Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Progress has been made in investigating the genetic factors involved in type 1 diabetes (T1D) development for the past few years. While Linkage disequilibrium (LD) mapping has been useful for both the confirmation and fine-mapping of susceptibility intervals, as well as identification of etiological mutations, identification of specific disease genes has been a challenge and limited to known candidate genes. The overall risk for T1D from the HLA DR and DQ molecules (IDDM1) is determined by combinations of polymorphic alleles. Functional studies indicate that the susceptible and protective HLA-DR and -DQ bind and present non-overlapping peptides. Although consistent linkage evidence was reported for the susceptibility intervals IDDM2, IDDM5 and IDDM12, evidence for most other intervals varies in different data sets. The variable number of tandem repeats at the 5' end of the insulin gene (IDDM2) regulates insulin expression in the thymus. Studies on IDDM5 have led to the discovery of a novel polymorphism 163 A-->G (M55V) in SUMO4 gene, which was found to be associated with T1D patients with Asian origin. Functionally SUMO4 conjugates to IkBalpha and negatively regulates NFkB transcriptional pathway. The M55V substitution reduces the sumoylation activity of the V55 variant, which resulted in higher NFkB dependent transcriptional activity. The polymorphisms of the cytotoxic T lymphocyte antigen 4 gene (CTLA4, IDDM12) encoding a regulatory molecule in the immune system associate with T1D and autoimmune thyroid diseases (ATD). The 3' untranslated region of this gene determines the level of soluble CTLA-4. Genetic mapping of variants conferring a small disease risk can identify pathways in complex disorders, as evidenced by quantitative alterations of candidate genes contributing to autoimmune tissue destruction. Moreover, the identification of two transcription factors that, when mutated, are responsible for severe autoimmune disease is leading to a better understanding of T cell tolerance. Both AIRE and Foxp3, identified initially via their association with genetically manipulated mice, are involved in tolerance induction in humans. Although mutations in these genes may cause rare but serious diseases, it is likely that other transcription factors will contribute to the genetic load that predisposes certain individuals to disease.
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PMID:Functional evaluation of the type 1 diabetes (T1D) susceptibility candidate genes. 1744 64

Among candidate genes for type 1 diabetes, HLA, INS, CTLA4, PTPN22 and SUMO4 have been shown to be associated with the disease in Caucasian populations. To clarify the similarities and differences in the contribution of these genes to type 1 diabetes between Asian and Caucasian populations, association of these genes with type 1 diabetes was studied in a large number of samples in Japanese and Korean populations. Class II HLA was strongly associated with type 1 diabetes in both Asian and Caucasian populations, but haplotypes associated with type 1 diabetes were markedly different due to difference in the presence and absence of haplotypes in each population. INS was consistently associated with type 1 diabetes in both Japanese and Caucasian populations, but frequency of disease-associated haplotype was markedly high in Japanese general population. CTLA4 was associated with type 1 diabetes only in a subset of patients with type 1 diabetes complicated with AITD in Japanese. A variant (R620W) of PTPN22 was associated with type 1 diabetes and other autoimmune diseases in Caucasians, but the variant was absent in Asians. SUMO4 was associated with type 1 diabetes in Asians, but not in Caucasian, suggesting a genetic heterogeneity among diverse ethnic groups. Trans-racial study with a large number of samples in both Asian and Caucasian populations will contribute to genetic dissection of type 1 diabetes and identification of causative variants.
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PMID:Genetics of type 1 diabetes in Asian and Caucasian populations. 1745 59

Autoimmune diabetes is an organ specific and multifactorial disorder including insulin dependent diabetes mellitus (Type 1 Diabetes) and latent autoimmune diabetes in adults (LADA), which progresses to insulin dependency because of the beta cells destruction. Several polymorphisms in different genes have been associated with diabetes. The CTLA4 gene is considered a down regulator of T cell function, and the SUMO4 gene encodes a small ubiquitin-like modifier implicated in the intensity and duration of the immune response. We selected 62 LADA patients, 123 patients with Type 1 diabetes patients and 136 unrelated volunteers to study CTLA4 -318 C/T, 159 C/T, 3' STR and SUMO4 163 A/G polymorphisms by PCR. There was a statistical difference significant in the frequency of the allele 209pb for the 3'STR between LADA and Type 1 diabetes patients but not with respect the normal group, the frequencies were found to be 6.9%, 1.0% and 1.9%, respectively. However, no association with either of the polymorphisms has been found in the studied population. The knowledge of the several susceptibility loci in autoimmune diabetes will enhanced the prediction of individuals at high risk of developing the disease in order to establish the best treatment and the prevention of autoimmune diabetes.
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PMID:No evidence of association of CTLA-4 -318 C/T, 159 C/T, 3' STR and SUMO4 163 AG polymorphism with autoimmune diabetes. 1755 9

The concept and practice of therapeutic tolerance has successfully been applied to animal models of autoimmunity and transplantation for more than 2 decades. Finally, there are encouraging signs of its translation to clinical practice. Short courses of anti-CD3 monoclonal antibody therapy have provided lasting benefits in recent-onset type 1 diabetes in association with evidence for the induction of immunoregulatory mechanisms. Co-stimulation blockade with abatacept (CTLA4-Ig) will soon be licensed for the treatment of rheumatoid arthritis - over the past year phase III studies have demonstrated impressive improvement in subjective and objective signs of the disease. T cell depletion is in development for several conditions, again with recent studies demonstrating evidence of immune regulation in some instances. More specific antigen-directed peptide therapies have also been applied to atopic asthma, type 1 diabetes, and adult and juvenile arthritis. The tragic sequelae of the phase I trial of TGN1412 at Northwick Park demonstrated the delicate, but unpredictable, therapeutic ratio of some T-cell-directed treatments and, in the UK, have led to new guidelines for early-phase clinical trials of immune-directed therapies.
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PMID:T cell immunomodulation--the Holy Grail of therapeutic tolerance. 1761 Nov 58

Canine diabetes is a complex genetic disease of unknown aetiology. It affects 0.005-1.5% of the canine population and shows a clear breed predisposition with the Samoyed being at high risk and the Boxer being at low risk of developing the disease. Canine diabetes is considered to be a disease homologue for human type 1 diabetes (T1D). It results in insulin deficiency as a consequence of autoimmune destruction of islet beta-cells in the pancreas and is believed to be mediated by Th1 cytokines (IFNgamma, TNFalpha, and IL-2). A number of genes have been associated with type 1 diabetes in humans, including the human leukocyte antigen region, the insulin variable number tandem repeat, PTPN22, CTLA4, IL-4, and IL-13. As yet, these genes have not been evaluated in canine diabetes. In this study, 483 cases of canine diabetes and 869 controls of known breed were analyzed for association with IFNgamma, IGF2, IL-10, IL-12beta, IL-6, insulin, PTPN22, RANTES, IL-4, IL-1alpha and TNFalpha. Minor allele frequencies were determined for these genes in each breed. These data were used for comparative analyses in a case-control study, and clear associations with diabetes were identified in some breeds with certain alleles of candidate genes. Some associations were with increased susceptibility to the disease (IFNgamma, IL-10, IL-12beta, IL-6, insulin, PTPN22, IL-4, and TNFalpha), whereas others were protective (IL-4, PTPN22, IL-6, insulin, IGF2, TNFalpha). This study demonstrates that a number of the candidate genes previously associated with human T1D also appear to be associated with canine diabetes and identifies an IL-10 haplotype which is associated with diabetes in the Cavalier King Charles Spaniel. This suggests that canine diabetes is an excellent comparative and spontaneously occurring disease model of human T1D.
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PMID:Analysis of candidate susceptibility genes in canine diabetes. 1761 Dec 56

Development of type 1 diabetes mellitus (T1D) may be triggered pre- or perinatally by multiple factors. Identifying new predisposing T1D markers or combinations of markers in a large, well-characterised case-control collection may be important for future T1D prevention. The present work describes the design and feasibility of a large and unselected case-control study, which will define and evaluate prediction criteria for T1D at the time of birth. Danish registries (Biological Specimen Bank for Neonatal Screening, and the National Discharge Registry) made it possible to identify and collect dried blood spots (DBS) from newborns who later developed T1D (cases) born 1981-2002. DBS samples from 2086 cases and two matching control subjects per case were analysed for genetic and immune factors that are associated with T1D: (a) candidate genes (HLA, INS and CTLA4), (b) cytokines and inflammatory markers, (c) islet auto-antibodies (GAD65A, IA-2A). The objective of the study was to define reliable prediction tools for T1D using samples available at the time of birth. In a unique approach, the study linked a large unselected and population-based sample resource to well-ascertained clinical databases and advanced technology. It combined genetic, immunological and demographic data to develop prediction algorithms. It also provided a resource for future studies in which new genetic markers can be included as they are identified.
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PMID:Type 1 diabetes risk analysis on dried blood spot samples from population-based newborns: design and feasibility of an unselected case-control study. 1793 36

Two loci, Idd5.1 and Idd5.2, that determine susceptibility to type 1 diabetes (T1D) in the NOD mouse are on chromosome 1. Idd5.1 is likely accounted for by a synonymous single nucleotide polymorphism in exon 2 of Ctla4: the B10-derived T1D-resistant allele increases the expression of the ligand-independent isoform of CTLA-4 (liCTLA-4), a molecule that mediates negative signaling in T cells. Idd5.2 is probably Nramp1 (Slc11a1), which encodes a phagosomal membrane protein that is a metal efflux pump and is important for host defense and Ag presentation. In this study, two additional loci, Idd5.3 and Idd5.4, have been defined to 3.553 and 78 Mb regions, respectively, on linked regions of chromosome 1. The most striking findings, however, concern the evidence we have obtained for strong interactions between these four disease loci that help explain the association of human CTLA4 with T1D. In the presence of a susceptibility allele at Idd5.4, the CTLA-4 resistance allele causes an 80% reduction in T1D, whereas in the presence of a protective allele at Idd5.4, the effects of the resistance allele at Ctla4 are modest or, as in the case in which resistance alleles at Idd5.2 and Idd5.3 are present, completely masked. This masking of CTLA-4 alleles by different genetic backgrounds provides an explanation for our observation that the human CTLA-4 gene is only associated with T1D in the subgroup of human T1D patients with anti-thyroid autoimmunity.
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PMID:Interactions between Idd5.1/Ctla4 and other type 1 diabetes genes. 1805 79

Pancreatic islet transplantation has the potential to maintain normoglycemia in patients with established type 1 diabetes, thereby obviating the need for frequent insulin injections. Our previous study showed that recombinant IL-12p40-producing islets prevented the recurrence of NOD diabetes. First, to see which immunomodulating molecule-secreting islet grafts can most powerfully prevent diabetes development in NOD mice without immunosuppressant, NOD islets were transfected with one of the following adenoviral vectors: Ad.IL-12p40, Ad.TGF-beta, Ad.CTLA4-Ig, or Ad.TNF-alpha after which they were transplanted under the renal capsule of acutely diabetic NOD mice. The immunomodulating molecules produced by these adenovirus-transfected islets in vitro were 74+/-19ng, 50+/-4ng, 821+/-31ng, and 77+/-18ng/100 islets, respectively. Transplantation of IL-12p40, TNF-alpha, and CTLA4-Ig but not TGF-beta-secreting islets displayed enhanced survival and delayed diabetes recurrence in recent-onset diabetic recipients. IL-12p40-producing islet grafts most powerfully prevented recurrent diabetes in NOD mice. In addition, local production of TNF-alpha and CTLA4-Ig significantly prolonged islet graft survival. In second series of experiment, these manipulated islets were transplanted under the renal capsule of 10-week-old NOD recipients and were also transplanted subcutaneously into 2-week-old NOD recipients. Transplantation of these islets into 2- or 10-week-old pre-diabetic mice failed to protect them from developing diabetes; in fact, transplantation of Ad.TNF-alpha-transfected islets into 2-week-old mice actually accelerated diabetes onset. Taken together, this approach was ineffectual as a prophylactic protocol. In conclusion, this study showed comparisons of the immunomodulating effects of 4 different adenoviral vectors in the same transplantation model and local production of IL-12p40, TNF-alpha and CTLA4-Ig significantly prevented recurrent diabetes in NOD mice.
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PMID:Prevention of recurrent but not spontaneous autoimmune diabetes by transplanted NOD islets adenovirally transduced with immunomodulating molecules. 1840 Mar 29

The induction of antigen specific tolerance is critical for prevention and treatment of allograft rejection. In this study, we transfected CTLA4-Ig gene into dendritic cells (DCs), and investigated their effect on inhibition of lymphocyte activity in vitro and induction of immune tolerance on pancreatic islet allograft in mice. An IDDM C57BL/6 murine model induced by streptozotocin is as model mouse. The model mice were transplanted of the islet cells isolated from the BALB/c mice to their kidney capsules, and injected of CTLA4-Ig modified DCs (mDCs). The results showed that mDCs could significantly inhibit T lymphocyte proliferation and induce its apoptosis; whereas, unmodified DCs (umDCs) promoted the murine lymphocyte proliferation. Compared with injection of umDCs and IgG1 modified DCs, the injection of mDCs prolonged IDDM mice's allograft survival, and normalized their plasma glucose (PG) levels within 3 days and maintained over 2 weeks. The level of IFN-gamma was lower and the level of IL-4 was higher in mDCs treated recipient mice than that in control mice, it indicated that mDCs led to Th1/Th2 deviation. After 7 days of islet transplantation, HE stain of the renal specimens showed that the islets and kidneys were intact in structure, and islet cells numbers are increased in mDCs treated mice. Our studies suggest that DCs expressing CTLA4-Ig fusion protein can induce the immune tolerance to islet graft and prolong the allograft survival through the inhibition of T cell proliferation in allogeneic mice.
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PMID:CTLA4-Ig-modified dendritic cells inhibit lymphocyte-mediated alloimmune responses and prolong the islet graft survival in mice. 1866 18

Type 1 diabetes is a multifactorial disease caused by a complex interaction of genetic and environmental factors. The genetic factors involved consist of multiple susceptibility genes, at least five of which, HLA, INS, CTLA4, PTPN22 and IL2RA/CD25, have been shown to be associated with type 1 diabetes in Caucasian (Western) populations, as has recently been confirmed by genome-wide association studies. It has been proposed, however, that the contribution of these genes to type 1 diabetes susceptibility may be different in Asian (Eastern) populations. HLA and INS genes are consistently associated with type 1 diabetes in both Caucasian and Asian populations, but apparent differences in disease-associated alleles and haplotypes are observed between Japanese and Caucasian subjects. The association of CTLA4 with type 1 diabetes is concentrated in a subset of patients with autoimmune thyroid disease (AITD) in both Japanese and Caucasian populations, while the association of PTPN22 with type 1 diabetes in Japanese and most Asian populations is not as clear as in Caucasians. IL2RA/CD25 genes seem to be similarly distributed in type 1 diabetes patients in the two populations, whereas genetic heterogeneity may exist regarding SUMO4, with an association of the M55V variant with type 1 diabetes observed in Asians, but not in Caucasians. Genome-wide association studies (GWA) are largely outstanding for Asian populations but they are now underway in Japan. This review reports on the discovered similarities and differences in susceptibility genes for type 1 diabetes between East and West and discusses the most recent observations made by the involved investigators.
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PMID:Genetic Basis of Type 1 Diabetes: Similarities and Differences between East and West. 1879 9


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