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Query: UMLS:C0011849 (
diabetes
)
277,896
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Transgenic mice that express mouse B7-1 (mB7-1, recently designated
CD80
) on their pancreatic beta-cells maintain normal islet architecture, have normal pancreatic insulin content, and only rarely spontaneously develop insulitis and
diabetes
. Nevertheless, these mice display an extreme sensitivity to streptozotocin (STZ)-induced
diabetes
. Female mice were administered two STZ doses intraperitoneally, 20 and 40 mg/kg body wt, each for five consecutive days. Nontransgenic but otherwise syngeneic mice responded to the STZ with a moderate diminution in pancreatic insulin content but not with persistent glycosuria. In striking contrast, STZ administered to transgenic mice resulted in a severe diminution of pancreatic insulin content and in
diabetes
. Notably, the lower STZ dose resulted in
diabetes
only after a prolonged (26- to 100-day) latency. STZ-induced
diabetes
appears to be T-cell dependent, since treatment with T-cell-depleting (and in particular CD8+ subset-depleting) antibodies ameliorated the response. Anti-mB7-1 monoclonal antibody administration also prevented STZ-induced
diabetes
. Thus, unmasked mB7-1 is a required component in the pathway resulting in beta-cell killing. Immunohistological analysis revealed that early after STZ administration, both mB7-1 transgenic and nontransgenic mice developed insulitis. While this insulitis resolved in the nontransgenic mice, the islet-infiltrating CD4+ and CD8+ T-cells in the transgenic mice were associated with complete beta-cell destruction. These data suggest that STZ-induced
diabetes
in mB7-1 transgenic mice is an immune-mediated process with distinct potential advantages over existing insulin-dependent
diabetes
models.
Diabetes
1995 Jul
PMID:Very-low-dose streptozotocin induces diabetes in insulin promoter-mB7-1 transgenic mice. 754 May 75
Expression of the co-stimulatory molecule B7-1 (
CD80
) on pancreatic beta cells can overcome peripheral T cell tolerance in transgenic models of autoimmune disease. This study aimed to determine if aberrant B7-1 or B7-2 (CD86) expression on pancreatic beta cells is involved in the pathogenesis of autoimmune
diabetes
in non-obese diabetic (NOD) mice. Immunohistochemical analysis of NOD pancreas sections revealed no evidence of B7-1 or B7-2 expression on pancreatic beta cells at any stage prior to the onset of either spontaneously arising or cyclophosphamide-accelerated
diabetes
. Likewise, the NOD-derived NIT-1 beta cell line did not express surface B7 or B7-1 mRNA either constitutively or following exposure to IFN-gamma and TNF-alpha, two cytokines known to be present in the insulitis lesion of NOD mice, or cAMP which can induce B7-1 expression on B cells. Both B7-1 and B7-2 were, however, highly expressed on the majority of islet-infiltrating inflammatory cells in NOD mice between days 7 and 12 after the administration of cyclophosphamide which results in accelerated beta cell destruction. Likewise B7-1 and B7-2 were extensively expressed on islet-infiltrating cells present at the time of
diabetes
onset in NOD SCID mice with adoptively transferred
diabetes
. By immunohistochemistry and flow cytometry, it was determined that the phenotype of B7+ cells in the pancreas of NOD mice 9 days after cyclophosphamide included a mixture of macrophages and both CD4+ and CD8+ T cells. B7-2 was also expressed on islet-infiltrating cells in the spontaneously occurring
diabetes
of female NOD mice, but the levels of B7-1 expression were low in comparison with the accelerated models of
diabetes
. RIP-IL-2 transgenic mice, which have extensive islet infiltration but no autoimmune beta cell destruction, also had virtually no B7-1 expression and a minority of B7-2-expressing inflammatory cells. Thus, the activation of beta cell-specific T cells in NOD mice does not appear to be a result of aberrant expression of B7 on the beta cells. Expression of B7-1 and B7-2 on islet-infiltrating cells is, however, associated with autoimmune beta cell destruction, suggesting a role for the B7-CD28 interaction in this process.
...
PMID:Pancreatic expression of B7 co-stimulatory molecules in the non-obese diabetic mouse. 874 58
The immunopathogenetic mechanisms that lead to type I
diabetes
in the nonobese diabetic mouse are poorly defined. The immunoregulatory effects of the costimulatory
CD80
/B7-1 and CD86/B7-2 antigens expressed by the antigen-presenting cells may be crucial for the development of immune responses and their absence may lead to clonal anergy, which is important in the prevention of autoimmune reactivity. To evaluate the role of the
CD80
and CD86 antigens in the development of insulin-dependent
diabetes mellitus
, expression of these antigens in the pancreas of normal and nonobese diabetic mice was studied. The pancreata of normal BALB/c mice and young nonobese diabetic mice contained no
CD80
- or CD86-positive cells.
CD80
- and CD86-positive cells appeared in the pancreas of nonobese diabetic mice by 6 weeks of age. Double immunostaining at the age of 12 weeks showed that
CD80
-positive cells accumulated around the islets of Langerhans but no insulin-containing cells expressed the costimulatory molecules. The morphology of the
CD80
- and CD86-positive cells was heterogeneous. Many were Mac-1 integrin (CD11b/CD18) positive, suggesting that macrophages expressing the costimulatory antigens are present in the pancreas of all nonobese diabetic mice by 12 weeks of age and that
CD80
- and CD86-expressing macrophages may be involved in the local regulation of antiislet immune responses.
...
PMID:Appearance of cells expressing CD80 and CD86 costimulatory antigens in the pancreas of nonobese diabetic mice. 889 99
Pancreatic islet transplantation represents a potential treatment for insulin-dependent
diabetes mellitus
. One approach to circumvent the requirement for recipient immune suppression is to reduce or eliminate the immunogenicity of the donor graft prior to transplantation. In this study, we have examined the relative contributions of graft MHC Ag expression and donor-derived costimulatory (CoS) activity to the rejection of islet allografts. Depletion of donor hemopoietic APCs from islet tissue facilitated long-term allograft survival even when donor class I MHC Ag expression was greatly increased by IFN-gamma treatment prior to grafting. Conversely, islet allografts from transgenic mice expressing the CoS molecule B7-1 (
CD80
) on islet beta cells were acutely rejected even when hemopoietic APCs were eliminated. Thus, B7-1 is sufficient to confer the capacity of islet parenchymal cells to stimulate allorejection. Taken together, these results point towards donor-derived CoS activity as a primary target of intervention therapy to modulate tissue immunogenicity.
...
PMID:Tissue immunogenicity: the role of MHC antigen and the lymphocyte costimulator B7-1. 894 80
Insulin-dependent diabetes mellitus is believed to occur as a result of a T cell-mediated destruction of the islets of Langerhans. The factors that regulate the T cell responses, in particular the costimulatory signals required for the T cell activation, which result in islet cell destruction, are still unclear. CD28/B7 interactions have been shown to be important in the regulation of T cell immune responses. We, therefore, have examined the role of CD28/B7 interactions in a model of insulin-dependent
diabetes mellitus
in which T cell-dependent insulitis and hyperglycemia occur over a brief period, following multiple low doses of streptozotocin (multidose streptozotocin (STZ)-induced
diabetes mellitus
). Expression of CD28 was necessary for
diabetes
because CD28 -/- C57BL/KsJ animals developed neither hyperglycemia nor insulitis, and did not express IFN-gamma mRNA following STZ, unlike CD28 +/- C57BL/KsJ mice. The expression of B7-1 (
CD80
) and B7-2 (CD86) molecules was closely regulated during development of the disease. Expression of both
CD80
and CD86 increased on cells in pancreatic lymph nodes in STZ-treated C57BL/KsJ mice. Expression of only CD86 increased on islet cells in diabetic mice. In wild-type animals, treatment with mAb against CD86 prevented, whereas treatment with mAb against
CD80
exacerbated, insulitis and hyperglycemia, indicating that mAbs against these molecules differentially affect development of disease. We conclude that CD28 signal transduction is required for development of
diabetes
in multidose STZ-induced
diabetes mellitus
.
CD80
and CD86 molecules, the CD28/CTLA4 ligands, may have different roles in regulation of the disease and affect T cell function at steps beyond differentiation into mature phenotypes.
...
PMID:CD28/B7 costimulation regulates autoimmune diabetes induced with multiple low doses of streptozotocin. 899 20
The concept that naive CD4+ and CD8+ T cells require co-stimulatory signals for activation and proliferation is well documented. Less clear is the need for co-stimulation during the effector phase of the T cell response. Here we examined the influence of B7-1 (
CD80
) during the effector phase of an autoimmune response to pancreatic islets using transgenic mouse lines which expressed B7-1 in either all or only some of their beta cells ("confluent" or "patchy" RIP-B7-1 mice). Transgenic expression of B7-1 in normal mouse islets that co-expressed the pro-inflammatory cytokine, IL-2, resulted in early spontaneous autoimmunity. Islets with IL-2 and "confluent" B7-1 expression were destroyed whereas islets with IL-2 and "patchy" B7-1 expression showed selective killing of the B7-1+ beta cells. Islet-reactive T cells, circulating in the RIP-B7-1/IL-2 mice, rejected syngeneic islet grafts, but only if these expressed B7-1. Introduction of the B7-1 transgene into the nonobese diabetic (NOD) genetic background likewise resulted in early spontaneous autoimmunity, but splenocytes from the diabetic animals could only transfer
diabetes
to NOD scid recipients that expressed B7-1 on their beta cells. In both these transgenic models, therefore, islet destruction required continuous B7-1 expression by target beta cells. Thus, although the normal repertoire contains T cells with potential islet reactivity, these T cells remain harmless because parenchymal cells like the beta cell cannot normally express B7-1. Our results also have implications for tumor immunotherapy in that the ability of T cells to kill poorly immunogenic targets may be dependent upon B7-1 expression by the target cell itself.
...
PMID:The threshold for autoimmune T cell killing is influenced by B7-1. 954 90
Rheumatoid arthritis (RA), the most common autoimmune disease, is associated in families with other autoimmune diseases, including insulin-dependent
diabetes mellitus
(IDDM). Its genetic component has been suggested by familial aggregation (lambdas = 5), twin studies, and segregation analysis. HLA, which is the only susceptibility locus known, has been estimated to account for one-third of this component. The aim of this paper was to identify new RA loci. A genome scan was performed with 114 European Caucasian RA sib pairs from 97 nuclear families. Linkage was significant only for HLA (P < 2.5.10(-5)) and nominal for 19 markers in 14 other regions (P < 0.05). Four of the loci implicated in IDDM potentially overlap with these regions: the putative IDDM6, IDDM9, IDDM13, and DXS998 loci. The first two of these candidate regions, defined in the RA genome scan by the markers D18S68-D18S61-D18S469 (18q22-23) and D3S1267 (3q13), respectively, were studied in 194 additional RA sib pairs from 164 nuclear families. Support for linkage to chromosome 3 only was extended significantly (P = 0.002). The analysis of all 261 families provided a linkage evidence of P = 0. 001 and suggested an interaction between this putative RA locus and HLA. This locus could account for 16% of the genetic component of RA. Candidate genes include those coding for
CD80
and CD86, molecules involved in antigen-specific T cell recognition. In conclusion, this first genome scan in RA Caucasian families revealed 14 candidate regions, one of which was supported further by the study of a second set of families.
...
PMID:New susceptibility locus for rheumatoid arthritis suggested by a genome-wide linkage study. 972 75
To define more clearly the roles of
CD80
(RIP-
CD80
) and CD86 (RIP-CD86) in the activation of autoreactive T cells in vivo, we generated transgenic mice expressing either or both costimulatory molecules on the beta cells of the pancreas. While RIP-
CD80
mice do not show any sign of autoimmunity, at the age of 7 mo RIP-CD86 transgenic mice develop a lymphoid infiltrate with both IFN-gamma- and IL-4-positive cells in the vicinity of the islets; these mice, however, never progress to
diabetes
. This fundamental difference in the ability of
CD80
and CD86 to activate self-reactive T cells in vivo is, however, obliterated when the level of TCR signaling is increased by either TNF-alpha or transgenic MHC class II expression. These results support the suggestion that
CD80
and CD86 mainly differ at the level of the intensity of the signals they deliver.
...
PMID:Autoimmunity without diabetes in transgenic mice expressing beta cell-specific CD86, but not CD80: parameters that trigger progression to diabetes. 972 4
Dendritic cells (DC) present Ag to naive T cells and are therefore pivotal in shaping immune responses. DC may either immunize or tolerize T cells. Humans with pancreatic islet autoimmunity at high risk for insulin-dependent
diabetes mellitus
(IDDM) present the opportunity to investigate DC in autoimmune disease. We compared DC phenotype and function in 12 euglycemic, asymptomatic IDDM relatives with islet autoimmunity and controls matched for age, sex, and MHC class II alleles. DC were generated from adherent peripheral blood cells by culture with granulocyte/macrophage-CSF and IL-4. The yield of DC was significantly lower in IDDM relatives than in controls. While the DC phenotype, HLA-DR+CD14-, was expressed by > or =90% of the cells generated from relatives and controls, the proportion of cells that expressed CD1a and the costimulator molecules
CD80
(B7-1) and CD86 (B7-2) was significantly lower in IDDM relatives. In addition, B7-1 and B7-2 expression per cell was significantly lower in IDDM relatives. These phenotypic changes were accompanied by reduced stimulation of autologous CD4 cells by DC from IDDM relatives. Similar findings were obtained in three recently diagnosed IDDM patients. These findings indicate that impairment of DC phenotype and function is a marker of islet autoimmunity and are consistent with a role for impaired DC function in the pathogenesis of autoimmune disease.
...
PMID:Impaired yield, phenotype, and function of monocyte-derived dendritic cells in humans at risk for insulin-dependent diabetes. 972 65
We evaluated two bone marrow-derived dendritic cell (DC) populations from NOD mice, the murine model for type 1 human
diabetes
. DCs derived from GM-CSF [granulocyte/macrophage colony-stimulating factor] + interleukin (IL)-4 cultures expressed high levels of major histocompatibility complex (MHC) class II, CD40,
CD80
, and CD86 molecules and were efficient stimulators of naive allogeneic T-cells. In contrast, DCs derived from GM-CSF cultures had low levels of MHC class II costimulation/activation molecules, were able to take up mannosylated bovine serum albumin more efficiently than GM + IL-4 DCs, and were poor T-cell stimulators. The two DC populations migrated to the spleen and pancreas after intravenous injection. To determine the ability of the two DC populations to modulate
diabetes
development, DCs were pulsed with a mixture of three islet antigen-derived peptides or with medium before injection into prediabetic NOD mice. Despite phenotypic and functional differences in vitro, both populations prevented in vivo
diabetes
development. Pulsing of the DCs with peptide in vitro did not significantly improve the ability of DCs to prevent disease, which suggests that DCs may process and present antigen to T-cells in vivo. In addition, we detected GAD65 peptide-specific IgG1 antibody responses in DC-treated mice. Overall, these results suggest that a Th2 response was generated in DC-treated mice. This response was optimal when using GM + IL-4 DCs, which suggests that the balance between regulatory Th2 and effector Th1 cells may have been altered in these mice.
Diabetes
1999 Dec
PMID:Immunotherapy of NOD mice with bone marrow-derived dendritic cells. 1058 Apr 17
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