Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011854 (type 1 diabetes)
 20,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Diabetic nephropathy is the most common cause of end-stage renal disease (ESRD) in the United States, and accounts for 35% of all the patients with ESRD entering a dialysis program; 63% of patients with diabetic nephropathy have type II diabetes mellitus. Hypertension is a major risk factor for renal disease and is common in people with diabetes mellitus. Strategies for preventing the progression of renal failure in patients with diabetes mellitus include glycemic control, and control of blood pressure. Blocking the renin-angiotensin system (RAS) slows the progression of established diabetic nephropathy in type I diabetes mellitus, and inhibiting angiotensin II formation retards or impedes the progression from microalbuminuria to established diabetic nephropathy (macroproteinuria) in people with type I diabetes mellitus. The situation could be the same for people with type II diabetes mellitus. The ability of RAS blockade using irbesartan, an AT1 angiotensin II receptor antagonist, to slow the progression in renal failure has been compared with that of the calcium channel blocker amlodipine and placebo in a pilot study. The results suggest that blockade of the RAS, in this case with irbesartan, is at least equivalent to calcium channel blockers with respect to antihypertensive efficacy, but provides better renoprotective benefits.
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PMID:Renoprotection and renin-angiotensin system blockade in diabetes mellitus. 943 77

Type I diabetes mellitus may represent a heterogeneous disorder with a distinct pathogenesis in patients with young and adult onset of the disease. To investigate whether serological markers directed to different autoantigens have the potential to distinguish acute onset from slowly progressive Type I diabetes we analysed antibodies to tyrosine phosphatases IA-2/ICA512 (IA-2A) and IA-2beta/phogrin (IA2betaA), antibodies to GAD65 (GADA) and cytoplasmic islet cell antibodies (ICA) in a non-selected group of diabetic patients clinically classified as having Type I or Type II diabetes at diagnosis. Both IA-2A and IA-2betaBA were found to be positively associated with onset before the age of 20 years and the presentation of classical features of Type I diabetes. In Type I diabetes 56 % (112/200) of patients were positive for IA-2A and 38 % (76/200) for IA-2betaA. In contrast, only 1 of 785 (0.1 %) patients with Type II diabetes had IA-2A and all of them were negative for IA-2betaA (p < 0.001). Among the patients with Type II diabetes 7.6% (n = 60) were ICA positive and 2.8% (n = 22) had GADA suggesting the presence of slowly progressive Type I diabetes. GADA were found in 8 of 60 (13.3 %) ICA positive subjects which was lower than the percentage detected in patients with acute onset of diabetes (115/157 73.2%) (p < 0.001). Blocking of double antibody positive sera showed that only 3 of 8 (37.5 %) patients with slowly progressive diabetes had ICA restricted to GAD or IA-2 whereas ICA were completely inhibited in 12 of 20 (60.0 %) patients with Type I diabetes. Among 193 patients with Type II diabetes available for follow-up, 35 % of ICA positives, 58 % of GADA positives and 60 % of those positive for both markers required insulin by 3 years. However, using strict criteria for the switch to insulin treatment the corresponding sensitivity of each marker was only low (9%, 10% and 5%). We show that clinical subtypes of Type I diabetes are associated with distinct humoral autoimmunity. IA-2A and GADA were associated with classical features of Type I diabetes whereas GADA and an uncharacterized ICA subspecificity indicate slowly progressive disease.
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PMID:Immunological heterogeneity in type I diabetes: presence of distinct autoantibody patterns in patients with acute onset and slowly progressive disease. 972 90

Insulin-dependent diabetes mellitus is an autoimmune disease that is genetically linked to the HLA class II molecule DQ in humans and to MHC I-Ag7 in nonobese diabetic mice. The I-Ag7 beta-chain is unique and contains multiple polymorphisms, at least one of which is shared with DQ alleles linked to insulin-dependent diabetes mellitus. This polymorphism occurs at position 57 in the beta-chain, in which aspartic acid is mutated to a serine, a change that results in the loss of an interchain salt bridge between alphaArg76 and betaAsp57 at the periphery of the peptide binding groove. Using mAbs we have identified alternative conformations of I-Ag7 class II molecules. By using an invariant chain construct with various peptides engineered into the class II-associated invariant chain peptide (CLIP) region we have found that formation of these conformations is dependent on the peptide occupying the binding groove. Blocking studies with these Abs indicate that these conformations are present at the cell surface and are capable of interactions with TCRs that result in T cell activation.
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PMID:The MHC class II molecule I-Ag7 exists in alternate conformations that are peptide dependent. 1092 90

Type 1 diabetes mellitus (T1DM) is an autoimmune disease caused by progressive destruction of insulin-producing pancreatic beta-cells. Both viral infections and the cytokines interleukin-1beta (IL-1beta) and interferon-gamma (IFN-gamma) have been suggested as potential mediators of beta-cell death in early T1DM. We presently investigated whether the viral replicative intermediate double stranded RNA [here used as synthetic polyinosinic-polycytidylic acid (PIC)] modifies the effects of IL-1beta and IFN-gamma on gene expression and viability of rat pancreatic beta-cells. For this purpose, fluorescence-activated cell sorting-purified rat beta-cells were exposed for 6-16 h (study of gene expression by RT-PCR) or 6-9 days (study of viability by nuclear dyes) to PIC and/or IL-1beta and IFN-gamma. PIC increased the expression of Fas and Mn superoxide dismutase messenger RNAs by 5- to 10-fold. IL-1beta and a combination of PIC and IFN-gamma (but not PIC or IFN-gamma alone) induced expression of inducible nitric oxide (NO) synthase (iNOS) and consequent NO production. Induction of iNOS expression by PIC and IFN-gamma requires nuclear factor-kappaB activation, as suggested by transfection experiments with iNOS promoter-luciferase reporter constructs into primary beta-cells. Combinations of IL-1beta plus IFN-gamma, PIC plus IFN-gamma, or PIC plus IL-1beta induced a 2- to 3-fold increase in the number of apoptotic beta-cells. Blocking of iNOS activity significantly decreased PIC- plus IL-1beta-induced, but not PIC- plus IFN-gamma-induced, apoptosis. In conclusion, PIC alone or in combination with cytokines modifies the expression of several genes in pancreatic beta-cells. Two of these genes, Fas and iNOS, may contribute to beta-cell death. The transcription factor nuclear factor-kappaB is required for PIC-induced iNOS expression. PIC has an additive effect on cytokine-induced beta-cell death by both NO-dependent (in the case of IL-1beta) and NO-independent (in the case of IFN-gamma) mechanisms. These findings suggest that viral intermediates in synergism with local cytokine production may play an important role in beta-cell apoptosis in early T1DM.
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PMID:Double-stranded ribonucleic acid (RNA) induces beta-cell Fas messenger RNA expression and increases cytokine-induced beta-cell apoptosis. 1135 9

Pancreatic beta-cells are selectively destroyed during the course of type 1 diabetes. In the early stages of the disease, inflammatory infiltrates of mononuclear cells, containing predominantly monocytes and T-cells, are present in the islets (insulitis). Chemokines, such as monocyte chemoattractant protein-1 (MCP-1), play a key role in the recruitment and activation of these immunocytes. We have previously described cytokine-induced MCP-1 gene expression in human and rat pancreatic islets. In the present study, the transcriptional regulation by cytokines of the rat MCP-1 gene in fluorescence-activated cell sorting-purified rat beta-cells, insulin-producing INS-1E cells, and RINm5F cells was investigated. Transient transfections with luciferase-reporter constructs identified an interleukin (IL)-1beta-responsive enhancer region between -2,180 bp and -2,478 bp. Mutation of either of the two nuclear factor (NF)-kappaB sites present in this region abrogated IL-1beta-induced MCP-1 promoter activity. Binding of NF-kappaB to the two sites was shown in vitro by gel shift assays, while supershift assays revealed the presence of p65/p50 heterodimers and p65 homodimers. In vivo binding of NF-kappaB was confirmed by chromatin immunoprecipitation assay. Blocking of NF-kappaB activation in cytokine-exposed primary beta-cells by an adenovirus overexpressing a nondegradable form of IkappaBalpha or by pyrrolidine dithiocarbamate decreased IL-1beta-induced MCP-1 mRNA expression. We conclude that NF-kappaB plays an important role for MCP-1 expression in beta-cells. This transcription factor may be an interesting target for ex vivo gene therapy before islet transplantation.
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PMID:Molecular regulation of monocyte chemoattractant protein-1 expression in pancreatic beta-cells. 1254 Jun 7

Infection of the pancreas with lymphocytic choriomeningitis virus results in rapid and differential expression among CXCR3 chemokines. IFN-gamma-inducible protein of 10 kDa (IP-10), in contrast with monokine induced by IFN-gamma and IFN-inducible T cell-alpha chemoattractant, is strongly expressed within 24 h postinfection. Blocking of IP-10, but not monokine induced by IFN-gamma, aborts severity of Ag-specific injury of pancreatic beta cells and abrogates type 1 diabetes. Mechanistically, IP-10 blockade impedes the expansion of peripheral Ag-specific T cells and hinders their migration into the pancreas. IP-10 expression was restricted to viruses infecting the pancreas and that are capable of causing diabetes. Hence, virus-induced organ-specific autoimmune diseases may be dependent on virus tropism and its ability to alter the local milieu by selectively inducing chemokines that prepare the infected tissue for the subsequent destruction by the adaptive immune response.
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PMID:Among CXCR3 chemokines, IFN-gamma-inducible protein of 10 kDa (CXC chemokine ligand (CXCL) 10) but not monokine induced by IFN-gamma (CXCL9) imprints a pattern for the subsequent development of autoimmune disease. 1466 90

Nephropathy is the major life-threatening complication of type 1 diabetes. It is due to the adverse effects of glucose-induced preglomerular vasodilation on glomerular hemodynamics. Glomerulosclerosis is initiated early in the course of diabetic nephropathy by exacerbated expression of cytokines like tumor growth factor beta1. Not all type 1 diabetes patients are at risk of nephropathy, probably because some polymorphisms in the various factors involved in its pathogenesis can modulate the course of this disease from one individual to another. Blocking the course of nephropathy by blockers of the renin-angiotensin system relies on solid pathophysiological hypotheses and has proved to be efficacious for improving the prognosis of type 1 diabetes nephropathy.
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PMID:Nephropathy in type 1 diabetes. 1622

Pro-inflammatory cytokines have been implicated in the death of pancreatic beta cells leading to type 1 diabetes. NIT-1 cells are an insulinoma cell line derived from mice expressing the SV40 large T antigen. These cells are a useful tool in analysis of beta cell death. NIT-1 cells are highly susceptible to caspase-dependent apoptosis induced by TNF-alpha alone. Primary islets are not susceptible to cell death induced by TNF-alpha alone; however, they are killed by TNF-alpha and IFN-gamma in a nitric oxide-dependent manner. We examined signal transduction in NIT-1 cells in response to cytokines to determine the mechanism for TNF-alpha-induced apoptosis. We found that NIT-1 cells are defective in the activation of nuclear factor-kappaB (NFkappaB) as a result of functionally deficient RelA activity, because overexpression of RelA protected NIT-1 cells from apoptosis. TNF-alpha also did not induce phosphorylation of c-Jun N-terminal kinase in NIT-1 cells. Together, these defects prevent expression of anti-apoptotic genes in NIT-1 cells and make them susceptible to TNF-alpha. To determine whether similar defects in primary beta cells would induce the same effect, we examined TNF-alpha-induced apoptosis in islets isolated from mice deficient in NFkappaB p50. These islets were as susceptible as wild-type islets to TNF-alpha and IFN-gamma-induced cell death. In contrast to wild-type islets, cell death was not prevented by inhibition of nitric oxide in p50-deficient islets. Blocking NFkappaB has been proposed as a mechanism for protection of beta cells from cytokine-induced cell death in vivo. Our results suggest that this would make beta cells equally or more sensitive to cytokines.
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PMID:Perturbations in nuclear factor-kappaB or c-Jun N-terminal kinase pathways in pancreatic beta cells confer susceptibility to cytokine-induced cell death. 1627 39

The influx of autoreactive lymphocytes into the site of an autoimmune inflammation is mediated by certain chemokines. Autoimmune insulitis in type 1 diabetes is viewed as the result of destructive Th-1-cells and their corresponding antigen-presenting cells infiltrating the pancreatic islets. Blocking the chemokine receptors that mediate a Th-1-reaction has been shown to reduce autoimmunity in other experimental autoimmune disorders. We used the NOD mouse model to investigate the potency of anti-CCR2 and anti-CCR5 antibodies to inhibit the influx of Th-1-cells into the pancreatic islets, thus preventing diabetes onset. Eleven-week-old female NOD mice were treated with 500 microg of a monoclonal anti-CCR5 or anti-CCR2 or an isotype control antibody every third day over two weeks. We did not observe any preventive effect in either treatment group, but accelerated diabetes onset in the anti-CCR5 treated group. The number of autoantigen-specific Th-1-cells detected in the two treated groups was not reduced, but increased in the anti-CCR5 group. Redundancy within the chemokine system may account for this lack of prevention, or the intervention may have come too late in the disease process. Furthermore, blocking Th-1 chemokine receptors in the late autoimmune process may also inhibit regulatory T-cells, thus accelerating rather than preventing the disease.
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PMID:Transient chemokine receptor blockade does not prevent, but may accelerate type 1 diabetes in prediabetic NOD mice. 1667 7

Pancreatic beta-cell death is a critical event in type 1 diabetes, type 2 diabetes, and clinical islet transplantation. We have previously shown that prolonged block of ryanodine receptor (RyR)-gated release from intracellular Ca(2+) stores activates calpain-10-dependent apoptosis in beta-cells. In the present study, we further characterized intracellular Ca(2+) channel expression and function in human islets and the MIN6 beta-cell line. All three RyR isoforms were identified in human islets and MIN6 cells, and these endoplasmic reticulum channels were observed in close proximity to mitochondria. Blocking RyR channels, but not sarco/endoplasmic reticulum ATPase (SERCA) pumps, reduced the ATP/ADP ratio. Blocking Ca(2+) flux through RyR or inositol trisphosphate receptor channels, but not SERCA pumps, increased the expression of hypoxia-inducible factor (HIF-1beta). Moreover, inhibition of RyR or inositol trisphosphate receptor channels, but not SERCA pumps, increased the expression of presenilin-1. Both HIF-1beta and presenilin-1 expression were also induced by low glucose. Overexpression of presenilin-1 increased HIF-1beta, suggesting that HIF is downstream of presenilin. Our results provide the first evidence of a presenilin-HIF signaling network in beta-cells. We demonstrate that this pathway is controlled by Ca(2+) flux through intracellular channels, likely via changes in mitochondrial metabolism and ATP. These findings provide a mechanistic understanding of the signaling pathways activated when intracellular Ca(2+) homeostasis and metabolic activity are suppressed in diabetes and islet transplantation.
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PMID:Glucose and endoplasmic reticulum calcium channels regulate HIF-1beta via presenilin in pancreatic beta-cells. 1817 59


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