UMLS:C0011854 - FACTA Search

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Query: UMLS:C0011854 (type 1 diabetes)
20,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recently, the synthetic immunomodulator Linomide (quinoline-3-carboxamide, LS 2616) was reported to prevent IDDM and insulitis in NOD mice. The mechanism for this protective effect is not known. The cytokine interleukin 1 (IL-1) may be a pathogenetic factor in the initial destruction of the beta-cells leading to IDDM. This study was undertaken to investigate the influence of Linomide on IL-1beta induced diabetogenic and hormonal changes in the rat in vivo, and on IL-1beta mediated synthesis of NO and inhibition of insulin secretion in isolated islets of Langerhans ex vivo. Normal male Wistar Kyoto rats received 4.0 microg/kg of recombinant human IL-1beta (rhIL-1beta) i.p. daily for 5 days with or without Linomide (8-9 mg/kg/day) in the drinking water. Litters of neonatal Wistar rats were pretreated for 3 days with injections of 10 mg/kg of Linomide i.p., and pancreatic islets of Langerhans were isolated for ex vivo studies. Linomide alone caused significant hypercorticosteronemia, hypoglucagonemia, lymphopenia and neutrophilia. Linomide had no effect on IL-1beta induced hyperglycemia, hyperglucagonemia, lymphopenia, neutrocytosis, or hypercorticosteronemia on day three and hypocorticosteronemia on day five. Further, Linomide did not prevent rhIL-1beta mediated reduction in insulin secretion or increase in NO synthesis ex vivo. In conclusion, Linomide does not seem to exert its protective effect on IDDM development via inhibition of interleukin 1 action on islet insulin release or NO production, but the increase in plasma corticosterone may contribute to the understanding of the immunomodulatory effects of Linomide.
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PMID:Linomide increases plasma corticosterone in normal rats, but does not prevent the inhibitory action of IL-1 on beta-cells in vivo or ex vivo. 891 32

Diabetes-prone DP-BB rats spontaneously develop insulin-dependent diabetes mellitus resembling type 1 diabetes mellitus in man. Expression of T cell lymphopenia and presence of at least one class II major histocompatibility complex (MHC) RT1u haplotype are required for development of diabetes. Diabetes segregation was studied in lymphopenic backcross (BC) offspring from a cross between male DP-BB/HRI and female BN/Mol rats. Diabetes occurred in 75% of BC rats with genotype RT1u/u and in 18% of those being RT1n/u in genotype. The latter developed diabetes significantly later than MHC homozygotes and parental DP-BBs. Our data further point to the existence of additional genes of minor importance for development of IDDM. One of these seemed to be positioned on the X chromosome. The recently published linkage to chromosome 18 could not be confirmed however. Finally, the BN-derived non-albino allele of the C gene was associated with higher diabetes incidence. This points to the existence of minor susceptibility genes in other strains of rats.
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PMID:Segregation of autoimmune type 1 diabetes in a cross between diabetic BB and brown Norway rats. 908 Feb 98

The Long-Evans Tokushima Lean (LETL) rat, characterized by rapid onset of insulin-dependent (type I) diabetes mellitus (IDDM), no sex difference in the incidence of IDDM, autoimmune destruction of pancreatic beta cells, and no significant T cell lymphopenia, is a desirable animal model for human IDDM. We have established a diabetes-prone substrain of the LETL rat, named Komeda Diabetes-Prone (KDP) rat, showing a 100% development of moderate to severe insulitis within 220 d of age. The cumulative frequency of IDDM was 70% at 120 d of age, and reached 82% within 220 d of age. Here, we performed the first genome-wide scan for non-MHC IDDM susceptibility genes in this strain. The analysis of three crosses has led to the revelation of a major IDDM susceptibility gene, termed Iddm/kdp1, on rat chromosome (Chr) 11. Homozygosity for the KDP allele at this locus is shown to be essential for the development of moderate to severe insulitis and the onset of IDDM. Comparative mapping suggests that the homologues of Iddm/ kdp1 are located on human Chr 3 and mouse Chr 16 and would therefore be different from previously reported IDDM susceptibility genes.
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PMID:A non-MHC locus essential for autoimmune type I diabetes in the Komeda Diabetes-Prone rat. 932 65

Much of our present knowledge concerning the etiopathogenesis, treatment and prevention of human diabetes would never have been acquired without the study of animal models of diabetes. The main models of IDDM may be divided into two groups: induced (through pancreatectomy, chemicals such as alloxan and streptozotocin, viruses and others) and spontaneous (mainly using BB rats and NOD mice). The latter, at different ages, develop a diabetic syndrome, with clinical characteristics, genetics and immunology that are very similar to the human disease. Among the more significant differences are lymphopenia (in BB rats) and the predominance of diabetes in females (in NOD mice). Studies aimed at preventing IDDM have advanced by leaps and bounds by using the two spontaneous models. These include various methods such as genomic modification, an influence over some environmental agents, immunosuppression, immunotherapy, immunomodulation and tolerance induction as well as protection of the beta-cell from autoimmune attack. The conclusions drawn from animal experiments have allowed some human trials to be carried out with encouraging results.
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PMID:Animal models of type I (insulin-dependent) diabetes mellitus. 964 24

Several crossing studies using diabetic BB/OK and diabetes-resistant rat strains have clearly shown that the MHC class-II-genes of the RT1u haplotype (Iddm1) and the lymphopenia (Iddm2) are essential but not sufficient for type 1 diabetes development. The search for additional diabetogenic genes revealed predisposing non-MHC genes, Iddm3 and Iddm4, and a diabetes protective gene, Iddm5r, cosegregating with diabetes in the BB/OK rat subline. These findings were based on cosegregation studies comparing allele frequencies between diabetic and non-diabetic cross hybrids. Since, type 1 diabetes is characterised by hyperglycaemia we analysed 22 diabetic and 43 non-diabetic [(BB x SHR)FI x BB] backcross hybrids (28M:37F) which were already homozygous for Iddml and Iddm2 to search for quantitative trait loci (QTLs) affecting blood glucose in BB/OK rats. The QTL analysis using 117 microsatellite markers located on 19 autosomal chromosomes and the X chromosome, revealed suggestive linkage for blood glucose at the same position for diabetics (lod score 3.1) and non-diabetics at an age of 16 weeks at locus D6Mgh2 on chromosome 6 (lod score 1.9). In contrast, the peak for nondiabetics at an age of 28 weeks (lod score 3.1) was located in the region on chromosome 1 flanked by D1Mgh12 and D1Mit14, whereas the peak for diabetics (lod score 1.9) was found between Sa and Igf2. The distance between two peaks is ca. 50 cM. These findings are consistent with previously described results and provide strong evidence on the relevance of the described region for the development of diabetes not only in the rat, but, regarding the chromosomal homology also in human.
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PMID:Quantitative trait loci for blood glucose confirm diabetes predisposing and protective genes, Iddm4 and Iddm5r, in the spontaneously diabetic BB/OK rat. 985 59

BB rats are used as models of autoimmune human IDDM. Genetic control of IDDM in both species is complex, including both major histocompatibility complex (MHC)-linked and non-MHC-linked genes. DP-BB rats develop IDDM spontaneously. Expression of disease in these animals requires homozygosity at the lyp locus, which causes lymphopenia. All genetic analyses of BB rat diabetes to date have backcrossed to the DP-BB strain or used (DP-BB x non-BB)F2 animals to ensure that a fraction of progeny are homozygous for lyp. Here we report the analysis of a backcross of the DP-BB rat to the histocompatible WF rat. Neither WF nor (WF x DP-BB)F1 animals develop spontaneous IDDM. However, 95% of (WF x DP-BB)F1 rats and a fraction of (WF x DP-BB) x WF backcross animals readily develop IDDM after treatment with polyinosinic:polycytidylic acid and a cytotoxic anti-RT6.1 monoclonal antibody. Using simple sequence length polymorphism analysis, we have mapped loci on chromosomes 4 and 13 that show significant linkage to IDDM expression and insulitis. The susceptibility locus on chromosome 4 is linked to, but not identical to, lyp. We propose a disease model for the BB rat that requires 1) the RT1u MHC haplotype for disease susceptibility, 2) a new locus on chromosome 4 for disease initiation (as measured by insulitis), 3) a new locus on chromosome 13 for disease progression in response to environmental perturbation, and 4) lyp for spontaneous expression of disease.
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PMID:Non-major histocompatibility complex-linked diabetes susceptibility loci on chromosomes 4 and 13 in a backcross of the DP-BB/Wor rat to the WF rat. 989 22

Diabetes mellitus in Long-Evans Tokushima Lean (LETL) rats closely resembles type 1 diabetes in human beings, e.g., no gender differences in the incidence of diabetes and no T lymphopenia. Although the LETL rats have been established as an inbred strain, the incidence of diabetes is only approximately 20%. In the present study, we established two substrains, one a diabetes-prone (KDP) and the other a non-diabetic (KND) from the original inbred LETL rats. The features of KDP rats are a high incidence of diabetes (over all approximately 70%) without lymphopenia and 100% development of mild to severe insulitis at 120-220 days of age. In contrast, the KND substrain is characterized by the complete absence of diabetes incidence. Among 165 SSLP marker loci throughout all rat chromosomes, no loci showed variation among KDP and KND substrains and their parental LETL rats. In this regard, the genetic background of these two substrains, KDP and KND, appears to be uniform except for the major gene(s) that is responsible for the diabetes. In this context, these two substrains of LETL rats should serve as useful tools for research on the pathogenesis and for the genetic analysis of type 1 diabetes. In this report, we have not only established, but also characterized these two substrains, and provided their fundamental data.
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PMID:Establishment of two substrains, diabetes-prone and non-diabetic, from Long-Evans Tokushima Lean (LETL) rats. 1039 28

Diabetes-prone (DP) BB rats develop autoimmune type 1 diabetes spontaneously. At least five loci are linked to disease expression: the major histocompatibility complex (iddm2), two susceptibility loci (iddm4, iddm5), and, possibly, a resistance locus (iddm3). Spontaneous disease also requires homozygosity for lyp/iddm1, which causes lymphopenia. It has not been determined whether lyp/iddm1 is required for predisposition to diabetes autoimmunity in addition to being required for its spontaneous expression. We analyzed backcross rats segregating for diabetes but not lymphopenia using Wistar-Furth (WF) and diabetes-resistant (DR) BB animals. The latter are nonlymphopenic (lyp+/+) and develop diabetes only in response to immunological perturbants. Treatment of (DR-BB x WF)F1 x WF animals (all lyp+/+) using a standard induction protocol caused type 1 diabetes in 58% of progeny. Expression of type 1 diabetes was strongly linked to iddm4. The results suggest that lyp/iddm1 does not determine the predisposition to autoimmunity in BB rats and that iddm4 is a major diabetogenic locus in both DP- and DR-BB animals. The iddm4 gene maps to a region containing several major autoimmunity loci, including aia2, aia3, and cia3. We propose that BB rat diabetes requires 1) class II RT1u (iddm2) for susceptibility, 2) additional loci for disease initiation and progression in response to perturbants, and 3) lyp for spontaneous disease.
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PMID:Diabetes-prone and diabetes-resistant BB rats share a common major diabetes susceptibility locus, iddm4: additional evidence for a "universal autoimmunity locus" on rat chromosome 4. 1053 46

Diabetes in BB rats share many common features with human type 1 diabetes. One of them is the complex and polygenic nature of disease. Analysis of cross hybrids of diabetic BB/OK rats and rats of different diabetes-resistant strains has demonstrated that beside the MHC genes, Iddm1 and the lymphopenia, Iddm2, additional non-MHC genes are involved in diabetes development. To study the importance of the non-MHC genes, Iddm4 and Iddm3, two congenic BB.SHR rat strains were generated by recombining a segment of the SHR chromosome 6 (Iddm4; termed BB.6S; 15cM) or chromosome 18 (Iddm3; termed BB.18S; 24cM) into the BB/OK background by serial backcrossing and marker-aided selection. The characterization of both congenic strains demonstrates a drastic reduction of diabetes frequency in comparison to the BB/OK strain (86% vs 14% and 34%). It is supposed that diabetes protective genes of SHR must be located on both chromosomal segments and that these suppress the action of the essential and most important genes of diabetes development in the BB/OK rat, Iddm1, and Iddm2.
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PMID:Genes of SHR rats protect spontaneously diabetic BB/OK rats from diabetes: lessons from congenic BB.SHR rat strains. 1132 15

Diabetes-prone (DP) BB rats spontaneously develop insulin-dependent diabetes resembling human type 1 diabetes. They also exhibit lifelong T-cell lymphopenia. Functional and genetic data support the hypothesis that the gene responsible for the lymphopenia, Lyp, is also a diabetes susceptibility gene, named Iddm1. We constructed a 550-kb P1-derived artificial chromosome contig of the region. Here, we present a corrected genetic map reducing the genetic interval to 0.2 cM and the physical interval to 150-290 kb. A total of 13 genes and six GenomeScan models are assigned to the homologous human DNA segment on HSA7q36.1, 8 of which belong to the family of immune-associated nucleotides (Ian genes). Two of these are orthologous to mouse Ian1 and -4, both excellent candidates for Iddm1. In normal rats, they are expressed in the thymus and T-cell regions of the spleen. In the thymus of lymphopenic rats, Ian1 exhibits wild-type expression patterns, whereas Ian4 expression is reduced. Mutational screening of their coding sequences revealed a frameshift mutation in Ian4 among lymphopenic rats. The mutation results in a truncated protein in which the COOH-terminal 215 amino acids-including the anchor localizing the protein to the outer mitochondrial membrane-are replaced by 19 other amino acids. We propose that Ian4 is identical to Iddm1.
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PMID:The diabetes-prone BB rat carries a frameshift mutation in Ian4, a positional candidate of Iddm1. 1203 88

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