UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Formation of the blastema is a key event for limb regeneration in urodele amphibians, and skeletal muscle has been thought to be a major origin of the multipotent blastemal mesenchyme. In the present study, we used differential display to identify the genes expressed differentially in the muscle at the amputation site. We have isolated a cDNA clone that was upregulated during limb regeneration of the Japanese newt, Cynops pyrrhogaster. Deduced amino acid sequence revealed that the cloned cDNA was a newt homolog of rad (ras associated with diabetes), a gene overexpressed in skeletal muscle of Type II diabetic patients. Expression of newt rad (nrad) was not observed in unamputated normal limb muscle, increased within 4 hr after amputation, and then decreased to the level of normal muscle between 11 and 21 days after amputation. In situ hybridization showed that the transcripts of nrad were localized around most of the nuclei of skeletal muscle near the amputation site, indicating the expression of nrad in the multinucleate myotubes. This expression gradually decreased along the distal to proximal axis. No signals were observed in apical epidermal cap or blastemal mesenchyme. However, reverse transcription-PCR analysis detected a very low level of nrad expression in blastema, suggesting the carry-over of nrad expression in blastema from muscle. Administration of retinoic acid, which has been shown to cause an enhanced dedifferentiation in the regenerating limbs, increased nrad expression in more proximally located limb muscle tissues and prolonged the expression period. Thus, it was strongly suggested that the nrad expression is correlated with the dedifferentiation of myotubes of regenerating limbs. We also analyzed the expression of nrad during development. Transcripts were observed in immature oocytes, seen faintly or not seen thereafter until stage 57 when its expression increased again. These results indicated that nrad may play a role(s) in the developmental process as well as limb regeneration.
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PMID:Identification and characterization of newt rad (ras associated with diabetes), a gene specifically expressed in regenerating limb muscle. 1114 9

To employ hepatocytes as surrogate beta-cells for gene therapy of diabetes, a regulatory system was devised in this study by placing the human insulin cDNA under the control of the phosphoenolpyruvate carboxykinase (PEPCK) promoter, followed by the cytomegalovirus immediate early promoter-driven enhanced-green-fluorescent-protein open reading frame. The expression cassette was inserted into the adeno-associated virus vector between two inverted terminal repeats, and used to produce recombinant adeno-associated virus (rAAV). HepG2 human hepatoma cells were transduced by rAAV at the desired multiplicity of infection, followed by treatment with various concentrations of retinoic acid, dexamethasone, dibutyryl cAMP (dbcAMP) and 3-isobutyl-1-methylxanthine (IBMX). The cell-culture media were collected at 8, 16 and 24 h later. Proinsulin/insulin levels were determined with human proinsulin/insulin radioimmunoassay kits. Transduction of HepG2 cells by rAAV showed that green fluorescence was produced as early as 12 h after rAAV infection. Flow-cytometrical analysis demonstrated that transduction efficiency increased with the numbers of transducing rAAV particles used. The transduced hepatocytes were shown to secrete immunoreactive proinsulin/insulin, which were stimulated by the concentrations of retinoic acid, dexamethasone and dbcAMP in the culture medium. High conversion from proinsulin into insulin occurred when these cells were treated with dexamethasone and dbcAMP. The presence of IBMX enhanced the secretion of proinsulin/insulin from the dbcAMP-treated cells. We conclude that rAAV is a promising vector for gene therapy of diabetes. Regulated secretion of proinsulin/insulin can be obtained in the rAAV-transduced HepG2 cells conferred with the PEPCK promoter via rAAV-mediated gene transfer.
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PMID:Regulated secretion of proinsulin/insulin from human hepatoma cells transduced by recombinant adeno-associated virus. 1127 67

Decrease or loss of iodide uptake, due to impaired expression and/or function of the sodium/iodide-symporter (NIS), is a major obstacle to the treatment of advanced thyroid carcinomas by radioiodide therapy. Several approaches are being evaluated to optimise or restore sufficient iodide transport in those cases, among them retinoid therapy. Retinoids with their growth-inhibiting and differentiation-inducing properties have been repeatedly used for treatment and chemoprevention of various cancers. In thyroid carcinoma cell lines they trigger changes in gene expression that may be interpreted as partial redifferentiation. Especially, they stimulate NIS mRNA expression and iodide uptake in human follicular thyroid carcinoma cells. Moreover, they also increase NIS expression and function in human mammary tumour cells. In a clinical pilot study to evaluate the feasibility of retinoid redifferentiation in the case of otherwise untreatable thyroid cancers, 21 of 50 patients showed an increase of radioiodide uptake after 5 weeks. This indicates that increasing NIS activity and radioiodide uptake by retinoic acid redifferentiation may be a therapeutic alternative for thyroid cancers refractory to other therapeutic modalities and probably also for mammary cancer.
Exp Clin Endocrinol Diabetes 2001
PMID:Regulation of the sodium/iodide symporter by retinoids--a review. 1157 38

Type 2 diabetes is associated with insulin resistance in peripheral tissues, such as muscle and fat. Novel therapies that improve insulin action include ligands that bind and activate the nuclear receptors peroxisome proliferator activating receptor gamma (PPAR gamma) and retinoid X receptor (RXR). PPAR gamma/RXR form heterodimers that regulate transcription of genes involved in insulin action, adipocyte differentiation, lipid metabolism and inflammation. PPAR gamma activators include prostanoids, fatty acids, thiazolidinediones and N-(2-benzoylphenyl)tyrosine analogues. RXR ligands include naturally occurring retinoic acid and synthetic rexinoids. Selective ligands for these receptors improve metabolic abnormalities associated with type 2 diabetes, such as hyperglycemia, hyperlipidemia, insulin resistance and other cardiovascular risk factors. Although adipose tissue mediates some of the effects of PPAR gamma/RXR ligands, other tissues also regulate the effects of these receptors. The activity of the PPAR gamma/RXR heterodimer is influenced by posttranslational modifications, receptor turnover, polymorphisms, splice variants, coactivators and corepressors. This article reviews recent developments in research on these receptors, with particular emphasis on metabolic effects, ligand selectivity, structure and regulation of the PPAR gamma/RXR heterodimer.
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PMID:PPAR gamma/RXR as a molecular target for diabetes. 1169 31

A mesenchymal factor(s) is believed to modulate the development of the embryonic pancreas. However, the identity of this factor(s) remains elusive. Its importance in the development of the endocrine cells of the pancreas, particularly insulin cells, is considered. Our studies seek to identify factors that may influence insulin cell proliferation and differentiation, and hence may have positive implications for patients suffering from diabetes. Our experiments are based on the in vitro model which utilised the 5-day dorsal pancreatic bud of the chick embryo. These buds, devoid of most of their mesenchyme, are cultured on Matrigel in a serum-free medium for 7 days. We have investigated the effects of retinoic acid, retinoic acid in combination with IGF-1, nicotinamide and activin in this system. While most of these factors increased the proportion of insulin cells over that of their respective controls, as yet none have matched or exceeded the proportion of insulin cells demonstrated in vivo.
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PMID:The quest for factors regulating the development of chick embryonic insulin cells in vitro. 1172 89

Diabetes-prone BHE/Cdb and Sprague-Dawley (SD) rats were studied with respect to mitochondrial (mt) function and mt gene expression. The BHE/Cdb rats carry mutations in the mt ATPase 6 gene that phenotype as decreased OXPHOS efficiency with subsequent development of impaired glucose tolerance. The base substitutions result in amino acid substitutions in the proton channel and this, in turn, affects the efficiency of energy capture in the ATP molecule. Feeding studies showed that BHE/Cdb rats required 10 times more vitamin E and three times more vitamin A in their diets than do normal SD rats. Vitamin A supplementation 'normalized' mt OXPHOS as well as increased the amount of ATPase subunit a protein in the mt compartment. Western blot analysis of retinoic acid receptors in the mitochondrial and nuclear compartments showed that these proteins were present in the mt compartment. The effect of the vitamin A supplementation plus the observation of retinoic acid receptors suggest that vitamin A functions to enhance the transcription of the ATPase 6 gene. Work with primary cultures of hepatocytes showed that not only does retinoic acid increase mitochondrial ATPase 6 gene expression but so too does the steroid hormone intermediate, dehydroepiandrosterone (DHEA). Triiodothyronine also plays a role in this process but not as an independent factor. Rather, this hormone potentiates the effects of retinoic acid and DHEA on ATPase gene expression. These results suggest that mt gene expression requires more than just the mt transcription factor A. More than likely the process requires a number of factors in much the same way as does nuclear gene expression.
Diabetes Res Clin Pract 2001 Dec
PMID:Role of vitamin A in mitochondrial gene expression. 1173 5

Ligands that specifically target retinoid-X receptors (RXRs) are emerging as potentially powerful therapies for cancer, diabetes, and the lowering of circulatory cholesterol. To date, RXR has only been crystallized in the absence of ligand or with the promiscuous ligand 9-cis retinoic acid, which also activates retinoic acid receptors. Here we present the structure of hRXRbeta in complex with the RXR-specific agonist LG100268 (LG268). The structure clearly reveals why LG268 is specific for the RXR ligand binding pocket and will not activate retinoic acid receptors. Intriguingly, in the crystals, the C-terminal "activation" helix (AF-2/helix H12) is trapped in a novel position not seen in other nuclear receptor structures such that it does not cap the ligand binding cavity. Mammalian two-hybrid assays indicate that LG268 is unable to release co-repressors from RXR unless co-activators are also present. Together these findings suggest that RXR ligands may be inefficient at repositioning helix H12.
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PMID:The structural basis for the specificity of retinoid-X receptor-selective agonists: new insights into the role of helix H12. 1178 80

Potential pharmacological applications in the areas of oncology, dermatology, diabetes, and atherosclerosis of synthetic analogs of retinoic acid that target a specific nuclear receptor and/or biological response have generated great interest in the development of new retinoid and rexinoid drugs. The pan-retinoic acid receptor antagonist AGN 193109 has been previously reported to elevate CYP1A1 levels, implicating the aryl hydrocarbon receptor (AhR) as an additional target for this retinoid. AhR is a cytosolic ligand-dependent transcription factor that, in conjunction with the AhR nuclear translocator (Arnt), binds to dioxin response elements (DREs) located in the promoter region of target genes, such as CYP1A1, and induces their transcription. The purpose of these studies was to determine whether additional synthetic retinoids were capable of elevating CYP1A1 levels and to examine the mechanism of this increase in CYP1A. Two additional retinoids, AGN 190730 and AGN 192837, were found to be potent inducers of DRE-driven transcriptional activity; AGN 190730 was the most potent. Moreover, electrophoretic mobility-shift assays demonstrate that AGN 190730 can transform AhR into its active DNA recognition form. In addition, trypsin digestion of AGN 190730-treated AhR reveals a conformational change in the protein similar to the conformational change of 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD)-bound AhR. Finally, competitive binding studies demonstrate that AGN 190730 can inhibit the binding of TCDD to AhR. The sum of the data demonstrates that some synthetic retinoids in addition to activating the retinoic acid receptor/retinoid X receptor pathway are capable of binding to AhR and activating the AhR/Arnt pathway.
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PMID:Unique property of some synthetic retinoids: activation of the aryl hydrocarbon receptor pathway. 1180 58

Teratogenic causes of holoprosencephaly are critically assessed. A brief general review of holoprosencephaly is followed by four tables summarizing etiologic factors. Subjects evaluated here include: 1) maternal diabetes; 2) ethyl alcohol; 3) retinoic acid; 4) mutated genes and teratogens involving the sonic hedgehog signaling network and cholesterol biosynthesis; and 5) cholesterol trafficking, sterol adducts, target tissue response, and sterol sensing domain.
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PMID:Teratogenesis of holoprosencephaly. 1193 86

Sterol regulatory element binding protein-1c (SREBP-1c) is a transcription factor that mediates insulin effects on hepatic gene expression. It is itself transcriptionally stimulated by insulin in hepatocytes. Here we show that SREBP-1c mRNA is expressed in adult rat skeletal muscles and that this expression is decreased by diabetes. The regulation of SREBP-1c expression was then assessed in cultures of adult muscle satellite cells. These cells form spontaneously contracting multinucleated myotubes within 7 days of culture. SREBP-1c mRNA is expressed in contracting myotubes. A 4-h treatment with 100 nmol/l insulin increases SREBP-1c expression and nuclear abundance by two- to threefold in myotubes. In cultured myotubes, insulin increases the expression of glycolytic and lipogenic enzyme genes and inhibits the 9-cis retinoic acid-induced UCP3 expression. These effects of insulin are mimicked by adenovirus-mediated expression of a transcriptionally active form of SREBP-1c. We conclude that in skeletal muscles, SREBP-1c expression is sensitive to insulin and can transduce the positive and negative actions of the hormone on specific genes and thus has a pivotal role in long-term muscle insulin sensitivity.
Diabetes 2002 Jun
PMID:Sterol regulatory element binding protein-1c expression and action in rat muscles: insulin-like effects on the control of glycolytic and lipogenic enzymes and UCP3 gene expression. 1203 58

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