Arpita Choudhury

TWEAK/Fn14 Interactions Are Instrumental in the Pathogenesis of Nephritis in the Chronic Graft-versus-Host Model of Systemic Lupus erythematosus

TNF-like weak inducer of apoptosis (TWEAK), a member of the TNF superfamily, is a prominent inducer of proinflammatory cytokines in vitro and in vivo. We previously found that kidney cells display the TWEAK receptor Fn14, and that TWEAK stimulation of mesangial cells and podocytes induces a potent proinflammatory response. Several of the cytokines up-regulated in the kidney in response to TWEAK are instrumental in Lupus nephritis; we therefore hypothesized that TWEAK/Fn14 interactions may be important in the cascade(s) leading to renal damage in systemic Lupus erythematosus. In this study, we analyzed the effects of Fn14 deficiency in the chronic graft-vs-host model of SLE, and the benefits of treatment with an anti-TWEAK mAb in this mouse model. We found that anti-nuclear Ab titers were no different between C57BL/6 Fn14 wild-type and deficient mice injected with alloreactive bm12 splenocytes. However, kidney disease was significantly less severe in Fn14 knockout mice. Furthermore, kidney IgG deposition, IL-6, MCP-1, RANTES, and IP-10, as well as macrophage infiltration, were significantly decreased in Fn14-deficient mice with induced lupus. Similarly, mice with induced Lupus treated with an anti-TWEAK neutralizing mAb had significantly diminished kidney expression of IL-6, MCP-1, IL-10, as well as proteinuria, but similar autoantibody titers, as compared with control-treated mice. We conclude that TWEAK is an important mediator of kidney damage that acts by promoting local inflammatory events, but without impacting adaptive immunity in this experimental LN model. Thus, TWEAK blockade may be a novel therapeutic approach to reduce renal damage in SLE.

Accelerated atherosclerosis in ApoE deficient lupus mouse models.

The accelerated development of atherosclerosis with increased risk of cardiovascular disease in systemic lupus erythematosus (SLE) patients is not well understood. An appropriate mouse model would greatly help to understand the mechanisms of this association. We have therefore combined the ApoE(-/-) model of atherosclerosis with three different murine models of SLE. We found that induction of cGVH in B6.ApoE(-/-) mice, breeding a Fas null gene onto the B6.ApoE(-/-) mice, and breeding the ApoE(-/-) defect onto MRL/lpr mice all caused a modest increase of atherosclerosis at 24 weeks of age compared to B6.ApoE(-/-) controls. B cells in B6.ApoE(-/-) mice had certain phenotypic differences compared to congenic C57BL/6 mice, as indicated by high expression of MHC II, Fas, CD86, and by increased number of cells bearing marginal zone phenotype. Furthermore, B6ApoE(-/-) mice had significant titers of anti-oxLDL and anti-cardiolipin autoantibodies compared to their B6 counterparts. Our studies also indicate that, following induction of cGVH, marginal zone B cells in B6.ApoE(-/-) are depleted, and there is considerable increase in anti-oxLDL and anti-cardiolipin abs along with secretion of lupus-specific autoantibodies, such as anti-dsDNA and anti-chromatin abs. Histological sections showed that cGVH and/or Fas deficiency could exacerbate atherosclerosis. The production of anti-oxLDL and anti-cardiolipin in ApoE(-/-) mice was also increased. These observations define a connection between induction of lupus-like symptoms and development of severe atherosclerosis in ApoE deficient lupus mouse models.

Disrupted Mer receptor tyrosine kinase expression leads to enhanced MZ B-cell responses

Control of lymphocyte homeostasis is essential to ensure efficient immune responses and to prevent autoimmunity. Splenic marginal zone B cells are important producers of autoantibodies, and are subject to stringent tolerance mechanisms to prevent autoimmunity. In this paper, we explore the role of the Mer tyrosine kinase (Mertk) in regulating autoreactive B cells. This receptor tyrosine kinase serves to bind apoptotic cells, to mediate their phagocytosis, and to regulate subsequent cytokine production. Mice lacking Mertk suffer from impaired apoptotic cell clearance and develop a lupus-like autoimmune syndrome. Here we show that such Mertk-KO mice have expanded numbers of splenic marginal zone B cells. Mertk-KO mice bearing a DNA-specific immunoglobulin heavy-chain transgene (3H9) produced anti-DNA antibodies that appeared to be secreted largely by marginal zone B cells. Finally, Mertk-KO mice developed greater antibody responses after NP-Ficoll immunization than their B6 counterparts. Taken together, our data show that Mertk has a major effect on the development of the marginal zone B-cell compartment. Mertk is also important in establishing DNA-specific B-cell tolerance in 3H9 anti-DNA transgenic mice.

The role of host CD4 T cells in the pathogenesis of the chronic graft-versus-host model of systemic lupus erythematosus.

Systemic lupus erythematosus is characterized by production of autoantibodies and glomerulonephritis. The murine chronic graft-vs-host (cGVH) model of systemic lupus erythematosus is induced by allorecognition of foreign MHC class II determinants. Previous studies have shown that cGVH could not be induced in CD4 knockout (CD4KO) mice. We have further explored the role of host CD4 T cells in this model. Our studies now show that B cells in CD4KO mice have intrinsic defects that prevent them from responding to allohelp. In addition, B cells in CD4KO mice showed phenotypic differences compared with congeneic C57BL/6 B cells, indicating some degree of in vivo activation and increased numbers of cells bearing a marginal zone B cell phenotype. The transfer of syngeneic CD4 T cells at the time of initiation of cGVH did not correct these B cell abnormalities; however, if CD4 T cells were transferred during the development and maturation of B cells, then the B cells from CD4KO mice acquire the ability to respond in cGVH. These studies clearly indicate that B cells need to coexist with CD4 T cells early in their development to develop full susceptibility to alloactivation signals.

Mature B Cells Preferentially Lose Tolerance in the Chronic Graft-versus-Host Disease Model of Systemic Lupus Erythematosus

Chronic graft-vs-host (cGVH) disease is a well-characterized systemic lupus erythematosus (SLE) model. Induction of cGVH in anti-DNA H chain knockin (3H9KI) transgenic mice results in specific activation of anti-dsDNA B cells. In this study, we show that B cells from 3H9KI mice were activated by cGVH even when adoptively transferred into irradiated JHT−/− recipients that lack endogenous B cells. This process of activation was reflected by high autoantibody titers and changes in phenotypic markers. We have used this system to characterize the particular B cell subsets that were responsible for secreting autoantibodies during cGVH response. We isolated splenic B cell subsets based on their expression of specific cell surface markers and used them in our adoptive transfer studies. We found that mature B cells were the most vulnerable to the allostimulus and were the major source of autoantibodies compared with immature B cells. The greater susceptibility of mature B cells to become activated and thereby lose tolerance was unanticipated and has implications for maintenance of peripheral tolerance and for the development of autoimmunity. Furthermore, of the mature B cells, marginal zone B cells were particularly responsible for mounting the initial response to the cGVH stimulus. This observation underscores the critical role of marginal zone B cells in activation and production of autoantibodies.

Disruption of T Cell Tolerance to Self-Immunoglobulin Causes Polyclonal B Cell Stimulation Followed by Inactivation of Responding Autoreactive T Cells

Scavenger receptor (SR)-specific delivery by maleylation of a ubiquitous self-protein, Ig, to SR-bearing APCs results in self-limiting induction of autoimmune effects in vivo. Immunization with maleyl-Ig breaks T cell tolerance to self-Ig and causes hypergammaglobulinemia, with increases in spleen weight and cellularity. The majority of splenic B cells show an activated phenotype upon maleyl-Ig immunization, leading to large-scale conversion to a CD138+ phenotype and to significant increases in CD138-expressing splenic plasma cells. The polyclonal B cell activation, hypergammaglobulinemia, and autoreactive Ig-specific T cell responses decline over a 2-mo period postimmunization. Following adoptive transfer, T cells from maleyl-Ig-immune mice taken at 2 wk postimmunization can induce hypergammaglobulinemia in the recipients, but those taken at 10 wk postimmunization cannot. Hypergammaglobulinemia in the adoptive transfer recipients is also transient and is followed by an inability to respond to fresh maleyl-Ig immunization, suggesting that the autoreactive Ig-specific T cells are inactivated peripherally following disruption of tolerance. Thus, although autoreactive T cell responses to a ubiquitous self-Ag, Ig, are induced by SR-mediated delivery to professional APCs in vivo resulting in autoimmune pathophysiological effects, they are effectively and rapidly turned off by inactivation of these activated Ig-specific T cells in vivo.

The Anti-DNA Knock-In Model of Systemic Autoimmunity Induced by the Chronic Graft-vs-Host Reaction

The injection of spleen cells from bm12 mice into C57BL/6 recipients induces a chronic graft-vs-host reaction characterized by systemic autoimmunity, including anti-double-stranded DNA (anti-dsDNA) autoantibodies and immune complex-type proliferative glomerulonephritis. If the B6 recipient mice express an anti-DNA Vh site-directed transgene, the repertoire is skewed even more toward the anti-DNA response. Over a period of several weeks, high titers of serum anti-DNA antibodies appear and the mice develop renal damage. This permits the examination of the role of somatic immunoglobulin genetics and B-cell tolerance in a model of systemic lupus erythematosus.

Mechanisms of autoimmunity in mice lacking the mer membrane tyrosine kinase

There has been increased recent interest in the role of macrophages (Mp) and dendritic cells in systemic lupus erythematosus pathogenesis. The mer receptor tyrosine kinase, expressed on Mp and dendritic cells, mediates the binding of the former but not the latter to apoptotic cells. mer also is important in determining the cytokine profile that ensues after phagocytosis. Mice lacking mer develop antinuclear antibodies and rheumatoid factor. These autoantibodies appear to arise mostly from the splenic marginal zone. Stimulated spleen cells and peritoneal Mp from mer-deficient mice have increased expression of tumor necrosis factor alpha and IκBα, along with increased spontaneous expression of CD30L. The proinflammatory cytokine profile of mer-deficient mice may contribute to the immunogenicity of apoptotic debris. In vitro ligation of mer from normal Mp leads to diminished tumor necrosis factor alpha expression and increased IL-10 and IL-4. mer, which controls both phagocytosis and cytokine synthesis after exposure to apoptotic cells, may be an attractive target for therapeutic intervention in inflammatory and autoimmune disorders.