Mouse Models Of Autoimmune Diseases Research Articles

Gamma delta T cell regulation of IFN-gamma production by central nervous system-infiltrating encephalitogenic T cells: correlation with recovery from experimental autoimmune encephalomyelitis.

Interferon-gamma has been shown to be important for the resolution of inflammation associated with CNS autoimmunity. Because one of the roles of gamma delta T cells is the regulation of inflammation, we asked whether gamma delta T cells were able to regulate CNS inflammation using the autoimmune disease mouse model experimental autoimmune encephalomyelitis (EAE). We show that the presence of gamma delta T cells was needed to promote the production of IFN-gamma by both CD4 and CD8 T cells in the CNS before the onset of EAE. This regulation was shown to be independent of the ability of gamma delta T cells to produce IFN-gamma, and was specific to T cells in the CNS, as no alterations in IFN-gamma production were detectable in gamma delta T cell-deficient mice in the spleen and lymph nodes of mice with EAE or following immunization. Analysis of TCR gamma delta gene usage in the CNS showed that the only TCR delta V gene families present in the CNS before EAE onset are from the DV7s6 and DV105s1 gene families. We also show that the primary IFN-gamma-producing cells in the CNS are the encephalitogenic T cells, and that gamma delta T cell-deficient mice are unable to resolve EAE disease symptoms like control mice, thus exhibiting a long-term chronic disease course similar to that observed in IFN-gamma-deficient mice. These data suggest that CNS resident gamma delta T cells promote the production of IFN-gamma by encephalitogenic T cells in the CNS, which is ultimately required for the recovery from EAE.

Roles of endogenous retroviruses and platelets in the development of vascular injury in spontaneous mouse models of autoimmune diseases

MRL/MpJ- lpr/ lpr (MRL/ lpr) mice spontaneously develop immune complex-mediated glomerulonephritis, granulomatous arteritis, and thrombocytopenia. Recent genetic analyses in a few different strains of lupus-prone mice have pointed out a close correlation between autoantibodies reactive with the endogenous retroviral env gene product, gp70, and the development and severity of glomerulonephritis. We have also shown that autoantibodies reactive with endogenous retroviral gp70 are closely correlated with the development of necrotizing polyarteritis in another lupus-prone strain of mice, SL/Ni. However, suggested pathogenicity of anti-gp70 autoantibodies has not yet been directly tested. To examine if anti-gp70 autoantibodies induce glomerular and vascular pathology, we established from unmanipulated MRL/ lpr mice hybridoma clones that secrete monoclonal antibodies reactive with endogenous xenotropic viral env gene products. As reported separately, a high proportion of these anti-gp70 antibody-producing hybridoma clones induced in syngeneic non-autoimmune and severe combined immunodeficiency mice proliferative or wire loop-like glomerular lesions with granular deposits of gp70, IgG, and C3 in affected glomeruli. Some mice transplanted with these anti-gp70 autoantibody-producing hybridoma cells also showed massive subendothelial deposition of electron-dense materials in small arterioles in the kidneys. Furthermore, we identified an IgG2a-producing anti-gp70 hybridoma clone that induced microvascular intraluminal platelet aggregation, thrombocytopenia, and amenia upon transplantation into syngeneic non-autoimmune mice. This anti-gp70 autoantibody bound onto the surfaces of mouse platelets, and specifically precipitated a platelet protein with an approximate relative molecular mass of 40 000. Attachment of activated platelets to the intimal surfaces of small arteries was also observed by electron microscopy in mice transplanted with the pathogenic anti-gp70 IgG2a-producing hybridoma cells, suggesting an interaction between antibody-bound platelets and endothelial cells.

Roles of endogeneous retroviruses and platelets in the development of vascular injury in spontaneous mouse models of autoimmune diseases

Roles of endogeneous retroviruses and platelets in the development of vascular injury in spontaneous mouse models of autoimmune diseases

Mouse models of autoimmune disease suggest that self-tolerance is maintained by unresponsive autoreactive T cells.

Multiple organ-localized autoimmune diseases, such as thyroiditis and gastritis, spontaneously develop in BALB/c nu/nu (nude) mice receiving embryonic rat thymus grafts (TG) under their renal capsules (TG nude mice). When thyroid was grafted into the rat thymus of TG nude mice, development of autoimmune thyroiditis, but not other diseases, was completely prevented. However, when such mice received thyroid antigen plus complete Freund's adjuvant (CFA), severe autoimmune thyroiditis developed, suggesting that some thyroid-specific autoreactive T cells migrate into the periphery, but remain unresponsive. Development of autoimmune diseases, including thyroiditis, in TG nude mice was prevented by a single intraperitoneal injection of splenic CD4+ cells from normal BALB/c mice and also from mice with intrathymic thyroid grafts, indicating that thyroid-specific suppressor T cells are present in normal mice and that such T cells are neither deleted nor inactivated by the intrathymic thyroid grafts, in contrast to autoreactive T cells. Thus clonal deletion in the thymus, and clonal anergy and/or ignorance in the periphery, of autoreactive cells is important to maintain immune tolerance to organ-specific antigen, but CD4 suppressor T cells may play a more important role in tolerance, and the failure of education of this population may cause autoimmune diseases in the TG nude mouse model.

Kinetics of anti-CD4-induced T helper cell depletion and inhibition of function. Activation of T cells by the CD3 pathway inhibits anti-CD4-mediated T cell elimination and down-regulation of cell surface CD4.

In vivo treatment with anti-CD4 antibody profoundly suppresses a number of T cell-dependent responses and is clinically useful in the treatment of certain mouse models of autoimmune disease. Treatment with anti-CD4 antibody will inactivate and can deplete CD4 T cells, but the mechanisms responsible for these effects are incompletely understood. When mouse spleen cells were exposed in vitro to both SRBC and monoclonal anti-CD4, there was 55% reduction of the anti-SRBC response. If cultures were preincubated with anti-CD4 for 48 h before in vitro challenge, the reduction was greater than 80%. When unfractionated spleen cells were cultured with anti-CD4 for 96 h, there was actual elimination of CD4 cells in these cultures since virtually all CD3+ cells were CD8+. Activation of T cells by exposure to anti-CD3 rendered them resistant to antibody-mediated CD4 depletion. This resistance to CD4 depletion was seen even in cultures that were pretreated with anti-CD4 for as long as 24 h before anti-CD3 exposure. In cultures of purified T cells, anti-CD4 did not eliminate CD4 T cells. However, culture of T cells with macrophage-rich adherent cells and anti-CD4 resulted in elimination of CD4 T cells. Thus, it appears that macrophages play a role in anti-CD4-induced T cell elimination. While anti-CD4 did not eliminate CD4 cells from a population of purified T cells, there was profound down-regulation of cell surface CD4. Activating T cells with immobilized anti-CD3 before addition of anti-CD4 prevented down-regulation of CD4. These experiments demonstrate that T cell activation by anti-CD3 renders the activated cells resistant to antibody-induced CD4 down-regulation and to antibody-induced CD4 T cell depletion. These findings may have relevance to the application of anti-CD4 therapy in human diseases that are mediated by activated Th cells.

The effect of danazol in the MRL/lpr mouse model of autoimmune disease.

The purpose of the study was to determine if danazol was efficacious in the treatment of lupus MRL/MpJ (lpr) mice, as measured by longevity, proteinuria and serum amyloid protein (SAP) levels. Danazol, administered at an oral dose of 100 mg/kg, significantly prolonged survival of female MRL/MpJ (lpr) mice but had no effect on the mortality of their male counterparts. Medication with danazol began 40 days after birth of the mice and resulted in a significant decrease in proteinuria in female but not male lupus mice. The concentration of SAP, an acute phase reactant, was significantly decreased in danazol-treated female lupus mice at 80, 100, 120, 140 and 160 days of age when compared to vehicle-treated control mice. SAP levels in male lupus mice treated with danazol were significantly lower than normal control levels only at the 120 and 160 day time points. Measurements of mortality, proteinuria and SAP concentration indicate that danazol at 100 mg/kg is orally active in the treatment of MRL/MpJ (lpr) female, but not male mice.

Self tolerance and localized autoimmunity. Mouse models of autoimmune disease that suggest tissue-specific suppressor T cells are involved in self tolerance.

Autoimmune diseases appeared frequently in adults in the prostate and stomach of C3.129 mice after thymectomy on day 3 (Tx-3) without any additional treatment. Lesions of both organs could be completely prevented by a single i.p. injection of spleen cells from syngeneic adult mouse on day 4. For prevention of prostatis, the most effective cell source was normal males (4 X 10(6); normal females or Orx-0 males were less effective as the cell source, and higher doses of cells (4 X 10(7)) were needed. In contrast, spleen cells (4 X 10(6)) from these three donors had equivalent capacity for the prevention of gastritis. Similar autoimmune prostatis developed at very high frequency when spleen cells (4 X 10(6)) from normal females or Orx-0 males, but not from normal males, were injected i.p. into C3.129 nu/nu mice at 4 d. However, no sign of prostatis was found in nu/+ recipients. Injection of a larger dose (4 X 10(7)) from the same donors was not effective for induction of prostatis. Gastritis could not be induced in nu/nu mice by this procedure. Injection of spleen cells from Tx-3 males or females was effective for induction of both prostatis and gastritis in nu/nu recipients. It was also shown that a T cell population (Thy-1.2+, Ig-) had the capacity to prevent and to induce autoimmune diseases. These results together strongly suggest a role for active tissue-specific suppressor T cells in self tolerance, and elimination of such T cell populations causes autoimmunity.