Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P10997 (amylin)
2,786 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Amylin is the major component of the amyloid found in the pancreases of noninsulin-dependent diabetics (type 2 diabetes). It is a 37 amino acid polypeptide and has been shown to have 46% sequence identity with the neuropeptide alpha-calcitonin gene-related peptide (alpha-CGRP). Both amylin and alpha-CGRP are known to be potent inhibitors of glycogen synthesis in stripped rat soleus muscle. Secondary structure prediction and tertiary structure model-building show the two polypeptides to have an alpha-helix/beta-strand motif similar to that observed in the insulin B-chain. The results have been supported by CD spectroscopy, although there is no sequence similarity between insulin and amylin/alpha-CGRP. Aggregation states have been predicted based on the dimeric and hexameric arrangements seen in porcine insulin. Rat and hamster amylin have a changed sequence motif in the beta-strand which results in lack of amyloid formation and type 2 diabetes. This, we propose, is caused by disruption of hydrogen bonding which prevents the formation of the dimer.
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PMID:Molecular model-building of amylin and alpha-calcitonin gene-related polypeptide hormones using a combination of knowledge sources. 189 61

Molecular dynamics simulations and simulated annealing in vacuum, model aqueous solution, and simulated membrane were used to analyze the conformational preferences of a segment spanning 20-29 residues of human islet amyloid polypeptide, [referred to as IAPPH (20-29)]. Molecular dynamics simulations were conducted at 300 K on IAPPH (20-29). The minimum energy conformers obtained in model aqueous solution and vacuum exhibited similar structures. Even in the absence of any constraints on peptide bonds, trans conformation was preferred consistently by all the peptide bonds. Analysis of the minimum energy conformers indicated that IAPPH (20-29) showed a strong preference for turn structures in all the environments. These turn structures were stabilized by the formation of hydrogen bonds between the backbone amide and carbonyl groups. A good agreement was found between the results obtained from the molecular dynamics simulation and solid-state nmr experimental studies.
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PMID:Conformational studies of human islet amyloid peptide using molecular dynamics and simulated annealing methods. 943 83

We studied whether fibrils spontaneously formed by islet amyloid polypeptide (IAPP, also designated amylin) are cytotoxic to insulin producing cells by examining two different insulin producing cell lines, HIT-T15 and RINm5F. IAPP fibrils (</=10microM) added to HIT-T15 cells for one week did not diminish cell viability (tetrazolium bioreduction) or DNA synthesis (3H-thymidine incorporation) nor did it increase cell death (trypan blue staining) or degree of apoptosis (TUNEL assay), and glucose-stimulated insulin secretion and the cytosolic concentration of Ca2+ were unaffected. Similarly, control fibrils (Alzheimer's peptide, Abeta1-42, fibrils) did not reduce cellular function. In contrast, IAPP fibrils decreased cell viability (tetrazolium bioreduction) and increased number of apoptotic cells in RINm5F cells. Furthermore, hydrogen peroxide markedly impaired tetrazolium bioreduction in RINm5F cells but not in HIT-T15 cells. Glutathione reductase activity was increased by IAPP fibrils in RINm5F cells but not in HIT-T15 cells. Our data suggest a different sensitivity for the cytotoxic action of IAPP fibrils between RINm5F and HIT-T15 cells, which may be ascribed to different sensitivity to formation and action of oxygen intermediates.
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PMID:Different sensitivity to the cytotoxic action of IAPP fibrils in two insulin-producing cell lines, HIT-T15 and RINm5F cells. 979 Oct 5

Pancreatic amyloid is formed by the aggregation of the 37-residue islet amyloid polypeptide (IAPP) in type II diabetes patients and is cytotoxic. Pancreatic amyloid deposits are found in more than 95 % of type II diabetes patients and their formation is strongly associated with disease progression. IAPP amyloid forms via a conformational transition of soluble IAPP into aggregated beta-sheets. We recently identified IAPP(22-27) (NFGAIL) as a minimum length sequence sufficient to self-associate into beta-sheet-containing amyloid fibrils. Here, we have used the NFGAIL model of the IAPP amyloid core as a structural template to design non-amyloidogenic derivatives of amyloidogenic sequences of IAPP that are able to interact with the native sequences and inhibit amyloid formation. The design of the derivatives was based on a simple, structure-based minimalistic and selective N-methylation approach. Accordingly, a minimum number of two amide bonds on the same side of the beta-strand of the amyloid core was N-methylated. This was expected to eliminate the two intermolecular backbone NH to CO hydrogen bonds which are critical for the extension of the beta-sheet dimers into multimers and amyloid. Other beta-strand "contact sides" remained intact allowing for the derivatives to interact with the native sequences. Double N-methylated derivatives of amyloidogenic and cytotoxic partial IAPP sequences generated included F(N-Me)GA(N-Me)IL, NF(N-Me)GA(N-Me)IL, SNNF(N-Me)GA(N-Me)IL, and SNNF(N-Me)GA(N-Me)ILSS and were found to be devoid of beta-sheet structure, amyloidogenicity and cytotoxicity according to Fourier transform-infrared spectroscopy (FT-IR), Congo red (CR) staining, electron microscopy (EM), and cell viability tests. The derivatives were able to interact with the native sequences and inhibit amyloid formation as shown by circular dichroism spectroscopy (CD), FT-IR and EM. Moreover, SNNF(N-Me)GA(N-Me)ILSS inhibited cytotoxicity of SNNFGAILSS and is thus the first reported inhibitor of IAPP amyloid formation and cytotoxicity. Our results demonstrate the validity of the design approach for IAPP and suggest that it may find application in understanding the structural features of amyloid formation and in the development of inhibitors of amyloid formation and cytotoxicity of other amyloidogenic polypeptides as well.
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PMID:Structure-based design and study of non-amyloidogenic, double N-methylated IAPP amyloid core sequences as inhibitors of IAPP amyloid formation and cytotoxicity. 1178 16

Islet amyloid polypeptide (IAPP) contributes to the pathogenesis of type II diabetes by depositing as cytotoxic amyloid fibers in the endocrine pancreas. Fiber formation occurs with a marked conformational change from an unstructured precursor. Using real-time quantitative kinetic methods, fibrillogenesis was characterized as a function of protein, denaturant, and seed concentration. Several observations are in sharp contrast to the expectations for nucleation-dependent polymerization. First, the half-time of conversion for both de novo and seeded kinetics were found to be independent of protein concentration. Second, while elongation kinetics scale linearly with protein concentration, they are relatively insensitive to changes in the total seed concentration. Third, seeded bypass of de novo fiber formation kinetics shows a lag phase. The seeded lag phase is eliminated by a time delay before the introduction of seed to a de novo reaction. Last, conversion is highly cooperative, with the time required for 10-90% conversion occurring much faster than the lag time. At a minimum, four kinetic steps are required to describe these observations: activation, fiber independent nucleation, fiber-dependent nucleation, and elongation. Furthermore, we invoke a phase transition in which protein initially forms an off-pathway dispersion. This single construct allows us to model both the concentration independence of the de novo reaction time and the first-order concentration dependence of the elongation kinetics. Marked acceleration of this reaction by hexafluoro-2-propanol reinforces this view by altering the relative solubility of the two phases and/or by stabilizing hydrogen-bonded structures in the transition states of the reaction pathway.
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PMID:Islet amyloid: phase partitioning and secondary nucleation are central to the mechanism of fibrillogenesis. 1192 32

Amyloid fiber formation and the possible polymorphism of molecular arrangements depend on the polypeptide length and composition. Here, we seek the chemical clues underlying these processes. Our starting point is based on the experimental observation that some short peptide segments are able to develop fibers that are very similar to those of their original parent proteins. We focus our study on the NFGAILSS peptide, derived from the human islet amyloid polypeptide (residues 22-29). This peptide turned out to be a perfect example, illustrating the fact that the amyloid microscopic organization is highly complex, rather than simply involving hydrogen bond formation. Furthermore, obtaining a reliable molecular model has allowed us to analyze the differences between the amyloid structure we have obtained for this peptide and that obtained for the previously studied, two residues shorter, segment (residues 22-27, NFGAIL). This comparative study yields some clues about chemical events that govern the aggregation of proteins into oriented fibers, such as molecular packing between sheets and the degree of interaction specificity. We characterize the important role played by the hydrophobic and aromatic residues in the inter-sheet association and present new approaches toward the understanding of the nature of events that are likely to take place during fibril formation. These include analysis of interaction patterns derived from specific sheet-associated packing.
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PMID:The sequence dependence of fiber organization. A comparative molecular dynamics study of the islet amyloid polypeptide segments 22-27 and 22-29. 1276 35

Islet amyloid is found in many patients suffering from type 2 diabetes. Amyloid fibrils found deposited in the pancreatic islets are composed of a 37-residue peptide, known as islet amyloid polypeptide (IAPP) (also known as amylin) and are similar to those found in other amyloid diseases. Synthetic IAPP peptide readily forms amyloid fibrils in vitro and this has allowed fibril formation kinetics and the overall morphology of IAPP amyloid to be studied. Here, we use X-ray fibre diffraction, electron microscopy and cryo-electron microscopy to examine the molecular structure of IAPP amyloid fibrils. X-ray diffraction from aligned synthetic amyloid fibrils gave a highly oriented diffraction pattern with layer-lines spaced 4.7 A apart. Electron diffraction also revealed the characteristic 4.7 A meridional signal and the position of the reflection could be compared directly to the image of the diffracting unit. Cryo-electron microscopy revealed the strong signal at 4.7 A that has been previously visualised from a single Abeta fibre. Together, these data build up a picture of how the IAPP fibril is held together by hydrogen bonded beta-sheet structure and contribute to the understanding of the generic structure of amyloid fibrils.
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PMID:Structural characterisation of islet amyloid polypeptide fibrils. 1472 43

A combined total of more than 600.0 ns molecular dynamics simulations with explicit solvent have been carried on systems containing either four peptides or a single peptide to investigate the early-stage aggregation process of an amyloidogenic hexapeptide, NFGAIL (residues 22-27 of the human islet amyloid polypeptide). Direct observation of the aggregation process was made possible by placing four peptides in a box of water with an effective concentration of 158 mg/ml to enhance the rate of aggregation. Partially ordered oligomers containing multistrand beta-sheets were observed which could be the precursory structures leading to the amyloid-forming embryonic nuclei. Comparative simulations on a single peptide suggested that the combined effect of higher peptide concentration and periodic boundary condition promoted compact monomers and the short-range interpeptide interactions favored the beta-extended conformation. Of particular interest was the persistent fluctuation of the size of the aggregates throughout the simulations, suggesting that dissociation of peptides from the disordered aggregates was an obligatory step toward the formation of ordered oligomers. Although 95% of peptides formed oligomers and 44% were in beta-extended conformations, only 16% of peptides formed multistrand beta-sheets. The disordered aggregates were mainly stabilized by hydrophobic interactions while cross-strand main-chain hydrogen bonds manifested the ordered oligomers. The transition to the beta-extended conformation was mildly cooperative due to short-range interactions between beta-extended peptides. Taken together, we propose that the role of hydrophobic interaction in the early stage of aggregation is to promote disordered aggregates and disfavor the formation of ordered nuclei and dissociation of the disordered oligomers could be the rate-limiting step at the initiation stage.
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PMID:Formation of partially ordered oligomers of amyloidogenic hexapeptide (NFGAIL) in aqueous solution observed in molecular dynamics simulations. 1532 28

The mechanisms by which amyloidogenic peptides and proteins form soluble toxic oligomers remain elusive. We have studied the formation of partially ordered tetramers and well-ordered octamers of an amyloidogenic hexapeptide NFGAIL (residues 22-27 of the human islet amyloid polypeptide) in our previous work. Continuing the effort, we here probe the beta-sheet elongation process by a combined total of 2.0 micros molecular dynamics simulations with explicit solvent. In a set of 10 simulations with the peptides restrained to the extended conformation, we observed that the main growth mode was elongation along the beta-sheet hydrogen bonds through primarily a two-stage process. Driven by hydrophobic forces, the peptides initially attached to the surface of the ordered oligomer, moved quickly to the beta-sheet edges, and formed stable beta-sheet hydrogen bonds. Addition of peptides to the existing oligomer notably improved the order of the peptide aggregate in which labile outer layer beta-sheets were stabilized, which provides good templates for further elongation. These simulations suggested that elongation along the beta-sheet hydrogen bonds occurs at the intermediate stage when low-weight oligomers start to form. We did not observe significant preference toward either parallel or antiparallel beta-sheets at the elongation stage for this peptide. In another set of 10 unrestrained simulations, the dominant growth mode was disordered aggregation. Taken together, these results offered a glimpse at the molecular events leading to the formation of ordered and disordered low-weight oligomers.
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PMID:Elongation of ordered peptide aggregate of an amyloidogenic hexapeptide NFGAIL observed in molecular dynamics simulations with explicit solvent. 1619 Jul 16

Uncontrolled aggregation of proteins or polypeptides can be detrimental for normal cellular processes in healthy organisms. Proteins or polypeptides that form these amyloid deposits differ in their primary sequence but share a common structural motif: the (anti)parallel beta sheet. A well-accepted approach for interfering with beta-sheet formation is the design of soluble beta-sheet peptides to disrupt the hydrogen-bonding network; this ultimately leads to the disassembly of the aggregates or fibrils. Here, we describe the synthesis, spectroscopic analysis, and aggregation behavior, imaged by electron microscopy, of several backbone-modified amylin(20-29) derivatives. It was found that these amylin derivatives were not able to form fibrils and to some extent were able to inhibit fibril growth of native amylin(20-29). However, two of the amylin peptides were able to form large supramolecular assemblies, like helical ribbons and peptide nanotubes, in which beta-sheet formation was clearly absent. This was quite unexpected since these peptides have been designed as soluble beta-sheet breakers for disrupting the characteristic hydrogen-bonding network of (anti)parallel beta sheets. The increased hydrophobicity and the presence of essential amino acid side chains in the newly designed amylin(20-29) derivatives were found to be the driving force for self-assembly into helical ribbons and peptide nanotubes. This example of controlled and desired peptide aggregation may be a strong impetus for research on bionanomaterials in which special shapes and assemblies are the focus of interest.
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PMID:Self-assembly of amylin(20-29) amide-bond derivatives into helical ribbons and peptide nanotubes rather than fibrils. 1652 92


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