UMLS:C0751781 - FACTA Search

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Query: UMLS:C0751781 (NOD)
6,696 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We describe a new human tumor xenotransplant animal model that is highly efficient for engraftment, does not need host conditioning and is suitable for in vivo studies of human tumors. Pieces of 61 freshly operated primary breast tumors were implanted into 172 irradiated and 228 nonconditioned NOD/Scid mice. A high mortality was observed in irradiated but not in nonconditioned recipients. More than 90% of analyzed implanted breast cancer specimens engrafted in the NOD/Scid mice irrespective of pretreatment. The tumors were vascularized within 3 days of implantation and maintained original histomorphology as well as expression patterns of tumor markers (cytokeratin and MUC1) and cytokines (tumor necrosis factor alpha (TNF-alpha), interleukin-4 (IL-4) and IL-10) released by adjacent stromal cells. A majority of tumors grew slowly, locally infiltrating host tissue, whereas some grew aggressively, developing large, fatal tumor masses and metastases within regional lymph nodes. Tumor progression in mice correlated with stage, grade, proliferation index and hormone receptor status of primary tumors. The reproducible growth behavior and preservation of characteristic features suggest that this new xenotransplant model is relevant and can be recommended for testing new anticancer therapies.
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PMID:Efficient engraftment of human primary breast cancer transplants in nonconditioned NOD/Scid mice. 1271 33

Anti-glomerular basement membrane (GBM) disease is a rapidly progressive glomerulonephritis (GN) resulting from autoimmunity against the Goodpasture antigen alpha3(IV)NC1. In addition to the well-characterized antibody contribution, a T helper 1 (Th1) response has been suspected as the culprit for glomerular injury. We induced anti-GBM disease in DBA/1, C57BL/6, AKR, and NOD mice with recombinant human alpha3(IV)NC1 to investigate the involvement of humoral and cellular autoimmunity. DBA/1 mice had crescentic GN 11 wk postimmunization with alpha3(IV)NC1. C57BL/6 and AKR mice developed a chronic disease course resulting in comparable kidney injury to DBA/1 mice within 6 months. NOD revealed only minor glomerular changes. The rapid course and the severity of the disease in DBA/1 mice can be explained by our immunological findings in their sera and splenocytes: 1) high antibody titers specific for the putative clinically relevant epitope of alpha3(IV)NC1 with Th1-type isotypes, and 2) a strong proliferative response and high amounts of the inflammatory cytokine IFN-gamma, secreted by splenocytes stimulated in vitro with alpha3(IV)NC1, with only low amounts of the anti-inflammatory cytokine IL-10. Our in vivo and in vitro results provide direct evidence that the balance between Th1 and Th2 responses associates with the outcome of anti-GBM disease in mice.
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PMID:The importance of cell-mediated immunity in the course and severity of autoimmune anti-glomerular basement membrane disease in mice. 1272 45

Infection with Schistosoma mansoni (S. mansoni) or exposure to eggs from this helminth inhibits the development of type 1 diabetes in NOD mice. In this study we show that soluble extracts of S. mansoni worm or egg completely prevent onset of type 1 diabetes in these mice but only if injection is started at 4 weeks of age. T cells from diabetes-protected mice make IL-10 in recall responses to parasite antigens. These cells are furthermore impaired in their ability to transfer diabetes to NOD-SCID recipients. Bone marrow dendritic cells derived from NOD mice are found to make more IL-10 and less IL-12 following culture with S. mansoni soluble egg antigens in conjunction with lipopolysaccharides. NOD mice are deficient in NKT cells. Soluble worm and egg antigens increase the numbers of V alpha 14i NKT cells in NOD mice. These effects of schistosome antigens on the innate immune system provide a mechanism for their ability to prevent type 1 diabetes in NOD mice.
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PMID:Schistosoma mansoni antigens modulate the activity of the innate immune response and prevent onset of type 1 diabetes. 1273 Oct 71

Advanced glycation end products (AGEs) are implicated in beta-cell oxidant stress. Diet-derived AGE (dAGE) are shown to contribute to end-organ toxicity attributed to diabetes. To assess the role of dAGE on type 1 diabetes, NOD mice were exposed to a high-AGE diet (H-AGE) and to a nutritionally similar diet with approximate fivefold-lower levels of N(epsilon)-carboxymethyllysine (CML) and methylglyoxal-derivatives (MG) (L-AGE). Suppression of serum CML and MG in L-AGE-fed mice was marked by suppression of diabetes (H-AGE mice >94% vs. L-AGE mice 33% in founder [F](0), 14% in F(1), and 13% in F(2) offspring, P < 0.006) and by a delay in disease onset (4-month lag). Survival for L-AGE mice was 76 vs. 0% after 44 weeks of H-AGE mice. Reduced insulitis in L-AGE versus H-AGE mice (P < 0.01) was marked by GAD- and insulin-unresponsive pancreatic interleukin (IL)-4-positive CD4+ cells compared with the GAD- and insulin-responsive interferon (IFN)-gamma-positive T-cells from H-AGE mice (P < 0.005). Splenocytes from L-AGE mice consisted of GAD- and insulin-responsive IL-10-positive CD4+ cells compared with the IFN-gamma-positive T-cells from H-AGE mice (P < 0.005). Therefore, high AGE intake may provide excess antigenic stimulus for T-cell-mediated diabetes or direct beta-cell injury in NOD mice; both processes are ameliorated by maternal or neonatal exposure to L-AGE nutrition.
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PMID:Fetal or neonatal low-glycotoxin environment prevents autoimmune diabetes in NOD mice. 1276 55

Autoimmune disorders represent inappropriate immune responses directed at self-tissue. Because CD4+ T cells are important mediators in the pathogenesis of autoimmune disease, they are ideal candidates for cell-based gene therapy. Using retrovirally-transduced cells and luciferase bioluminescence, we have demonstrated that primary T cells and hybridomas, rapidly and preferentially home to the sites of inflammation in organ-specific autoimmune disease. These cells, transduced with retroviral vectors to drive expression of various 'regulatory proteins', such as IL-4, IL-10 and IL-12p40, deliver these immunoregulatory proteins to the inflamed lesions, providing therapy for experimental models of autoimmune disease such as EAE, CIA and NOD mice. This technique was originally developed in our lab in the murine model of multiple sclerosis, EAE, where T cell hybridomas reactive with myelin basic protein (MBP) were transduced to express and used to deliver the modulatory cytokine, IL-4. Recently we have observed that the cytokine receptor antagonist, IL-12p40 transduced anti-myelin basic protein (MBP) TCR-transgenic T cells (but not CII-reactive T cells) were effective in preventing EAE whereas the CII-reactive, but not MBP-reactive T cells, transduced to express IL-12p40, would treat CIA.
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PMID:Adoptive cellular gene therapy of autoimmune disease. 1284 98

The present study was undertaken to analyze the regulatory T cells generated in response to class I derived self-I-A beta(g7) (54-76) peptide. It was observed T cells from young unprimed type 1 diabetes (T1D) prone NOD mice did not respond to self-I-A beta(g7) (54-76) peptide although T cells from primed young NOD mice showed a strong response. T cells from young unprimed BALB/c mice responded to self-I-A beta(d) (62-78) peptide. However, a breakdown of tolerance to these peptides was observed with age in both the strains. Culture supernatant from I-A beta(g7) (54-76) peptide-primed cells secreted large amounts of TGF-beta and inhibited T cell responses in allogeneic-MLR. Further, I-A beta(g7) (54-76) peptide specific T cell lines from young (I-A.Y) and diabetic (I-A.D) NOD mice were established. I-A.Y secreted IL-4, TGF-beta and IL-10 while I-A.D T cell line secreted IL-10 and IFN-gamma. We found that I-A.D T cell line induced diabetes when transferred in NOD/SCID mice but I-A.Y T cell line did not induce disease. These results show that immunization of NOD mice with I-A beta(g7) (54-76) peptide at a younger age induces a regulatory T cell response suggesting that correcting the defects in immunoregulatory mechanisms using self-MHC peptides may be one of the approaches to prevent autoimmune diseases like T1D.
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PMID:Regulation of type 1 diabetes by a self-MHC class II peptide: role of transforming growth factor beta (TGF-beta). 1288 99

NOD mice have a relative deficiency of CD4+CD25+ regulatory T cells that could result in an inability to maintain peripheral tolerance. The aim of this study was to induce the generation of CD4+CD25+ regulatory T cells in response to autoantigens to prevent type 1 diabetes (T1D). We found that immunization of NOD mice with insulin B-chain peptide B:9-23 followed by 72 h in vitro culture with B:9-23 peptide induces generation of CD4+CD25+ regulatory T cells. Route of immunization has a critical role in the generation of these cells. Non-autoimmune mice BALB/c, C57BL/6 and NOR did not show up regulation of CD4+CD25+ regulatory T cells. These cells secreted large amounts of TGF-beta and TNF-alpha with little or no IFN-gamma and IL-10. Adoptive transfer of these CD4+CD25+ regulatory T cells into NOD-SCID mice completely prevented the adoptive transfer of disease by diabetogenic T cells. Although, non-self antigenic OVA (323-339) peptide immunization and in vitro culture with OVA (323-339) peptide does result in up regulation of CD4+CD25+ T cells, these cells did not prevent transfer of diabetes. Our study for the first time identified the generation of antigen-specific CD4+CD25+ regulatory T cells specifically in response to immunization with B:9-23 peptide in NOD mice that are capable of blocking adoptive transfer of diabetes. Our results suggest the possibility of using autoantigens to induce antigen-specific regulatory T cells to prevent and regulate autoimmune diabetes.
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PMID:CD4+CD25+ regulatory T cells generated in response to insulin B:9-23 peptide prevent adoptive transfer of diabetes by diabetogenic T cells. 1459 47

Using BW 5147 T cell hybridomas isolated by fusion with spleen and lymph node cells from NOD female mice, two T cell receptor transgenic NOD mouse lines were produced. Both TCR transgenics respond to their cognate peptide/MHC (GAD65 206-220 and 286-300) and produce IL-2, IFN-gamma, and small amounts of IL-10. Unexpectedly, the transgenic mice do not develop diabetes and have no insulitis. Analysis with a GAD65 286-300/I-A(g7) tetramer reveals that transgenic T cells are negatively selected in the thymus and further negatively selected in the periphery. When crossed to the C(alpha)(-/-) NOD line, CD4 T cells were reduced by 90% in the thymus and periphery. Further, the tetramer positive GAD65 286-300 specific T cells were capable of delaying the onset of diabetes in a standard transfer system. Thus, GAD65 specific TCR transgenic T cells (1) must express a second a chain to survive negative selection, (2) produce IL-2 and IFN-gamma, and (3) have a mildly protective effect on transfer of diabetes with diabetogenic spleen cells.
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PMID:The T cell response to glutamic acid decarboxylase 65 in T cell receptor transgenic NOD mice. 1467 41

We previously demonstrated that adoptive transfer of NOD pancreatic lymph node (PLN) DC protected recipients from diabetes. Our recent studies showed that the tolerogenic DC population presented islet antigens and were mature myeloid DC that did not produce IL-12, suggestive of exhausted or fully mature DC. Extensive characterization of the DC population in vivo in NOD and control mice demonstrated a specific deficiency of PLN tolerogenic DC in older mice. These findings suggest autoimmunity might arise in NOD mice secondary to deficient maturation of myeloid DC to a tolerogenic state. To address this issue, we characterized maturation and function at development of bone marrow-derived myeloid DC from NOD and several control strains. We found that NOD DC were highly resistant to several maturation stimuli and maintained an immature phenotype (average % immature DC: 75% in NOD versus 15% in B6, p < 0.01). A survey of congenic NOD mice with various NOD diabetes susceptibility loci demonstrated that the IDD10/17/18 region on chromosome 3 controlled approximately 50% of the NOD DC maturation defect. The defect also affected NOD DC that underwent phenotypic maturation. These cells appeared to arrest in a "maturing" phase as they produced 5- to 7-fold more IL-12 than control strains and significantly less IL-10. The cytokine defect was completely corrected in NOD IDD10/17/18 mice. In addition, the IDD10/17/18 locus limited DC accumulation in islets and significantly increased tolerogenic DC in the PLN. Together, the above findings suggest that polygenic regulation of DC maturation defects in NOD mice promotes islet inflammation while limiting the generation of tolerogenic DC.
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PMID:Defective maturation of myeloid dendritic cell (DC) in NOD mice is controlled by IDD10/17/18. 1467 56

Diabetogenic BDC2.5 CD4 T cells induce diabetes when injected into NOD.scid mice. However, when co-transferred with the OVA-specific DO11.10 CD4 T cells, BDC2.5 T cells failed to cause diabetes. This inhibition depended upon the stimulation of DO11.10 T cells only with soluble OVA, which skewed their differentiation to a Th2-type pattern of cytokine secretion in vivo. However, in vivo neutralization of IL-4, IL-10 or TGF-beta using monoclonal antibodies did not prevent the inhibition whereas treatment with an antibody against the glucocorticoid-induced TNF receptor abrogated the protection from disease. In the protected mice, the diabetogenic T cells could be isolated from their spleens and shown to transfer diabetes when injected into new NOD.scid recipients. Thus, the inhibition took place without the physical or functional elimination of the diabetogenic T cells.
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PMID:Regulation of autoimmune diabetes by non-islet-specific T cells - a role for the glucocorticoid-induced TNF receptor. 1476 49

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