Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Insulin-dependent diabetes mellitus in nonobese diabetic (NOD) mice results from selective destruction of pancreatic islet beta-cells following islet infiltration by mononuclear leukocytes. Cytokines produced by islet-infiltrating mononuclear cells may be involved in beta-cell destruction. Therefore, we analyzed cytokine mRNA expression, by reverse-transcriptase PCR (RT-PCR) assay, in mononuclear leukocytes isolated from pancreatic islets of four groups of mice: diabetes-prone female NOD mice; female NOD mice protected from diabetes by injection of CFA at an early age; male NOD mice with a low diabetes incidence; and female BALB/c mice that do not develop diabetes. We found that mRNA levels of IL-1 beta, IL-2, IL-4, IL-10, and IFN-gamma in mononuclear cells from islets of diabetes-prone female NOD mice increased progressively as these cells infiltrated the islets from age 5 wk to diabetes onset (> 13 wk). However, only IFN-gamma mRNA levels were significantly higher in islet mononuclear cells from 12-wk-old diabetes-prone female NOD mice than from less diabetes-prone NOD mice (CFA-treated females, and males) and normal mice (BALB/c). In contrast, IL-4 mRNA levels were lower in islet mononuclear cells from diabetes-prone female NOD mice than from NOD mice with low diabetes incidence (CFA-treated females and males). Splenic cell mRNA levels of IFN-gamma and IL-4 were not different in the four groups of mice. These results suggest that islet beta-cell destruction and diabetes in female NOD mice are dependent upon intra-islet IFN-gamma production by mononuclear cells, and that CFA-treated female NOD mice and male NOD mice may be protected from diabetes development by down-regulation of IFN-gamma production in the islets.
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PMID:IFN-gamma gene expression in pancreatic islet-infiltrating mononuclear cells correlates with autoimmune diabetes in nonobese diabetic mice. 772 37

The salivary glands of mammals synthesize and secrete a number of peptide growth factors that play important roles in cell/tissue homeostasis and embryonic development. Using a radioimmunoassay, insulin, insulin-like growth factor-I (IGF-I) and insulin-like growth factor-II (IGF-II) were detected in saliva from mice. Unlike epidermal growth factor (EGF), there was no sexual dimorphism in the concentrations of the insulin growth factor family. Immunohistochemical localization of IGF-I and IGF-II was confined to the duct cells of both the parotid and the submandibular glands. Reverse transcriptase-polymerase chain reaction amplification of total RNA from parotid and submandibular glands confirmed the presence of all three hormone/growth factor mRNAs in both glands. The levels of insulin and IGF-I were higher in saliva from an animal model for autoimmune type 1 diabetes, the non-obese diabetic (NOD) mouse, than in a second inbred strain, BALB/c. In contrast, the IGF-II levels were decreased relative to the BALB/c strain. With the onset of diabetes in NOD mice, insulin levels declined, while IGF-I and IGF-II levels showed trends toward lower levels of these growth factors when compared with non-diabetic animals. These changes were reflected in the concentrations from parotid and submandibular gland cell lysates.
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PMID:Detection of insulin and insulin-like growth factors I and II in saliva and potential synthesis in the salivary glands of mice. Effects of type 1 diabetes mellitus. 776 95

Among diabetes-susceptibility genes in NOD mice, only Idd-1 has been clearly assigned: Idd-1 could be a gene complex composed of class II major histocompatibility complex (MHC) genes, I-A beta and I-E. Employing restriction fragment length polymorphism (RFLP) analysis and nucleotide sequencing, we revealed that ILI and CTS mice, which are nondiabetic but are derived from the same Jcl-ICR mice as NOD mice, share the same class II MHC genes with NOD mice suggesting that both ILI and CTS mice also possess susceptible Idd-1 genotype. This was supported by a breeding study. To compare the usage of T cell receptor (TCR) V beta genes in NOD mice with that in ILI mice, we employed quantitative reverse-transcriptase polymerase chain reaction (RT-PCR) which revealed that TCR V beta usages of these mice were indistinguishable. RT-PCR method also revealed that the V beta transcript of T cells infiltrating into pancreas of NOD mice was not restricted but was rather diverse. Since NOD and ILI mice share the same class I and II MHC antigens, we performed lymphocyte transfer experiments between these mice to examine the mechanism by which ILI mice do not develop insulitis. The results of reciprocal transfer of lymphocytes from NOD to ILI-nu/nu mice or from ILI to young NOD mice suggest that ILI mice exhibit autoantigens responsible for the development of insulitis but do not possess T cells reacting with islets. Of the diabetes-susceptibility genes, only in the case of Idd-1 is there any evidence for the identity of the gene products. ILI mice should provide more information on the products of the other diabetes-susceptibility genes of NOD mice.
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PMID:Molecular analysis of the pathogenesis of autoimmune insulitis in NOD mice. 780 6

Inflammatory cytokines, particularly those produced by Th1 type lymphocytes, are hypothesized to play a major role in the pathogenesis of autoimmune diseases. The present studies investigated this hypothesis in the BB rat. Diabetes-prone (DP) BB rats develop spontaneous hyperglycemia and thyroiditis. Coisogenic diabetes-resistant (DR) BB rats do not develop either disorder spontaneously, but both diseases are induced by depletion of RT6+ T cells. Reverse transcriptase-PCR was used to measure mRNA encoding type 1 and type 2 cytokines. In both DP and RT6-depleted DR rats, IFN-gamma mRNA was present in islets before and during disease onset. IL-2 and IL-4 mRNAs were minimal or undetectable in infiltrated islets but present in activated peripheral T cells. IL-10 mRNA was present at low abundance in infiltrating T cells. These observations suggested a Th1 type inflammatory response, and consistent with this interpretation, we observed that mRNA encoding the p40 chain of IL-12 was also present before and during disease onset. Similar cytokine mRNA profiles were observed in the thyroids of RT6-depleted DR rats and in the islets of DP rats treated with prophylactic parenteral insulin to prevent diabetes. We conclude that IFN-gamma and IL-12 may play a major role in the expression of insulitis and thyroiditis in the BB rat, that Th1 lymphocytes may predominate over Th2 lymphocytes in these inflammatory lesions, and that prevention of diabetes by insulin is not associated with an alteration in the cytokine gene profile of islet infiltrating cells.
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PMID:Cytokine gene expression in islets and thyroids of BB rats. IFN-gamma and IL-12p40 mRNA increase with age in both diabetic and insulin-treated nondiabetic BB rats. 855 12

In nonobese diabetic mice, autoimmune diabetes progresses in an age-linked and gender-dependent manner. Insulitis begins in male and female mice at approximately 1 mo of age; however, 70 to 90% of females, but only 10 to 20% of males, become diabetic by 6 mo. Multiple studies propose that proinflammatory Th1 and immunomodulatory Th2 cytokines impact diabetes pathogenesis, but the role of these cytokines in spontaneous diabetes progression is not yet clear. We used quantitative reverse-transcriptase-coupled PCR to analyze expression of cytokines and APC costimulatory molecules in the islets of 20- to 180-day-old male and female nonobese diabetic littermates, and identified three stages in diabetes progression. At 1 to 2 mo of age, islet-infiltrating T cells displayed a Th1 cytokine bias in females, and a Th2 cytokine bias in males. In females, stage II (2-3 mo of age) was characterized by an increase in islet-infiltrating T cells, APC, and Th1 cytokines, whereas male infiltrates did not increase in size, and Th1 cytokine expression continued to decline during this interval. Islet infiltration reached a plateau (stage III) in 3- to 4-mo-old females, months before overt diabetes onset. Our data imply that Th cytokine expression in early insulitis exerts substantial impact on beta cell destruction and overt diabetes. A clinical implication of our results is that young individuals in the early stages of insulitis are ideal candidates for therapeutic intervention to minimize beta cell destruction and morbidity.
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PMID:IL-4 expression at the onset of islet inflammation predicts nondestructive insulitis in nonobese diabetic mice. 903 92

The present study demonstrated that the administration of recombinant interleukin-4 (rIL-4) prevented overt diabetes in nonobese diabetic (NOD) mice whose T cells produced relatively low amounts of IL-4. However, massive insulitis was observed in rIL-4-treated NOD mice. The flow cytometric analysis of islet-infiltrating T cells revealed that the number of CD45RBlowCD4+ T cells was significantly increased by in vivo administration of rIL-4. By measuring the cytokine production of splenic T cells after stimulation, it was shown that CD45RBlowCD4+ T cells predominantly produced IL-4 and IL-10 but produced less IL-2 and interferon-gamma (IFN-gamma). A semiquantitative reverse-transcriptase polymerase chain reaction assay revealed a higher expression of IL-4 and IL-10 mRNA and an apparent decrease in IFN-gamma mRNA in the islets of NOD mice which were administered rIL-4. These results suggested that autoreactive CD45RBlowCD4+ T helper 2 (Th2)-like cells which developed following rIL-4 administration were predominant in the infiltrate of the islets, and overt diabetes was prevented. On the other hand, when splenocytes from rIL-4-treated NOD mice were transferred to irradiated NOD recipients, along with splenocytes from diabetic NOD mice, all of the recipient mice became diabetic within 8 weeks after transfer. Considered together, a supplement of rIL-4 administered to NOD mice may protect against autoimmune diabetes by facilitating the development of Th2-like autoreactive T cells in the islets.
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PMID:Administration of IL-4 prevents autoimmune diabetes but enhances pancreatic insulitis in NOD mice. 947 84

Insulin-like growth factor-I (IGF-I) is implicated in the development, survival and maintenance of function of sympathetic and sensory neurons. These neurons are affected at an early stage during the course of diabetes. Reverse transcriptase polymerase chain reaction (RT-PCR) based assay revealed that rat superior cervical ganglia (SCG) express mRNA transcripts for IGF-I and its receptor. Moreover, specific membrane protein binding sites for IGF-I within the SCG have also been demonstrated using competition-inhibition and affinity cross-linking techniques. An induction of diabetes with streptozotocin (STZ, 55 mg/kg, i.v.) produced a marked decrease in the SCG levels of mRNA transcripts for IGF-I and its receptor. Concentrations of circulating IGF-I and its receptor protein within the SCG were also reduced in this disease state. Insulin treatment partially prevented diabetes-related alterations in circulating IGF-I and the SCG-IGF-I system. Overall, the data described in this study may be of value in understanding the pathogenetic mechanism(s) responsible for the development of diabetic sympathetic neuropathy.
Diabetes Res Clin Pract 1997 Nov
PMID:Diabetes-induced suppression of IGF-1 and its receptor mRNA levels in rat superior cervical ganglia. 948 70

Resident macrophages have been suggested to participate in the initiation of beta cell damage during the development of autoimmune diabetes. The purpose of this study was to determine if the endogenous production and release of interleukin 1 (IL-1) in human islets of Langerhans by resident macrophages results in the inhibition of beta cell function. Treatment of human islets with a combination of tumor necrosis factor (TNF) + lipopolysaccharide (LPS) + interferon-gamma (IFN-gamma) stimulates inducible nitric oxide synthase (iNOS) expression, nitric oxide production, and inhibits glucose-stimulated insulin secretion. The IL-1 receptor antagonist protein (IRAP) prevents TNF + LPS + IFN-gamma-induced iNOS expression and nitrite production, and attenuates the inhibitory effects on glucose-stimulated insulin secretion by human islets. Inhibition of iNOS activity by aminoguanidine also attenuates TNF + LPS + IFN-gamma-induced inhibition of insulin secretion by human islets. These results indicate that the inhibitory effects of TNF + LPS + IFN-gamma are mediated by nitric oxide, produced by the actions of IL-1 released endogenously within human islets. Reverse transcriptase polymerase chain reaction was used to confirm that TNF + LPS + IFN-gamma stimulates the expression of both IL-1alpha and IL-1beta in human islets. Two forms of evidence indicate that resident macrophages are the human islet cellular source of IL-1: culture conditions that deplete islet lymphoid cells prevent TNF + LPS + IFN-gamma-induced iNOS expression, nitric oxide production, and IL-1 mRNA expression by human islets; and IL-1 and the macrophage surface marker CD69 colocalize in human islets treated with TNF + LPS + IFN-gamma as determined by immunohistochemical analysis. Lastly, nitric oxide production is not required for TNF + LPS + IFN-gamma-induced IL-1 release in human islets. However, cellular damage stimulates IL-1 release by islet macrophages. These findings support the hypothesis that activated islet macrophages may mediate beta cell damage during the development of insulin-dependent diabetes by releasing IL-1 in human islets followed by cytokine-induced iNOS expression by beta cells.
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PMID:IL-1 produced and released endogenously within human islets inhibits beta cell function. 969 Oct 88

Recently, there have been several reports describing the cloning and characterization of the novel family of protein tyrosine phosphatase-like receptor molecules (known as IA-2 and PTP-NP/PTP-IAR/IA-2beta/phogrin), which may act as autoantigens in diabetes. Here, we report the molecular characterization and chromosomal localization of a new isoform of this family in brain termed PTP-NP-2 (for PTP-NP tyrosine phosphatase isoform), and its function in rat primary hippocampal neurons. PTP-NP-2 has 48% identity to IA-2. The principal difference between PTP-NP-2 and PTP-NP is a 17-amino-acid insert near the N-terminus of PTP-NP that is absent in PTP-NP-2. Genomic DNA analysis indicates that the 17-amino-acid insert is coded by a separate exon, suggesting that both IA-2beta and PTP-NP-2 are isoforms arising by alternate splicing of the same gene. Reverse transcriptase-PCR revealed that both isoforms are present in human SH-SY5Y neuroblastoma cells. PTP-NP-2 mRNA expression is highly restricted, with a 5.5-kb specific transcript in human fetal and adult brain and 5.5 and 3. 8 kb in human adult pancreas. SH-SY5Y neuroblastoma and U87-MG glioblastoma cells showed specific transcripts of 5.5 and 3.8<HSP SP = "0.25">kb, respectively, indicating the existence of several isoforms of this molecule in the nervous system. The human gene encoding PTP-NP-2 was assigned to human chromosome 7q22-qter using Southern blot analysis of genomic DNAs from rodent/human somatic hybrid cell lines. Confocal microscopy analyses of rat primary hippocampal neurons revealed that PTP-NP-2 is abundantly expressed on synaptic boutons in primary neurons. Wild-type PTP-NP-2 showed no measurable tyrosine phosphatase activity using an in-vitro pNPP assay. Examination of the PTP-NP-2 catalytic consensus sequence revealed that this sequence differed from the typical tyrosine phosphatase-domain consensus sequence by an alanine to aspartate change (amino acid 930). Mutation of aspartate 930 to alanine produced a catalytically active enzyme, suggesting that native PTP-NP and its isoform PTP-NP-2 are catalytically inactive receptor protein tyrosine phosphatase homologues. Taken together, these results indicate that the tyrosine phosphatase PTP-NP-2 is a new isoform of PTP-NP tyrosine phosphatase, is expressed on synaptic boutons and may participate in the regulation of synaptic bouton endocytosis.
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PMID:Characterization and chromosomal localization of PTP-NP-2, a new isoform of protein tyrosine phosphatase-like receptor, expressed on synaptic boutons. 971 34

Reverse transcriptase- polymerase chain reaction (RT-PCR) enhances the probability of detecting rare transcripts in complex mixtures of mRNA. Using thyroid autoantigens and the controversy about the role of the TSH-receptor (TSH-R) in thyroid-associated ophthalmopathy as an example, this study demonstrates the problems of interpreting RT-PCR results in typically non-expressing tissues resulting from the extremely high sensitivity of the method. Unexpected transcripts for thyroperoxidase, thyroglobulin, TSH-R (exon 1-4, 354 bp), FSH-receptor, or insulin fragments were demonstrated in a number of thyroid or orbit-derived as well as unrelated tissues or cell types. Unexpected transcripts were most prevalent in fibroblasts, irrespective of the tissue of origin and most likely caused by ectopic transcription. To establish a physiological significance of rare transcripts such as the TSH-R in orbital tissues, demonstration of the protein in addition to the positive RT-PCR results is needed.
Exp Clin Endocrinol Diabetes 1998
PMID:Transcription of thyroid autoantigens in non-expressing tissues. 979 65


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