UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The nonobese diabetic (NOD) mouse is a recognized model for studying immunologically-mediated insulin-dependent diabetes mellitus. The disease appears with a greater preponderance in females than in males. Castration at weaning led to a significant increase in the prevalence of diabetes in NOD males, whereas a tendency to a decreased prevalence was observed in NOD females. Castration combined with thymectomy was found to further increase the prevalence of diabetes in NOD males, whereas in females castration reversed the effect of thymectomy. These results on changes in diabetes prevalence were corroborated by the degree of lymphocytic infiltration directed toward the pancreatic islets of Langerhans. Taken together these results indicate a direct relationship between the endocrine and immune systems, whereby orchidectomy has a deleterious effect on the immunopathogenesis of diabetes. In addition, we examined whether the distribution of lymphocyte subpopulations, mitogen reactivity, lymphokine production, and in vivo response to a thymus-dependent antigen, such as sheer red blood cell, were dependent or independent of the sex steroid environment.
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PMID:Influence of castration, alone or combined with thymectomy, on the development of diabetes in the nonobese diabetic mouse. 187 78

The mechanisms contributing to the development of autoimmune insulin-dependent diabetes mellitus have been analyzed in allophenic mouse chimeras of the NOD in equilibrium with C57BL/6 strain combination (where NOD is nonobese diabetic). Occurrence of lymphoid cell infiltration (insulitis) in pancreatic islets was observed in the majority of such chimeras. The development of insulitis was found to correlate with major histocompatibility complex chimerism in lymphoid cells and in thymus cortical regions. Chimeras with more than 50% of C57BL/6 lymphoid cells rarely developed insulitis. Our data suggest that the correlation with the thymic cortical region is absolute. Thus, all individuals displaying NOD or NOD/C57BL/6 thymic cortical regions developed insulitis, whereas we have not observed insulitis in chimeras with only C57BL/6 thymic cortical regions. Thus the positive selection of T cells appears to play a crucial role in the development of insulin-dependent diabetes mellitus.
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PMID:The phenotype of lymphoid cells and thymic epithelium correlates with development of autoimmune insulitis in NOD in equilibrium with C57BL/6 allophenic chimeras. 192 97

Our data confirms previous reports of intestinal and kidney compensatory growth, low plasma 1,25(OH)2D3 and up regulation of intestinal VDRs during untreated diabetes. All of these parameters were normalized in diabetic rats treated with exogenous insulin. There were no alterations in VDR numbers in kidneys or thymus of untreated diabetic animals, indicating that up-regulation of VDRs during untreated diabetes did not occur in all vitamin D target tissues. Compensatory growth of the intestine during untreated diabetes was associated with both hypertrophy and hyperplasia, whereas diabetic kidney growth appeared to be associated with hypertrophy without hyperplasia. Diabetes did not affect somatic index of thymus. The data suggests that the up regulation of VDRs during untreated diabetes may be unique to the intestine and further that VDR up regulation may be related to hyperplasia. Calbindin D-9K was significantly lower in diabetic intestine, suggesting that low circulating 1,25(OH)2D3 prevented amplification of 1,25(OH)2D3's action despite up regulation of intestinal VDRs.
Diabetes Res 1990 Dec
PMID:Vitamin D receptors in intestine, kidney and thymus of streptozotocin diabetic rats. 196 37

Ascorbic acid (AA), dehydroascorbic acid (DHAA), and vitamin E were measured in tissues and plasma of 30 control and 30 spontaneously diabetic BioBreeding rats (BBdp) during development and before the onset of diabetes. At weaning, rats were fed an AIN-76 semisynthetic diet for 30, 64, or 113 days, after which plasma and tissues from 10 rats of each group were collected and analysed for AA, DHAA, and vitamin E. AA and DHAA levels were significantly increased in plasma and spleen of the diabetes-prone rats compared with those of the control group at 30 and 64 days, but the difference disappeared by 113 days. No differences were observed in liver, adrenals, thymus, and pancreas at any of the time periods. However, lower levels of vitamin E were observed in adrenal gland, thymus, and pancreas of the diabetes-prone rats. It is concluded that BBdp rats have an altered metabolism of AA, DHAA, and vitamin E, before the onset of diabetes. These changes could be due to genetic and physiological factors operating during development of this rat strain.
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PMID:Vitamin C and vitamin E status in the spontaneously diabetic BB rat before the onset of diabetes. 198 74

The nonobese diabetic (NOD) mouse develops an autoimmune type I diabetes, which is predominantly seen in females, is triggered by T cells, and whose frequency is enhanced following thymectomy at weaning. Attempting to characterize a thymic pathology in these animals, we analyzed the microenvironmental compartment of the organ with respect to structural and functional molecules expressed by thymic epithelial cells (TEC), as well as extracellular matrix components. We observed, in both males and females, a precocious decrease in the cell numbers of discrete medullary TEC subsets, namely, those respectively defined by the expression of cytokeratins 3/10 and cytokeratin 19. In addition, some cells bearing the TR.5 phenotype (normally restricted to the medulla) could be detected in the NOD mouse thymic cortex. There was also a significant early decrease in thymulin production in females, as compared to males. As regards the extracellular matrix compartment, the most striking alteration was the presence of abnormally enlarged perivascular spaces, increasing in size with age. In these structures large amounts of T cells and, to a lesser extent, B cells were consistently encountered. In addition to B cells, the NOD mouse thymus showed on both TEC and extracellular matrix the presence of deposits of immunoglobulins, revealed with fluorescence-labeled goat anti-mouse Ig sera. Finally, the NOD mouse sera labeled both TEC and extracellular matrix proteins on normal mouse thymus frozen sections. Together, these data clearly demonstrate that the NOD mouse thymus undergoes a variety of microenvironmental changes, whose particular role in the pathophysiology of the disease is yet to be demonstrated.
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PMID:Studies on the thymus in nonobese diabetic mouse. I. Changes in the microenvironmental compartments. 200 57

In studies of immune cell defects in autoimmune diabetes mellitus, we observed that complete Freund's adjuvant (CFA) prevented the onset of diabetes when injected into 8- to 10-wk-old prediabetic nonobese diabetic (NOD) mice. The prevalence of the onset of diabetes in the CFA-injected versus uninjected NOD mice was 2 of 81 (2.5%) vs. 231 of 379 (61%) among females and 2 of 44 (4.5%) vs. 83 of 336 (25%) among males, respectively. The incidence of histologically identifiable insulitis was significantly reduced in CFA-treated prediabetic female NOD mice (18%) compared with the incidence in female age-matched controls (70%). Splenocytes or Mac-(1+)-enriched splenocytes from CFA-treated NOD mice, when cotransferred with splenocytes from diabetic mice, reduced the incidence of diabetes provoked by diabetic splenocytes in vivo. In the spleen, CFA injection induced sustained increases in cell proliferation and an associated major increase in the numbers of an immature cell type that expressed the Mac-1 surface antigen. In CFA-treated NOD mice, lymphocytes derived from the spleen failed to respond in vitro to stimulation by the mitogen concanavalin A or by anti-CD3. When cocultured, Mac-1+ cells, enriched from the splenocytes of CFA-treated mice, suppressed concanavalin A- or anti-CD3-induced proliferation of T lymphocytes derived from either the spleen or thymus of untreated NOD mice. Therefore, treatment with CFA prevents the development of diabetes, and concomitantly, insulitis while stimulating the generation of splenic suppressor cells that are capable of suppressing diabetogenic T-lymphocyte function in vivo and in vitro.
Diabetes 1991 Jun
PMID:Prevention of insulitis and diabetes onset by treatment with complete Freund's adjuvant in NOD mice. 204 Mar 88

Self-tolerance is generally induced by intrathymic clonal deletion of T cells with reactivity directed to antigens synthesized within the thymus (Kappler et al. 1987, Kisielow et al. 1988). It may also be induced in peripheral T cells when these encounter antigens unique to extra-thymic tissues. Two transgenic models have been particularly useful in the study of peripheral self tolerance: in one model, a known antigen is expressed in a particular extra-thymic site; in the other, the T-cell repertoire is predominantly reactive to this antigen. We, and others, have shown that expression of class I or II MHC molecules in defined extra-thymic sites leads to a state of T-cell tolerance. To account for this, we have proposed two hypotheses which have different implications for autoimmune disease. According to one, tolerance is imposed by deletion or functional silencing of specific high-affinity cytolytic T cells; alternatively, the target cell for tolerance induction may be a regulatory IL-2-producing T-cell, rather than the effector cell itself. To distinguish between these hypotheses it is essential to examine the fate of T cells which have the potential to react to the transgene product. Since the frequency of such T cells is low and there is no dominant clonotype for H-2Kb, which is the class I molecule we used, it was necessary to create double transgenic mice by mating class I transgenic mice with transgenic mice whose T-cell pool was compared of cells reactive to H-2Kb and could be detected by an antibody directed to the TCR. Initial studies showed that such T cells did persist despite the presence of antigen to which they may be reactive. If these double transgenic mice can be shown to be tolerant, they will offer a rich source of tolerant T cells for detailed investigation of their phenotype and fate, and they will be most useful in enabling us to probe the mechanisms responsible for the induction of peripheral self tolerance. Transgenic mouse technology has also been used successfully to unravel the genetic influences which may lead to or prevent autoimmunity. In particular, we have prevented autoimmune diabetes in the nonobese diabetic mouse by introducing a non-NOD MHC class II gene and further work is implicating the failure of intrathymic positive selection of a protective cell as one step in the pathogenesis of diabetes in NOD mice.
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PMID:Transgenic models of T-cell self tolerance and autoimmunity. 207 27

The application of isolated pancreatic islet transplantation for treatment of diabetes mellitus has been hampered by the vulnerability of islet allografts to immunologic rejection. Rat islet allografts that were transplanted into the thymus of recipients treated with a single injection of anti-lymphocyte serum survived indefinitely. A state of donor-specific unresponsiveness was achieved that permitted survival of a second donor strain islet allograft transplanted to an extrathymic site. Maturation of T cell precursors in a thymic microenvironment that is harboring foreign alloantigen may induce the selective unresponsiveness. This model provides an approach for pancreatic islet transplantation and a potential strategy for specific modification of the peripheral immune repertoire.
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PMID:Induction of donor-specific unresponsiveness by intrathymic islet transplantation. 211 53

The thymus-dependent immune system is involved in the disease process underlying Type 1 diabetes. Several studies have thus shown the distribution of peripheral T-lymphocyte subsets to be altered in diabetics. Unlike many other autoimmune diseases which improve during pregnancy, Type 1 diabetes has a higher incidence in pregnant than in non-pregnant women. Therefore, in this study the distribution of lymphocyte subpopulations in the blood was examined in pregnant, newly diagnosed Type 1 diabetic patients and compared with values from non-pregnant patients and healthy controls. The pregnant diabetics displayed a higher percentage of CD8+ cells (28.4 +/- 1.2%) than the non-pregnant diabetics (21.6 +/- 1.3%, p less than 0.005), but did not differ from the controls (29.0 +/- 1.3%). The CD3+ and CD4+ cell distribution displayed no significant difference within the groups. Among the pregnant diabetics a positive correlation was found between the percentage of CD4+ cells and the week of pregnancy when diabetes was diagnosed (p less than 0.01). No other correlations between immunological and clinical parameters were found. Thus the subsets of immune cells are not changed in an autoimmune direction for pregnant, newly diagnosed Type 1 diabetics as they are for non-pregnant. Therefore, the increased incidence of Type 1 diabetes in pregnant women is unlikely to be due to intensified autoimmune alterations in the immune system, but rather to changes induced in the beta-cells during pregnancy as discussed.
Diabetes Res 1990 Aug
PMID:T-lymphocyte subpopulations in pregnant women with newly diagnosed type 1 diabetes. 213 92

There are a number of mechanisms which cooperate to produce and maintain T-cell tolerance. First, and perhaps most important, is the clonal deletion in the thymus of T cells with high affinity for self antigens. However, to ensure that a wide repertoire of T cells is available in the periphery to combat foreign antigens, the threshold of clonal deletion may be set low enough so that T cells whose TCR's have sub-threshold affinity for self antigens mature and migrate to the periphery. T cells which recognize self antigen-derived peptides not expressed or presented in the thymus will also fail to be deleted. For those self-reactive T cells which are not deleted in the thymus, other mechanisms may produce tolerance, including an undefined alteration of signalling pathways which produces clonal anergy, and lowering the avidity of the TCR for its ligand by downregulating coreceptor and accessory molecules. Active suppression of T-cell responses in another well-described phenomenon whose mechanism is undefined. From our observations with the model systems discussed here, we have observed three distinct mechanisms by which T-cell tolerance can be circumvented, allowing autoimmune phenomena to occur. These mechanisms may have relevance for different types of autoimmune diseases seen in humans. In gld mice, the autoimmune disease seems to be related to a global defect in T-cell differentiation and function, which allows for the expansion of autoimmune B cells. While we showed that clonal deletion of V beta-bearing T cells is appropriate in certain cases, aberrant lymphokine secretion by the abnormal T cells or disruption of immune system regulation are most probably responsible for allowing autoantibody production. While human lupus erythematosis shares much of the pathology of lpr and gld mice, there is no expansion of T cells with a similar phenotype in human lupus. There are environmental factors which must play a role in the development of human lupus, since the incidence of the disease does not follow an absolute genetic pattern. The escape from clonal deletion and subsequent reactivation of autoimmune T cells which we observed in V beta 8.1 TCR-transgenic mice can be a model for human autoimmune diseases such as multiple sclerosis and type I diabetes, in which T cells are directed against a specific autoantigen. According to this model, susceptibility loci for autoimmune disease such as the MHC would function by producing different repertoires of T cells which in some cases could gain autoreactivity following activation.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mechanisms of autoimmunity in the context of T-cell tolerance: insights from natural and transgenic animal model systems. 215 Apr 1

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