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Query: UMLS:C0751781 (NOD)
 6,696 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In insulin dependent diabetes mellitis (IDDM) beta cell destruction is associated with infiltration of the pancreatic islets by T lymphocytes and macrophages. Cytokine products from the infiltrating immunocytes not only have powerful immunoregulatory actions but also are capable of impairing islet cell functions and have thus been postulated to assume a central role in mediating anti-beta cell immunity and beta cell destruction. In an effort to explore further the role of cytokines in the pathogenesis of IDDM, we examined clinical, metabolic and pathological features of NOD/Wehi mice injected intraperitoneally with multiple doses of IFN-gamma and/or TNF-alpha. Blood glucose profiles were not significantly altered by injection of cytokines alone or in combination. Except for a hypoglycaemic rebound in mice injected with TNF-alpha, arginine stimulation tests revealed no disturbances in islet secretory function in cytokine injected mice. Compared with vehicle and cytokines alone, injection of IFN-gamma + TNF-alpha was associated with a variety of clinical and pathological changes including abdominal distention, piloerection, ascites, oedema, thymic atrophy, splenic enlargement and pancreatic distention. Histological examination of the pancreas in these mice revealed moderate to severe pancreatitis which included focal haemorrhagic necrosis, oedema and polymorphonuclear and mononuclear cell infiltration. The islets in these mice appeared normal morphologically and when stained for insulin. The injection of IFN-gamma + TNF-alpha, and to a lesser extent TNF-alpha alone, was associated with a significant reduction in the severity of insulitis. Examination of pancreatic MHC-class I and class II molecule expression revealed in mice given IFN-gamma + TNF-alpha, as compared with controls, significant and uniform induction of both these molecules on ductal and acinar cells; low level MHC-class II expression was also detectable on beta cells in these mice. MHC-class I molecules which were expressed at high levels by beta cells in control mice did not appear to change following administration of the cytokines alone or in combination. We conclude that despite their immunostimulatory actions in vitro and in other models in vivo, systemic administration of the cytokines IFN-gamma and/or TNF-alpha to NOD/Wehi mice does not activate or enhance, and may actually suppress, anti-beta cell immunity in this model.
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PMID:Reduction in insulitis following administration of IFN-gamma and TNF-alpha in the NOD mouse. 190 36

Autoimmunity (AI) exemplifies the potent and destructive activity expressed by the immune system when normal constraints against self-reactivity are lost or compromised. We have previously described a dramatic and intrinsic defect in cytokine expression in macrophages (M phi) from young AI-prone mice [1-3]. There are two points in particular that we believe speak to the importance of this observation: (i) Cytokine dysregulation is distinguished from many of the aberrancies reported in AI-prone mouse strains in that, as an inherent trait, it cannot arise as a consequence of the disease process. (ii) This defect is a remarkably consistent characteristic of M phi from strains that develop manifestations of systemic AI, including MRL/+, NZB, NZB/W F1, BXSB, and NOD, and distinguishes these strains from mice whose disease is predicated on defects in apoptosis (e.g., the lpr and gld mutations). The multigenic basis for disease and renal pathology in the former strains more closely mirror human lupus than do the disease manifestations of lpr and gld mice. In light of clear evidence that cytokines are key mediators of lymphocyte growth and function, a defect in the cytokine network has the potential to disrupt the normal regulation of self-reactivity, leading to the initiation of systemic AI.
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PMID:Cytokine dysregulation and the initiation of systemic autoimmunity. 773 85

The cytokines, interleukin 1, tumour necrosis factor, and interferon gamma are cytotoxic to islet beta cells, however, their mechanisms of beta-cell killing are not fully characterized. Since DNA damage is a mechanism of cytokine-induced cell death in some cell types, we sought evidence for cytotoxic effects of cytokines at a nuclear level in islet beta cells by measuring DNA fragmentation in rat islets and islet beta-cell lines. The individual cytokines, interleukin 1 (10 U/ml), tumour recrosis factor (10(3) U/ml) and interferon gamma (10(3) U/ml) inhibited insulin release from rat islets, but did not cause DNA fragmentation or destroy islet cells; by contrast, combination of the three cytokines induced DNA fragmentation and islet-cell death. Cytokine-induced DNA fragmentation preceded cell lysis in islet beta-cell lines (RINm5F, rat insulinoma cells; and NIT-1, NOD/Lt mouse transgenic beta cells), whereas in non-islet cell lines (GH-3, rat pituitary; and PC-12, rat adrenal) the cytokines induced cell lysis and no or late DNA fragmentation. Nicotinamide prevented both DNA fragmentation and destruction of RINm5F islet cells by the cytokines. These findings identify DNA as an early target of cytokine action in islet beta cells, and implicate DNA fragmentation as a mechanism of cytokine-induced beta-cell destruction.
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PMID:DNA fragmentation is an early event in cytokine-induced islet beta-cell destruction. 798 73

Cells infiltrating the Langerhans' islets of prediabetic NOD females were isolated from 6 weeks to 6 months of age. These cells were assayed at a single-cell level for production of eight different cytokines by intracellular immunofluorescent staining. By in vitro stimulation with PMA and ionomycin for 4 hours the method is enhanced also to detect in vivo preactivated cells. During the early phase of insulitis from 6 to 12 weeks of age, mainly the monokines IL-1 alpha, IL-6, and TNF were detected. After stimulation, also IFN-gamma and low numbers of IL-10 and GM-CSF producing cells could be observed, but no IL-2 or IL-4 was seen. This cytokine pattern correlates with an increasing insulitis, and we suggest that these cytokines are important in attracting inflammatory cells to the islets, and may cause initial beta-cell destruction. During a later phase, between 4 and 6 months, there is a characteristic TH1 cytokine profile with production of IL-2 and IFN-gamma occurring after stimulation, as well as lymphocytes producing TNF, supposedly TNF-beta. During this period IL-10 was very rarely observed, and no IL-4 production could be found throughout the study. This indicates the absence of a TH2 cytokine profile in this lesion. In addition IL-6 production occurs in high frequencies at all ages, also in endocrine islet cells. We interpret this as a stress response caused by the inflammatory lesion. Our findings show that the effector phase in NOD insulitis is TH1 rather than TH2 mediated. We also demonstrate that cytokines, that may cause initial tissue destruction, are produced during the recruitment of inflammatory cells.
Cytokine 1995 Nov
PMID:Demonstration of a TH1 cytokine profile in the late phase of NOD insulitis. 866 48

In isologous islet transplantation in spontaneously diabetic nonobese (NOD) mice, destruction of the islet graft is caused by recurrence of T helper (Th)1-driven insulitis[fnc,1. We established a model of transplantation in which female NOD recipients were rendered diabetic by a single injection of cyclophosphamide (250 mg/kg). Under these conditions, 500 freshly isolated islets from young NOD mice transplanted under the kidney capsule did not lead to normoglycemia within 3 day after transplantation, but underwent immediate impairment of function. This primary nonfunction was seen in > 80% of the recipients. Treatment of the recipients with the Th2-associated cytokine interleukin (IL)-4 alone did not prevent primary nonfunction, whereas treatment of the recipients with a combination of IL-4 and IL-10 restored immediate function of the grafts. Cytokine treatment did not prevent later rejection of grafts. Histological analysis of the grafts revealed less severely infiltrated islets, with well preserved islet architecture, in only normoglycemic animals treated with IL-4 or with IL-4 and IL-10. Staining for lymphocytes, macrophages, and tumor necrosis factor (TNF)-alpha did not show differences between the groups, but IFN-gamma was markedly less expressed in IL-4- and IL-10-treated grafts. Concomitantly, analysis of animals treated for 8 days after injection of cyclophosphamide, with IL-4 and IL-10, revealed a reduction of IL-12 mRNA in the pancreas. We conclude from these data that primary nonfunction of islet grafts is prevented by treatment of the recipients with a combination of IL-4 and IL-10, via downregulation of Th1 cytokines.
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PMID:Primary nonfunction of islet grafts in autoimmune diabetic nonobese diabetic mice is prevented by treatment with interleukin-4 and interleukin-10. 883 Aug 31

T cells from NOD mice display an age-dependent, TCR-inducible proliferative hyporesponsiveness that may be causal to IDDM. Exogenous IL-4 completely restores this hyporesponsiveness in vitro and prevents IDDM in vivo when administered to NOD mice. We therefore tested the hypothesis that stimulation of a Th2 response by either IL-4 or CD28 costimulation may block progression to IDDM. Low-dose IL-4 treatment beginning at 2 weeks of age (pre-insulitis) protects NOD mice from insulitis, sialitis, and thyroiditis, indicating that IL-4 modulates T cell migration to these inflammatory sites. Cytokine secretion profiles of stimulated T cells and assays of intrapancreatic cytokine concentrations revealed that IL-4 treatment prevents IDDM by stabilizing a protective Th2-mediated environment in the thymus, spleen, and pancreatic islets. Whereas treatment of NOD mice with an anti-CD28 mAb between 2 to 4 weeks of age inhibits destructive insulitis and protects against IDDM by enhancing IL-4 production by T cells, anti-CD28 treatment between 5 to 7 weeks of age does not prevent IDDM. Simultaneous anti-IL-4 treatment abrogates the protective effect conferred by anti-CD28 treatment. Our data demonstrate that stimulation of a Th2-cell-enriched environment in the pancreas during the inductive phase of disease development blocks progression to IDDM in NOD mice.
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PMID:Cytokine- and costimulation-mediated therapy of IDDM. 941 41

NOD mice develop chronic lymphocytic invasion of the pancreas, submandibular, and lacrimal glands leading to loss of insulin secretion, salivary flow, and tear production. In this study, we have used flow cytometric analyses and RT-PCR to track glandular lymphocyte populations and cytokine expression spanning the initiation of autoimmune infiltration through the development of widespread autoimmune destruction of the salivary and lacrimal glands of NOD mice. Results demonstrate a predominance of CD4+ to CD8+ lymphocytes and a similar predominance of T-cells versus B-cells in both the submandibular and lacrimal gland infiltrates. A temporal increase in memory (CD3+CD45RBlo) T-cells was also detected; however, naive (CD3+CD45RBhi) T-cell populations as well as a CD3+, CD4-/CD8- double negative population were also present. In addition, a skewing of the TCR Vbeta repertoire toward Vbeta6+ and Vbeta8+ lymphocytes was evident in both glandular infiltrates. Analyses of cytokine mRNA expression in the submandibular glands demonstrated an increase between 12 and 16 wk of age of several proinflammatory cytokines including IL-1beta, IL-6, IL-7, IL-10, IFNgamma, TNFalpha, and inducible Nitric Oxide Synthase (iNOS). IL-4 synthesis was notably absent in both tissues. Cytokine mRNA transcripts detected in lacrimal tissue were similar to those seen in the submandibular glands but appeared both earlier and more intensely. These findings depict the progressive development of autoimmune exocrinopathy and can be used as a foundation to explore the similarities and potential differences in the immunopathogenic lesions of several distinct tissues within the same host.
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PMID:Characterization of the changing lymphocyte populations and cytokine expression in the exocrine tissues of autoimmune NOD mice. 948 5

Recently, besides the known mouse interleukin 2 (IL-2) molecule, six other IL-2 alleles have been found in different mouse strains. In order to study their in vivo and in vitro biological activities large quantities are required. We cloned the corresponding IL-2 cDNAs into a pET7-7/BL21(DE3) bacterial system, a T7-RNA-polymerase-dependent expression vector, producing between 30 to 100 mg of IL-2 per litre of culture. The purification step is based on the resolution properties of the sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) technique and the capability of the IL-2 to regain its activity after SDS denaturation. These purified IL-2 molecules supported the growth of an IL-2-dependent cell line, CTL-L2, in a similar way to a commercial mouse IL-2 control. However, RF IL-2 allele, which is also expressed in NOD mice had a relatively lower growth activity in the CTL-L2 assay. These IL-2 molecules can be obtained in a purified form and totally recovered their activity after elimination of the SDS and 2-mercaptoethanol used in the extraction procedure.
Cytokine 1998 Apr
PMID:High expression in bacteria and purification of polymorphic mouse interleukin 2 molecules. 961 68

There is mounting evidence that the imbalance between Th1 and Th2 lymphocyte subsets plays a key role in the development of autoimmune diabetes in NOD mice, but it is also possible in humans. The aim of the present study was the estimation of in vitro production of Th1 (INF-gamma, IL-2) and Th2-derived (IL-4, IL-10) cytokines by peripheral blood in ICA and GADA positive first degree relatives of Type-I diabetes patients, since they could represent primary events triggering an immune-mediated islets destruction. The study was performed in 25 subjects at risk of insulin-dependent diabetes and 21 age- and sex-matched healthy controls. Cytokine levels in supernatants of whole blood cultures with PHA (10 microg/ml) were quantified by ELISA. We observed a lower concentration of IL-4 in culture supernatants in ICA and GADA positive relatives as compared with the control group, both at 48 h and at 72 h of incubation. Similarly, in the prediabetic group, lower IL-10 levels at 48 and 72 h of culture were found. We did not observe statistical differences in in vitro production of IL-2 and INF-gamma by peripheral blood in high risk diabetes mellitus subjects and healthy controls. In subjects at increased risk of Type-I diabetes, levels of IL-4 positively correlated with those of IL-10. There were negative correlations between IL-10 concentration after 48 h of incubation and levels of HbA1C. In conclusion our study has shown decreased IL-4 and IL-10 production, but normal secretion of Th1-derived cytokines by peripheral blood of prediabetic humans. This could suggest that the early stage of autoimmune process in Type-I diabetes in humans is associated with decreased function of Th2-cells rather than overactivation of Th1 subset in the peripheral blood.
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PMID:Decreased in vitro IL-4 [corrected] and IL-10 production by peripheral blood in first degree relatives at high risk of diabetes type-I. 976 85

Little is known about the cell types or mechanisms that underlie the engraftment process. Here, we have examined parameters affecting the engraftment of purified human Lin-CD34+CD38- normal and AML cells transplanted at limiting doses into NOD/SCID recipients. Mice transplanted with 500 to 1000 Lin-CD34+CD38- cord blood (CB) or AML cells required the co-transplantation of accessory cells (ACs) or short-term in vivo cytokine treatment for engraftment, whereas transplantation of higher doses (>5000 Lin-CD34+CD38- cells) did not show these requirements suggesting that ACs are effective for both normal and leukemic stem cell engraftment in this model. Mature Lin+CD34- and primitive Lin-CD34+CD38+ cells were capable of acting as ACs even though no repopulating cells are present. Cytokine treatment of NOD/SCID mice could partially replace the requirement for co-transplantation of AC. Furthermore, no difference was seen between the percentage of engrafted mice treated with cytokines for only the first 10 days after transplant compared to those receiving cytokines for the entire time of repopulation. Surprisingly, no engraftment was detected in mice when cytokine treatment was delayed until 10 days posttransplant. Together, these studies suggest that the engraftment process requires pluripotent stem cells plus accessory cells or cytokine treatment which act early after transplantation. The NOD/SCID xenotransplant system provides the means to further clarify the processes underlying human stem cell engraftment.
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PMID:Cytokine treatment or accessory cells are required to initiate engraftment of purified primitive human hematopoietic cells transplanted at limiting doses into NOD/SCID mice. 1008 50


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