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Query: UMLS:C0751781 (
NOD
)
6,696
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Falling infection rates in the developed world are being matched by a rapidly rising incidence of allergic and autoimmune diseases. This review explores the hypothesis that there is a causal link between these phenomena and that infections can prevent the onset of autoimmune disease. The hypothesis is discussed with particular reference to Type I diabetes in the
NOD
mouse and the ability of the helminth infection Schistosoma mansoni to prevent its onset. The article addresses the possible mechanisms that underly this protection. The effects of protective pathogen-derived agents on key cells of the innate immune system such as dendritic cells are distinct and include the production of anti-inflammatory cytokines such as
IL-10
. The most likely mechanisms by which these innate changes prevent the subsequent adaptive autoimmune destruction are: (1) the production of systemically high levels of cytokines that oppose the production of cytokines that drive the autoimmune process - possibly via the action of natural killer T (NKT) cells (2) the induction of regulatory T cells that inhibit the action of autoreactive cells and (3) the production of pathogen-specific T cells that are not autoreactive and compete with autoreactive cells for survival signals such as cytokines and T cell receptor ligation.
...
PMID:The impact of infection on the incidence of autoimmune disease. 1496 3
Linkage analysis and congenic mapping in
NOD
mice have identified a susceptibility locus for type 1 diabetes, Idd5.1 on mouse chromosome 1, which includes the Ctla4 and Icos genes. Besides type 1 diabetes, numerous autoimmune diseases have been mapped to a syntenic region on human chromosome 2q33. In this study we determined how the costimulatory molecules encoded by these genes contribute to the immunopathogenesis of experimental autoimmune encephalomyelitis (EAE). When we compared levels of expression of costimulatory molecules on T cells, we found higher ICOS and lower full-length CTLA-4 expression on activated
NOD
T cells compared with C57BL/6 (B6) and C57BL/10 (B10) T cells. Using
NOD
.B10 Idd5 congenic strains, we determined that a 2.1-Mb region controls the observed expression differences of ICOS. Although Idd5.1 congenic mice are resistant to diabetes, we found them more susceptible to myelin oligodendrocyte glycoprotein 35-55-induced EAE compared with
NOD
mice. Our data demonstrate that higher ICOS expression correlates with more
IL-10
production by
NOD
-derived T cells, and this may be responsible for the less severe EAE in
NOD
mice compared with Idd5.1 congenic mice. Paradoxically, alleles at the Idd5.1 locus have opposite effects on two autoimmune diseases, diabetes and EAE. This may reflect differential roles for costimulatory pathways in inducing autoimmune responses depending upon the origin (tissue) of the target Ag.
...
PMID:The diabetes susceptibility locus Idd5.1 on mouse chromosome 1 regulates ICOS expression and modulates murine experimental autoimmune encephalomyelitis. 1521 Jul 70
Ligation of the receptor for advanced glycation end products (RAGE) occurs during inflammation. Engagement of RAGE results in enhanced expression of addressins and it is therefore, not surprising that previous studies have shown a role of RAGE/ligand interactions in immune responses including cell/cell contact but the role of RAGE in spontaneous autoimmunity has not been clearly defined. To study the role of RAGE/ligand interactions in autoimmune diabetes, we tested the ability of soluble RAGE, a scavenger of RAGE ligands, in late stages of diabetes development in the
NOD
mouse-disease transferred with diabetogenic T cells and recurrent disease in
NOD
/scid recipients of syngeneic islet transplants. RAGE expression was detected on CD4(+), CD8(+), and B cells from diabetic mice and transferred to
NOD
/scid recipients. RAGE and its ligand, S100B, were found in the islets of
NOD
/scid mice that developed diabetes. Treatment of recipient
NOD
/scid mice with soluble RAGE prevented transfer of diabetes and delayed recurrent disease in syngeneic islet transplants. RAGE blockade was associated with increased expression of
IL-10
and TGF-beta in the islets from protected mice. RAGE blockade reduced the transfer of disease with enriched T cells, but had no effect when diabetes was transferred with the activated CD4(+) T cell clone, BDC2.5. We conclude that RAGE/ligand interactions are involved in the differentiation of T cells to a mature pathogenic phenotype during the late stages of the development of diabetes.
...
PMID:Blockade of late stages of autoimmune diabetes by inhibition of the receptor for advanced glycation end products. 1524 Jul 36
Infectious disease has been proposed as an environmental modifier of autoimmunity in both human populations and the
NOD
mouse. We found that infection of
NOD
mice with attenuated, but not killed, Salmonella typhimurium can reduce the incidence of type 1 diabetes (T1D), even if infection occurs after the development of a peri-islet pancreatic infiltrate. Functional diabetogenic effector T cells are still present, as demonstrated by the initiation of diabetes in
NOD
-scid recipients of transferred splenocytes. High levels of IFN-gamma are secreted by splenocytes of infected mice, but there is no evidence of involvement of
IL-10
in the protective effect of the infection. Finally, prolonged changes in cell subsets are observed in infected mice involving invariant Valpha14Jalpha281 NuKappaTau and dendritic cells. These data reinforce the idea that prevention of T1D in the
NOD
mouse cannot be reduced to the simple Th1/Th2 paradigm and that different infections may involve different protective mechanisms.
...
PMID:Salmonella typhimurium infection halts development of type 1 diabetes in NOD mice. 1537 94
Immunization of
NOD
mice with autoantigens such as glutamic acid decarboxylase (GAD) 221-235 peptide (p221) can induce Ag-specific CD4(+) T regulatory (Tr) cells. However, it is unclear whether these Tr cells acquire their regulatory capacity due to immunization or whether they are constitutively harbored in unimmunized naive mice. To address this question, we used an I-Ag7 tetramer to isolate p221-specific T cells from naive
NOD
mice (N221(+) cells) after peptide-specific in vitro expansion. The N221(+) T cells produced IFN-gamma and
IL-10
, but very little IL-4, in response to p221 stimulation. These T cells could function as regulatory cells and inhibit in vitro proliferation of diabetogenic BDC2.5 cells. This suppressive activity was cell contact-independent and was abrogated by Abs to
IL-10
or IL-10R. Interestingly, IL-2 produced by other T cells present in the cell culture induced unactivated N221(+) T cells to exhibit regulatory activities involving production of
IL-10
. In vivo, N221(+) cells inhibited diabetes development when cotransferred with
NOD
splenocytes into
NOD
/scid recipients. Together, these results demonstrate that p221-specific
IL-10
-dependent Tr cells, including Tr type 1 cells, are present in naive
NOD
mice. The use of spontaneously arising populations of GAD peptide-specific Tr cells may represent a promising immunotherapeutic approach for preventing type 1 diabetes.
...
PMID:Presence of diabetes-inhibiting, glutamic acid decarboxylase-specific, IL-10-dependent, regulatory T cells in naive nonobese diabetic mice. 1555 71
The accumulation of macrophages (M Phi) and dendritic cells (DC) in the pancreas plays a crucial role in the pathogenesis of autoimmune diabetes. We studied the recruitment of monocytes, M Phi and DC to sites of inflammation, i.e. the peritoneal cavity and a subcutaneously elicited air pouch in the
NOD
mouse model of autoimmune diabetes. The leukocyte recruitment was studied from 1 to 7 days after injection of thioglycollate (peritoneum), C5a (peritoneum, air pouch), CCL2 and CCL3 (air pouch). C57BL/6 and BALB/c mice served as controls. Morphological and flow cytometric analysis of the recruited cells was performed, IL-1 beta, TNF-alpha, IL-6, IL-12 and
IL-10
in exudates measured, and in vitro CCL2-chemotaxis of exudate M Phi (Boyden chamber) determined.
NOD
mice were strongly impaired in the recruitment of M Phi, DC, monocytes, and granulocytes. Chemokine-injected air pouches of
NOD
mice showed an increased
IL-10
and a decreased IL-1 beta level, while the other cytokines were normally or very lowly expressed. In addition,
NOD
exudate M Phi displayed an impaired in vitro CCL2-induced migration. Our data show that
NOD
mice have an impaired ability to recruit leukocytes into sites of inflammation elicited in the peritoneum and the air pouch. A raised
IL-10
/IL-1 beta ratio at these sites and a deficient migratory capacity of
NOD
monocytes are important determinants in this impairment.
...
PMID:NOD mice have a severely impaired ability to recruit leukocytes into sites of inflammation. 1559 24
Autoimmune-mediated cytotoxicity may cause pancreatic islet transplant failure, leading to recurrent diabetes. Protection of islet grafts depends on immunosuppressive control, which may also prevent autoimmune recurrence of diabetes. In this study, we compared the survival of syngeneic islet transplants using different strains of donor mice. We observed extended functional survival in the islet grafts from donors lacking the genetic background and potential of autoimmunity. Without immunosuppression, the islet grafts of NOR and immune-deficient
NOD
. Scid donors functioned up to 3 weeks in syngeneic islet transplants compared to 3-day survivals with the grafts from
NOD
donors. T-cell proliferation and activation markers, CD44 and CD69, were upregulated in
NOD
donors, suggesting that T-cell activation had occurred prior to pancreas procurement. Systemic delivery of a recombinant adenoassociated viral vector (AAV) encoding the viral (vIL-10)
IL-10
gene (AAV vIL-10) in
NOD
recipients protected syngeneic islets from autoimmune destruction. Alternatively, pretreatment of
NOD
donor mice with AAV vIL-10 prolonged islet graft survival in untreated
NOD
recipients. Both studies indicate the effectiveness of vIL-10 gene therapy in autoimmune regulation. These results suggest that a donor factor may exist in autoimmune-prone donors. Therefore, autoimmune recurrence of diabetes may result from donor immune cells transferred during islet transplantation. The AAV vIL-10 gene therapy suppressed previously activated donor T cells and protected the grafted islets from autoimmune-mediated destruction.
...
PMID:Impact of donor immune cells in pancreatic islet transplantation. 1562 Nov 70
IL-10
, a powerful anti-Th1 cytokine, has shown paradoxical effects against diabetes. The mechanism underlying such variable function remains largely undefined. An approach for controlled mobilization of endogenous
IL-10
was applied to the
NOD
mouse and indicated that
IL-10
encounter with diabetogenic T cells within the islets sustains activation, while encounter occurring peripheral to the islets induces tolerance. Insulin beta-chain (INSbeta) 9-23 peptide was expressed on an Ig, and the aggregated (agg) form of the resulting Ig-INSbeta triggered
IL-10
production by APCs, and expanded
IL-10
-producing T regulatory cells. Consequently, agg Ig-INSbeta delayed diabetes effectively in young
NOD
mice whose pathogenic T cells remain peripheral to the islets. However, agg Ig-INSbeta was unable to suppress the disease in 10-wk-old insulitis-positive animals whose diabetogenic T cells have populated the islets. This is not due to irreversibility of the disease because soluble Ig-INSbeta did delay diabetes in these older mice. Evidence is provided indicating that upon migration to the islet, T cells were activated and up-regulated CTLA-4 expression.
IL-10
, however, reverses such up-regulation, abolishing CTLA-4-inhibitory functions and sustaining activation of the islet T lymphocytes. Therefore,
IL-10
supports T cell tolerance in the periphery, but its interplay with CTLA-4 sustains activation within the islets. As a result,
IL-10
displays opposite functions against diabetes in young vs older insulitis-positive mice.
...
PMID:IL-10 diminishes CTLA-4 expression on islet-resident T cells and sustains their activation rather than tolerance. 1563 84
Dendritic cells (DCs) are derived from CD34+ progenitors and play a central role in the development of immune responses and in tolerance. Their therapeutic potential underscores the need for in vivo models that accurately recapitulate human DC development and function to provide a better understanding of DC biology in health and disease. Using nonobese diabetic/severe combined immunodeficiency (
NOD
/SCID) mice transplanted with human CD34+ cells as a model of human hematopoiesis, we examined DC ontogeny. Progenitors of both myeloid (m) and plasmacytoid (p) DCs were identified in the bone marrow of mice up to 24 weeks after transplant, indicating ongoing and sustained production of DCs after initial engraftment. To determine whether human DCs derived from transplanted stem cells were functional, their response to acute inflammation using lipopolysaccharide (LPS) was examined. Eighteen hours after LPS administration, a dramatic increase in the plasma levels of the human inflammatory cytokines interleukin (IL)-8,
IL-10
, tumor necrosis factor-alpha, and IL-12p70 was observed. Only mDCs and not pDCs responded in vivo to LPS by upregulating CD86 and CD83. In vivo activation of human mDCs resulted in a substantial increase in the ability of mDCs to induce the proliferation of naive human T cells. Taken together, these data indicate that human CD34+ cells seem to have differentiated appropriately within the
NOD
/SCID microenvironment into DCs that are developmentally, phenotypically, and functionally similar to the DC subsets found in humans.
...
PMID:Development and activation of human dendritic cells in vivo in a xenograft model of human hematopoiesis. 1567 Nov 49
NKT cells are potent regulatory T cells that prevent the development of several autoimmune diseases. Analysis of NKT cell regulatory function in the
NOD
mouse has revealed that NKT cells inhibit the development of type 1 diabetes by impairing the differentiation of anti-islet T cells into Th1 effector cells. In the present study, we have performed in vitro and in vivo experiments to determine the respective role of cytokines and cell contacts in the blockade of T cell differentiation by NKT cells. These experiments reveal that cytokines such as IL-4,
IL-10
, IL-13, and TGF-beta, that have been involved in other functions of NKT cells, play only a minor role if any in the blockade of T cell differentiation by NKT cells. Diabetes is still prevented by NKT cells in the absence of functional IL-4,
IL-10
, IL-13, and TGF-beta. In contrast, we show for the first time that cell contacts are crucial for the immunoregulatory function of NKT cells.
...
PMID:Inhibition of T cell differentiation into effectors by NKT cells requires cell contacts. 1569 23
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