Recombinant Rat Insulin-degrading enzyme (Ide), partial

1. data suggest that insulin deprivation, rather than high glucose, is a significant determinant of IDE regulation; as evidence indicates potential roles for IDE in diabetes and Alzheimer's disease, understanding the mechanisms regulating IDE expression may be important in developing new treatment strategies PMID: 29940507
2. This study concluded that vitamin D3 ameliorated insulin resistance and hyperinsulinemia in diabetic rat model received high fructose water through reduction of insulin-degrading enzyme and activation of insulin receptor phosphorylation. PMID: 27930980
3. Ageing and diabetes are accompanied by a deficit of IDE in the brain structures where accumulation of Abeta was reported in Azheimer disease patients. PMID: 25792373
4. Insulin-degrading enzyme is able to degrade specific amino acid sequences present in the neuropeptide pro-NPFFA (NPFF precursor), generating some cryptic peptides that are also observed after incubation with rat brain cortex homogenate. PMID: 25247577
5. Proteolytically inactive insulin-degrading enzyme inhibits amyloid formation yielding non-neurotoxic abeta peptide aggregates. PMID: 23593132
6. IDE-Met(1) links the mitochondrial biogenesis pathway with mitAbeta levels and organelle functionality. PMID: 23525105
7. Mutation of each cysteine residue individually revealed cysteine 904 as the key residue required for maximal activity and polyanion activation, although other cysteines affect polyanion binding to a lesser extent. PMID: 23077523
8. role played by somatostatin in preventing Abeta accumulation by partially restoring IDE activity PMID: 22509294
9. a model in which the binding of anions activates insulin-degrading enzyme PMID: 22049080
10. A region remote from the active site mediates allosteric activation of insulysin by peptides. PMID: 21731629
11. These results demonstrate the sensitivity of insulin degradation by IDE to the redox environment. PMID: 21448434
12. The three Abeta-degrading enzymes were damaged to different extents in the brain of diabetic rats, and impairment of ECE-1 and IDE partly contributed to the elevated Abeta(1-40) levels in brain of diabetic rats. PMID: 20414044
13. an insulin degrading enzyme (IDE) monomeric varint loses its regulatory properties PMID: 20300529
14. Insulin-degrading enzyme rapidly removes the beta-amyloid precursor protein intracellular domain (AICD). PMID: 11809755
15. a defect in Abeta proteolysis by IDE contributes to the accumulation of this peptide in the cortical microvasculature PMID: 15489232
16. data suggest the presence of an allosteric regulatory site on insulysin that may shift its specificity toward small peptide substrates PMID: 15494400
17. To test the hypothesis that insulin might upregulate IDE via a negative feedback control mechanism, we used both in vitro and in vivo strategies to determine the impact of insulin signaling on IDE levels. PMID: 15590928
18. Active site mutations of insulin-degrading enzyme are suggested not only to reduce catalytic activity but also cause local conformational changes that affect the allosteric properties of the enzyme. PMID: 15749695
19. Insulysin was shown to initially cleave A(beta)1-40and A(beta)1-42 at His13-Gln14, His14-Gln15, and Phe19-Phe20 PMID: 15800373
20. IDE participates in prostatic and uterine growth;testosterone or estradiol are important for the expression and regulation of IDE in the prostate and uterus. PMID: 15985623
21. study the role that ubiquitin plays on IDE capability of binding and degrading insulin molecules and the obtained results indicate that ubiquitin has an allosteric role for IDE and high ubiquitin levels impair IDE activity PMID: 18489915

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KEGG: rno:25700

STRING: 10116.ENSRNOP00000023342

UniGene: Rn.202992