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1. A conserved β‐bulge glycine residue facilitates folding and increases stability of the mouse α‐defensin cryptdin‐4.

Author

Clark, Richard J., Phan, Thanh Huyen, Song, Angela, Ouellette, André J., Conibear, Anne C., and Rosengren, K. Johan

Subjects
GLYCINE receptors, DEFENSINS, GLYCINE, ANTIMICROBIAL peptides, NUCLEAR magnetic resonance spectroscopy
Abstract

Defensins are key components of both innate and adaptive immune responses to pathogens. Cryptdins are mouse alpha‐defensins that are secreted from Paneth cells in the small intestine and have disulfide‐stabilised structures and antibacterial activities against both Gram‐positive and Gram‐negative bacteria. The folding and three‐dimensional structures of alpha‐defensins are thought to depend on a conserved glycine residue that forms a β‐bulge. Here we investigated the role of this conserved glycine at position 19 of cryptdin‐4 (Crp4) in terms of the folding, structure and stability. A Crp4 variant with D‐Ala at position 19 folded efficiently, was stabilised by a large number of hydrogen bonds, and resisted proteolysis in simulated intestinal fluid. Although a variant with L‐Ala at position 19 was able to adopt the correct fold, it showed less efficient folding and was degraded more rapidly than the D‐Ala variant. These results demonstrate the key role that glycine residues can have in folding of bioactive peptides and can provide insights to guide design of stable antimicrobial peptides that fold efficiently. [ABSTRACT FROM AUTHOR]

Published
2022
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2. Secondary Structure Transitions for a Family of Amyloidogenic, Antimicrobial Uperin 3 Peptides in Contact with Sodium Dodecyl Sulfate.

Author

Prasad, Anup K., Tiwari, Chandni, Ray, Sourav, Holden, Stephanie, Armstrong, David A., Rosengren, K. Johan, Rodger, Alison, Panwar, Ajay S., and Martin, Lisandra L.

Subjects
SODIUM dodecyl sulfate, CATHELICIDINS, PEPTIDES, INTRAMOLECULAR proton transfer reactions, MOLECULAR dynamics, FAMILIES, CIRCULAR dichroism
Abstract

Secondary structure changes are an inherent part of antimicrobial (AMP) and amyloidogenic peptide activity, especially in close proximity to membranes, and impact the peptides' function and dysfunction roles. The formation, and stability of α‐helical components are regarded as essential 'intermediates' for both these functions. To illuminate the conformational transitions leading to amyloid formation we use short cationic AMPs, from an Australian toadlet, Uperoleia mjobergii, (Uperin 3 family, U3) and assess the impact on secondary structural elements in the presence of a membrane mimetic surfactant, sodium dodecyl sulfate (SDS). Specifically, Uperin 3.x, where x=4, 5, 6 wild‐type peptides and position seven variants for each, R7A or K7A, were investigated using a combination of experimental and simulation approaches. In water, U3 peptides remain largely unstructured as random coils, with the addition of salts initiating structural transitions leading to assembly towards amyloid. Solution NMR data show that an unstructured U3.5 wt peptide transitions in the presence of SDS to a well‐defined α‐helical structure that spans nearly the entire sequence. Circular dichroism (CD) and ThT fluorescence studies show that all six U3 peptides aggregate in solution, albeit with vastly varying rates, and a dynamic equilibrium between soluble aggregates rich in either α‐helices or β‐sheets may exist in solution. However, the addition of SDS leads to a rapid disaggregation for all peptides and stabilisation of predominantly α‐helical content in all the U3 peptides. Molecular dynamics (MD) simulations show that the adsorption of U3.5 wt/R7A peptides onto the SDS micelle is driven by Coulombic attraction between peptide cationic residues and the negatively charged sulfate head‐groups on SDS. Simulating the interactions of various kinds of β‐sheet dimers (of both U3.5 wt and its variant U3.5 R7A) with SDS micelles confirmed β‐sheet content decreases in the dimers after their attachment to the SDS micelle. Adsorbed peptides interact favourably with the hydrophobic core of the micelle, promoting intramolecular hydrogen bonds leading to stabilisation of the α‐helical structure in peptides, and resulting in a corresponding decrease in intermolecular hydrogen bonds responsible for β‐sheets. [ABSTRACT FROM AUTHOR]

Published
2022
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4. Relaxin family peptides: structure-activity relationship studies.

Author

Patil, Nitin A, Rosengren, K Johan, Separovic, Frances, Wade, John D, Bathgate, Ross A D, and Hossain, Mohammed Akhter

Subjects
*RELAXIN, *PEPTIDES, *CYSTINE, *DRUG development, *STRUCTURE-activity relationships, *BIOCHEMISTRY, *SEX hormones, *INSULIN, *MATHEMATICAL models, *PHENOMENOLOGY, *PROTEINS, *THEORY
Abstract

The human relaxin peptide family consists of seven cystine-rich peptides, four of which are known to signal through relaxin family peptide receptors, RXFP1-4. As these peptides play a vital role physiologically and in various diseases, they are of considerable importance for drug discovery and development. Detailed structure-activity relationship (SAR) studies towards understanding the role of important residues in each of these peptides have been reported over the years and utilized for the design of antagonists and minimized agonist variants. This review summarizes the current knowledge of the SAR of human relaxin 2 (H2 relaxin), human relaxin 3 (H3 relaxin), human insulin-like peptide 3 (INSL3) and human insulin-like peptide 5 (INSL5).Linked Articles: This article is part of a themed section on Recent Progress in the Understanding of Relaxin Family Peptides and their Receptors. To view the other articles in this section visit http://onlinelibrary.wiley.com/doi/10.1111/bph.v174.10/issuetoc. [ABSTRACT FROM AUTHOR]

Published
2017
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5. Diverse cyclic seed peptides in the Mexican zinnia ( Zinnia haageana).

Author

Franke, Bastian, Jayasena, Achala S., Fisher, Mark F., Swedberg, Joakim E., Taylor, Nicolas L., Mylne, Joshua S., and Rosengren, K. Johan

Abstract

A new family of small plant peptides was recently described and found to be widespread throughout the Millereae and Heliantheae tribes of the sunflower family Asteraceae. These peptides originate from the post-translational processing of unusual seed-storage albumin genes, and have been termed PawS-derived peptides (PDPs). The prototypic family member is a 14-residue cyclic peptide with potent trypsin inhibitory activity named SunFlower Trypsin Inhibitor (SFTI-1). In this study we present the features of three new PDPs discovered in the seeds of the sunflower species Zinnia haageana by a combination of de novo transcriptomics and liquid chromatography-mass spectrometry. Two-dimensional solution NMR spectroscopy was used to elucidate their structural characteristics. All three Z. haageana peptides have well-defined folds with a head-to-tail cyclized peptide backbone and a single disulfide bond. Although two possess an anti-parallel β-sheet structure, like SFTI-1, the Z. haageana peptide PDP-21 has a more irregular backbone structure. Despite structural similarities with SFTI-1, PDP-20 was not able to inhibit trypsin, thus the functional roles of these peptides is yet to be discovered. Defining the structural features of the small cyclic peptides found in the sunflower family will be useful for guiding the exploitation of these peptides as scaffolds for grafting and protein engineering applications. [ABSTRACT FROM AUTHOR]

Published
2016
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6. Efficient enzymatic cyclization of an inhibitory cystine knot-containing peptide.

Author

Kwon, Soohyun, Bosmans, Frank, Kaas, Quentin, Cheneval, Olivier, Conibear, Anne C., Rosengren, K. Johan, Wang, Conan K., Schroeder, Christina I., and Craik, David J.

Abstract

ABSTRACT Disulfide-rich peptides isolated from cone snails are of great interest as drug leads due to their high specificity and potency toward therapeutically relevant ion channels and receptors. They commonly contain the inhibitor cystine knot (ICK) motif comprising three disulfide bonds forming a knotted core. Here we report the successful enzymatic backbone cyclization of an ICK-containing peptide κ-PVIIA, a 27-amino acid conopeptide from Conus purpurascens, using a mutated version of the bacterial transpeptidase, sortase A. Although a slight loss of activity was observed compared to native κ-PVIIA, cyclic κ-PVIIA is a functional peptide that inhibits the Shaker voltage-gated potassium (Kv) channel. Molecular modeling suggests that the decrease in potency may be related to the loss of crucial, but previously unidentified electrostatic interactions between the N-terminus of the peptide and the Shaker channel. This hypothesis was confirmed by testing an N-terminally acetylated κ-PVIIA, which shows a similar decrease in activity. We also investigated the conformational dynamics and hydrogen bond network of cyc-PVIIA, both of which are important factors to be considered for successful cyclization of peptides. We found that cyc-PVIIA has the same conformational dynamics, but different hydrogen bond network compared to those of κ-PVIIA. The ability to efficiently cyclize ICK peptides using sortase A will enable future protein engineering for this class of peptides and may help in the development of novel therapeutic molecules. Biotechnol. Bioeng. 2016;113: 2202-2212. © 2016 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published
2016
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7. Approaches to the stabilization of bioactive epitopes by grafting and peptide cyclization.

Author

Conibear, Anne C., Chaousis, Stephanie, Durek, Thomas, Johan Rosengren, K., Craik, David J., and Schroeder, Christina I.

Abstract

ABSTRACT Peptides are attracting increasing interest from the pharmaceutical industry because of their specificity and ability to address novel targets, including protein-protein interactions. However, typically they require stabilization for therapeutic applications owing to their susceptibility to degradation by proteases. Advances in the ability to chemically synthesize peptides and the development of new side-chain and backbone ligation strategies provide new tools to stabilize bioactive peptide epitopes. Two such epitopes are LyP1, a nine residue peptide that localizes to tumor cells and has potential as an anticancer therapeutic, and RGDS, a tetrapeptide shown to bind to survivin and induce apoptosis. Here we applied a variety of strategies for the stabilization of LyP1 and RGDS, including side-chain cyclization using 'click' chemistry and 'grafting' the epitopes into two naturally occurring cyclic peptide scaffolds, i.e., θ-defensins and cyclotides. NMR data showed that the three-disulfide θ-defensin and cyclotide scaffolds accommodated the LyP1 and RGDS epitopes but that scaffolds with fewer disulfide bonds were structurally compromised by inclusion of the LyP1 epitope. LyP1, LyP1-, and RGDS-grafted peptides that were largely unstructured also had reduced resistance to degradation in human serum, showing that grafting into a stable cyclic scaffold is an effective strategy for increasing the stability of a bioactive peptide epitope. Overall, the study demonstrates several methods for stabilizing peptide epitopes using side-chain or backbone cyclization and illustrates their potential in peptide drug design. © 2015 Wiley Periodicals, Inc. Biopolymers (Pept Sci) 106: 89-100, 2016. [ABSTRACT FROM AUTHOR]

Published
2016
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9. Stabilisierung eines cysteinreichen Kegelschneckentoxins, MrIA, in Form eines 1,2,3-Triazol-Disulfidbrückenmimetikums.

Author

Gori, Alessandro, Wang, Ching ‐ I A., Harvey, Peta J., Rosengren, K. Johan, Bhola, Rebecca F., Gelmi, Maria L., Longhi, Renato, Christie, Macdonald J., Lewis, Richard J., Alewood, Paul F., and Brust, Andreas

Abstract

Copyright of Angewandte Chemie is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2015
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10. Stabilization of the Cysteine-Rich Conotoxin MrIA by Using a 1,2,3-Triazole as a Disulfide Bond Mimetic.

Author

Gori, Alessandro, Wang, Ching‐I A., Harvey, Peta J., Rosengren, K. Johan, Bhola, Rebecca F., Gelmi, Maria L., Longhi, Renato, Christie, Macdonald J., Lewis, Richard J., Alewood, Paul F., and Brust, Andreas

Subjects
CYSTEINE, CONOTOXINS, TRIAZOLES, DISULFIDES, RING formation (Chemistry), PLASMA stability
Abstract

The design of disulfide bond mimetics is an important strategy for optimising cysteine-rich peptides in drug development. Mimetics of the drug lead conotoxin MrIA, in which one disulfide bond is selectively replaced of by a 1,4-disubstituted-1,2,3-triazole bridge, are described. Sequential copper-catalyzed azide-alkyne cycloaddition (CuAAC; click reaction) followed by disulfide formation resulted in the regioselective syntheses of triazole-disulfide hybrid MrIA analogues. Mimetics with a triazole replacing the Cys4-Cys13 disulfide bond retained tertiary structure and full in vitro and in vivo activity as norepinephrine reuptake inhibitors. Importantly, these mimetics are resistant to reduction in the presence of glutathione, thus resulting in improved plasma stability and increased suitability for drug development. [ABSTRACT FROM AUTHOR]

Published
2015
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12. Chemical Synthesis, 3D Structure, and ASIC Binding Site of the Toxin Mambalgin-2.

Author

Schroeder, Christina I., Rash, Lachlan D., Vila ‐ Farrés, Xavier, Rosengren, K. Johan, Mobli, Mehdi, King, Glenn F., Alewood, Paul F., Craik, David J., and Durek, Thomas

Subjects
CHEMICAL synthesis, ACID-sensing ion channels, BINDING sites, MOLECULAR structure, SNAKE venom, ANALGESICS, POLYPEPTIDES
Abstract

Mambalgins are a novel class of snake venom components that exert potent analgesic effects mediated through the inhibition of acid-sensing ion channels (ASICs). The 57-residue polypeptide mambalgin-2 (Ma-2) was synthesized by using a combination of solid-phase peptide synthesis and native chemical ligation. The structure of the synthetic toxin, determined using homonuclear NMR, revealed an unusual three-finger toxin fold reminiscent of functionally unrelated snake toxins. Electrophysiological analysis of Ma-2 on wild-type and mutant ASIC1a receptors allowed us to identify α-helix 5, which borders on the functionally critical acidic pocket of the channel, as a major part of the Ma-2 binding site. This region is also crucial for the interaction of ASIC1a with the spider toxin PcTx1, thus suggesting that the binding sites for these toxins substantially overlap. This work lays the foundation for structure-activity relationship (SAR) studies and further development of this promising analgesic peptide. [ABSTRACT FROM AUTHOR]

Published
2014
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13. The self-association of the cyclotide kalata B2 in solution is guided by hydrophobic interactions.

Author

Rosengren, K. Johan, Daly, Norelle L., Harvey, Peta J., and Craik, David J.

Abstract

ABSTRACT The cyclotides are a family of small head-to-tail cyclic plant defense proteins. In addition to their cyclic backbone, cyclotides comprise three disulfide bonds in a knotted arrangement, resulting in a highly cross-braced structure that provides exceptional chemical and proteolytic stability. A number of bioactivities have been associated with cyclotides, including insecticidal, antimicrobial, anti-viral and cytotoxic, and these activities are related to an ability to target and disrupt biological membranes. Kalata B2 and to a lesser extent kalata B1, isolated from Oldenlandia affinis, self-associate to tetramers and octamers in aqueous buffers, and this oligomerization has been suggested to be relevant for their ability to form pores in membranes. Here we demonstrate by solution NMR spectroscopy analysis that the oligomerization of kalata B2 is concentration dependent and that it involves the packing of hydrophobic residues normally exposed on the surface of kalata B2 into a multimeric hydrophobic core. Interestingly, the hydrophobic surface that is 'quenched' has previously been shown to be responsible for the ability of kalata B2 to insert into membranes. Thus, it seems unlikely that the oligomers observed in aqueous solution are related to any multimeric state present in a membrane environment, and responsible for the formation of pores. The ability to self-associate might alternatively provide a mechanism for preventing self-toxicity when stored at high concentrations in intracellular compartments. © 2013 Wiley Periodicals, Inc. Biopolymers (Pept Sci) 100: 453-460, 2013. [ABSTRACT FROM AUTHOR]

Published
2013
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14. Extensive polymorphism in the porcine Toll-like receptor 10 gene.

Author

Bergman, I.-M., Edman, K., Ekdahl, K. N., Rosengren, K. J., and Edfors, I.

Subjects
SINGLE nucleotide polymorphisms, INTERLEUKIN-1 receptors, ANIMAL genetics, SWINE, GENES, LIGANDS (Biochemistry)
Abstract

Summary The great importance of the Toll-like receptors (TLRs) in innate immunity is well established, but one family member - TLR10 - remains elusive. TLR10 is expressed in various tissues in several species, but its ligand is not known and its function is still poorly understood. The open reading frame of TLR10 was sequenced in 15 wild boars, representing three populations, and in 15 unrelated domestic pigs of Hampshire, Landrace and Large White origin. Amino acid positions corresponding to detected nonsynonymous single nucleotide polymorphisms (SNPs) were analysed in the crystal structures determined for the human TLR1-TLR2-lipopeptide complex and the human TLR10 Toll/Interleukin 1 receptor (TIR) dimer. SNP occurrence in wild boars and domestic pigs was compared, and haplotypes for the TLR10 gene and the TLR6-1-10 gene cluster were reconstructed. Despite the limited number of animals sequenced in the present study ( N = 30), a larger number of SNPs were found in TLR10 than recently reported for TLR1, TLR6 and TLR2. Thirty-three SNPs were detected, of which 20 were nonsynonymous. The relative frequency of nonsynonymous ( dN) and synonymous ( dS) SNPs between wild boars and domestic pigs was higher in TLR10 than recently reported for TLR1, TLR6 and TLR2. However, the polymorphism reported in the present study seems to leave the function of the TLR10 molecule unaffected. Furthermore, no nonsynonymous SNPs were detected in the part of the gene corresponding to the hinge region of the receptor, probably reflecting rigorously acting functional constraint. The total number of SNPs and the number of nonsynonymous SNPs were significantly lower ( P < 0.05) in the wild boars than in the domestic pigs, and fewer TLR10 haplotypes were present in the wild boars. The majority of the TLR6-1-10 haplotypes were specific for either wild boars or domestic pigs, probably reflecting differences in microbial environment and population history. [ABSTRACT FROM AUTHOR]

Published
2012
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17. Structural Insights into the Function of Relaxins.

Author

Rosengren, K. Johan, Bathgate, Ross A. D., Craik, David J., Daly, Norelle L., Haugaard‐Jönsson, Linda M., Hossain, Mohammed Akhter, and Wade, John D.

Subjects
*RELAXIN, *PEPTIDES, *AMINO acids, *CELL receptors, *NUCLEAR magnetic resonance
Abstract

The relaxin peptide hormones are members of the insulin superfamily and share a structural fold that is characterized by two peptide chains which are cross-braced by three disulfide bonds. On this framework, various amino acid side chains are presented, allowing specific interactions with different receptors. The relaxin receptors belong to two unrelated classes of G-protein-coupled receptors, but interestingly they are not selective for a single relaxin peptide. Relaxin-3, which is considered to be an extreme example of the relaxin family, can activate receptors from both classes and in fact interacts to some degree with all four receptors identified to date. To deduce how changes in the primary sequence can fine-tune the overall structure and thus the ability to interact with the various receptors, we have studied a range of relaxin-like peptides using solution nuclear magnetic resonance analysis. Three-dimensional structures of relaxin-3, insulin-like peptide 3 (INSL3), and INSL5 were determined and revealed a number of interesting features. All peptides showed a significant amount of line-broadening in certain regions, in particular around the intra-A-chain disulfide bond, suggesting that despite the disulfide bonds the fold is rather dynamic. Although the peptides share a common structural core there are significant differences, particularly around the termini. The structural data in combination with mutational studies provide valuable insights into the structure–activity relationships of relaxins. [ABSTRACT FROM AUTHOR]

Published
2009
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18. Structural Properties of Relaxin Chimeras.

Author

Haugaard‐Jönsson, Linda M., Hossain, Mohammed Akhter, Daly, Norelle L., Bathgate, Ross A. D., Wade, John D., Craik, David J., and Rosengren, K. Johan

Subjects
RELAXIN, PEPTIDES, CELL receptors, MOSAICISM, NUCLEAR magnetic resonance spectroscopy, PROTEIN binding
Abstract

Relaxin-3 interacts with high potency with three relaxin family peptide receptors (RXFP1, RXFP3, and RXFP4). Therefore, the development of selective agonist and antagonist analogs is important for in vivo studies characterizing the biological significance of the different receptor–ligand systems and for future pharmaceutical applications. Recent reports demonstrated that a peptide selective for RXFP3 and RXFP4 over RXFP1 can be generated by the combination of the relaxin-3 B chain with the A chain from insulin-like peptide 5 (INSL5), creating an R3/I5 chimera. We have used NMR spectroscopy to determine the three-dimensional structure of this peptide to gain structural insights into the consequences of combining chains from two different relaxins. The R3/I5 structure reveals a similar backbone conformation for the relaxin-3 B chain compared to native relaxin-3, and the INSL5 A chain displays a relaxin/insulin-like fold with two parallel helices. The findings indicate that binding and activation of RXFP3 and RXFP4 mainly require the B chain and that the A chain functions as structural support. RXFP1, however, demonstrates a more complex binding mechanism, involving both the A chain and the B chain. The creation of chimeras is a promising strategy for generating new structure–activity data on relaxins. [ABSTRACT FROM AUTHOR]

Published
2009
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19. The Structural and Functional Role of the B-chain C-terminal Arginine in the Relaxin-3 Peptide Antagonist, R3(BΔ23-27)R/I5.

Author

Hossain, Mohammed Akhter, Bathgate, Ross A. D., Rosengren, K. Johan, Shabanpoor, Fazel, Suode Zhang, Feng Lin, Tregear, Geoffrey W., and Wade, John D.

Subjects
ARGININE, RELAXIN, ESTROGEN antagonists, PEPTIDES, CIRCULAR dichroism, CELL receptors, THERAPEUTICS
Abstract

Relaxin-3, a member of the insulin superfamily, is involved in regulating stress and feeding behavior. It is highly expressed in the brain and is the endogenous ligand for the receptor RXFP3. As relaxin-3 also interacts with the relaxin receptor RXFP1, selective agonists and antagonists are crucial for studying the physiological function(s) of the relaxin-3/RXFP3 pair. The analog R3(BΔ23-27)R/I5, in which a C-terminally truncated human relaxin-3 (H3) B-chain is combined with the INSL5 A-chain, is a potent selective RXFP3 antagonist and has an Arg residue remaining on the B-chain C-terminus as a consequence of the recombinant protein production process. To investigate the role of this residue in the RXFP3 receptor binding and activation, the analogs R3(BΔ23-27)R/I5 and R3(BΔ23-27)R containing the B-chain C-terminal Arg as well as R3(BΔ23-27)/I5 and R3(BΔ23-27), both lacking the Arg, were chemically assembled and their secondary structure and receptor activity assessed. The peptides generally had a similar conformation but those with the extra Arg residue displayed a significantly increased affinity for the RXFP3. Interestingly, in contrast to R3(BΔ23-27)R and R3(BΔ23-27)R/I5, the peptide R3(BΔ23-27) is a weak agonist. This suggests that the C-terminal Arg, although increasing the affinity, alters the manner in which the peptide binds to the receptor and thereby prevents activation, giving R3(BΔ23-27)R/I5 its potent antagonistic activity. [ABSTRACT FROM AUTHOR]

Published
2009
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22. Identification of crucial residues for the antibacterial activity of the proline-rich peptide, pyrrhocoricin.

Author

Kragol, Goran, Hoffmann, Ralf, Chattergoon, Michael A., Lovas, Sandor, Cudic, Mare, Bulet, Philippe, Condie, Barry A., Rosengren, K. Johan, Montaner, Luis J., and Otvos, Laszlo

Subjects
PEPTIDE antibiotics, PROLINE
Abstract

Members of the proline-rich antibacterial peptide family, pyrrhocoricin, apidaecin and drosocin appear to kill responsive bacterial species by binding to the multihelical lid region of the bacterial DnaK protein. Pyrrhocoricin, the most potent among these peptides, is nontoxic to healthy mice, and can protect these animals from bacterial challenge. A structure–antibacterial activity study of pyrrhocoricin against Escherichia coli and Agrobacterium tumefaciens identified the N-terminal half, residues 2–10, the region responsible for inhibition of the ATPase activity, as the fragment that contains the active segment. While fluorescein-labeled versions of the native peptides entered E. coli cells, deletion of the C-terminal half of pyrrhocoricin significantly reduced the peptide's ability to enter bacterial or mammalian cells. These findings highlighted pyrrhocoricin's suitability for combating intracellular pathogens and raised the possibility that the proline-rich antibacterial peptides can deliver drug leads into mammalian cells. By observing strong relationships between the binding to a synthetic fragment of the target protein and antibacterial activities of pyrrhocoricin analogs modified at strategic positions, we further verified that DnaK was the bacterial target macromolecule. Inaddition, the antimicrobial activity spectrum of native pyrrhocoricin against 11 bacterial and fungal strains and the binding of labeled pyrrhocoricin to synthetic DnaK D-E helix fragments of the appropriate species could be correlated. Mutational analysis on a synthetic E. coli DnaK fragment identified a possible binding surface for pyrrhocoricin. [ABSTRACT FROM AUTHOR]

Published
2002
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23. Balancing involvement: employees' experiences of merging hospitals in Sweden.

Author

Engström AK, Rosengren K, and Hallberg LR

Subjects
*HOSPITAL personnel, *HOSPITAL mergers
Abstract

Background. The health care of today stands in front of demands on financial and structural changes. New technology and global economy are forces driving on the change process. Aims. The aim of this study is to describe and broaden the understanding of the employees' experience of being involved in a merger between two health care districts in Sweden. Methods. This study was carried out from a qualitative approach according to the grounded theory tradition. From a theme guide with specific questions, 31 interviews were carried out with employees working in the health care. Findings. Five categories emerged from the body of interviews: balancing involvement, trust respect, challenge and commitment. Balancing involvement was defined as an overall core category related to the other categories. The categories trust, respect, challenge and commitment were related to subcategories and affected the core category balancing involvement. Conclusions. The overall findings point to the importance of balancing the employees' involvement in order to reach goal fulfilment change in a merger process. [ABSTRACT FROM AUTHOR]

Published
2002
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