Your search keyword '"Daly, Norelle L."' showing total 18 results

1. Oxytocic plant cyclotides as templates for peptide G protein-coupled receptor ligand design

Author

Koehbach, Johannes, O'Brien, Margaret, Muttenthaler, Markus, Miazzo, Marion, Akcan, Muharrem, Elliott, Alysha G., Daly, Norelle L., Harvey, Peta J., Arrowsmith, Sarah, Gunasekera, Sunithi, Smith, Terry J., Wray, Susan, Göransson, Ulf, Dawson, Philip E., Crai, David J., Freissmutha, Michael, and Grubera, Christian W.

Published

2013

2. Cyclic Peptides Arising by Evolutionary Parallelism via Asparaginyl-Endopeptidase—Mediated Biosynthesis

Author

Mylne, Joshua S., Chan, Lai Yue, Chanson, Aurelie H., Daly, Norelle L., Schaefer, Hanno, Bailey, Timothy L., Nguyencong, Philip, Cascales, Laura, and Craik, David J.

Published

2012

3. Discovery of an unusual biosynthetic origin for circular proteins in legumes

Author

Poth, Aaron G., Colgrave, Michelle L., Lyons, Russell E., Daly, Norelle L., and Craik, David J.

Published

2011

4. Plant derived cyclic peptides.

Author

Daly, Norelle L. and Wilson, David T.

Subjects

*CYCLIC peptides, *PLANT genes, *BIOSYNTHESIS, *PEPTIDES, *MULTIPLE sclerosis

Abstract

Cyclic peptides are widespread throughout the plant kingdom, and display diverse sequences, structures and bioactivities. The potential applications attributed to these peptides and their unusual biosynthesis has captivated the attention of researchers for many years. Several gene sequences for plant cyclic peptides have been discovered over the last two decades but it is only recently that we are beginning to understand the intricacies associated with their biosynthesis. Recent studies have focussed on three main classes of plant derived cyclic peptides, namely orbitides, SFTI related peptides and cyclotides. In this mini-review, we discuss the expansion of the known sequence and structural diversity in these families, insights into the enzymes involved in the biosynthesis, the exciting applications which includes a cyclotide currently in clinical trials for the treatment of multiple sclerosis, and new production methods that are being developed to realise the potential of plant cyclic peptides as pharmaceutical or agricultural agents. [ABSTRACT FROM AUTHOR]

Published

2021

5. Decoding the membrane activity of the cyclotide kalata B1: the importance of phosphatidylethanolamine phospholipids and lipid organization on hemolytic and anti-HIV activities

Author

Henriques, Sónia Troeira, Huang, Yen-Hua, Rosengren, K. Johan, Franquelim, Henri G., Carvalho, Filomena A., Johnson, Adam, Sonza, Secondo, Tachedjian, Gilda, Castanho, Miguel A. R. B., Daly, Norelle L., and Craik, David J.

Subjects

030406 Proteins and Peptides, 060110 Receptors and Membrane Biology, Cyclic Peptides, Phosphatidylethanolamine, Plasma Membrane, Cyclotides, Peptide-Membrane Interactions, Model Membranes, Antiviral Agents, Phospholipid Vesicle, Hemolytic Activity, 030401 Biologically Active Molecules, Antimicrobial Peptides

Abstract

Free to read at publisher's site. Cyclotides, a large family of cyclic peptides from plants, have a broad range of biological activities, including insecticidal, cytotoxic, and anti-HIV activities. In all of these activities, cell membranes seem likely to be the primary target for cyclotides. However, the mechanistic role of lipid membranes in the activity of cyclotides remains unclear. To determine the role of lipid organization in the activity of the prototypic cyclotide, kalata B1 (kB1), and synthetic analogs, their bioactivities and affinities for model membranes were evaluated. We found that the bioactivity of kB1 is dependent on the lipid composition of target cell membranes. In particular, the activity of kB1 requires specific interactions with phospholipids containing phosphatidylethanolamine (PE) headgroups but is further modulated by nonspecific peptide-lipid hydrophobic interactions, which are favored in raft-like membranes. Negatively charged phospholipids do not favor high kB1 affinity. This lipid selectivity explains trends in antimicrobial and hemolytic activities of kB1; it does not target bacterial cell walls, which are negatively charged and lacking PE-phospholipids but can insert in the membranes of red blood cells, which have a low PE content and raft domains in their outer layer. We further show that the anti-HIV activity of kB1 is the result of its ability to target and disrupt the membranes of HIV particles, which are raft-like membranes very rich in PE-phospholipids.

Published

2011

6. Structural Insights into the Role of the Cyclic Backbone in a Squash Trypsin Inhibitor.

Author

Daly, Norelle L., Thorstholm, Louise, Greenwood, Kathryn P., King, Gordon J., Rosengren, K. Johan, Heras, Begoña, Martin, Jennifer L., and Craik, David J.

Subjects

*TRYPSIN inhibitors, *PROTEOLYSIS, *DRUG design, *CYCLIC peptides, *BINDING sites

Abstract

MCoTI-II is a head-to-tail cyclic peptide with potent trypsin inhibitory activity and, on the basis of its exceptional proteolytic stability, is a valuable template for the design of novel drug leads. Insights into inhibitor dynamics and interactions with biological targets are critical for drug design studies, particularly for protease targets. Here, we show that the cyclization and active site loops of MCoTI-II are flexible in solution, but when bound to trypsin, the active site loop converges to a single well defined conformation. This finding of reduced flexibility on binding is in contrast to a recent study on the homologous peptide MCoTI-I, which suggested that regions of the peptide are more flexible upon binding to trypsin. We provide a possible explanation for this discrepancy based on degradation of the complex over time. Our study also unexpectedly shows that the cyclization loop, not present in acyclic homologues, facilitates potent trypsin inhibitory activity by engaging in direct binding interactions with trypsin. [ABSTRACT FROM AUTHOR]

Published

2013

7. 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

8. Anthelminthic activity of the cyclotides (kalata B1 and B2) against schistosome parasites.

Author

Malagón, David, Botterill, Bonnie, Gray, Darren J., Lovas, Erica, Duke, Mary, Gray, Christian, Kopp, Steven R., Knott, Lyn M., McManus, Donald P., Daly, Norelle L., Mulvenna, Jason, Craik, David J., and Jones, Malcolm K.

Abstract

ABSTRACT The risk of reduced sensitivity of the human schistosomes to praziquantel has led to efforts to find new therapies. Here, the cyclotides kalata B1 (kB1), kalata B2 (kB2), MCoCC-1, and MCoTI-II, cyclic peptides extracted from plants and shown to be potent against nematodes and insects, were tested for antischistosome activity. In vitro assays showed that high concentrations (500-1000 μg/mL) of either kB1 or kB2 killed Schistosoma japonicum and Schistosoma mansoni adults within 5 min, whereas MCoTI-II and MCoCC-1 had no effect. Lethal concentrations to kill 50% of the population for kB2 was 15.5 ± 7.4 μg/mL at 1 h for male S. japonicum (Philippine strain). Males were more susceptible than females. kB2 showed higher antischistosome activity than kB1 and killing time was concentration-dependent. Mode of action studies revealed that kB1 and 2 lysed the tegument of adult worms. Lysis of myofibrils was not demonstrated, but longitudinal and radial muscle fibers were distorted, an observation consistent with strong coiling of the parasites after drug exposure. A single dose of kB2 administered either orally or intravenously, reduced worm burdens in S. japonicum-infected mice from 15% to 60%. However, treatment of S. mansoni-infected mice did not result in reduction in worm burdens. Our studies show that kB2 acts as a promising antischistosomal against Philippine S. japonicum, and it or other cyclotides may be developed further as general anthelminthics. With thousands of cyclotides predicted to occur in plants, and the amenability of these peptides to combinatorial variation, there is potential for their exploitation as wide-spectrum anthelminthics. © 2013 Wiley Periodicals, Inc. Biopolymers (Pept Sci) 100: 461-470, 2013. [ABSTRACT FROM AUTHOR]

Published

2013

9. Vicinal Disulfide Constrained Cyclic Peptidomimetics: a Turn Mimetic Scaffold Targeting the Norepinephrine Transporter.

Author

Brust, Andreas, Wang, Ching‐I. A., Daly, Norelle L., Kennerly, Joe, Sadeghi, Mahsa, Christie, Macdonald J., Lewis, Richard J., Mobli, Mehdi, and Alewood, Paul F.

Subjects

PEPTIDOMIMETICS, PROTEIN synthesis, SCAFFOLD proteins, CYCLIC peptides, COMBINATORIAL chemistry

Abstract

Loopy peptides: Peptide turn mimetics of a clinically relevant norepinephrine reuptake inhibitor were developed employing a high‐throughput synthesis approach to generate peptide thioesters, with subsequent cyclization through native chemical ligation. The vicinal disulfide constrained cyclic peptidomimetics (see scheme) show high structural and functional similarity to the parent peptide, though with superior metabolic stability. [ABSTRACT FROM AUTHOR]

Published

2013

10. Quantification of small cyclic disulfide-rich peptides.

Author

Conibear, Anne C., Daly, Norelle L., and Craik, David J.

Abstract

Cyclic disulfide-rich peptides ranging in size from ∼14 to 29 amino acids have been found in a wide variety of organisms and have exciting biological and medicinal applications due to their stability and structure. Many of these peptides can be chemically synthesized, but their small size and limited number of chromophore-containing amino acids make them difficult to quantify by methods routinely used for large proteins. A comparison of the precision and accuracy of gravimetric, UV- and NMR-based methods in current use for the quantification of small peptides is presented for a representative set of cyclic disulfide-rich peptides. The study shows that gravimetric and UV absorbance methods should be used with caution for small peptides and all methods should be carefully validated. For the routine quantification of small disulfide-rich peptides, we recommend comparison of the analytical reverse-phase high-performance liquid chromatography trace or UV absorbance at 214 nm with that of a standard peptide solution quantified by amino acid analysis. An accurate quantification method that is simple and cost effective will assist in comparison of inhibition and activity data between different laboratories and peptides and correct calculation of synthesis yields. © 2012 Wiley Periodicals, Inc. Biopolymers (Pept Sci) 98: 518-524, 2012. [ABSTRACT FROM AUTHOR]

Published

2012

11. Discovery, structure and biological activities of cyclotides

Author

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

Subjects

*PROTEIN structure, *CYCLIC peptides, *DRUG development, *ANTINEOPLASTIC antibiotics, *DRUG design, *AMINO acid sequence, *NUCLEAR magnetic resonance spectroscopy

Abstract

Abstract: Cyclotides are small disulfide-rich peptides that are characterized by a head-to-tail cyclized peptide backbone and a knotted arrangement of three conserved disulfide bonds. They are present in many plants from the Violaceae, Rubiaceae and Cucurbitaceae families, with individual plants expressing a suite of dozens of cyclotides. So far >140 sequences and 15 three-dimensional structures have been determined but it is estimated that the family probably comprises many thousands of members. Their primary function in plants is thought to be as defense agents, based on their potent insecticidal activity, but they also have a range of other biological activities, including anti-HIV, antimicrobial and cytotoxic activities. Because of their exceptional stability they have attracted interest as templates for protein engineering and drug design applications. This article gives an overview of the discovery of cyclotides, describes their unique structural features and range of bioactivities, and discusses their applications in drug design. [Copyright &y& Elsevier]

Published

2009

12. The Absolute Structural Requirement for a Proline in the P3'-position of Bowman-Birk Protease Inhibitors Is Surmounted in the Minimized SFTI-1 Scaffold.

Author

Daly, Norelle L., Yi-Kuang Chen, Foley, Fiona M., Bansal, Paramjit S., Bharathi, Rekha, Clark, Richard J., Sommerhoff, Christian P., and Craik, David J.

Subjects

*PROLINE, *PROTEASE inhibitors, *ENZYME inhibitors, *CYCLIC peptides, *ORGANIC cyclic compounds, *TRYPSIN inhibitors

Abstract

SFTI-1 is a small cyclic peptide from sunflower seeds that is one of the most potent trypsin inhibitors of any naturally occurring peptide and is related to the Bowman-Birk family of inhibitors (BBIs). BBIs are involved in the defense mechanisms of plants and also have potential as cancer chemopreventive agents. At only 14 amino acids in size, SFTI-1 is thought to be a highly optimized scaffold of the BBI active site region, and thus it is of interest to examine its important structural and functional features. In this study, a suite of 12 alanine mutants of SFTI- 1 has been synthesized, and their structures and activities have been determined. SFTI-1 incorporates a binding loop that is clasped together with a disulfide bond and a secondary peptide loop making up the circular backbone. We show here that the secondary loop stabilizes the binding loop to the consequences of sequence variations. In particular, full-length BBIs have a conserved cis-proline that has been shown previously to be required for well defined structure and potent activity, but we show here that the SFTI-1 scaffold can accommodate mutation of this residue and still have a well defined native-like conformation and nanomolar activity in inhibiting trypsin. Among the Ala mutants, the most significant structural perturbation occurred when Asp14 was mutated, and it appears that this residue is important in stabilizing the trans peptide bond preceding Pro13 and is thus a key residue in maintaining the highly constrained structure of SFTI-1. This aspartic acid residue is thought to be involved in the cyclization mechanism associated with excision of SFTI-1 from its 58-amino acid precursor. Overall, this mutational analysis of SFTI-1 clearly defines the optimized nature of the SFTI-1 scaffold and demonstrates the importance of the secondary loop in maintaining the active con- formation of the binding loop. [ABSTRACT FROM AUTHOR]

Published

2006

13. Corrigendum: Vicinal Disulfide Constrained Cyclic Peptidomimetics: a Turn Mimetic Scaffold Targeting the Norepinephrine Transporter.

Author

Brust, Andreas, Wang, Ching‐I. A., Daly, Norelle L., Kennerly, Joe, Sadeghi, Mahsa, Christie, Macdonald J., Lewis, Richard J., Mobli, Mehdi, and Alewood, Paul F.

Subjects

PEPTIDOMIMETICS, NORADRENALINE, CYCLIC peptides

Published

2018

14. The Cyclic Cystine Ladder in θ-Defensins Is Important for Structure and Stability, but Not Antibacterial Activity.

Author

Conibear, Anne C., Johan Rosengren, K., Daly, Norelle L., Henriques, Sónia Troeira, and Craik, David J.

Subjects

*DEFENSINS, *CYCLIC peptides, *PEPTIDE drugs, *LEUCOCYTES, *ANTI-infective agents

Abstract

θ-Defensins are ribosomally synthesized cyclic peptides found in the leukocytes of some primate species and have promising applications as antimicrobial agents and scaffolds for peptide drugs. The cyclic cystine ladder motif, comprising a cyclic peptide backbone and three parallel disulfide bonds, is characteristic of θ-defensins. In this study, we explore the role of the cyclic peptide backbone and cystine ladder in the structure, stability, and activity of θ-defensins. θ-Defensin analogues with different numbers and combinations of disulfide bonds were synthesized and characterized in terms of their NMR solution structures, serum and thermal stabilities, and their antibacterial and membrane-binding activities. Whereas the structures and stabilities of the peptides were primarily dependent on the number and position of the disulfide bonds, their antibacterial and membrane-binding properties were dependent on the cyclic backbone. The results provide insights into the mechanism of action of θ-defensins and illustrate the potential of θ-defensin analogues as scaffolds for peptide drug design. [ABSTRACT FROM AUTHOR]

Published

2013

15. Microcin J25 Has a Threaded Sidechain-to-Backbone Ring Structure and Not a Head-to-Tail Cyclized Backbone.

Author

Rosengren, K. Johan, Clark, Richard J., Daly, Norelle L., Göransson, Ulf, Jones, Alun, and Craik, David J.

Subjects

*ANTIBACTERIAL agents, *CYCLIC peptides, *MASS spectrometry, *BIOCHEMISTRY

Abstract

Focuses on Microcin J25, an type of amino acid bacterial peptide that has potent antibacterial activity against Gram-negative bacteria. Structural interpretation of Microcin J25; Sequence of the anti-microbial peptide Microcin J25 and representation of its encoding genes; Account of methods followed to interpret the structure of Microcin J25; Role played by mass spectrometry in characterizing Microcin J25 in more details.

Published

2003

16. An engineered cyclic peptide alleviates symptoms of inflammation in a murine model of inflammatory bowel disease.

Author

Caceres, Claudia Cobos, Bansal, Paramjit S., Navarro, Severine, Wilson, David, Don, Laurianne, Giacomin, Paul, Loukas, Alex, and Daly, Norelle L.

Subjects

*INFLAMMATORY bowel disease treatment, *PROTEIN engineering, *CYCLIC peptides, *ANNEXINS, *BIOACTIVE compounds

Abstract

Inflammatory bowel diseases (IBDs) are a set of complex and debilitating diseases for which there is no satisfactory treatment. Recent studies have shown that small peptides show promise for reducing inflammation in models of IBD. However, these small peptides are likely to be unstable and rapidly cleared from the circulation, and therefore, if not modified for better stability, represent non-viable drug leads. We hypothesized that improving the stability of these peptides by grafting them into a stable cyclic peptide scaffold may enhance their therapeutic potential. Using this approach, we have designed a novel cyclic peptide that comprises a small bioactive peptide from the annexin A1 protein grafted into a sunflower trypsin inhibitor cyclic scaffold. We used native chemical ligation to synthesize the grafted cyclic peptide. This engineered cyclic peptide maintained the overall fold of the naturally occurring cyclic peptide, was more effective at reducing inflammation in a mouse model of acute colitis than the bioactive peptide alone, and showed enhanced stability in human serum. Our findings suggest that the use of cyclic peptides as structural backbones offers a promising approach for the treatment of IBD and potentially other chronic inflammatory conditions. [ABSTRACT FROM AUTHOR]

Published

2017

17. Cyclization of conotoxins to improve their biopharmaceutical properties

Author

Clark, Richard J., Akcan, Muharrem, Kaas, Quentin, Daly, Norelle L., and Craik, David J.

Subjects

*CONOTOXINS, *RING formation (Chemistry), *BIOPHARMACEUTICS, *CONUS, *PROTEOLYSIS, *DISULFIDES, *PEPTIDES, *ION channels, *DRUG design

Abstract

Abstract: Conotoxins are disulfide-rich peptides from the venoms of marine cone snails that are used in prey capture. Due to their exquisite potency and selectivity for different ion channels, receptors and transporters they have attracted much interest as leads in drug design. This article gives a brief background on conotoxins, describes their structures and highlights methods for synthetic cyclization to improve their biopharmaceutical properties. The proximity of the N and C termini of many conotoxins makes them particularly suitable for cyclization with linkers of on average five to seven amino acids. By linking the ends of conotoxins it is possible to significantly decrease their susceptibility to proteolysis without loss of their intrinsic biological activity. Here, the principles of conotoxin cyclization are illustrated with applications to the α- and χ- conotoxin classes, which have been implicated as leads for the treatment of pain and a range of other disorders including neuroprotection, schizophrenia, depression and cancer. [Copyright &y& Elsevier]

Published

2012

18. Isolation and characterization of cytotoxic cyclotides from Viola philippica

Author

He, Wenjun, Chan, Lai Yue, Zeng, Guangzhi, Daly, Norelle L., Craik, David J., and Tan, Ninghua

Subjects

*CYCLIC peptides, *MACROCYCLIC compounds, *CELL-mediated cytotoxicity, *VIOLACEAE, *MASS spectrometry, *ENZYME kinetics, *MOLECULAR structure, *DRUG design

Abstract

Abstract: Cyclotides are a large family of plant peptides characterized by a macrocyclic backbone and knotted arrangement of three disulfide bonds. This unique structure renders cyclotides exceptionally stable to thermal, chemical and enzymatic treatments. They exhibit a variety of bioactivities, including uterotonic, anti-HIV, cytotoxic and hemolytic activity and it is these properties that make cyclotides an interesting peptide scaffold for drug design. In this study, eight new cyclotides (Viphi A–H), along with eight known cyclotides, were isolated from Viola philippica, a plant from the Violaceae family. In addition, Viba 17 and Mram 8 were isolated for the first time as peptides. The sequences of these cyclotides were elucidated primarily by using a strategy involving reduction, enzymatic digestion and tandem mass spectroscopy sequencing. Several of the cyclotides showed cytotoxic activities against the cancer cell lines MM96L, HeLa and BGC-823. The novel cyclotides reported here: (1) enhance the known sequence variation observed for cyclotides; (2) extend the number of species known to contain cyclotides; (3) provide interesting structure–activity relationships that delineate residues important for cytotoxic activity. In addition, this study provides insights into the potential active ingredients of traditional Chinese medicines. [Copyright &y& Elsevier]

Published

2011