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)

Phosphatidylinositol-4,5-bisphosphate (PIP(2)) is important for a variety of cellular processes as a precursor for second messengers and by regulating ion channels, the cytoskeleton, and vesicle traffic in many types of cells, including insulin-secreting beta-cells. Here, we applied evanescent wave microscopy and the PIP(2)-binding pleckstrin homology domain from phospholipase C (PLC)-delta fused to the green fluorescent protein to characterize the regulation of plasma membrane PIP(2) in individual insulin-secreting MIN6 beta-cells. Elevation of the glucose concentration from 3 to 11 mmol/l evoked antisynchronous oscillations of [PIP(2)] and cytoplasmic Ca(2+)concentration, consistent with PLC being periodically activated by the voltage-dependent Ca(2+) influx. The effect of adenine nucleotides on [PIP(2)] was studied in cells permeabilized with alpha-toxin. ATP dose- dependently stimulated PIP(2) synthesis with half-maximal effect at 300 mumol/l. Omission of the nucleotide resulted in rapid loss of PIP(2) with t(1/2) < 40 s. ADP also stimulated PIP(2) formation, but this effect reflected local ATP formation and was prevented by the adenylate kinase inhibitor diadenosine-pentaphosphate. The ATP-induced PIP(2) synthesis was counteracted by the ADP analog adenosine-5'-O-2-thiodiphosphate. We conclude that plasma membrane PIP(2) is dynamically regulated by intracellular Ca(2+) and the ATP-to-ADP ratio in insulin-secreting cells. The rapid turnover allows maintenance of PIP(2) levels while generating second messengers of critical importance for insulin secretion.
Diabetes 2007 Mar
PMID:Rapid turnover of phosphatidylinositol-4,5-bisphosphate in insulin-secreting cells mediated by Ca2+ and the ATP-to-ADP ratio. 1732 53

The circulating RA (renin-angiotensin) system is essential for the regulation of blood pressure and electrolyte balance. Recently, plasma prorenin has been reported to significantly increase its level in diabetes and to be possibly non-proteolytically activated by binding to the PRR [(pro)renin receptor] on the cell membrane reported in several tissues during circulation. Although many pathological aspects have been researched, there is a lack of sufficient information on the biochemical structure and biological function of this hPRR (human PRR) because of the difficulty in increasing hPRR expression. In the present study, GFP(uv)-hPRR (hPRR fused with green fluorescence protein when excited with long-wave UV light) was successfully expressed by using BmMNPV (Bombyx mori multiple nucleopolyhedrovirus) bacmid DNA in silkworm (Bombyx mori) larvae. Some of the hPRR was expressed in the haemolymph of silkworm larvae and some of the hPRR was located in the fat body of silkworm larvae. The binding ability of hPRR expressed in the haemolymph and fat body with renin or prorenin was analysed by ELISA and surface plasmon resonance using a biosensor respectively. These binding assays suggest that the expressed hPRR has a functional bioactivity. hPRR preparation in silkworm larvae would, therefore, be useful for biochemical and biomedical researches related to PRR.
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PMID:Expression of functional human (pro)renin receptor in silkworm (Bombyx mori) larvae using BmMNPV bacmid. 1770 88

As a tool to explore proinsulin (PI) trafficking, a human PI cDNA has been constructed with GFP fused within the C peptide. In regulated secretory cells containing appropriate prohormone convertases, the hProCpepGFP construct undergoes endoproteolytic processing to CpepGFP and native human insulin, which are specifically detected and cosecreted in parallel with endogenous insulin. Expression of C(A7)Y mutant PI results in autosomal dominant diabetes in Akita mice. We directly identify the misfolded PI in Akita islets and also show that C(A7)Y mutant PI, either in the context of the hProCpepGFP chimera or not, engages directly in protein complexes with nonmutant PI, impairing the trafficking and recovery of nonmutant PI. This trapping mechanism decreases insulin production in beta cells. Thereafter we observe a loss of beta cell viability. The data imply that PI misfolding leading to impaired endoplasmic reticulum exit of nonmutant PI may be a key early step in a chain reaction of beta cell dysfunction and demise leading to onset and progression of diabetes.
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PMID:Proinsulin maturation, misfolding, and proteotoxicity. 1789 79

Previous studies on the mechanisms underlying tolerance induction in diabetes have mainly focused on T cells, however B cells also have an important role in diabetes. Based on our previous studies that splenocytes, transduced with glutamic acid decarboxylase (GAD) 65 fused to immunoglobulin (Ig) G carrier, reduced antibody-mediated response in non-obese diabetic (NOD) mice, here we examined the mechanisms underlying B-cell tolerance in this system. We found that GAD-IgG-transduced splenocytes did not reduce CD40 expression on B-cells in NOD mice, but they did downregulate CD40 ligand (CD40L) expression. Furthermore, anti-CD40L injection reduced autoantibody levels in NOD mice and in vitro experiments demonstrated that CD40L blockade reduced the antigenpresenting capability of B-cells. In conclusion, the results of this study suggest that downregulation of CD40L may be one mechanism underlying the induction of B-cell tolerance in GAD-IgG-treated NOD mice.
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PMID:Mechanisms underlying B-cell tolerance induction by antigen-immunoglobulin G gene transfer. 1803 91

The peptide P277 contains a target epitope for diabetogenic T cells and it has been used as an ideal target antigen to develop vaccines against type 1 diabetes. A major problem in developing P277 vaccine is its low immunogenicity. Recent applications involving multiple copies of self-peptide in linear alignment and conjugation with carrier proteins appear to increase the immune response. In this study, we designed a method based on isocaudamer technique to repeat tandemly the 24-residue sequence P277, then 6 tandemly repeated copies of the peptide P277 were fused to mycobacterial heat-shock protein 65 to construct a fusion protein HSP65-6xP277 as an immunogen. We examined the effect of the tandem repeats of the peptide P277 in eliciting an immune response by comparing the immunogenicity of the three immunogens: P277, HSP65-P277 and HSP65-6xP277. Immunization of mice with the fusion protein HSP65-6xP277 elicited much higher levels of specific anti-P277 antibodies than with P277 and HSP65-P277, which should suggest that multiple tandem repeats of a certain epitope is an efficient method to overcome the low immunogenicity of self-peptide antigens and the immunogen HSP65-6xP277 might be further developed to a vaccine against type 1 diabetes.
Exp Clin Endocrinol Diabetes 2008 Oct
PMID:Enhanced immunogenicity of peptide P277 by heat shock protein HSP65 vector carrying tandem repeats of P277 to prevent type 1 diabetes in NOD mice. 1847 88

To improve the efficacy of peptide P277 in preventing autoimmune diabetes, heat shock protein 65 kD (HSP65) of Mycobacterium tuberculosis var. bovis was fused with linear polypeptide epitope of P277 and expressed as soluble protein in Escherichia coli. The fusion protein HSP65-P277 was purified by anion exchange column chromatography and then used to immunize prediabetic NOD mice with three ip inoculations in absence of adjuvants. Serum samples from the immunized mice were collected monthly and the concentration of blood glucose was measured. The study showed that administration of HSP65-P277 to NOD mice could prevent the development of diabetes more efficiently than the peptide P277 itself or HSP65. Fused to heat shock protein 65 of Mycobacterium tuberculosis could improve the efficacy of diabetes prevention of P277 in nonobese diabetic mice. The results suggest the fusion protein of HSP65-P277 would be useful for treating insulin-dependent diabetes mellitus.
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PMID:[Improved efficacy of P277 fused to heat shock protein 65 of Mycobacterium tuberculosis against diabetes in nonobese diabetic mice]. 1861 76

Human insulin-like growth factor 1(hIGF-1) is essential for cell proliferation and used therapeutically in treating various diseases including diabetes mellitus. Here, we present that a recombinant hIGF-1(rhIGF-1) was expressed fused with the C-terminus of a rice luminal binding protein and accumulated highly in rice seeds, reaching 6.8+/-0.5% of total seed protein. The rhIGF-1 fusion was demonstrated to possess biological activity to stimulate cell proliferation. Importantly, the unprocessed transgenic seeds could significantly increase plasma rhIGF-1 level and reduce blood glucose of diabetic mice via oral delivery. Further studies suggested that transgenic seeds reduced blood glucose of diabetic mice by enhancing islet cells survival and increasing insulin secretion rather than increasing insulin sensitivity. These results indicated the potential of the novel fusion expression system in production and oral delivery of biologically active small peptides for diseases.
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PMID:A biologically active rhIGF-1 fusion accumulated in transgenic rice seeds can reduce blood glucose in diabetic mice via oral delivery. 1870 5

The Maillard reaction contributes to the complications of diabetes and normal aging. Dihydropyrazines (DHPs), which are produced during the Maillard reaction, generate radicals and possess DNA strand-cleaving activities in vitro. In the present study, we evaluated the genotoxic and cytotoxic potentials of a DHP derivative, cyclohexyl-DHP, which is obtained as a mixture of two isomers, 2,3,5,6,7,8-hexahydroquinoxaline (endo-type) and 1,2,3,5,6,7-hexahydroquinoxaline (exo-type), fused with a cyclohexyl ring. Cyclohexyl-DHP caused DNA strand breaks in plasmid pUC18, especially in the presence of Cu(2+). By using Escherichia coli mutant strains, we observed that cyclohexyl-DHP exposure strongly reduced the survival rate of a cytosolic sodium dodecyl sulfate (SOD)-deficient strain (sodA sodB), significantly reduced the survival rates of DNA repair-deficient strains (recA and uvrB) and mildly reduced the survival rate of a catalase-deficient strain (katE katG) compared with the survival rate of the wild-type strain. Addition of Cu(2+) enhanced the cell killing ability of cyclohexyl-DHP. The frequency of mutations induced by cyclohexyl-DHP increased dose-dependently in the sodA sodB strain. Assays with the highly water-soluble tetrazolium salt WST-1 revealed that cyclohexyl-DHP strongly generated superoxide anions. Moreover, cyclohexyl-DHP elevated the protein carbonyl levels in E. coli. These findings indicate that cyclohexyl-DHP could potentially generate superoxide anions, and cause not only breakage of chromosomal DNA leading to mutagenic lesions but also induce damage to cellular proteins.
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PMID:Oxidative stress induced by a dihydropyrazine derivative. 1918 73

Based on nickel-catalyzed cross-labeling where binding partners become biotinylated, we have studied molecular interactions with an N-terminally fused GGH-tag proinsulin C-peptide. Since C-peptide has been reported to influence phosphatase activity in intact cells, we employed this method to study possible binding of the peptide to protein tyrosine phosphatase 1B (PTP-1B). C-peptide was found to interact with PTP-1B (and for control, also with antibodies to C-peptide), as did also the N- and C-terminal fragments of C-peptide which have sequence similarities with PTP-1B binding proteins. The labeling data combined with enzyme activity analysis indicate a functional interaction between acidic regions of C-peptide and specific sites of PTP-1B. Results highlight the importance of possible phosphatase/C-peptide roles in diabetes, and the usefulness of the cross-labeling reaction also for acidic peptides like C-peptide.
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PMID:Proinsulin C-peptide interaction with protein tyrosine phosphatase 1B demonstrated with a labeling reaction. 1954 Jan 98

This image illustrates a horseshoe kidney from an elderly man that was being evaluated for chronic kidney disease associated with diabetes. Horseshoe kidney is the most common renal fusion abnormality, with an incidence of 1/400 worldwide and a male-to-female ratio of 2:1 and is not a cause of impaired kidney function. One theory of the abnormal fusion of the kidneys is that the metanephric blastemas close together before renal capsule maturation, resulting in fusion. The normal embryonic ascent of the fused kidney is disrupted by the inferior mesenteric artery, leaving the adult horseshoe kidney in a lower position than normal. About 90% of the time, the lower poles are fused and the excretory renal units and ureters are maintained separately.
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PMID:Horseshoe kidney in an 80 year old with chronic kidney disease. 2002 8

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