Your search keyword '"Kemmink J"' showing total 96 results

51. Optimizing divalent inhibitors of Pseudomonas aeruginosa lectin LecA by using a rigid spacer.

Author

Pertici F, de Mol NJ, Kemmink J, and Pieters RJ

Subjects

Anti-Bacterial Agents pharmacology, Adhesins, Bacterial chemistry, Anti-Bacterial Agents chemistry, Carbohydrates chemistry, Glycoconjugates chemistry, Lectins chemistry, Pseudomonas aeruginosa chemistry

Published

2013

52. Synthesis and structural characterization of the individual diastereoisomers of a cross-stapled alkene-bridged nisin DE-ring mimic.

Author

Slootweg JC, Kemmink J, Liskamp RM, and Rijkers DT

Subjects

Anti-Bacterial Agents pharmacology, Bacillus subtilis drug effects, Bacillus subtilis growth & development, Dose-Response Relationship, Drug, Microbial Sensitivity Tests, Molecular Structure, Nisin pharmacology, Stereoisomerism, Structure-Activity Relationship, Alkenes chemistry, Anti-Bacterial Agents chemical synthesis, Anti-Bacterial Agents chemistry, Nisin chemical synthesis, Nisin chemistry

Abstract

Herein, we describe the synthesis, structural characterization, and synthetic use as an advanced intermediate of a cross-stapled alkene-bridged hexapeptide to mimic the DE-ring of the lantibiotic nisin. The linear precursor was cyclized by ring-closing metathesis to give the correctly folded bicyclic hexapeptide in a single step, and the four individual diastereoisomers were isolated, structurally assigned and characterized by HPLC, NMR and MS, respectively. The bicyclic hexapeptide was used as a versatile advanced synthon and was modified at its C- and N-terminus, among others, with an azide moiety to access a building block suitable for Cu(I)-catalyzed alkyne-azide cycloaddition-based ligation reactions.

Published

2013

53. Synthesis of 1,5-triazole bridged vancomycin CDE-ring bicyclic mimics using RuAAC macrocyclization.

Author

Zhang J, Kemmink J, Rijkers DT, and Liskamp RM

Subjects

Alkynes chemistry, Azides chemistry, Bridged Bicyclo Compounds chemistry, Cyclization, Models, Molecular, Molecular Structure, Ruthenium chemistry, Triazoles chemistry, Vancomycin analogs & derivatives, Vancomycin chemistry, Bridged Bicyclo Compounds chemical synthesis, Organometallic Compounds chemistry, Triazoles chemical synthesis, Vancomycin chemical synthesis

Abstract

Herein we report the Ru(II)-catalyzed double-macrocyclization of a hexapeptide to obtain a mimic of the bicyclic CDE-ring of vancomycin, followed by measurement of its binding affinity for small peptide ligands using ITC.

Published

2013

54. The staphylococcal toxin Panton-Valentine Leukocidin targets human C5a receptors.

Author

Spaan AN, Henry T, van Rooijen WJM, Perret M, Badiou C, Aerts PC, Kemmink J, de Haas CJC, van Kessel KPM, Vandenesch F, Lina G, and van Strijp JAG

Subjects

Bacterial Proteins metabolism, Bacterial Toxins toxicity, Cells, Cultured, Exotoxins toxicity, Humans, Leukocidins toxicity, Receptors, Chemokine metabolism, Bacterial Toxins metabolism, Exotoxins metabolism, Host-Pathogen Interactions, Leukocidins metabolism, Receptor, Anaphylatoxin C5a metabolism, Staphylococcus aureus immunology, Staphylococcus aureus pathogenicity

Abstract

Panton-Valentine Leukocidin (PVL) is a staphylococcal bicomponent pore-forming toxin linked to severe invasive infections. Target-cell and species specificity of PVL are poorly understood, and the mechanism of action of this toxin in Staphylococcus aureus virulence is controversial. Here, we identify the human complement receptors C5aR and C5L2 as host targets of PVL, mediating both toxin binding and cytotoxicity. Expression and interspecies variations of the C5aR determine cell and species specificity of PVL. The C5aR binding PVL component, LukS-PV, is a potent inhibitor of C5a-induced immune cell activation. These findings provide insight into leukocidin function and staphylococcal virulence and offer directions for future investigations into individual susceptibility to severe staphylococcal disease., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2013

55. Peptido sulfonyl fluorides as new powerful proteasome inhibitors.

Author

Brouwer AJ, Jonker A, Werkhoven P, Kuo E, Li N, Gallastegui N, Kemmink J, Florea BI, Groll M, Overkleeft HS, and Liskamp RM

Subjects

HEK293 Cells, Humans, Peptides chemistry, Peptides pharmacology, Proteasome Endopeptidase Complex metabolism, Proteasome Inhibitors chemistry, Proteasome Inhibitors pharmacology, Protein Subunits antagonists & inhibitors, Protein Subunits metabolism, Structure-Activity Relationship, Sulfones chemistry, Sulfones pharmacology, Peptides chemical synthesis, Proteasome Inhibitors chemical synthesis, Sulfones chemical synthesis

Abstract

A new class of potent proteasome inhibitors is described, of which the members contain an amino acid inspired sulfonyl fluoride as the electrophilic trap. In total, 24 peptido sulfonyl fluoride inhibitors have been designed and synthesized, which were inspired by the backbone sequences of the proteasome inhibitors bortezomib, epoxomicin, and Cbz-Leu(3)-aldehyde. Nine of them were very potent proteasome inhibitors, the best of which had an IC(50) of 7 nM. A number of the peptido sulfonyl fluoride inhibitors were found to be highly selective for the β5 proteasome subunit.

Published

2012

56. Synthesis of cyclic peptides containing a thioester handle for native chemical ligation.

Author

van de Langemheen H, Brouwer AJ, Kemmink J, Kruijtzer JA, and Liskamp RM

Subjects

Ligation, Molecular Sequence Data, Cysteine analogs & derivatives, Cysteine chemical synthesis, Peptides, Cyclic chemical synthesis, Peptides, Cyclic chemistry, Sulfur Compounds chemical synthesis, Sulfur Compounds chemistry

Abstract

The synthesis of cyclic peptides containing a thioester handle using a sulfo-click linker is reported. These cyclic peptides can be coupled to N-terminal cysteine-containing constructs via native chemical ligation. A successful application of a cyclic peptide bearing a thioester handle in native chemical ligation is shown by a high yielding ligation.

Published

2012

57. Mutual influence of backbone proline substitution and lipophilic tail character on the biological activity of simplified analogues of caspofungin.

Author

Mulder MP, Fodran P, Kemmink J, Breukink EJ, Kruijtzer JA, Minnaard AJ, and Liskamp RM

Subjects

Antifungal Agents chemical synthesis, Antifungal Agents chemistry, Caspofungin, Dose-Response Relationship, Drug, Echinocandins chemical synthesis, Echinocandins chemistry, Lipopeptides, Microbial Sensitivity Tests, Molecular Structure, Structure-Activity Relationship, Antifungal Agents pharmacology, Candida drug effects, Echinocandins pharmacology, Proline chemistry

Abstract

The echinocandins represent the most recent class of antifungal drugs. Previous structure-activity relationship studies on these lipopeptides have relied mainly upon semisynthetic derivatives due to their complex chemical structures. A successful strategy for the rapid enantioselective synthesis of the branched fatty acid chain of caspofungin and analogues was developed to synthesize several simplified analogues of caspofungin. The specific minimum inhibitory activity of each mimic was determined against a panel of Candida strains. This approach gave access to new fully synthetic derived caspofungin mimics with high and selective antifungal activities against Candida strains. In addition, the data suggested an important role of the hydroxy proline residue in the bioactive conformation of the macrocyclic peptide ring structure.

Published

2012

58. Synthesis and evaluation of novel macrocyclic antifungal peptides.

Author

Mulder MP, Kruijtzer JA, Breukink EJ, Kemmink J, Pieters RJ, and Liskamp RM

Subjects

Antifungal Agents chemical synthesis, Antifungal Agents pharmacology, Candida albicans enzymology, Echinocandins chemical synthesis, Enzyme Inhibitors chemical synthesis, Enzyme Inhibitors pharmacology, Glucosyltransferases antagonists & inhibitors, Magnetic Resonance Spectroscopy, Microbial Sensitivity Tests, Molecular Structure, Solid-Phase Synthesis Techniques methods, Spectrometry, Mass, Electrospray Ionization, Antifungal Agents chemistry, Candida albicans drug effects, Echinocandins chemistry, Echinocandins pharmacology, Enzyme Inhibitors chemistry

Abstract

Echinocandins are a novel class of macrocyclic antifungal peptides that act by inhibiting the β-(1,3)-D-glucan synthase complex, which is not present in mammalian cells. Due to the large number of hydroxyl groups present in these complex macrocyclic lipopeptides, most structure-activity relationship studies have relied upon semisynthetic derivatives. In order to probe the influence of the cyclic peptide backbone on the antifungal activity we developed a successful strategy for the synthesis of novel echinocandins analogues by on-resin ring closing metathesis or disulfide formation. The specific minimum inhibitory activity of each mimic was determined against Candida albicans. Our results indicate that ring size is an important factor for antifungal activity., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2011

59. Looped structure of flowerlike micelles revealed by 1H NMR relaxometry and light scattering.

Author

de Graaf AJ, Boere KW, Kemmink J, Fokkink RG, van Nostrum CF, Rijkers DT, van der Gucht J, Wienk H, Baldus M, Mastrobattista E, Vermonden T, and Hennink WE

Subjects

Light, Magnetic Resonance Spectroscopy methods, Micelles, Scattering, Radiation

Abstract

We present experimental proof that so-called "flowerlike micelles" exist and that they have some distinctly different properties compared to their "starlike" counterparts. Amphiphilic AB diblock and BAB triblock copolymers consisting of poly(ethylene glycol) (PEG) as hydrophilic A block and thermosensitive poly(N-isopropylacrylamide) (pNIPAm) B block(s) were synthesized via atom transfer radical polymerization (ATRP). In aqueous solutions, both block copolymer types form micelles above the cloud point of pNIPAm. Static and dynamic light scattering measurements in combination with NMR relaxation experiments proved the existence of flowerlike micelles based on pNIPAm(16kDa)-PEG(4kDa)-pNIPAm(16kDa) which had a smaller radius and lower mass and aggregation number than starlike micelles based on mPEG(2kDa)-pNIPAm(16kDa). Furthermore, the PEG surface density was much lower for the flowerlike micelles, which we attribute to the looped configuration of the hydrophilic PEG block. (1)H NMR relaxation measurements showed biphasic T(2) relaxation for PEG, indicating rigid PEG segments close to the micelle core and more flexible distal segments. Even the flexible distal segments were shown to have a lower mobility in the flowerlike micelles compared to the starlike micelles, indicating strain due to loop formation. Taken together, it is demonstrated that self-assemblies of BAB triblock copolymers have their hydrophilic block in a looped conformation and thus indeed adopt a flowerlike conformation.

Published

2011

60. Peptides and proteins as a continuing exciting source of inspiration for peptidomimetics.

Author

Liskamp RM, Rijkers DT, Kruijtzer JA, and Kemmink J

Subjects

Amino Acid Sequence, Humans, Models, Molecular, Molecular Sequence Data, Peptoids chemistry, Protein Conformation, Protein Structure, Secondary, Amino Acids chemistry, Peptides chemistry, Peptidomimetics chemistry, Proteins chemistry

Abstract

Despite their enormous diversity in biological function and structure, peptides and proteins are endowed with properties that have induced and stimulated the development of peptidomimetics. Clearly, peptides can be considered as the "stem" of a phylogenetic molecular development tree from which branches of oligomeric peptidomimetics such as peptoids, peptidosulfonamides, urea peptidomimetics, as well as β-peptides have sprouted. It is still a challenge to efficiently synthesize these oligomeric species, and study their structural and biological properties. Combining peptides and peptidomimetics led to the emergence of peptide-peptidomimetic hybrids in which one or more (proteinogenic) amino acid residues have been replaced with these mimetic residues. In scan-like approaches, the influence of these replacements on biological activity can then be studied, to evaluate to what extent a peptide can be transformed into a peptidomimetic structure while maintaining, or even improving, its biological properties. A central issue, especially with the smaller peptides, is the lack of secondary structure. Important approaches to control secondary structure include the introduction of α,α-disubstituted amino acids, or (di)peptidomimetic structures such as the Freidinger lactam. Apart from intra-amino acid constraints, inter-amino acid constraints for formation of a diversity of cyclic peptides have shaped a thick branch. Apart from the classical disulfide bridges, the repertoire has been extended to include sulfide and triazole bridges as well as the single-, double- and even triple-bond replacements, accessible by the extremely versatile ring-closing alkene/alkyne metathesis approaches. The latter approach is now the method of choice for the secondary structure that presents the greatest challenge for structural stabilization: the α-helix., (Copyright © 2011 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2011

61. Cu(I)- and Ru(II)-mediated "click" cyclization of tripeptides toward vancomycin-inspired mimics.

Author

Zhang J, Kemmink J, Rijkers DT, and Liskamp RM

Subjects

Catalysis, Cyclization, Molecular Structure, Vancomycin chemical synthesis, Copper chemistry, Peptides chemistry, Ruthenium chemistry, Vancomycin analogs & derivatives

Abstract

Structural mimics comprising 1,4- and 1,5-disubstituted triazole-containing cyclic tripeptides with excellent resemblance toward the DE-ring of vancomycin are conveniently accessible using Cu(I)- or Ru(II)-assisted "click" cyclization.

Published

2011

62. A peptide mimic of the chemotaxis inhibitory protein of Staphylococcus aureus: towards the development of novel anti-inflammatory compounds.

Author

Bunschoten A, Ippel JH, Kruijtzer JA, Feitsma L, de Haas CJ, Liskamp RM, and Kemmink J

Subjects

Amino Acid Sequence, Anti-Inflammatory Agents immunology, Bacterial Proteins chemical synthesis, Bacterial Proteins immunology, Complement C5a antagonists & inhibitors, Complement C5a immunology, Humans, Molecular Sequence Data, Peptides chemical synthesis, Peptides immunology, Protein Binding, Staphylococcal Infections immunology, Staphylococcal Infections microbiology, Staphylococcus aureus chemistry, Anti-Inflammatory Agents chemical synthesis, Anti-Inflammatory Agents chemistry, Bacterial Proteins agonists, Bacterial Proteins chemistry, Drug Design, Peptides chemistry, Staphylococcus aureus immunology

Abstract

Complement factor C5a is one of the most powerful pro-inflammatory agents involved in recruitment of leukocytes, activation of phagocytes and other inflammatory responses. C5a triggers inflammatory responses by binding to its G-protein-coupled C5a-receptor (C5aR). Excessive or erroneous activation of the C5aR has been implicated in numerous inflammatory diseases. The C5aR is therefore a key target in the development of specific anti-inflammatory compounds. A very potent natural inhibitor of the C5aR is the 121-residue chemotaxis inhibitory protein of Staphylococcus aureus (CHIPS). Although CHIPS effectively blocks C5aR activation by binding tightly to its extra-cellular N terminus, it is not suitable as a potential anti-inflammatory drug due to its immunogenic properties. As a first step in the development of an improved CHIPS mimic, we designed and synthesized a substantially shorter 50-residue adapted peptide, designated CHOPS. This peptide included all residues important for receptor binding as based on the recent structure of CHIPS in complex with the C5aR N terminus. Using isothermal titration calorimetry we demonstrate that CHOPS has micromolar affinity for a model peptide comprising residues 7-28 of the C5aR N terminus including two O-sulfated tyrosine residues at positions 11 and 14. CD and NMR spectroscopy showed that CHOPS is unstructured free in solution. Upon addition of the doubly sulfated model peptide, however, the NMR and CD spectra reveal the formation of structural elements in CHOPS reminiscent of native CHIPS.

Published

2011

63. CHIPS binds to the phosphorylated N-terminus of the C5a-receptor.

Author

Bunschoten A, Feitsma LJ, Kruijtzer JA, de Haas CJ, Liskamp RM, and Kemmink J

Subjects

Molecular Mimicry, Phosphorylation, Protein Binding, Bacterial Proteins metabolism, Receptor, Anaphylatoxin C5a metabolism

Abstract

Replacement of the sulfate groups, present in vivo on the N-terminus of the C5a-receptor (C5aR), by phosphate groups is explored. Phosphorylated mimics of the C5a-receptor N-terminus are synthesized and their binding to Chemotaxis Inhibitory Protein of Staphylococcus aureus (CHIPS) is studied by ITC and NMR. The phosphorylated C5aR mimics showed comparable binding affinity and a similar binding mode towards CHIPS compared to their sulfated forms. The activities of the phosphorylated peptides in a biological assay, however, were significantly lower compared to their sulfated counterparts., (Copyright 2010 Elsevier Ltd. All rights reserved.)

Published

2010

64. A general sequence independent solid phase method for the site specific synthesis of multiple sulfated-tyrosine containing peptides.

Author

Bunschoten A, Kruijtzer JA, Ippel JH, de Haas CJ, van Strijp JA, Kemmink J, and Liskamp RM

Subjects

Peptides chemistry, Peptides chemical synthesis, Tyrosine chemistry

Abstract

In this communication, a new site specific synthesis of highly functionalized and multiple sulfated peptides using convential Fmoc-tBu solid phase peptide synthesis is described.

Published

2009

65. Structure of the tyrosine-sulfated C5a receptor N terminus in complex with chemotaxis inhibitory protein of Staphylococcus aureus.

Author

Ippel JH, de Haas CJ, Bunschoten A, van Strijp JA, Kruijtzer JA, Liskamp RM, and Kemmink J

Subjects

Amino Acid Motifs, Bacterial Proteins metabolism, Humans, Multiprotein Complexes metabolism, Nuclear Magnetic Resonance, Biomolecular, Protein Binding, Protein Structure, Quaternary, Protein Structure, Tertiary, Receptor, Anaphylatoxin C5a, Receptors, Complement metabolism, Sulfates chemistry, Sulfates metabolism, Tyrosine chemistry, Tyrosine metabolism, Bacterial Proteins chemistry, Multiprotein Complexes chemistry, Receptors, Complement chemistry, Staphylococcus aureus chemistry

Abstract

Complement component C5a is a potent pro-inflammatory agent inducing chemotaxis of leukocytes toward sites of infection and injury. C5a mediates its effects via its G protein-coupled C5a receptor (C5aR). Although under normal conditions highly beneficial, excessive levels of C5a can be deleterious to the host and have been related to numerous inflammatory diseases. A natural inhibitor of the C5aR is chemotaxis inhibitory protein of Staphylococcus aureus (CHIPS). CHIPS is a 121-residue protein excreted by S. aureus. It binds the N terminus of the C5aR (residues 1-35) with nanomolar affinity and thereby potently inhibits C5a-mediated responses in human leukocytes. Therefore, CHIPS provides a starting point for the development of new anti-inflammatory agents. Two O-sulfated tyrosine residues located at positions 11 and 14 within the C5aR N terminus play a critical role in recognition of C5a, but their role in CHIPS binding has not been established so far. By isothermal titration calorimetry, using synthetic Tyr-11- and Tyr-14-sulfated and non-sulfated C5aR N-terminal peptides, we demonstrate that the sulfate groups are essential for tight binding between the C5aR and CHIPS. In addition, the NMR structure of the complex of CHIPS and a sulfated C5aR N-terminal peptide reveals the precise binding motif as well as the distinct roles of sulfated tyrosine residues sY11 and sY14. These results provide a molecular framework for the design of novel CHIPS-based C5aR inhibitors.

Published

2009

66. Alkene/alkane-bridged mimics of the lantibiotic nisin: toward novel peptide-based antibiotics.

Author

Harmsen RA, Ghalit N, Kemmink J, Hilbers HW, Breukink E, Rijkers DT, and Liskamp RM

Subjects

Anti-Bacterial Agents pharmacology, Magnetic Resonance Spectroscopy, Microbial Sensitivity Tests, Nisin pharmacology, Alkanes chemistry, Alkenes chemistry, Anti-Bacterial Agents chemistry, Molecular Mimicry, Nisin chemistry

Published

2009

67. The effect of core composition in biodegradable oligomeric micelles as taxane formulations.

Author

Carstens MG, de Jong PH, van Nostrum CF, Kemmink J, Verrijk R, de Leede LG, Crommelin DJ, and Hennink WE

Subjects

Animals, Chemistry, Pharmaceutical, Colonic Neoplasms drug therapy, Colonic Neoplasms pathology, Docetaxel, Drug Stability, Magnetic Resonance Spectroscopy, Mice, Paclitaxel administration & dosage, Paclitaxel pharmacology, Particle Size, Taxoids administration & dosage, Taxoids pharmacology, Micelles, Paclitaxel chemistry, Taxoids chemistry

Abstract

Docetaxel (DCTX) and paclitaxel (PTX) are very potent anti-cancer drugs, but the currently marketed formulations, Taxotere and Taxol, respectively, are associated with vehicle-related toxicity. An attractive alternative to formulate these hydrophobic cytotoxic agents are polymeric micelles. In this study, the loading of taxanes into oligomeric micelles composed of mPEG750-b-oligo(epsilon-caprolactone)5 (mPEG750-b-OCL5) with a hydroxyl (OH), benzoyl (Bz) or naphthoyl (Np) end group was investigated. Next, the release characteristics and cytotoxicity of the loaded micelles were studied. MPEG750-b-OCL5 -OH micelles loaded with taxanes formed unstable particles with rapid leakage of the drug. In contrast, the presence of an aromatic end group (Bz or Np) resulted in the formation of small (10nm), almost monodisperse micelles with stable encapsulation of 10% (w/w) of PTX or DCTX. This was ascribed to a better compatibility between the micellar core and the drug as compared to the oligomers with the hydroxyl end group. 1H NMR studies showed that the micellar core was liquid, and that PTX was molecularly dissolved in the core. The in vitro stability was studied in PBS at 37 degrees C, which showed that leakage of PTX from 10% and 5% (w/w) loaded mPEG750-b-OCL5-Bz micelles started after 8 and 24h, respectively. The presence of albumin did not affect the stability, suggesting that the micelles are not destabilised and the drug was not extracted from the micellar core by this protein. The in vitro cytotoxic effect of the taxane-loaded micelles on C26 carcinoma cells was comparable to that of the commercial formulations, but the empty micelles were far less toxic than the Cremophor EL vehicle. The results show that mPEG-b-oligo(epsilon-caprolactone) micelles hold good promise for the formulation of taxanes.

Published

2008

68. Step-wise and pre-organization induced synthesis of a crossed alkene-bridged nisin Z DE-ring mimic by ring-closing metathesis.

Author

Ghalit N, Kemmink J, Hilbers HW, Versluis C, Rijkers DT, and Liskamp RM

Subjects

Alanine analogs & derivatives, Alanine chemistry, Alkenes chemical synthesis, Amino Acid Sequence, Catalysis, Mass Spectrometry, Models, Molecular, Molecular Sequence Data, Nisin chemical synthesis, Nisin chemistry, Peptides chemical synthesis, Peptides chemistry, Sulfides chemistry, Alkenes chemistry, Chemistry, Organic methods, Molecular Mimicry, Nisin analogs & derivatives

Abstract

This paper describes two approaches for the synthesis of a crossed alkene-bridged mimic of the thioether ring system of the nisin Z DE-fragment. The first approach comprised the stepwise total synthesis featuring a cross metathesis and a macrolactamization on a solid support followed by a ring-closing metathesis in solution. Via this route the title compound was obtained in an overall yield of 7% (85% on average for 16 reaction steps). In the second approach, the linear precursor peptide was subjected to ring-closing metathesis and the bicyclic peptide with the correct side chain connectivity pattern was obtained in yields up to 95%. The preferred formation of the bicyclic crossed alkene-bridged mimic of the DE-ring suggests a favorable pre-organization of the linear precursor peptide.

Published

2007

69. The structure of the C5a receptor-blocking domain of chemotaxis inhibitory protein of Staphylococcus aureus is related to a group of immune evasive molecules.

Author

Haas PJ, de Haas CJ, Poppelier MJ, van Kessel KP, van Strijp JA, Dijkstra K, Scheek RM, Fan H, Kruijtzer JA, Liskamp RM, and Kemmink J

Subjects

Amino Acid Sequence, Bacterial Proteins metabolism, Binding Sites, Iodine Radioisotopes metabolism, Models, Molecular, Molecular Sequence Data, Mutagenesis, Site-Directed, Phagocytosis, Protein Binding, Protein Conformation, Protein Structure, Tertiary, Receptor, Anaphylatoxin C5a metabolism, Sequence Homology, Amino Acid, Bacterial Proteins chemistry, Bacterial Proteins immunology, Enterotoxins chemistry, Enterotoxins immunology, Enterotoxins metabolism, Receptor, Anaphylatoxin C5a antagonists & inhibitors, Receptors, Formyl Peptide chemistry, Receptors, Formyl Peptide immunology, Receptors, Formyl Peptide metabolism, Staphylococcus aureus chemistry, Superantigens chemistry, Superantigens immunology, Superantigens metabolism

Abstract

The chemotaxis inhibitory protein of Staphylococcus aureus (CHIPS) is a 121 residue excreted virulence factor. It acts by binding the C5a- (C5aR) and formylated peptide receptor (FPR) and thereby blocks specific phagocyte responses. Here, we report the solution structure of a CHIPS fragment consisting of residues 31-121 (CHIPS31-121). CHIPS31-121 has the same activity in blocking the C5aR compared to full-length CHIPS, but completely lacks FPR antagonism. CHIPS31-121 has a compact fold comprising an alpha-helix (residues 38-51) packed onto a four-stranded anti-parallel beta-sheet. Strands beta2 and beta3 are joined by a long loop with a relatively well-defined conformation. Comparison of CHIPS31-121 with known structures reveals striking homology with the C-terminal domain of staphylococcal superantigen-like proteins (SSLs) 5 and 7, and the staphyloccocal and streptococcal superantigens TSST-1 and SPE-C. Also, the recently reported structures of several domains of the staphylococcal extracellullar adherence protein (EAP) show a high degree of structural similarity with CHIPS. Most of the conserved residues in CHIPS and its structural homologues are present in the alpha-helix. A conserved arginine residue (R46 in CHIPS) appears to be involved in preservation of the structure. Site-directed mutagenesis of all positively charged residues in CHIPS31-121 reveals a major involvement of arginine 44 and lysine 95 in C5aR antagonism. The structure of CHIPS31-121 will be vital in the further unraveling of its precise mechanism of action. Its structural homology to S.aureus SSLs, superantigens, and EAP might help the design of future experiments towards an understanding of the relationship between structure and function of these proteins.

Published

2005

70. Pre-organization induced synthesis of a crossed alkene-bridged nisin Z DE-ring mimic by ring-closing metathesis.

Author

Ghalit N, Rijkers DT, Kemmink J, Versluis C, and Liskamp RM

Subjects

Anti-Bacterial Agents biosynthesis, Anti-Bacterial Agents chemistry, Cyclization, Models, Chemical, Nisin biosynthesis, Nisin chemistry, Protein Conformation, Alkenes chemistry, Nisin analogs & derivatives

Abstract

An alkene-bridged mimic of the complex DE-bisthioether-ring system of the antibiotic nisin was prepared in one step from the linear precursor.

Published

2005

71. Ring-closing metathesis for the synthesis of side chain knotted pentapeptides inspired by vancomycin.

Author

ten Brink HT, Rijkers DT, Kemmink J, Hilbers HW, and Liskamp RM

Subjects

Cyclization, Molecular Structure, Oligopeptides chemistry, Protein Conformation, Oligopeptides chemical synthesis, Vancomycin chemistry

Abstract

A versatile method for the synthesis of bicyclic side chain knotted peptides inspired by vancomycin is described. The synthetic approach is based on the incorporation of a central amino acid derivative having two allylic groups-introduced by a Stille coupling-into pentapeptide 8 containing two allylated serine residues. Treatment of this bis-ring-closing metathesis precursor with 2nd generation Grubbs catalyst results in the formation of a bicyclic pentapeptide with the correct side chain to side chain connectivity pattern as observed in vancomycin: i- 2 --> i, i --> i + 2. Modelling studies using MacroModel hint at a cavity-like structure of the bicyclic pentapeptide which may bind suitable ligands.

Published

2004

72. Cyclic phosphopeptides for interference with Grb2 SH2 domain signal transduction prepared by ring-closing metathesis and phosphorylation.

Author

Dekker FJ, de Mol NJ, Fischer MJ, Kemmink J, and Liskamp RM

Subjects

Cyclization, GRB2 Adaptor Protein, Models, Molecular, Molecular Structure, Phosphopeptides chemistry, Phosphorylation drug effects, Protein Binding, Protein Conformation, Proteins metabolism, Surface Plasmon Resonance, Thermodynamics, Adaptor Proteins, Signal Transducing, Drug Design, Phosphopeptides chemical synthesis, Phosphopeptides pharmacology, Proteins antagonists & inhibitors, Signal Transduction drug effects, src Homology Domains

Abstract

Cyclic phosphopeptides were prepared using ring-closing metathesis followed by phosphorylation. These cyclic phosphopeptides were designed to interact with the SH2 domain of Grb2, which is a signal transduction protein of importance as a target for antiproliferative drug development. Binding of these peptides to the Grb2 SH2 domain was evaluated by a surface plasmon resonance assay. High affinity binding to the Grb2 SH2 domain was maintained upon macrocyclization, thus indicating that this method can be used to assemble high affinity cyclic phosphopeptides that interfere with signal transduction cascades.

Published

2003

73. Role of solution conformation and flexibility of short peptide ligands that bind to the p56(lck) SH2 domain.

Author

Dekker FJ, de Mol NJ, Bultinck P, Kemmink J, Hilbers HW, and Liskamp RM

Subjects

Ligands, Magnetic Resonance Spectroscopy, Models, Molecular, Protein Conformation, Solutions, Surface Plasmon Resonance, Temperature, Thermodynamics, Lymphocyte Specific Protein Tyrosine Kinase p56(lck) genetics, Peptides chemistry, src Homology Domains genetics

Abstract

A general approach in drug design is making ligands more rigid in order to avoid loss in conformational entropy (deltaS(conf)) upon receptor binding. We hypothesized that in the high affinity binding of pYEEI peptide ligands to the p56(lck) SH2 domain this loss in deltaS(conf) might be diminished due to preorganization of the fourfold negatively charged pYEEI peptide in the bound, extended, conformation. A thermodynamic analysis was performed on the peptides Ac-pYEEI-NH(2), Ac-pYAAI-NH(2) and Ac-pYGGI-NH(2) using surface plasmon resonance (SPR) competition experiments to assay affinity constants at different temperatures. To study the effect of solution conformation and flexibility a computational conformation analysis was performed from which low energy conformations in solution were calculated, and S(conf) estimated. It was found that the calculated low energy conformations for especially the pYE moiety in solution resemble that in the bound state. In the calculated minimum energy conformation in solution isoleucine is bent towards the pY aromatic ring, the occurrence of such conformation is experimentally confirmed by NMR. The estimated values for S(conf) of the EE- and AA-peptide were similar, suggesting no predominant role of preorganization of the solution conformation due to electrostatic repulsion. Apparently the thermodynamics obey the same entropy-enthalpy compensation relationship, which also was found to hold for other peptides and peptidomimetics binding to p60(src) family SH2 domains. The implications of the results for drug design are discussed.

Published

2003

74. Sequence-specific assignment and determination of the secondary structure of the 163-residue M. tuberculosis and M. bovis antigenic protein mpb70.

Author

Bloemink MJ, Kemmink J, Dentten E, Muskett FW, Whelan A, Sheikh A, Hewinson G, Williamson RA, and Carr MD

Subjects

Antigens, Bacterial chemistry, Bacterial Proteins immunology, Humans, Mycobacterium bovis immunology, Mycobacterium tuberculosis immunology, Mycobacterium tuberculosis pathogenicity, Nuclear Magnetic Resonance, Biomolecular, Protein Structure, Secondary, Bacterial Proteins chemistry, Mycobacterium bovis chemistry, Mycobacterium tuberculosis chemistry

Published

2001

75. The cisproline(i - 1)-aromatic(i) interaction: folding of the Ala-cisPro-Tyr peptide characterized by NMR and theoretical approaches.

Author

Nardi F, Kemmink J, Sattler M, and Wade RC

Subjects

Models, Molecular, Nuclear Magnetic Resonance, Biomolecular, Protein Conformation, Solutions, Water, Amino Acids chemistry, Oligopeptides chemistry, Proline chemistry, Protein Folding

Abstract

Cisproline(i - 1)-aromatic(i) interactions have been detected in several short peptides in aqueous solution by analysis of anomalous chemical shifts measured by 1H-NMR spectroscopy. This formation of local structure is of importance for protein folding and binding properties. To obtain an atomic-detail characterisation of the cisproline(i - 1)-aromatic(i) interaction in terms of structure, energetics and dynamics, we studied the minimal peptide unit, blocked Ala-cisPro-Tyr, using computational and experimental techniques. Structural database analyses and a systematic search revealed two groups of conformations displaying a cisproline(i - 1)-aromatic(i) interaction. These conformations were taken as seeds for molecular dynamics simulations in explicit solvent at 278 K. During a total of 33.6 ns of simulation, all the 'folded' conformations and some 'unfolded' states were sampled. 1H- and 13C-chemical shifts and 3J-coupling constants were measured for the Ala-Pro-Tyr peptide. Excellent agreement was found between all the measured and computed NMR properties, showing the good quality of the force field. We find that under the experimental and simulation conditions, the Ala-cisPro-Tyr peptide is folded 90% of the time and displays two types of folded conformation which we denote 'a' and 'b'. The type a conformations are twice as populated as the type b conformations. The former have the tyrosine ring interacting with the alanine alpha proton and are enthalpically stabilised. The latter have the aromatic ring interacting with the proline side chain and are entropically stabilised. The combined and complementary use of computational and experimental techniques permitted derivation of a detailed scenario of the 'folding' of this peptide.

Published

2000

76. Assignment of 1H, 13C and 15N resonances of the a' domain of protein disulfide isomerase.

Author

Dijkstra K, Karvonen P, Pirneskoski A, Koivunen P, Kivirikko KI, Darby NJ, van Straaten M, Scheek RM, and Kemmink J

Subjects

Amino Acid Sequence, Carbon Isotopes, Cloning, Molecular, Hydrogen, Nitrogen Isotopes, Nuclear Magnetic Resonance, Biomolecular methods, Peptide Fragments chemistry, Protein Conformation, Protein Folding, Protein Structure, Secondary, Recombinant Proteins chemistry, Protein Disulfide-Isomerases chemistry

Published

1999

77. The structure in solution of the b domain of protein disulfide isomerase.

Author

Kemmink J, Dijkstra K, Mariani M, Scheek RM, Penka E, Nilges M, and Darby NJ

Subjects

Amino Acid Sequence, Binding Sites, Carbon Isotopes, Computer Simulation, Humans, Models, Molecular, Nitrogen Isotopes, Nuclear Magnetic Resonance, Biomolecular, Recombinant Proteins chemistry, Solutions, Protein Disulfide-Isomerases chemistry, Protein Structure, Secondary

Abstract

Protein disulfide isomerase (PDI) is a multifunctional protein of the endoplasmic reticulum, which catalyzes the formation, breakage and rearrangement of disulfide bonds during protein folding. It consists of four domains designated a, b, b and a. Both a and a domains contains an active site with the sequence motif -Cys-Gly-His-Cys-involved directly in thiol-disulfide exchange reactions. As expected these domains have structures very similar to the ubiquitous redox protein thioredoxin. A low-resolution NMR structure of the b domain revealed that this domain adopts a fold similar to the PDI a domain and thioredoxin [Kemmink, J., Darby, N.J., Dijkstra, K., Nilges, M. and Creighton, T.E. (1997) Curr. Biol. 7, 239-245]. A refined ensemble of solution structures based on the input of 1865 structural restraints shows that the structure of PDI b is well defined throughout the complete protein except for about 10 residues at the C-terminus of the sequence. 15N relaxation data show that these residues are disordered and not part of this structural domain. Therefore the domain boundaries of PDI can now be fixed with reasonable precision. Structural comparison of the PDI b domain with thioredoxin and PDI a reveals several features important for thiol-disulfide exchange activity.

Published

1999

78. Tools for the automated assignment of high-resolution three-dimensional protein NMR spectra based on pattern recognition techniques.

Author

Croft D, Kemmink J, Neidig KP, and Oschkinat H

Abstract

One of the major bottlenecks in the determination of proteinstructures by NMR is in the evaluation of the data produced by theexperiments. An important step in this process is assignment, where thepeaks in the spectra are assigned to specific spins within specificresidues. In this paper, we discuss a spin system assignment tool based onpattern recognition techniques. This tool employs user-specified 'templates'to search for patterns of peaks in the original spectra; these patterns maycorrespond to side-chain or backbone fragments. Multiple spectra willnormally be searched simultaneously to reduce the impact of noise. Thesearch generates a preliminary list of putative assignments, which arefiltered by a set of heuristic algorithms to produce the final results list.Each result contains a set of chemical shift values plus information aboutthe peaks found. The results may be used as input for combinatorialroutines, such as sequential assignment procedures, in place of peak lists.Two examples are presented, in which (i) HCCH-COSY and -TOCSY spectra arescanned for side-chain spin systems; and (ii) backbone spin systems aredetected in a set of spectra comprising HNCA, HN(CO)CA, HNCO, HN(CA)CO,CBCANH and CBCA(CO)NH.

Published

1997

79. The folding catalyst protein disulfide isomerase is constructed of active and inactive thioredoxin modules.

Author

Kemmink J, Darby NJ, Dijkstra K, Nilges M, and Creighton TE

Subjects

Amino Acid Sequence, Binding Sites, Computer Simulation, Humans, Magnetic Resonance Spectroscopy, Models, Structural, Molecular Sequence Data, Protein Disulfide-Isomerases, Software, Isomerases chemistry, Isomerases metabolism, Protein Folding, Protein Structure, Secondary, Thioredoxins chemistry, Thioredoxins metabolism

Abstract

Background: Protein disulfide isomerase (PDI), a multifunctional protein of the endoplasmic reticulum, catalyzes the formation, breakage and rearrangement of disulfide bonds during protein folding. Dissection of this protein into its individual domains has confirmed the presence of the a and a' domains, which are homologous to thioredoxin, having related structures and activities. The a and a' domains both contain a -Cys-Gly-His-Cys- active-site sequence motif. The remainder of the molecule consists primarily of two further domains, designated b and b' which are thought to be sequence repeats on the basis of a limited sequence similarity. The functions of the b and b' domains are unknown and, until now, the structure of neither domain was known., Results: Heteronuclear nuclear magnetic resonance (NMR) methods have been used to determine the global fold of the PDI b domain. The protein has an alpha/beta fold with the order of the elements of secondary structure being beta1-alpha1-beta2-alpha2-beta3-alpha3-beta4-beta5+ ++-alpha4. The strands are all in a parallel arrangement with respect to each other, except for beta4 which is antiparallel. The arrangement of the secondary structure elements of the b domain is identical to that found in the a domain of PDI and in the ubiquitous redox protein thioredoxin; the three-dimensional folding topology of the b domain is also very similar to that of these proteins., Conclusions: Our determination of the global fold of the b domain of PDI by NMR reveals that, like the a domain, the b domain contains the thioredoxin motif, even though the b domain has no significant amino-acid sequence similarities to any members of the thioredoxin family. This observation, together with indications that the b' domain adopts a similar fold, suggests that PDI consists of active and inactive thioredoxin modules. These modules may have been adapted during evolution to provide PDI with its complete spectrum of enzymatic activities.

Published

1997

80. Correlation of the 15N(i + 1), 13Calpha(i), and 1Halpha(i) Backbone Resonances in 13C/15N-Labeled Proteins by the (CO)N(CO)CAH Experiment

Author

Dijkstra K, Kroon GJA, Ab E, Scheek RM, and Kemmink J

Published

1997

81. Identifying and characterizing a structural domain of protein disulfide isomerase.

Author

Darby NJ, Kemmink J, and Creighton TE

Subjects

Amino Acid Sequence, Catalysis, Disulfides chemistry, Humans, Hydrolysis, Isomerases metabolism, Kinetics, Magnetic Resonance Spectroscopy, Molecular Sequence Data, Peptide Fragments chemistry, Protein Conformation, Protein Disulfide-Isomerases, Recombinant Proteins chemistry, Recombinant Proteins metabolism, Isomerases chemistry

Abstract

Protein disulfide isomerase (PDI) appears on the basis of its primary structure to be a multidomain protein, but the number and nature of the domains has been uncertain. Two of the domains, a and a', which are homologous to thioredoxin and active in catalysis of disulfide bond formation, have been identified and characterized previously. Sections of the N-terminal half of the PDI sequence have been expressed and the limits of their folded structures delineated by limited proteolysis. In addition to the a-domain, the boundaries of a domain with no activity on thiol/disulfide groups, designated b, have been identified. This domain has been produced independently; its cooperative unfolding transition and its CD and NMR spectra confirm that it is an autonomously folded structure in isolation and when part of PDI. Fusion of the b-domain to the a-domain, as occurs naturally in the first half of PDI, did not alter substantially the catalytic activity of the a-domain. It still catalyzes only a subset of the thiol/disulfide exchange reactions of intact PDI and has a reduced ability to catalyze protein disulfide rearrangements. The a- and b-domains account structurally for virtually all of the first half of the PDI polypeptide chain, and it is very unlikely that there exists a proposed third domain homologous to the estrogen receptor. The b-domain exhibits some sequence homology to calsequestrin, a calcium binding protein from the sarcoplasmic reticulum of muscle.

Published

1996

82. Structure determination of the N-terminal thioredoxin-like domain of protein disulfide isomerase using multidimensional heteronuclear 13C/15N NMR spectroscopy.

Author

Kemmink J, Darby NJ, Dijkstra K, Nilges M, and Creighton TE

Subjects

Amino Acid Sequence, Carbon Isotopes, Cloning, Molecular, Computer Simulation, Escherichia coli metabolism, Humans, Magnetic Resonance Spectroscopy, Models, Molecular, Models, Structural, Molecular Sequence Data, Nitrogen Isotopes, Protein Disulfide-Isomerases, Recombinant Proteins chemistry, Sequence Homology, Amino Acid, Software, Isomerases chemistry, Protein Conformation, Thioredoxins chemistry

Abstract

As a first step in dissecting the structure of human protein disulfide isomerase (PDI), the structure of a fragment corresponding to the first 120 residues of its sequence has been determined using heteronuclear multidimensional NMR techniques. As expected from its primary structure homology, the fragment has the thioredoxin fold. Similarities and differences in their structures help to explain why thioredoxins are reductants, whereas PDI is an oxidant of protein thiol groups. The results confirm that PDI has a modular, multidomain structure, which will facilitate its structural and functional characterization.

Published

1996

83. Synthesis and conformational analysis by 1H NMR and restrained molecular dynamics simulations of the cyclic decapeptide [Ser-Tyr-Ser-Met-Glu-His-Phe-Arg-Trp-Gly].

Author

Buono RA, Kucharczyk N, Neuenschwander M, Kemmink J, Hwang LY, Fauchère JL, and Venanzi CA

Subjects

Adrenocorticotropic Hormone chemistry, Amino Acid Sequence, Catalysis, Magnetic Resonance Spectroscopy, Molecular Sequence Data, Peptide Fragments chemistry, Peptides, Cyclic chemistry, Protein Structure, Tertiary, Serine Endopeptidases chemistry, Solvents, Adrenocorticotropic Hormone chemical synthesis, Peptide Fragments chemical synthesis, Peptides, Cyclic chemical synthesis

Abstract

The design of enzyme mimics with therapeutic and industrial applications has interested both experimental and computational chemists for several decades. Recent advances in the computational methodology of restrained molecular dynamics, used in conjunction with data obtained from two-dimensional 1H NMR spectroscopy, make it a promising method to study peptide and protein structure and function. Several issues, however, need to be addressed in order to assess the validity of this method for its explanatory and predictive value. Among the issues addressed in this study are: the accuracy and generizability of the GROMOS peptide molecular mechanics force field; the effect of inclusion of solvent on the simulations; and the effect of different types of restraining algorithms on the computational results. The decapeptide Ser-Tyr-Ser-Met-Glu-His-Phe-Arg-Trp-Gly, which corresponds to the sequence of ACTH1-10, has been synthesized, cyclized, and studied by two-dimensional 1H NMR spectroscopy. Restrained molecular dynamics (RMD) and time-averaged restrained molecular dynamics (TARMD) simulations were carried out on four different distance-geometry starting structures in order to determine and contrast the behavior of cyclic ACTH1-10 in vacuum and in solution. For the RMD simulations, the structures did not fit the NOE data well, even at high values of the restraining potential. The TARMD simulation method, however, was able to give structures that fit the NOE data at high values of the restraining potential. In both cases, inclusion of explicit solvent molecules in the simulation had little effect on the quality of the fit, although it was found to dampen the motion of the cyclic peptide. For both simulation techniques, the number and size of the NOE violations increased as the restraining potential approached zero. This is due, presumably, to inadequacies in the force field. Additional TARMD vacuum-phase simulations, run with a larger memory length or with a larger sampling size (16 additional distance-geometry structures), yielded no significantly different results. The computed data were then analyzed to help explain the sparse NOE data and poor chymotryptic activity of the cyclic peptide. Cyclic ACTH1-10, which contains the functional moieties of the catalytic triad of chymotrypsin, was evaluated as a potential mimic of chymotrypsin by measurement of the rate of hydrolysis of esters of L- and D-phenylalanine. The poor rate of hydrolysis is attributed to the flexibility of the decapeptide, the motion of the side chains, which result in the absence of long-range NOEs, the small size of the macrocycle relative to that of the substrate, and the inappropriate orientation of the Gly, His, and Ser residues. The results demonstrate the utility of this method in computer-aided molecular design of cyclic peptides and suggest structural modifications for future work based on a larger and more rigid peptide framework.

Published

1996

84. Comparison of the (30-51, 14-38) two-disulphide folding intermediates of the homologous proteins dendrotoxin K and bovine pancreatic trypsin inhibitor by two-dimensional 1H nuclear magnetic resonance.

Author

Kortemme T, Hollecker M, Kemmink J, and Creighton TE

Subjects

Animals, Cattle, Magnetic Resonance Spectroscopy, Peptides chemistry, Protein Folding, Trypsin Inhibitors chemistry

Abstract

The disulphide folding pathway of bovine pancreatic trypsin inhibitor (BPTI) revealed that the native conformation is still stable in each intermediate state with two native disulphide linkages, in the absence of each of the corresponding third disulphide bonds. This is thought to be a consequence of the extreme stability of the native BPTI conformation. The current study addresses the question of whether the native-like conformation would be populated significantly at the two-disulphide stage in disulphide refolding if the final structure is less stable than in the case of BPTI. Dendrotoxin K from black mamba venom provides a good model to test this, since it contains the BPTI fold and was shown to fold predominantly via the same pathway, but its native conformation is stable than that of BPTI. The conformation of a chemically trapped two-disulphide intermediate in the disulphide refolding of dendrotoxin K, with blocking groups on Cys5 and Cys55 and disulphide bonds between Cys30 and Cys51, and Cys14 and Cys38, respectively, has been determined by 1H NMR spectroscopy and compared to those of the native protein and of the corresponding intermediate in BPTI. The analysis reveals that the dendrotoxin K intermediate adopts a partly-folded conformation, in contrast to the quasi-native conformation of the corresponding BPTI intermediate. It is similar to the partly-folded conformation of the BPTI intermediate with just the Cys30-Cys-51 disulphide bond, but with a more fixed conformation in the region of the Cys14-Cys38 disulphide bond. The destabilisation of the fully native conformation of the dendrotoxin K intermediate, relative to BPTI, appears to reduce the cooperativeity of the folding process.

Published

1996

85. The roles of partly folded intermediates in protein folding.

Author

Creighton TE, Darby NJ, and Kemmink J

Subjects

Amino Acid Sequence, Disulfides chemistry, Kinetics, Models, Chemical, Molecular Sequence Data, Protein Conformation, Aprotinin chemistry, Protein Folding

Abstract

Proteins can fold very rapidly, undoubtedly because they do not do so simply by random searching. The stable, partly folded species that can be detected during protein refolding are, however, of uncertain kinetic significance. The available kinetic evidence indicates that the intermediates that are most responsible for the rapidity of folding are extremely unstable and not populated detectably; they are less extreme versions of the transition state for folding. Protein folding is most readily studied when it is coupled to disulfide formation, which has the advantages that the intermediates can be characterized in detail and their kinetic roles determined unambiguously. The most important aspects of the disulfide folding pathway of BPTI are understood to at least a first approximation, and several other protein disulfide folding pathways are known in outline. These pathways demonstrate that disulfide folding is not intrinsically different from that not involving disulfide formation. Partly folded conformations can increase the rate of folding somewhat by causing productive disulfide bonds to be populated preferentially, but the most important folding intermediates are not detectable. The essence of folding is to build up the cooperativity between the individual interactions that is necessary for a stable conformation.

Published

1996

86. Nuclear magnetic resonance characterization of the N-terminal thioredoxin-like domain of protein disulfide isomerase.

Author

Kemmink J, Darby NJ, Dijkstra K, Scheek RM, and Creighton TE

Subjects

Amino Acid Sequence, Escherichia coli chemistry, Humans, Molecular Sequence Data, Protein Disulfide-Isomerases, Protein Structure, Secondary, Receptors, Estrogen chemistry, Sequence Homology, Isomerases chemistry, Magnetic Resonance Spectroscopy, Thioredoxins chemistry

Abstract

A genetically engineered protein consisting of the 120 residues at the N-terminus of human protein disulfide isomerase (PDI) has been characterized by 1H, 13C, and 15N NMR methods. The sequence of this protein is 35% identical to Escherichia coli thioredoxin, and it has been found also to have similar patterns of secondary structure and beta-sheet topology. The results confirm that PDI is a modular, multidomain protein. The last 20 residues of the N-terminal domain of PDI are some of those that are similar to part of the estrogen receptor, yet they appear to be an intrinsic part of the thioredoxin fold. This observation makes it unlikely that any of the segments of PDI with similarities to the estrogen receptor comprise individual domains.

Published

1995

87. Effects of trifluoroethanol on the conformations of peptides representing the entire sequence of bovine pancreatic trypsin inhibitor.

Author

Kemmink J and Creighton TE

Subjects

Amino Acid Sequence, Circular Dichroism, Magnetic Resonance Spectroscopy, Molecular Sequence Data, Protein Conformation, Protein Folding, Solvents chemistry, Aprotinin chemistry, Peptide Fragments chemistry, Trifluoroethanol chemistry

Abstract

The effects of the cosolvent trifluoroethanol on the conformations of four peptides representing the entire sequence of bovine pancreatic trypsin inhibitor (BPTI) have been measured by CD and NMR. No substantial amounts of helical conformations were induced in one peptide with four proline residues dispersed throughout its sequence, and there were no substantial effects on its average conformational properties or on the interactions between neighboring residues that are normally evident. The other three peptides became helical, although not completely, over their entire lengths. There was a reasonable correlation between the induced content of alpha-helix and the predicted helical propensities of all four peptides. Only one of these peptides is helical in native BPTI; the other two are extended beta-strands. The latter two have an intrinsic propensity for helix formation, but a greater propensity for beta-sheet formation in folded proteins.

Published

1995

88. Dynamic modelling of a helical peptide in solution using NMR data: multiple conformations and multi-spin effects.

Author

Kemmink J and Scheek RM

Subjects

Algorithms, Amino Acid Sequence, Animals, Aprotinin chemistry, Aprotinin genetics, Cattle, Magnetic Resonance Spectroscopy, Models, Molecular, Molecular Sequence Data, Peptide Fragments chemistry, Peptide Fragments genetics, Peptides genetics, Protein Conformation, Protein Structure, Secondary, Solutions, Thermodynamics, Peptides chemistry

Abstract

Nuclear Overhauser effect (NOE) measurements on molecules in solution provide information about only the ensemble-averaged properties of these molecules. An algorithm is presented that uses a list of NOEs to produce an ensemble of molecules that on average agrees with these NOEs, taking into account the effect of surrounding spins on the buildup of each NOE ('spin diffusion'). A simplified molecular dynamics simulation on several copies of the molecule in parallel is restrained by forces that are derived directly from differences between calculated and measured NOEs. The algorithm is tested on experimental NOE data of a helical peptide derived from bovine pancreatic trypsin inhibitor.

Published

1995

89. The physical properties of local interactions of tyrosine residues in peptides and unfolded proteins.

Author

Kemmink J and Creighton TE

Subjects

Amino Acid Sequence, Aprotinin drug effects, Chemical Phenomena, Chemistry, Physical, Guanidine, Guanidines pharmacology, Magnetic Resonance Spectroscopy, Models, Chemical, Molecular Sequence Data, Peptides chemical synthesis, Peptides drug effects, Protein Denaturation, Proteins drug effects, Urea pharmacology, Aprotinin chemistry, Peptides chemistry, Protein Folding, Proteins chemistry, Tyrosine chemistry

Abstract

Peptides and unfolded proteins with the sequence Xaa-Pro-Tyr or Xaa-Pro-Phe have a relatively strong local interaction, present about 64% of the time at 10 degrees C, of the aromatic ring with the side-chain of Pro and the C alpha H of residue Xaa, but only when the Xaa-Pro peptide bond is cis. With the sequence Tyr-Yaa-Gly (Yaa not equal to Pro), there is a somewhat present about 26% of the time, of the aromatic ring with the Gly residue. When present together, in the sequence Xaa-Pro-Tyr-Yaa-Gly, the two interactions of the Tyr side-chain compete and have the expected strengths. Both interactions have an enthalpic basis, with enthalpies of about -3 and -2.8 kcal/mol, respectively. The two interactions responded differently to the denaturants urea and guanidinium chloride; urea had little effect on either, but the second was weakened by guanidinium chloride, whereas the first interaction was strengthened slightly. This explains why such local interactions can be observed in unfolded proteins under strongly denaturing conditions. Interactions such as these are stronger than anticipated in an otherwise disordered peptide; they are probably important for determining the conformational tendencies of unfolded polypeptide chains and may play a role in protein folding. Similar interactions probably occur in protein-ligand interactions.

Published

1995

90. 1H NMR analysis of the partly-folded non-native two-disulphide intermediates (30-51,5-14) and (30-51,5-38) in the folding pathway of bovine pancreatic trypsin inhibitor.

Author

van Mierlo CP, Kemmink J, Neuhaus D, Darby NJ, and Creighton TE

Subjects

Amino Acid Sequence, Animals, Cattle, Kinetics, Magnetic Resonance Spectroscopy, Molecular Sequence Data, Motion, Protein Structure, Secondary, Recombinant Proteins, Aprotinin chemistry, Disulfides chemistry, Protein Structure, Tertiary

Abstract

The conformational properties of analogues of the (30-51,5-14) and (30-51,5-38) disulphide intermediates in refolding of reduced BPTI, with non-native second disulphide bonds, have been characterized in detail by 1H NMR analysis. They are shown to have partly-folded conformations, very similar to that of the (30-51) one-disulphide intermediate from which they arise during folding. The non-native disulphide bonds are formed in flexible or unfolded parts of the polypeptide chain; they do not disrupt the folded portion nor do they introduce substantial non-native conformation. The conformational properties of these intermediates explain their important roles in the folding pathway.

Published

1994

91. Local conformations of peptides representing the entire sequence of bovine pancreatic trypsin inhibitor and their roles in folding.

Author

Kemmink J and Creighton TE

Subjects

Amino Acid Sequence, Animals, Cattle, Circular Dichroism, Magnetic Resonance Spectroscopy methods, Models, Molecular, Molecular Sequence Data, Peptide Fragments chemical synthesis, Peptides chemical synthesis, Protein Folding, Aprotinin chemistry, Peptide Fragments chemistry, Peptides chemistry, Protein Conformation

Abstract

The conformational properties of seven overlapping peptides, 9 to 16 residues long, that comprise the entire primary structure of bovine pancreatic trypsin inhibitor (BPTI) have been characterized by circular dichroism and 1H nuclear magnetic resonance. The peptides are largely disordered, although apparently with somewhat different average conformational propensities of the polypeptide backbone, similar to those indicated by methods to predict secondary structure. Reduced BPTI appears to be approximately the sum of the individual peptides. Several local interactions involving aromatic rings of side-chains interacting with groups nearby in the primary structure have been identified and verified by replacing the responsible side-chains. The roles of these interactions in folding of reduced BPTI could be determined, as the conformational and nuclear magnetic resonance properties of all the major disulphide intermediates are known. Two of these local interactions contribute to the folding process and to stability of the fully folded conformation, whereas the other two do not.

Published

1993

92. NOGGIN is unlikely to be homologous to the Kunitz protease-inhibitor family.

Author

Creighton TE and Kemmink J

Subjects

Amino Acid Sequence, Animals, Carrier Proteins, Cattle, Molecular Sequence Data, Protein Structure, Tertiary, Proteins genetics, Sequence Homology, Amino Acid, Trypsin Inhibitors genetics, Xenopus, Proteins chemistry, Trypsin Inhibitors chemistry

Published

1993

93. On the biosynthesis of bovine pancreatic trypsin inhibitor (BPTI). Structure, processing, folding and disulphide bond formation of the precursor in vitro and in microsomes.

Author

Creighton TE, Bagley CJ, Cooper L, Darby NJ, Freedman RB, Kemmink J, and Sheikh A

Subjects

Amino Acid Sequence, Animals, Aprotinin analogs & derivatives, Aprotinin pharmacology, Biological Transport, Cattle, Chymotrypsin drug effects, Circular Dichroism, Disulfides metabolism, Magnetic Resonance Spectroscopy, Molecular Sequence Data, Pancreas metabolism, Protein Biosynthesis, Protein Engineering, Protein Sorting Signals metabolism, RNA, Messenger biosynthesis, Recombinant Proteins biosynthesis, Structure-Activity Relationship, Aprotinin metabolism, Cell Compartmentation, Microsomes metabolism, Protein Folding, Protein Precursors metabolism, Protein Processing, Post-Translational, Trypsin Inhibitors chemistry

Abstract

The natural gene for bovine pancreatic trypsin inhibitor (BPTI) was expressed by in vitro transcription/translation systems as the 100-residue pre-proBPTI, with a signal peptide for translocation into the endoplasmic reticulum. Expression in the presence of microsomes defined the site of co-translational cleavage of the signal peptide. The resulting proBPTI in the microsomes consists of the 58 residues of mature BPTI, plus an additional 13 residues at the N terminus, including a cysteine residue at position -10, and seven residues at the C terminus. ProBPTI remained in the unfolded, reduced form within microsomes when synthesized under reducing conditions, but folded and formed disulphide bonds rapidly when the disulphide form of glutathione was added. Complete folding could occur within about one minute, even when residue Cys10 was replaced by Ser. The structure of proBPTI was determined by circular dichroism and two-dimensional NMR and found to be that of mature BPTI with flexible extensions on both termini. Its inhibition of the activity of alpha-chymotrypsin was indistinguishable from that of the mature protein. The extensions of the precursor appeared to play only very minor roles in refolding in vitro under conditions where folding and disulphide bond formation are coupled. Under pH and redox conditions thought to reflect those in vivo, complete folding and disulphide bond formation required several hours. Addition of protein disulphide isomerase to in vitro folding experiments caused substantial and similar increases in the rate of formation of the fully folded state for both mature BPTI and proBPTI; the half time for folding to the native state was reduced to approximately two minutes, which is comparable to that occurring in microsomes. The absence of substantial effects of the N and C-terminal extensions on the protein structure, inhibitor activity and refolding leaves their functional roles to be discovered.

Published

1993

94. Local structure due to an aromatic-amide interaction observed by 1H-nuclear magnetic resonance spectroscopy in peptides related to the N terminus of bovine pancreatic trypsin inhibitor.

Author

Kemmink J, van Mierlo CP, Scheek RM, and Creighton TE

Subjects

Amides chemistry, Amino Acid Sequence, Animals, Aprotinin, Cattle, In Vitro Techniques, Magnetic Resonance Spectroscopy, Models, Molecular, Molecular Sequence Data, Pancreas enzymology, Peptides chemistry, Trypsin Inhibitors chemistry

Abstract

A synthetic peptide corresponding to the 15 N-terminal residues of bovine pancreatic trypsin inhibitor, with serine replacing the two cysteine residues, has been characterized by 1H-nuclear magnetic resonance spectroscopy. This peptide has a very disordered conformation that is essentially the same when it is part of the analogue of the (30-51) one-disulphide intermediate in folding. This confirms the conclusion of a previous paper, that the (30-51) intermediate is partially folded, with the N-terminal segment disordered. Local elements of non-random conformation were observed in the peptide. Especially prominent was an apparently electrostatic interaction between the face of the aromatic ring of Tyr10 and the amide group of Gly12, which caused the latter to have a very anomalous chemical shift. A similar interaction was observed in shorter peptides, especially in tetrapeptides with the sequences Tyr/Phe-X-Gly-Y. The local nature of this interaction indicates that it should be a general feature in peptides and in unfolded proteins with such a sequence.

Published

1993

95. Photoreactivation of the thymine dimer containing DNA octamer d(GCGTTGCG).d(CGCAACGC) by the photoreactivating enzyme from Anacystis nidulans.

Author

Kemmink J, Eker AP, van der Marel GA, van Boom JH, and Kaptein R

Subjects

Magnetic Resonance Spectroscopy, Photochemistry, Cyanobacteria enzymology, DNA metabolism, Deoxyribodipyrimidine Photo-Lyase metabolism, Lyases metabolism, Pyrimidine Dimers metabolism

Abstract

Irradiation of the double-stranded octamer d(GCGTTGCG).d(CGCAACGC) with UV light causes dimerization of the two central thymine residues. Proton NMR data reveal that this photodimer has the same chemical structure as the photodimer, which is formed upon UV irradiation of the single strand d(GCGTTGCG), a cis-syn-cyclobutane-type thymine dimer. Irradiation of the purified thymine dimer double-stranded octamer d(GCGTTGCG).d(CGCAACGC) with visible light in the presence of photoreactivating enzyme isolated from Anacystis nidulans leads to an increase in absorbance at 260 nm, which is characteristic for the repair of thymine dimers. The NMR spectrum recorded after the photoreactivating treatment indeed shows that a complete conversion to the starting octamer has occurred.

Published

1988

96. Conformational changes in the oligonucleotide duplex d(GCGTTGCG) x d(CGCAACGC) induced by formation of a cis-syn thymine dimer. A two-dimensional NMR study.

Author

Kemmink J, Boelens R, Koning TM, Kaptein R, van der Marel GA, and van Boom JH

Subjects

Binding Sites, DNA Repair, Magnetic Resonance Spectroscopy, Nucleic Acid Conformation, Protons, Spectrum Analysis, Oligodeoxyribonucleotides radiation effects, Pyrimidine Dimers analysis

Abstract

In order to obtain insight into the repair mechanism of DNA containing thymine photo-dimer, the conformation of the duplex d(GCGTTGCG) x d(CGCAACGC) with a thymine dimer incorporated has been studied by proton NMR and the results are compared with NMR data of the parent octamer. Two-dimensional nuclear Overhauser enhancement (2D NOE) spectroscopy and two-dimensional homonuclear Hartmann-Hahn spectroscopy have been applied to assign all the non-exchangeable base protons and most of the deoxyribose protons of both duplexes. From these experiments it is clear that indeed a cis-syn cyclobutane-type thymine photodimer is formed by the irradiation of this oligonucleotide with ultraviolet light. Comparison of 2D NOE spectra and the 1H chemical shifts of the damaged and the intact DNA duplexes reveals that formation of a thymine dimer induces small distortions of the B-DNA structure, the main conformational change occurring at the site of the thymine dimer.

Published

1987