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)

Male and female, arteriosclerotic (breeder) and nonarteriosclerotic (virgin), Sprague-Dawley rats were made severely diabetic with alloxan. Two weeks later experimental animals had both carotid arteries ligated to induce a state of acute cerebral ischemia. After six weeks of cerebral ischemia either with or without severe diabetes the animals were killed. Animals which survived either the acute induction of diabetes or cerebral ischemia did not manifest any new episodes of cerebral ischemia. Subjects with combined diabetes and cerebral ischemia manifested the greatest loss in body weight, adrenal hypertrophy and thymus gland involution, increased levels of serum CPK and SGOT, but decreased SGPT and LDH, hyperglycemia and hypertriglyceridemia, and the most extensive cerebral edema. It is suggested that diabetic rats may have a greater predilection toward cerebrovascular accidents because the diabetic state contributes not only to an exacerbation of atherosclerosis, but also complicates any condition of cerebrovascular ischemia by creating extracerebral edema.
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PMID:Chronic diabetes followed by chronic cerebral ischemia induced by bilateral carotid artery ligation in arteriosclerotic versus nonarteriosclerotic rats. 117 43

Young, adult, female Sprague-Dawley rats were fasted for 18 h and then given a single s.c. injection of alloxan (10 mg/100 g body weight) which promptly induced a severe state of diabetes. The animals were killed at frequent time intervals during the 7-day study period in order to record the dynamic changes in their capacity for adrenal steroidogenesis and secretion as measured by fluorometric determination of their circulating corticosterone (Cmpd B) levels as well as by thin layer chromatographic identification of cortical lipid moieties used for steroidogenesis. In addition to severe polydypsia, polyuria and polyphagia, these animals manifested super-normal glucose, triglycerides, free fatty acids and cholesterol in their blood, severe hepatic steatosis, adrenal hyperplasia with lipid depletion from the mineralocorticoid producing z. glomerulosa, thymus gland involution and complete degranulation of their insulin producing islet beta cells. Despite an initial high output of Cmpd B and despite progressive cortical hyperplasia, the serum Cmpd B levels became reduced and many of the animals succumbed suddenly, due most likely to inadequate adrenocortical steroidogenesis. Adrenocortical lipids showed a progressive accumulation of free fatty acids, di- and triglycerides, suggesting that some lipid enzymatic defect could be responsible for the lack of conversion of these lipid entities essential for proper steroidogenesis.
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PMID:Adrenal glandular lipids and circulating corticosterone in severely diabetic rats. 117 54

Male and female, arteriosclerotic and nonarteriosclerotic rats were subjected to acute myocardial infarction by two, subcutaneous injections (spaced 24 hr apart) of isoproterenol. During the immediate postinfarct repair phase all of the experimental animals were made severely diabetic with alloxan. Two weeks later the animals were sacrificed and their blood and pertinent organs analyzed for biochemical and pathologic changes. Females survived the myocardial infarct with superimposed diabetes in significantly greater than males. In addition to marked loss in body weight all of the experimental animals developed marked adrenal hypertrophy and thymus gland involution, cardiac hypertrophy, and unusual increase in ovarian or testicular size and weight. The combined conditions of myocardial infarction + diabetes led to substantial increases in serum creatine phosphokinase (CPK) and glutamic oxaloacetic transaminase (SGOT) whereas the enzymes glutamic pyruvic transaminase (SGPT) and lactic dehydrogenase (LDH) were reduced. Although serum triglyceride levels were greatly elevated, total cholesterol and free fatty acids were reduced. All of the animals were severely hyperglycemic and had greatly increased B.U.N. levels. Diabetes caused hypercalcemia but diabetes + myocardial infarction was associated with a definite reduction of this hypercalcemia. Despite marked adrenal hypertrophy, circulating Cmpd. B levels were subnormal. The diabetic condition and its attendant hyperlipidemia did not alter the morphologic nature of the arterial lesions in the breeder rats but the diabetes did cause definite impairment of the usual myocardial repair process observed in these rats with a particularly high incidence of left ventricular aneurysms in males.
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PMID:Metabolic and histopathologic changes in arteriosclerotic versus nonarteriosclerotic rats following isoproterenol-induced myocardial infarction with superimposed diabetes. 119 29

Diabetogenic Coxsackievirus B4 infection may trigger autoimmune islet loss in diabetes-susceptible mice, resulting in hyperglycemia in nearly 90% of the animals at 6-8 weeks postinfection (p.i.). To ascertain whether changes in lymphocyte repertoire following infection could predispose these animals to diabetes, alterations in their thymic, splenic, and peripheral lymphocytes were analyzed. Additionally, lymphocyte changes were correlated with the virus load in these tissues and with lymphocyte migration to the inflammatory pancreas. Splenic B lymphocytes more than doubled at 72 hr p.i. and then continuously decreased by 16% of the noninfected controls at 8 weeks p.i. T lymphocytes (CD4+ + CD8+) decreased by about 50% at 72 hr and then increased to the control level by 8 weeks p.i.; CD8+ subset continuously decreased by 40% of the control at 8 weeks, resulting in a 67% increase in CD4+/CD8+ ratio. Macrophages and CD5+ B subset increased at 72 hr and then dipped by 93% and 84%, respectively, at 8 weeks. In contrast, peripheral B lymphocytes increased by 74% and T lymphocytes decreased by 11% at 8 weeks p.i. Macrophages increased by twofold at 72 hr and then dipped slightly (6%) at 8 weeks, whereas CD5+ B subset increased by 245%. Most prominent thymic T lymphocyte alteration was reflected by about 150% increase in CD4- CD8- cells at 8 weeks p.i. The peak viremia occurred at 72 hr p.i., with highest and lowest virus in the spleen and thymus, respectively. The thymus cleared virus by 3 days, the other tissues by 7 days. Insulitis and acinar necrosis followed infection; infiltrating lymphocytes were mostly CD4+. Virus-induced abnormal lymphocyte maturation may contribute to the development of insulitis and hyperglycemia.
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PMID:Coxsackievirus B4 infection alters thymic, splenic, and peripheral lymphocyte repertoire preceding onset of hyperglycemia in mice. 133 27

Endogeneous retroviral expression in beta cells is a feature of prediabetes in nonobese diabetic (NOD) mice. The purpose of this study was to characterize the class-specific pattern of retroviral gene expression in NOD/Lt beta cells versus a related, but diabetes-resistant strain, NON/Lt. Electron microscopic comparison of beta cells from both strains indicated low constitutive expression of the intracisternal type A (IAP) retroviral class. However, NOD beta cells, in contrast to NON beta cells, expressed an additional intracisternal retroviral form resembling a type C particle. Antibodies against both IAP and type C were detected in NOD, with the humoral response to type C, but not IAP, preceding decline in beta cell function. RNA was extracted from freshly isolated islets from NOD and NON males. Comparative Northern blot analysis of total type C retroviral gene expression using a gag-pol DNA probe corroborated expression of endogenous type C proviruses in both NOD and NON islet cells and thymus. Use of class-specific retroviral probes identified the class of expressed endogenous retrovirus distinguishing the two inbred strains. The single ecotropic provirus present in both the NOD and NON genome (Emv-30) was not expressed in islets or thymus of either strain. Comparison of endogenous xenotropic provirus content by Southern blot analysis revealed two unique xenotropic loci (Xmv-65, -66) in NOD; 8.4 and 3.0 kb xenotropic envelope (env) RNA transcripts were detected in NOD, but not NON islets and thymus. NON contained three xenotropic loci common to other inbred strains (Xmv-21, -25, and -28). Both strains were partially characterized for content of recombinant (polytropic and modified polytropic) proviruses. IAP RNA expression was common to both NOD and NON islets and hence could not be specifically associated with the unique intracisternal type C particle found in NOD, but not NON beta cells. In conclusion, this study shows that expression of xenotropic type C but not IAP distinguishes retroviral activity in NOD/Lt versus NON/Lt beta cells. The potential pathogenic role of retroviral gene expression in NOD beta cells is discussed.
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PMID:Beta cell expression of endogenous xenotropic retrovirus distinguishes diabetes-susceptible NOD/Lt from resistant NON/Lt mice. 136 92

Homozygosity for the severe combined immunodeficiency (scid) mutation results in a block in T- and B-lymphocyte development. An unusually high incidence of spontaneous thymic lymphoma development was observed after transfer of this mutation from the C.B-17 congenic strain background onto the diabetes-susceptible nonobese diabetic (NOD) background. Thymomagenesis in the NOD-scid/scid mouse was associated with expression of an NOD mouse-unique endogenous ecotropic murine leukemia provirus locus (Emv-30, mapped to proximal region of chromosome 11) not expressed in the standard substrain NOD/Lt thymus. All tumors exhibited insertions of ecotropic proviruses, whereas only a subset also exhibited proviral integrations of mink cell focus-forming retrovirus. Neither class of retrovirus was associated with consistent integration into genes previously associated with activation of oncogenesis. We propose that the unusual features of T-cell ontogeny characteristic of the NOD inbred strain synergize with the scid-imparted block in thymocyte development, leading to activation of the NOD-unique Emv-30 to initiate thymomagenesis.
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PMID:The nonobese diabetic scid mouse: model for spontaneous thymomagenesis associated with immunodeficiency. 137 93

Several features of the genetics and immunopathology of diabetes in the nonobese diabetic (NOD) mouse, which spontaneously develops type I diabetes, are shared with the human disease. Immunohistochemical studies support the concept that T lymphocytes are the major components of inflammatory cells in the pancreatic islets and these cells may play a critical role in the destruction of the beta cells leading to diabetes. Therefore, we examined whether particular TCR-beta variable region genes were utilized by in situ islet T cells at different stages (4 - 5, 7, 14 - 15 and 16 weeks of age) of the disease process. Dot-blot hybridization was performed using RNA prepared from isolated islets, thymus, spleen, peripheral blood leukocytes and axillary lymph nodes of 10 to 15 mice pooled for each data point. Ten different TCR V-beta probes were used for the analyses. Limited usage of islet V-beta genes was observed only at the early prediabetic stage (4 - 5 weeks old) of the disease. At later stages of the disease (7 - 16 weeks old), no preferential usage of TCR genes was observed in the islets compared to those of peripheral lymphoid organs. These data suggest that only certain types of T cells bearing particular TCR V-beta genes may be responsible for initiating and perpetuating infiltration of immune cells into the islets and these particular T cells are only identified at the very early stages of the autoimmune process.
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PMID:In situ islet T cell receptor variable region gene usage in the nonobese diabetic mouse. 137 82

Non-obese diabetic (NOD) mice injected with CD3 antibody as newborns have a reduced incidence of diabetes, raising the possibility that the neonatal injection caused a long-lasting change in circulating T cells. The present study shows that NOD and BALB/c mice injected with soluble CD3 antibody in the first 2 days of life sustained an 80-95% reduction in the number of circulating T cells lasting for 2-3 weeks, with T cells returning after 4 weeks, and reaching control values after 6 weeks. The T cells which appeared in intact mice 4-6 weeks after injection showed no excess of T-cell receptor (TcR) delta expressing cells. They had a similar distribution into CD4 and CD8 subsets as uninjected controls, and a similar usage and cell surface expression of four T-cell receptor V beta families. Labelled CD3 antibody was detected in the serum for up to 2 weeks after injection into neonates and was enriched in the thymus. Adoptively transferred T cells continued to be cleared from the circulation for 4 weeks following antibody injection. The properties of T cells which had been exposed to CD3 neonatally were investigated in animals who were first injected with CD3 antibody and then thymectomized. These animals had reduced numbers of T cells at 12 weeks of age. The surviving T cells showed a Ca2+ flux when stimulated but their proliferation in response to concanavalin A (Con A) was reduced, even in the presence of irradiated accessory cells or T-cell supernatant co-stimulator factors. Although the representation of four different V beta families was the same as in the uninjected controls, the density of expression of the T-cell receptor was reduced. The data indicate that the limited number of T cells which survive the injection are functionally deficient and that an intact thymus is required for full T-cell repopulation following neonatal CD3 injection into NOD mice.
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PMID:T-cell repopulation following neonatal injection of non-obese diabetic (NOD) mice with anti-T-cell antibodies. 138 96

The development of T cell tolerance to self-antigens is imparted principally through negative selection events during thymic ontogeny. However, this tolerance may be limited to antigens that are expressed in the thymus, and additional mechanisms are probably required to regulate autoimmune responses to tissue-specific antigens. Autoimmune diabetes can be induced experimentally by treating susceptible stains of mice with multiple low doses of streptozotocin (STZ). In this report we show that transplantation of isolated islets of Langerhans into the thymuses of adult C57BL/KsJ mice will induce tolerance to the subsequent induction of autoimmune diabetes. This tolerance is tissue specific and thymus dependent. It was not induced by thymic transfer of adrenal tissue or by kidney transfer of islets. Furthermore, depletion of mature T cells was required and the tolerant state was abrogated by the adoptive transfer of normal splenocytes. It is interesting that pretreatment of the islets with STZ enhanced their ability to induce tolerance, and suggests that antigen shedding induced by tissue damage may facilitate transfer of islet antigens to tolerizing cells in the thymus. These findings indicate that thymic tolerance specific for tissue can be stimulated to occur in the presence of atopic tissue-specific intrathymic antigens. Elimination of disease-related T cells in the absence of global immunosuppression represents a novel approach for the prevention of autoimmune disease.
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PMID:Induction of tolerance to autoimmune diabetes with islet antigens. 140 56

During cell differentiation in the thymus, self-reactive T cells can be generated. The majority of these seem to be deleted after intrathymic encounter with the relevant autoantigen. As all self antigens are unlikely to be present in the thymus, some autoreactive T cells may escape censorship. Here we study the fate of these cells using transgenic mice expressing the class I molecule H-2Kb (Kb) in the insulin-producing beta-cells of the pancreas. These mice were crossed with mice transgenic for genes encoding a Kb-specific T-cell antigen receptor (TCR) which could be detected using a clonotype-specific monoclonal antibody. Although T cells expressing the highest level of transgenic TCR were deleted intrathymically in double-transgenic mice, Kb-specific T cells were detected in the periphery. These cells caused the rejection of Kb-expressing skin grafts, but ignored islet Kb antigens even after priming. But when double-transgenic mice were crossed with transgenic mice expressing the lymphokine interleukin-2 in the pancreatic beta-cells, there was a rapid onset of diabetes. These results indicate that autoreactive T cells that ignore self antigens may cause autoimmune diabetes when provided with exogenous 'help' in the form of interleukin-2.
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PMID:Autoimmune diabetes as a consequence of locally produced interleukin-2. 140 74

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