Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0011849 (diabetes)
 277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Autoimmune diabetes involves multiple antigens, and both cellular and humoral immune responses. Using CBA (H-2k) C57BL/6 (H-2b), and BALB/c (H-2d) newborn mouse pancreata, we previously demonstrated that acute and strong destruction of islet allografts by anti-islet autoimmunity in the nonobese diabetic (NOD) mouse H-2Kd, Db) is under the influence of major histocompatibility complex (MHC) antigens. In the current study, we have attempted to confirm these results in the absence of minor alloantigenic differences using B10 congenic strains as pancreatic donors. Pancreata from B10.BR (H-2k), C57BL/10SnJ (H-2b), and B10.D2 (H-2d) were transplanted under the kidney capsule of NOD mice within 1 month of diabetes onset. These recipients were immunosuppressed with cyclosporine (CsA) in a dosage that effectively prevents rejection of skin allograft, but not islet isograft destruction that is mediated by anti-islet autoimmunity. On day 10, the grafts were harvested and examined histologically to assess viability. Pancreatic allografts from B10.D2, sharing the H-2Kd with the NOD mouse, showed the strongest lymphocytic infiltration, and neither islets nor beta cells were found in all seven grafts. C57BL/10SnJ grafts, sharing the same H-2Db, also showed severe lymphocytic infiltration, and no intact islets, and only a few beta cells were found, as single cells, in three of eight grafts. In contrast, B10.BR grafts, completely incompatible at the H-2, showed the least infiltration, and normal islets containing many beta cells were found in 10 of 11 grafts. These results again suggested the hypothesis that islet allograft destruction by diabetic NOD mice is MHC restricted.(ABSTRACT TRUNCATED AT 250 WORDS)
 ...
PMID:Effect of H-2 compatibility in autoimmune destruction of islet allografts from B10 congenic lines to nonobese diabetic mice. 819 Jul 19

Many regions and loci of the murine genome contribute to the pancreatic and salivary gland autoimmunity observed in the diabetic NOD mouse. Examination of the major histocompatibility complex region of the NOD mouse has revealed a defect in the expression of the major histocompatibility complex class II gene, I-E. To determine the isolated role of faulty I-E expression in abnormal self-recognition, we examined six commonly used inbred strains of mice on diverse genetic backgrounds that also do not express I-E, i.e., C57BL/10, SJL, ACA, DBA/1, NOD, and 129. Autoimmunity was assessed by the presence of inflammatory cell infiltrates (0,+/-,+,++, , +) within and among the pancreatic islets and salivary glands, and autoantibodies to self determinants. At 6 mo of age, inflammatory infiltrates in the pancreas (0, 3 mice; +/-, 3 mice; +, 7 mice; ++, 6 mice; , 1 mouse; +, 5 mice) and/or salivary glands (0, 0 mice; +/-, 3 mice; +, 1 mouse; ++, 4 mice; , 6 mice; +, 10 mice) were detected as well as autoantibodies in all 24 mice of all I-E- mouse strains on diverse genetic backgrounds. This indicates that defective expression of this single locus, in isolation, is sufficient for the spontaneous development of autoreactivity. In contrast, the simultaneous examination of 19 I-E+ mice on five commonly used inbred strains of mice (BALB/c, C67/KsJ, B10.BR, B10.A [2R], and B10.A [5R]) demonstrated no signs of humoral or cellular autoimmunity with target gland destruction or lymphocytic invasion. Our data suggest that many commonly used inbred strains of mice represent models of autoimmunity attributable to this single defective gene.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1993 Aug
PMID:Faulty major histocompatibility complex class II I-E expression is associated with autoimmunity in diverse strains of mice. Autoantibodies, insulitis, and sialadenitis. 832 48

We herein report that anti-cardiolipin antibodies (ACA) were detected in AKR/J mice treated with multiple low doses of streptozocin (STZ)-induced insulitis and diabetes. Daily intraperitoneal (i.p.) injections of 40 mg/kg body wt. of STZ for five consecutive days in the AKR/J mice resulted in hyperglycemia and mononuclear cell infiltrations of islets (insulitis). ACA appeared on day 14, when hyperglycemia began to occur, at a rate of 13.3% (4/30). The rate increased to 83.3% (25/30) on day 21, when diabetes developed, and then fell to 10% (3/30) on day 28. Neither the diabetic AKR/J mice treated with a single high dose of STZ (200 mg/kg body wt.) nor the non-diabetic insulitis free Balb/c mice and B10.S(9R) mice treated with multiple low doses of STZ (40 mg/kg body wt.) produced ACA. The IgG subclass of the ACA belonged mainly to IgG2a. These findings suggest that ACA are produced in association with the development of insulitis, but not induced by either hyperglycemia or STZ.
Diabetes Res Clin Pract 1993 Apr
PMID:Production of anti-cardiolipin antibody in AKR/J mice with streptozocin-induced insulitis and diabetes. 801 65

Congenic B10.BR/SgSnJ H-2kTlaa mice were infected with a diabetogenic strain of coxsackievirus CB4 to correlate abnormalities of sugar metabolism with virus replication in islets, 64,000-M(r) (64K) islet autoantigen expression, 64K antibody development, and pancreas histopathology in early and late infection. Plaque assay was used to measure virus replication, whereas immunoprecipitation of the mouse islet extracts with 64K antibody-positive and -negative human sera measured autoantigen expression and antibody development. The infected mice exhibited blood glucose values below that of the noninfected control animals at 72 h postinfection, this subnormal blood glucose persisted at 6 wk postinfection and later. A baseline expression of the autoantigen was detected in the noninfected mice; however, the infected animals did not overexpress the protein at 72 h postinfection or develop 64K antibodies after infection. Limited virus replication was detected in the islets at 72 h postinfection but not later. Acinar necrosis, but not islet loss due to mononuclear cell infiltration, was evident in the infected mice. The congenic mice did not develop hyperglycemia and appear to be diabetes-resistant, their beta cells were largely preserved. This may be due to limited virus replication in their islets or their failure to overexpress the autoantigen and develop 64K antibodies following the infection. Diabetes-susceptible mice, on the contrary, support active virus replication in their islets, overexpress the autoantigen at 72 h postinfection, and develop 64K antibodies and hyperglycemia following such infection (Gerling et al., 1988, 1991).
 ...
PMID:Lack of 64,000-M(r) islet autoantigen overexpression and antibody development following coxsackievirus B4 infection in diabetes-resistant mice. 839 90

Insulin-dependent diabetes (IDD) in the nonobese diabetic (NOD) mouse is believed to result from the specific autoimmune destruction of pancreatic beta cells. The frequency of diabetes in the NOD mouse is sex-dependent, with approximately 90% of females and 40% of males developing clinical diabetes by 40 weeks of age. Recently, attention has focused on determining possible mechanisms for beta cell destruction. One potential mechanism is the toxic effect of free oxygen radicals produced as a result of the influx of inflammatory cells into the pancreas. A deficiency in available antioxidant enzymes could form a basis for diabetes susceptibility. To test the feasibility of this idea, we have compared the activities of superoxide dismutase, catalase, glutathione peroxidase, and glutathione reductase in isolated islets, pancreas, and other tissues of age- and sex-matched NOD, BALB/c, C57BL/10, and B10.GD mice. Enzyme profiles revealed that female NOD mice do not differ significantly in antioxidant enzyme activity from females of the other inbred strains. However, antioxidant enzyme activity in females was generally lower than in males regardless of mouse strain. While isolated islet cells exhibited somewhat lower levels of enzyme activity than other tissues, the islets of NOD mice proved to be no more deficient than those of BALB/c mice. Therefore, it is unlikely that any toxic effect of free oxygen radicals on the beta cells of NOD mice results directly or solely from an antioxidant enzyme deficiency. Nevertheless, one possible explanation for the lower incidence of diabetes in NOD males versus females may be the inherently higher male antioxidant enzyme activities.
 ...
PMID:Antioxidant enzyme activities in IDD-prone and IDD-resistant mice: a comparative study. 846 25

Evidence in experimental models suggests that many autoimmune diseases can be prevented by transplantation of bone marrow from disease-resistant donors. For potential clinical application, it would be important to avoid the morbidity and mortality associated with lethal conditioning and achieve mixed chimerism using less than complete recipient ablation. We report here for the first time that stable chimerism achieved in NOD mice using a sublethal radiation-based conditioning approach is sufficient to prevent beta-cell destruction and abrogate insulitis in prediabetic NOD mice. The percentage of NOD mouse recipients (8 wk of age) that engrafted with donor bone marrow correlated with the dose of irradiation and number of bone marrow cells transplanted. Engraftment of B10.BR bone marrow occurred in > or = 94% of animals receiving > or = 750 cGy of total body irradiation before bone marrow transplantation and > or = 30 x 10(6) bone marrow cells, while reproducible engraftment did not occur at radiation doses of less than 700 cGy and cellular doses of less than 30 x 10(6) bone marrow cells. All chimeric animals remained free of diabetes (n = 38) for 10 mo following bone marrow transplantation. Moreover, in all animals examined, no insulitis was present from 12 to 36 wk following reconstitution. In striking contrast, 61% (22 of 36) of NOD recipients that were conditioned but did not receive bone marrow developed acute diabetes by 12 mo. Insulitis was present in all remaining animals. These results suggest that allogeneic chimerism achieved using a sublethal conditioning approach can prevent the onset of diabetes and even reverse preexisting insulitis in NOD mice.
 ...
PMID:Mixed allogeneic chimerism induced by a sublethal approach prevents autoimmune diabetes and reverses insulitis in nonobese diabetic (NOD) mice. 859 88

Contrary to expectations based on in vitro experiments, we previously found that pancreatic IL-10 did not inhibit autoimmune diabetes but accelerated it in an MHC-dependent manner. Therefore, the ability of IL-10 to overcome the absence of all non-MHC diabetes susceptibility (Idd) alleles was studied in transgenic mice expressing pancreatic IL-10 backcrossed to B10.H2g7 congenic mice, which have no Idd alleles other than NOD MHC (H2g7). IL-10 transgenic backcross 1 (BC1) mice with H2g7/g7 haplotype developed clear-cut insulitis and diabetes, but neither transgenic mice with the H2g/b haplotype nor nontransgenic BC1 mice did so. Further implicating IL-10 in autoimmune diabetes, anti-IL-10 antibody treatment inhibited the development of insulitis in NOD mice. These results suggest that IL-10 may be necessary and sufficient for producing autoimmune diabetes in conjunction with NOD MHC homozygosity and that some Idd genes may be related to the regulation of IL-10.
 ...
PMID:IL-10 is necessary and sufficient for autoimmune diabetes in conjunction with NOD MHC homozygosity. 867 87

Multiple sclerosis (MS) is a chronic demyelinating disease of the human central nervous system (CNS) which can be characterized clinically by a remitting-relapsing or a chronic progressive course. There is a striking similarity between the clinical and histopathological features of MS and the experimentally induced disease, experimental autoimmune encephalomyelitis (EAE). Induced by the injection of myelin basic protein (MBP) and adjuvants, EAE is characterized by clinical neurologic signs of paralysis and histopathologic changes consisting of perivascular mononuclear infiltration and demyelination. We have reported that the oral administration of MBP exerts a profoundly suppressive effect on EAE induced in the Lewis rat. This MBP-induced oral tolerance is characterized by an inhibition of EAE clinical neurologic signs, reduced CNS histopathologic changes, a profound decrease in the T-lymphocyte proliferative response specific for the fed antigen, and a decrease in serum antibody specific for MBP. In a chronic relapsing model of EAE in the B10.PL mouse, we have shown that the oral administration of MBP either prior to MBP challenge or on the first day of clinical signs results in a decreased number and severity of EAE relapses. The oral tolerance approach has also proven effective in the suppression of other organ-specific autoimmune diseases including collagen-induced arthritis, adjuvant arthritis, uveoretinitis, experimental myasthenia gravis, diabetes, and thyroiditis as well as graft rejection. Two primary mechanisms have been proposed to explain oral tolerance in EAE-active suppression following feeding of lower doses of antigen and clonal anergy or deletion following administration of higher doses. In vivo approaches in rats and transgenic mice have been used to further explore the mechanisms underlying oral tolerance. Administration of recombinant interleukin (IL)-2 was shown to reverse the tolerance induced by feeding low doses of MBP, but not the tolerance induced by feeding high doses of MBP, indicating that deletion had occurred in the high-dose group. Moreover, the oral administration of MBP to MBP-specific T-cell receptor (TCR) transgenic mice resulted in a profound decrease of the transgenic T cells in the blood, lymph node cells (LNC), mesenteric LNC, and spleen compartments. The proliferative response to MBP was also profoundly reduced in these organs, indicating that the cells had been deleted from these sites. The results achieved in animal models have led to clinical trials of oral tolerization in three human autoimmune diseases--MS, uveoretinitis, and rheumatoid arthritis--with promising results.
 ...
PMID:Treatment of autoimmune disease by oral tolerance to autoantigens. 881 Oct 61

Rat myoblast primary cultures were tested as a model for proinsulin synthesis and processing and unregulated insulin delivery for insulin-dependent diabetes mellitus (IDDM) gene therapy. Three human proinsulin cDNA constructs containing genetically engineered furin endoprotease cleavage sites between the B-chain and C-peptide (IFur) and between the C-peptide and A-chain (IIFur) and/or containing a histidine B10 to aspartic acid point mutation were subcloned into a mammalian expression vector (pCMV) containing the cytomegalovirus (CMV) promoter. The altered cleavage sites enable the insulin to be processed by the ubiquitous endoprotease furin. The histidine B10 to aspartic acid mutation creates a more stable form of insulin leading to an increase in insulin accumulation. Myoblasts transfected with a proinsulin cDNA construct mutated at all three sites (pCMV.IFur.IIFur.B10), a construct with only the furin sites (pCMV.IFur.IIFur), and a construct containing only the mutation at the B10 position (pCMV.B10) accumulated 852 +/- 16, 150 +/- 13, and 883 +/- 39 microU (pro)insulin/ml, respectively, in the culture medium during a 48-hr incubation. (Pro)insulin was detected in the culture medium within 2 hr post-transfection. Significant (pro)insulin release continued for 1 week and gradually diminished over a month. Approximately 50% of the proinsulin released from rat myoblasts transfected with pCMV.IFur.IIFur.B10 was completely processed into mature insulin based on densitometric analysis of autoradiographs of gels containing immunoprecipitated 35S-Cys-labeled (pro)insulin. However, only a trace of the proinsulin encoded by pCMV.B10 was processed. In an isolated rat adipocyte [14C]glucose oxidation assay, insulin released from myoblasts transfected with pCMV.IFur.IIFur.B10 was active biologically, displaying more biological activity than normal human insulin. Plasmid expression was studied by transfecting myoblasts with the beta-galactosidase (beta-Gal) gene in pCMV, allowing them to divide and fuse into multinucleated myotubes, followed by staining for beta-Gal. Approximately 80% of myotubes expressed beta-Gal. The results indicate that proinsulin encoded by genetically modified proinsulin cDNA is processed into mature insulin, which is secreted at high levels, making myoblasts a viable target cell for gene therapy of IDDM.
 ...
PMID:Synthesis and processing of genetically modified human proinsulin by rat myoblast primary cultures. 882 70

Excess iodine ingestion has been implicated in induction and exacerbation of autoimmune thyroiditis in human populations and animal models. We studied the time course and sex-related differences in iodine-induced autoimmune thyroiditis in NOD-H-2h4 mice. This strain, derived from a cross of NOD with B10.A(4R), spontaneously develops autoimmune thyroiditis but not diabetes. NOD-H-2h4 mice were given either plain water or water with 0.05% iodine for 8 weeks. Approximately 54% of female and 70% of male iodine-treated mice developed thyroid lesions, whereas only 1 of 20 control animals had thyroiditis at this time. Levels of serum thyroxin (T4) were similar in the treatment and control groups. Thyroglobulin-specific antibodies were present in the iodine-treated group after 8 weeks of treatment but antibodies to thyroid peroxidase were not apparent in the serum of any of the animals. Levels of thyroglobulin antibodies increased throughout the 8-week iodine ingestion period; however, no correlation was seen between the levels of total thyroglobulin antibodies and the degree of thyroid infiltration at the time of autopsy. The thyroglobulin antibodies consisted primarily of IgG2a, IgG2b, and IgM antibodies with no detectable IgA, IgG1, or IgG3 thyroglobulin-specific antibodies. The presence of IgG2b thyroglobulin-specific antibodies correlated well with the presence of thyroid lesions.
 ...
PMID:Iodine-induced autoimmune thyroiditis in NOD-H-2h4 mice. 893 7


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>