Your search keyword '"Riek, Roland"' showing total 24 results

1. Short Peptide Amyloids Are a Potential Sequence Pool for the Emergence of Proteins.

Author

Kwiatkowski W, Greenwald J, Murzakhmetov L, Robinson RC, and Riek R

Subjects

Animals, Amino Acids chemistry, Fatty Acids, Evolution, Molecular, Amyloid chemistry, Peptides chemistry, Proteome

Abstract

Under prebiotic conditions, peptides are capable of self-replication through a structure-based template-assisted mechanism when they form amyloids. Furthermore, peptide amyloids can spontaneously form inside fatty acid vesicles creating membrane enclosed complex structures of variable morphologies. This is possible because fatty acid vesicle membranes act as filters allowing passage of activated amino acids while some amino acids derived from the activated species become non-permeable and trapped in the vesicles. Similarly, nascent peptides derived from the condensation of the activated amino acids are also trapped in the vesicles. It is hypothesized that such preselected peptide amyloids become a sequence pool for the emergence of proteins in life and that after billions of years of cellular evolution, the sequences in the current proteome have diverged significantly from these original seed peptides. If this hypothesis is correct, it could be possible to detect the traces of these seed sequences in current proteomes. Here, we show for all possible 3, 6, 7, 8 or 9 residue sequence motifs that those motifs that are most amyloidogenic/aggregation prone are over-represented in extant proteomes compared to a sequence-randomized proteome. Furthermore, we find that there is a greater proportion of amyloidogenic sequence motifs in archaea proteomes than in the larger primate proteomes. This suggests that the evolution towards larger proteomes leads to smaller proportion of amyloidogenic sequences., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

2. Prebiotically Plausible Autocatalytic Peptide Amyloids.

Author

Rout SK, Rhyner D, Riek R, and Greenwald J

Subjects

Amino Acids, Amyloid, Peptides

Abstract

The prebiotic emergence of molecules capable both of self-replication and of storing information was a defining event at the dawn of life. Still, no plausible prebiotic self-replication of biologically relevant molecules has been demonstrated. Building upon the known templating nature of amyloids, we present two systems in which the products of a peptide-bond-forming reaction act as self-replicators to enhance the yield and stereoselectivity of their formation. This first report of an amino acid condensation that can undergo autocatalysis further supports the potential role of amyloids in prebiotic molecular evolution as an environment-responsive and information-coding system capable of self-replication., (© 2021 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.)

Published

2022

3. Prebiotic Peptide Synthesis and Spontaneous Amyloid Formation Inside a Proto-Cellular Compartment.

Author

Kwiatkowski W, Bomba R, Afanasyev P, Boehringer D, Riek R, and Greenwald J

Subjects

Amino Acids metabolism, Amyloidogenic Proteins metabolism, Decanoic Acids chemistry, Decanoic Acids metabolism, Liposomes metabolism, Oleic Acid chemistry, Oleic Acid metabolism, Peptides metabolism, Permeability, Phosphatidylcholines chemistry, Phosphatidylcholines metabolism, Protein Multimerization, Amino Acids chemistry, Amyloidogenic Proteins chemistry, Liposomes chemistry, Origin of Life, Peptides chemistry

Abstract

Cellular life requires a high degree of molecular complexity and self-organization, some of which must have originated in a prebiotic context. Here, we demonstrate how both of these features can emerge in a plausibly prebiotic system. We found that chemical gradients in simple mixtures of activated amino acids and fatty acids can lead to the formation of amyloid-like peptide fibrils that are localized inside of a proto-cellular compartment. In this process, the fatty acid or lipid vesicles act both as a filter, allowing the selective passage of activated amino acids, and as a barrier, blocking the diffusion of the amyloidogenic peptides that form spontaneously inside the vesicles. This synergy between two distinct building blocks of life induces a significant increase in molecular complexity and spatial order thereby providing a route for the early molecular evolution that could give rise to a living cell., (© 2020 Wiley-VCH GmbH.)

Published

2021

4. Carbonyl Sulfide as a Prebiotic Activation Agent for Stereo- and Sequence-Selective, Amyloid-Templated Peptide Elongation.

Author

Bomba R, Rout SK, Bütikofer M, Kwiatkowski W, Riek R, and Greenwald J

Subjects

Evolution, Chemical, Origin of Life, Peptides chemistry, Sulfur Oxides chemistry

Abstract

Prebiotic chemical replication is a commonly assumed precursor to and prerequisite for life and as such is the one of the goals of our research. We have previously reported on the role that short peptide amyloids could have played in a template-based chemical elongation. Here we take a step closer to the goal by reproducing amyloid-templated peptide elongation with carbonyl sulfide (COS) in place of the less-prebiotically relevant carbonyldiimidazole (CDI) used in the earlier study. Our investigation shows that the sequence-selectivity and stereoselectivity of the amyloid-templated reaction is similar for both activation chemistries. Notably, the amyloid protects the peptides from some of the side-reactions that take place with the COS-activation.

Published

2019

5. Peptide Amyloids in the Origin of Life.

Author

Greenwald J, Kwiatkowski W, and Riek R

Subjects

Amyloidogenic Proteins chemistry, Amyloidogenic Proteins metabolism, Biophysical Phenomena, Catalysis, Cell Membrane chemistry, Cell Membrane metabolism, Models, Molecular, Prebiotics, Protein Conformation, Protein Multimerization, RNA genetics, RNA metabolism, Repetitive Sequences, Nucleic Acid, Signal Transduction, Structure-Activity Relationship, Amyloid chemistry, Amyloid metabolism, Origin of Life, Peptides chemistry, Peptides metabolism

Abstract

How life can emerge from non-living matter is one of the fundamental mysteries of the universe. A bottom-up approach to this problem focuses on the potential chemical precursors of life, in particular the nature of the first replicative molecules. Such thinking has led to the currently most popular idea: that an RNA-like molecule played a central role as the first replicative and catalytic molecule. Here, we review an alternative hypothesis that has recently gained experimental support, focusing on the role of amyloidogenic peptides rather than nucleic acids, in what has been by some termed "the amyloid-world" hypothesis. Amyloids are well-ordered peptide aggregates that have a fibrillar morphology due to their underlying structure of a one-dimensional crystal-like array of peptides in a β-strand conformation. While they are notorious for their implication in several neurodegenerative diseases including Alzheimer's disease, amyloids also have many biological functions. In this review, we will elaborate on the following properties of amyloids in relation to their fitness as a prebiotic entity: they can be formed by very short peptides with simple amino acids sequences; as aggregates they are more chemically stable than their isolated component peptides; they can possess diverse catalytic activities; they can form spontaneously during the prebiotic condensation of amino acids; they can act as templates in their own chemical replication; they have a structurally repetitive nature that enables them to interact with other structurally repetitive biopolymers like RNA/DNA and polysaccharides, as well as with structurally repetitive surfaces like amphiphilic membranes and minerals., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

6. A prebiotic template-directed peptide synthesis based on amyloids.

Author

Rout SK, Friedmann MP, Riek R, and Greenwald J

Subjects

Amino Acid Sequence, Amino Acids genetics, Amino Acids metabolism, Amyloid metabolism, Amyloid ultrastructure, Arginine chemistry, Arginine genetics, Arginine metabolism, Hydrogen-Ion Concentration, Microscopy, Electron, Origin of Life, Peptide Biosynthesis genetics, Peptides genetics, Peptides metabolism, Phenylalanine chemistry, Phenylalanine genetics, Phenylalanine metabolism, Sodium Chloride chemistry, Stereoisomerism, Temperature, Templates, Genetic, Amino Acids chemistry, Amyloid chemistry, Chemistry Techniques, Synthetic methods, Peptides chemistry

Abstract

The prebiotic replication of information-coding molecules is a central problem concerning life's origins. Here, we report that amyloids composed of short peptides can direct the sequence-selective, regioselective and stereoselective condensation of amino acids. The addition of activated DL-arginine and DL-phenylalanine to the peptide RFRFR-NH 2 in the presence of the complementary template peptide Ac-FEFEFEFE-NH 2 yields the isotactic product FRFRFRFR-NH 2 , 1 of 64 possible triple addition products, under conditions in which the absence of template yields only single and double additions of mixed stereochemistry. The templating mechanism appears to be general in that a different amyloid formed by (Orn)V(Orn)V(Orn)V(Orn)V-NH 2 and Ac-VDVDVDVDV-NH 2 is regioselective and stereoselective for N-terminal, L-amino-acid addition while the ornithine-valine peptide alone yields predominantly sidechain condensation products with little stereoselectivity. Furthermore, the templating reaction is stable over a wide range of pH (5.6-8.6), salt concentration (0-4 M NaCl), and temperature (25-90 °C), making the amyloid an attractive model for a prebiotic peptide replicating system.

Published

2018

7. Uncovering the Mechanism of Aggregation of Human Transthyretin.

Author

Saelices L, Johnson LM, Liang WY, Sawaya MR, Cascio D, Ruchala P, Whitelegge J, Jiang L, Riek R, and Eisenberg DS

Subjects

Amyloid antagonists & inhibitors, Amyloid genetics, Amyloid metabolism, Amyloid Neuropathies, Familial drug therapy, Amyloid Neuropathies, Familial genetics, Amyloid Neuropathies, Familial metabolism, Humans, Peptides genetics, Peptides metabolism, Prealbumin antagonists & inhibitors, Prealbumin genetics, Prealbumin metabolism, Protein Structure, Secondary, Amyloid chemistry, Models, Molecular, Peptides chemistry, Prealbumin chemistry, Protein Aggregates

Abstract

The tetrameric thyroxine transport protein transthyretin (TTR) forms amyloid fibrils upon dissociation and monomer unfolding. The aggregation of transthyretin has been reported as the cause of the life-threatening transthyretin amyloidosis. The standard treatment of familial cases of TTR amyloidosis has been liver transplantation. Although aggregation-preventing strategies involving ligands are known, understanding the mechanism of TTR aggregation can lead to additional inhibition approaches. Several models of TTR amyloid fibrils have been proposed, but the segments that drive aggregation of the protein have remained unknown. Here we identify β-strands F and H as necessary for TTR aggregation. Based on the crystal structures of these segments, we designed two non-natural peptide inhibitors that block aggregation. This work provides the first characterization of peptide inhibitors for TTR aggregation, establishing a novel therapeutic strategy., (© 2015 by The American Society for Biochemistry and Molecular Biology, Inc.)

Published

2015

8. Cotranslational structure acquisition of nascent polypeptides monitored by NMR spectroscopy.

Author

Eichmann C, Preissler S, Riek R, and Deuerling E

Subjects

Carbon Isotopes, Nitrogen Isotopes, Ribosomes metabolism, Spectrin metabolism, Thermodynamics, Magnetic Resonance Spectroscopy methods, Models, Molecular, Peptides chemistry, Protein Folding, Protein Structure, Tertiary, Spectrin chemistry

Abstract

The folding of proteins in living cells may start during their synthesis when the polypeptides emerge gradually at the ribosomal exit tunnel. However, our current understanding of cotranslational folding processes at the atomic level is limited. We employed NMR spectroscopy to monitor the conformation of the SH3 domain from alpha-spectrin at sequential stages of elongation via in vivo ribosome-arrested (15)N,(13)C-labeled nascent polypeptides. These nascent chains exposed either the entire SH3 domain or C-terminally truncated segments thereof, thus providing snapshots of the translation process. We show that nascent SH3 polypeptides remain unstructured during elongation but fold into a compact, native-like beta-sheet assembly when the entire sequence information is available. Moreover, the ribosome neither imposes major conformational constraints nor significantly interacts with exposed unfolded nascent SH3 domain moieties. Our data provide evidence for a domainwise folding of the SH3 domain on ribosomes without significant population of folding intermediates. The domain follows a thermodynamically favorable pathway in which sequential folding units are stabilized, thus avoiding kinetic traps during the process of cotranslational folding.

Published

2010

9. Novel, potent, and radio-iodinatable somatostatin receptor 1 (sst1) selective analogues.

Author

Erchegyi J, Cescato R, Grace CR, Waser B, Piccand V, Hoyer D, Riek R, Rivier JE, and Reubi JC

Subjects

Amino Acid Sequence, Animals, Cell Line, Cricetinae, Iodine Radioisotopes chemistry, Magnetic Resonance Spectroscopy, Models, Molecular, Peptides chemical synthesis, Protein Binding, Protein Conformation, Receptors, Somatostatin metabolism, Structure-Activity Relationship, Substrate Specificity, Drug Design, Peptides chemistry, Peptides metabolism, Receptors, Somatostatin chemistry

Abstract

The proposed sst(1) pharmacophore (J. Med. Chem. 2005, 48, 523-533) derived from the NMR structures of a family of mono- and dicyclic undecamers was used to design octa-, hepta-, and hexamers with high affinity and selectivity for the somatostatin sst(1) receptor. These compounds were tested for their in vitro binding properties to all five somatostatin (SRIF) receptors using receptor autoradiography; those with high SRIF receptor subtype 1 (sst(1)) affinity and selectivity were shown to be agonists when tested functionally in a luciferase reporter gene assay. Des-AA(1,4-6,10,12,13)-[DTyr(2),DAgl(NMe,2naphthoyl)(8),IAmp(9)]-SRIF-Thr-NH(2) (25) was radio-iodinated ((125)I-25) and specifically labeled sst(1)-expressing cells and tissues. 3D NMR structures were calculated for des-AA(1,4-6,10,12,13)-[DPhe(2),DTrp(8),IAmp(9)]-SRIF-Thr-NH(2) (16), des-AA(1,2,4-6,10,12,13)-[DAgl(NMe,2naphthoyl)(8),IAmp(9)]-SRIF-Thr-NH(2) (23), and des-AA(1,2,4-6,10,12,13)-[DAgl(NMe,2naphthoyl)(8),IAmp(9),Tyr(11)]-SRIF-NH(2) (27) in DMSO. Though the analogues have the sst(1) pharmacophore residues at the previously determined distances from each other, the positioning of the aromatic residues in 16, 23, and 27 is different from that described earlier, suggesting an induced fit mechanism for sst(1) binding of these novel, less constrained sst(1)-selective family members.

Published

2009

10. Structure of the N-terminal domain of a type B1 G protein-coupled receptor in complex with a peptide ligand.

Author

Grace CR, Perrin MH, Gulyas J, Digruccio MR, Cantle JP, Rivier JE, Vale WW, and Riek R

Subjects

Alanine, Animals, Binding Sites, Corticotropin-Releasing Hormone chemistry, Ligands, Models, Molecular, Peptide Fragments chemistry, Protein Binding, Protein Structure, Secondary, Protein Structure, Tertiary drug effects, Sheep, Corticotropin-Releasing Hormone metabolism, Peptide Fragments metabolism, Peptides metabolism, Receptors, Corticotropin-Releasing Hormone chemistry, Receptors, Corticotropin-Releasing Hormone metabolism

Abstract

The corticotropin releasing factor (CRF) family of ligands and their receptors coordinate endocrine, behavioral, autonomic, and metabolic responses to stress and play additional roles within the cardiovascular, gastrointestinal, and other systems. The actions of CRF and the related urocortins are mediated by activation of two receptors, CRF-R1 and CRF-R2, belonging to the B1 family of G protein-coupled receptors. The short-consensus-repeat fold (SCR) within the first extracellular domain (ECD1) of the CRF receptor(s) comprises the major ligand binding site and serves to dock a peptide ligand via its C-terminal segment, thus positioning the N-terminal segment to interact with the receptor's juxtamembrane domains to activate the receptor. Here we present the 3D NMR structure of ECD1 of CRF-R2beta in complex with astressin, a peptide antagonist. In the structure of the complex the C-terminal segment of astressin forms an amphipathic helix, whose entire hydrophobic face interacts with the short-consensus-repeat motif, covering a large intermolecular interface. In addition, the complex is characterized by intermolecular hydrogen bonds and a salt bridge. These interactions are quantitatively weighted by an analysis of the effects on the full-length receptor affinities using an Ala scan of CRF. These structural studies identify the major determinants for CRF ligand specificity and selectivity and support a two-step model for receptor activation. Furthermore, because of a proposed conservation of the fold for both the ECD1s and ligands, this structure can serve as a model for ligand recognition for the entire B1 receptor family.

Published

2007

11. Atomic resolution protein allostery from the multi-state structure of a PDZ domain.

Author

Ashkinadze, Dzmitry, Kadavath, Harindranath, Pokharna, Aditya, Chi, Celestine N., Friedmann, Michael, Strotz, Dean, Kumari, Pratibha, Minges, Martina, Cadalbert, Riccardo, Königl, Stefan, Güntert, Peter, Vögeli, Beat, and Riek, Roland

Subjects

PROTEIN fractionation, OVERHAUSER effect (Nuclear physics), PROTEIN-tyrosine phosphatase, PROTEIN structure, PEPTIDES, PROTEIN domains

Abstract

Recent methodological advances in solution NMR allow the determination of multi-state protein structures and provide insights into structurally and dynamically correlated protein sites at atomic resolution. This is demonstrated in the present work for the well-studied PDZ2 domain of protein human tyrosine phosphatase 1E for which protein allostery had been predicted. Two-state protein structures were calculated for both the free form and in complex with the RA-GEF2 peptide using the exact nuclear Overhauser effect (eNOE) method. In the apo protein, an allosteric conformational selection step comprising almost 60% of the domain was detected with an "open" ligand welcoming state and a "closed" state that obstructs the binding site by changing the distance between the β-sheet 2, α-helix 2, and sidechains of residues Lys38 and Lys72. The observed induced fit-type apo-holo structural rearrangements are in line with the previously published evolution-based analysis covering ~25% of the domain with only a partial overlap with the protein allostery of the open form. These presented structural studies highlight the presence of a dedicated highly optimized and complex dynamic interplay of the PDZ2 domain owed by the structure-dynamics landscape. In this manuscript the authors report accurate multi-state protein structures of the PDZ domain using biological NMR. By looking into protein structural states, the authors report an allosteric pathway at atomic resolution that validates previously reported low resolution findings and uncovered a structural hallmark of the allosteric ligand binding to the PDZ domain. [ABSTRACT FROM AUTHOR]

Published

2022

12. Prebiotically Plausible Autocatalytic Peptide Amyloids.

Author

Rout, Saroj K., Rhyner, David, Riek, Roland, and Greenwald, Jason

Subjects

PEPTIDES, MOLECULAR evolution, AUTOPOIESIS, AUTOCATALYSIS, AMINO acids

Abstract

The prebiotic emergence of molecules capable both of self‐replication and of storing information was a defining event at the dawn of life. Still, no plausible prebiotic self‐replication of biologically relevant molecules has been demonstrated. Building upon the known templating nature of amyloids, we present two systems in which the products of a peptide‐bond‐forming reaction act as self‐replicators to enhance the yield and stereoselectivity of their formation. This first report of an amino acid condensation that can undergo autocatalysis further supports the potential role of amyloids in prebiotic molecular evolution as an environment‐responsive and information‐coding system capable of self‐replication. [ABSTRACT FROM AUTHOR]

Published

2022

13. Amyloid Aggregates Arise from Amino Acid Condensations under Prebiotic Conditions.

Author

Greenwald, Jason, Friedmann, Michael P., and Riek, Roland

Subjects

AMINO acids, AMYLOID, GLYCOPROTEINS, VOLCANIC gases, PREBIOTICS, POLYMERIZATION

Abstract

Current theories on the origin of life reveal significant gaps in our understanding of the mechanisms that allowed simple chemical precursors to coalesce into the complex polymers that are needed to sustain life. The volcanic gas carbonyl sulfide (COS) is known to catalyze the condensation of amino acids under aqueous conditions, but the reported di-, tri-, and tetra-peptides are too short to support a regular tertiary structure. Here, we demonstrate that alanine and valine, two of the proteinogenic amino acids believed to have been among the most abundant on a prebiotic earth, can polymerize into peptides and subsequently assemble into ordered amyloid fibers comprising a cross-β-sheet quaternary structure following COS-activated continuous polymerization of as little as 1 m m amino acid. Furthermore, this spontaneous assembly is not limited to pure amino acids, since mixtures of glycine, alanine, aspartate, and valine yield similar structures. [ABSTRACT FROM AUTHOR]

Published

2016

14. Expression and Functional Characterization of Membrane-Integrated Mammalian Corticotropin Releasing Factor Receptors 1 and 2 in Escherichia coli.

Author

Jappelli, Roberto, Perrin, Marilyn H., Lewis, Kathy A., Vaughan, Joan M., Tzitzilonis, Christos, Rivier, Jean E., Vale, Wylie W., and Riek, Roland

Subjects

CORTICOTROPIN releasing hormone receptors, GENE expression, MEMBRANE proteins, ESCHERICHIA coli, G protein coupled receptors, PEPTIDES, PHYSIOLOGICAL stress, LABORATORY mice

Abstract

Corticotropin-Releasing Factor Receptors (CRFRs) are class B1 G-protein-coupled receptors, which bind peptides of the corticotropin releasing factor family and are key mediators in the stress response. In order to dissect the receptors' binding specificity and enable structural studies, full-length human CRFR1α and mouse CRFR2β as well as fragments lacking the N-terminal extracellular domain, were overproduced in E. coli. The characteristics of different CRFR2β -PhoA gene fusion products expressed in bacteria were found to be in agreement with the predicted ones in the hepta-helical membrane topology model. Recombinant histidine-tagged CRFR1α and CRFR2β expression levels and bacterial subcellular localization were evaluated by cell fractionation and Western blot analysis. Protein expression parameters were assessed, including the influence of E. coli bacterial hosts, culture media and the impact of either PelB or DsbA signal peptide. In general, the large majority of receptor proteins became inserted in the bacterial membrane. Across all experimental conditions significantly more CRFR2β product was obtained in comparison to CRFR1α. Following a detergent screen analysis, bacterial membranes containing CRFR1α and CRFR2β were best solubilized with the zwitterionic detergent FC-14. Binding of different peptide ligands to CRFR1α and CRFR2β membrane fractions were similar, in part, to the complex pharmacology observed in eukaryotic cells. We suggest that our E. coli expression system producing functional CRFRs will be useful for large-scale expression of these receptors for structural studies. [ABSTRACT FROM AUTHOR]

Published

2014

15. A Novel Neurotrophic Drug for Cognitive Enhancement and Alzheimer's Disease.

Author

Chen, Qi, Prior, Marguerite, Dargusch, Richard, Roberts, Amanda, Riek, Roland, Eichmann, Cédric, Chiruta, Chandramouli, Akaishi, Tatsuhiro, Abe, Kazuho, Maher, Pamela, and Schubert, David

Subjects

ALZHEIMER'S disease, NEURODEGENERATION, AMYLOID, METABOLISM, PEPTIDES

Abstract

Currently, the major drug discovery paradigm for neurodegenerative diseases is based upon high affinity ligands for single disease-specific targets. For Alzheimer's disease (AD), the focus is the amyloid beta peptide (Aβ) that mediates familial Alzheimer's disease pathology. However, given that age is the greatest risk factor for AD, we explored an alternative drug discovery scheme that is based upon efficacy in multiple cell culture models of age-associated pathologies rather than exclusively amyloid metabolism. Using this approach, we identified an exceptionally potent, orally active, neurotrophic molecule that facilitates memory in normal rodents, and prevents the loss of synaptic proteins and cognitive decline in a transgenic AD mouse model. [ABSTRACT FROM AUTHOR]

Published

2011

16. Cover Feature: Prebiotically Plausible Autocatalytic Peptide Amyloids (Chem. Eur. J. 3/2022).

Author

Rout, Saroj K., Rhyner, David, Riek, Roland, and Greenwald, Jason

Subjects

PEPTIDES, AMYLOID, ORIGIN of life, PEPTIDE synthesis, VOLCANIC gases, AMYLOID beta-protein

Abstract

Keywords: aggregation; autocatalysis; amyloids; origin of life; self-replication EN aggregation autocatalysis amyloids origin of life self-replication 1 1 1 01/18/22 20220113 NES 220113 B Simple amino acids b activated by the volcanic gas carbonyl sulfide can condense into peptides that then spontaneously assemble into amyloids. Aggregation, autocatalysis, amyloids, origin of life, self-replication. [Extracted from the article]

Published

2022

17. Amyloid as a Depot for the Formulation of Long-Acting Drugs.

Author

Maji, Samir K, Schubert, David, Rivier, Catherine, Lee, Soon, Rivier, Jean E, and Riek, Roland

Subjects

AMYLOID, GLYCOPROTEINS, CONTROLLED release preparations, PEPTIDES, DRUGS

Abstract

Amyloids have the properties required of a long-acting drug because they are stable depots that guarantee a controlled release of the active peptide drug from the amyloid termini. [ABSTRACT FROM AUTHOR]

Published

2008

18. Cell biology: Infectious Alzheimer's disease?

Author

Riek, Roland

Subjects

*AMYLOID, *AMYLOID beta-protein, *PEPTIDES, *TRANSGENIC mice, *ALZHEIMER'S disease, *PHENOTYPES

Abstract

The article highlights the results of a study showing that amyloids from the amyloid-β peptide behave like an infectious agent when injected into the brain of a transgenic mouse model of Alzheimer's disease, generating phenotypes that depend on both the host and the agent. The study provides in vivo evidence of a time- and concentration-dependent seeded aggregation of amyloid-β. It highlights the need for research into the possible transmission of amyloid diseases between humans.

Published

2006

19. NMR studies in aqueous solution fail to identify significant conformational differences between the monomeric forms of two Alzheimer peptides with widely different plaque-competence, Aβ(1–40)ox and Aβ(1–42)ox.

Author

Riek, Roland, Güntert, Peter, Döbeli, Heinz, Wipf, Beat, and Wüthrich, Kurt

Subjects

*PEPTIDES, *ALZHEIMER'S disease, *MONOMERS

Abstract

NMR studies of amyloid β-peptides (Aβ) in aqueous solution provide a novel way in which to characterize the apparent Alzheimer’s disease-related conformational polymorphism of Aβ. In the aqueous medium, neither of the polypeptides Aβ(1–40)ox or Aβ(1–42)ox (both of which contain a methionine sulfoxide at position 35) is folded into a globular structure, but they both deviate from random coil behavior by local conformational preferences of several short segments along the amino-acid sequence. Differences between the solution structures of Aβ(1–40)ox and Aβ(1–42)ox are indicated only by decreased flexibility of the region from about residue 32 to the C-terminus in Aβ(1–42)ox when compared to Aβ(1–40)ox. The lack of the observation of more extensive conformational differences between the two molecules is intriguing, considering that Aβ(1–42)ox in aqueous solution has much higher plaque-competence than Aβ(1–40)ox. [ABSTRACT FROM AUTHOR]

Published

2001

20. NMR studies in aqueous solution fail to identify significant conformational differences between the monomeric forms of two Alzheimer peptides with widely different plaque-competence, Aβ(1–40)ox and Aβ(1–42)ox.

Author

Riek, Roland, Güntert, Peter, Döbeli, Heinz, Wipf, Beat, and Wüthrich, Kurt

Subjects

PEPTIDES, ALZHEIMER'S disease, MONOMERS

Abstract

NMR studies of amyloid β-peptides (Aβ) in aqueous solution provide a novel way in which to characterize the apparent Alzheimer’s disease-related conformational polymorphism of Aβ. In the aqueous medium, neither of the polypeptides Aβ(1–40)ox or Aβ(1–42)ox (both of which contain a methionine sulfoxide at position 35) is folded into a globular structure, but they both deviate from random coil behavior by local conformational preferences of several short segments along the amino-acid sequence. Differences between the solution structures of Aβ(1–40)ox and Aβ(1–42)ox are indicated only by decreased flexibility of the region from about residue 32 to the C-terminus in Aβ(1–42)ox when compared to Aβ(1–40)ox. The lack of the observation of more extensive conformational differences between the two molecules is intriguing, considering that Aβ(1–42)ox in aqueous solution has much higher plaque-competence than Aβ(1–40)ox. [ABSTRACT FROM AUTHOR]

Published

2001

21. Prion protein NMR structure and familial human spongiform encephalopathies.

Author

Riek, Roland and Wider, Gerhard

Subjects

*PEPTIDES, *PROTEINS, *NUCLEAR magnetic resonance, *MOLECULAR structure

Abstract

Highlights a study which analyzed the inherited human transmissible spongiform encephalopathies' (TSE) structural basis, using the 208-residue polypeptide chain of the mouse prion protein domain's nuclear magnetic resonance structure. What causes TSE; In-depth look at the prion proteins' molecular structure; Methodology used to conduct the study; Results of the study.

Published

1998

22. Expression and Functional Characterization of Membrane-Integrated Mammalian Corticotropin Releasing Factor Receptors 1 and 2 in Escherichia coli.

Author

Jappelli, Roberto, Perrin, Marilyn H., Lewis, Kathy A., Vaughan, Joan M., Tzitzilonis, Christos, Rivier, Jean E., Vale, Wylie W., and Riek, Roland

Subjects

*CORTICOTROPIN releasing hormone receptors, *GENE expression, *MEMBRANE proteins, *ESCHERICHIA coli, *G protein coupled receptors, *PEPTIDES, *PHYSIOLOGICAL stress, *LABORATORY mice

Abstract

Corticotropin-Releasing Factor Receptors (CRFRs) are class B1 G-protein-coupled receptors, which bind peptides of the corticotropin releasing factor family and are key mediators in the stress response. In order to dissect the receptors' binding specificity and enable structural studies, full-length human CRFR1α and mouse CRFR2β as well as fragments lacking the N-terminal extracellular domain, were overproduced in E. coli. The characteristics of different CRFR2β -PhoA gene fusion products expressed in bacteria were found to be in agreement with the predicted ones in the hepta-helical membrane topology model. Recombinant histidine-tagged CRFR1α and CRFR2β expression levels and bacterial subcellular localization were evaluated by cell fractionation and Western blot analysis. Protein expression parameters were assessed, including the influence of E. coli bacterial hosts, culture media and the impact of either PelB or DsbA signal peptide. In general, the large majority of receptor proteins became inserted in the bacterial membrane. Across all experimental conditions significantly more CRFR2β product was obtained in comparison to CRFR1α. Following a detergent screen analysis, bacterial membranes containing CRFR1α and CRFR2β were best solubilized with the zwitterionic detergent FC-14. Binding of different peptide ligands to CRFR1α and CRFR2β membrane fractions were similar, in part, to the complex pharmacology observed in eukaryotic cells. We suggest that our E. coli expression system producing functional CRFRs will be useful for large-scale expression of these receptors for structural studies. [ABSTRACT FROM AUTHOR]

Published

2014

23. Functional Amyloids As Natural Storage of Peptide Hormones in Pituitary Secretory Granules.

Author

Maji, Samir K., Perrin, Marilyn H., Sawaya, Michael R., Jessberger, Sebastian, Vadodaria, Krishna, Rissman, Robert A., Singru, Praful S., Nilsson, K. Peter R., Simon, Rozalyn, Schubert, David, Eisenberg, David, Rivier, Jean, Sawchenko, Paul, Vale, Wylie, and Riek, Roland

Subjects

*AMYLOID, *PEPTIDES, *PITUITARY gland, *PROTEIN research, *PRIONS, *PROTEIN hormones, *CELL physiology, *TISSUE physiology

Abstract

Amyloids are highly organized cross-β-sheet-rich protein or peptide aggregates that are associated with pathological conditions including Alzheimer's disease and type II diabetes. However, amyloids may also have a normal biological function, as demonstrated by fungal prions, which are involved in prion replication, and the amyloid protein Pmel17, which is involved in mammalian skin pigmentation. We found that peptide and protein hormones in secretory granules of the endocrine system are stored in an amyloid-like cross-β-sheet-rich conformation. Thus, functional amyloids in the pituitary and other organs can contribute to normal cell and tissue physiology. [ABSTRACT FROM AUTHOR]

Published

2009

24. Common and Divergent Structural Features of a Series of Corticotropin Releasing Factor-Related Peptides.

Author

Grace, Christy Rani A., Perrin, Marilyn H., CantIe, Jeffrey P., Vale, Wylie W., Rivier, Jean E., and Riek, Roland

Subjects

*CORTICOTROPIN releasing hormone, *PEPTIDES, *BINDING sites, *HYDROPHOBIC surfaces, *SURFACE chemistry

Abstract

Members of the corticoliberin family include the corticotropin releasing factors (CRFs), sauvagine, the urotensins, and urocortin 1 (Ucn1), which bind to both the CRF receptors CRF-R1 and CRF-R2, and the urocortins 2 (Ucn2) and 3 (Ucn3), which are selective agonists of CRF-R2. Structure activity relationship studies led to several potent and long-acting analogues with selective binding to either one of the receptors. NMR structures of six ligands of this family (the antagonists astressin B and astressin2-B, the agonists stressin1, and the natural ligands human Ucn1, Ucn2, and Ucn3) were determined in DMSO. These six peptides show differences in binding affinities, receptor-selectivity, and NMR structure. Overall, their backbones are α-helical, with a small kink or a turn around residues 25–27, resulting in a helix-loop-helix motif. The C-terminal helices are of amphipathic nature, whereas the N-terminal helices vary in their amphipathicity. The C-terminal helices thereby assume a conformation very similar to that of astressin bound to the ECD1 of CRF-R2 recently reported by our group) On the basis of an analysis of the observed 3D structures and relative potencies of [Ala]-substituted analogues, it is proposed that both helices could play a crucial role in receptor binding and selectivity. In conclusion, the C-terminal helices may interact along their hydrophobic faces with the ECD1, whereas the entire N-terminal helical surface may be involved in receptor activation. On the basis of the common and divergent features observed in the 3D structures of these ligands, multiple binding models are proposed that may explain their plurality of actions. [ABSTRACT FROM AUTHOR]

Published

2007