already established chronic humoral or mixed alloimmune response after renal transplantation.