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10. Pharmacokinetic characterization of kalata B1 and related therapeutics built on the cyclotide scaffold.

Author

Poth, Aaron G., Huang, Yen-Hua, Le, Thao T., Kan, Meng-Wei, and Craik, David J.

Subjects
*PEPTIDE drugs, *THERAPEUTICS, *TRADITIONAL medicine, *DRUG design, *PHARMACOKINETICS, *BIOAVAILABILITY
Abstract

Oral activity has been described for cyclotide-containing traditional medicines, and demonstrated for reengineered cyclotides bearing grafted therapeutic epitopes, highlighting their potential for translation to the clinic. Here we report preclinical pharmacokinetic parameters for the prototypic cyclotide kalata B1 (kB1) and two orally active grafted analogues, ckb-KAL and ckb-KIN, to provide the first in vivo dose-exposure metrics for cyclotides. Native and grafted kB1 molecules exhibited multiple compartment kinetics and measurable but limited oral bioavailability of similar magnitude to several orally administered peptide drugs in the clinic. Cyclotides are mostly associated with the central compartment, and display small (0.07–0.13 L kg−1 for kB1 and ckb-KIN) to moderate (1 L kg−1 for ckb-KAL) steady state volumes of distribution. This study provides new data essential to the evaluation of cyclotides as therapeutics, validating them as a viable drug design scaffold with tunable pharmacokinetic properties. [ABSTRACT FROM AUTHOR]

Published
2019
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11. Rapid and Scalable Plant-Based Production of a Potent Plasmin Inhibitor Peptide.

Author

Jackson, Mark A., Yap, Kuok, Poth, Aaron G., Gilding, Edward K., Swedberg, Joakim E., Poon, Simon, Qu, Haiou, Durek, Thomas, Harris, Karen, Anderson, Marilyn A., and Craik, David J.

Subjects
PLASMIN, NUCLEAR magnetic resonance, NICOTIANA benthamiana, CYCLIC peptides, PEPTIDE synthesis
Abstract

The backbone cyclic and disulfide bridged sunflower trypsin inhibitor-1 (SFTI-1) peptide is a proven effective scaffold for a range of peptide therapeutics. For production at laboratory scale, solid phase peptide synthesis techniques are widely used, but these synthetic approaches are costly and environmentally taxing at large scale. Here, we developed a plant-based approach for the recombinant production of SFTI-1-based peptide drugs. We show that transient expression in Nicotiana benthamiana allows for rapid peptide production, provided that asparaginyl endopeptidase enzymes with peptide-ligase functionality are co-expressed with the substrate peptide gene. Without co-expression, no target cyclic peptides are detected, reflecting rapid in planta degradation of non-cyclized substrate. We test this recombinant production system by expressing a SFTI-1-based therapeutic candidate that displays potent and selective inhibition of human plasmin. By using an innovative multi-unit peptide expression cassette, we show that in planta yields reach ~60 μg/g dry weight at 6 days post leaf infiltration. Using nuclear magnetic resonance structural analysis and functional in vitro assays, we demonstrate the equivalence of plant and synthetically derived plasmin inhibitor peptide. The methods and insights gained in this study provide opportunities for the large scale, cost effective production of SFTI-1-based therapeutics. [ABSTRACT FROM AUTHOR]

Published
2019
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13. Discovery, isolation, and structural characterization of cyclotides from Viola sumatrana Miq.

Author

Niyomploy, Ploypat, Chan, Lai Yue, Poth, Aaron G., Colgrave, Michelle L., Sangvanich, Polkit, and Craik, David J.

Abstract

Cyclotides are cyclic peptides from plants in the Violaceae, Rubiaceae, Fabaceae, Cucurbitaceae, and Solanaceae families. They are sparsely distributed in most of these families, but appear to be ubiquitous in the Violaceae, having been found in every plant so far screened from this family. However, not all geographic regions have been examined and here we report the discovery of cyclotides from a Viola species from South-East Asia. Two novel cyclotides (Visu 1 and Visu 2) and two known cyclotides (kalata S and kalata B1) were identified in V. sumatrana. NMR studies revealed that kalata S and kalata B1 had similar secondary structures. Their biological activities were determined in cytotoxicity assays; both had similar cytotoxic activity and were more toxic to U87 cells compared with other cell lines. Overall, the study strongly supports the ubiquity of cyclotides in the Violaceae and adds to our understanding of their distribution and cytotoxic activity. [ABSTRACT FROM AUTHOR]

Published
2016
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14. Gene coevolution and regulation lock cyclic plant defence peptides to their targets.

Author

Gilding, Edward K., Jackson, Mark A., Poth, Aaron G., Henriques, Sónia Troeira, Prentis, Peter J., Mahatmanto, Tunjung, and Craik, David J.

Subjects
CYCLIC peptides, PLANT toxins, PLANT defenses, GENETIC polymorphisms in plants, PLANT genetics, GENETIC research
Abstract

Plants have evolved many strategies to protect themselves from attack, including peptide toxins that are ribosomally synthesized and thus adaptable directly by genetic polymorphisms. Certain toxins in Clitoria ternatea (butterfly pea) are cyclic cystine-knot peptides of c. 30 residues, called cyclotides, which have co-opted the plant's albumin-1 gene family for their production. How butterfly pea albumin-1 genes were commandeered and how these cyclotides are utilized in defence remain unclear. The role of cyclotides in host plant ecology and biotechnological applications requires exploration., We characterized the sequence diversity and expression dynamics of precursor and processing proteins implicated in butterfly pea cyclotide biosynthesis by expression profiling through RNA-sequencing ( RNA-seq). Peptide-enriched extracts from various organs were tested for activity against insect-like membranes and the model nematode Caenorhabditis elegans., We found that the evolution and deployment of cyclotides involved their diversification to exhibit different chemical properties and expression between organs facing different defensive challenges. Cyclotide-enriched fractions from soil-contacting organs were effective at killing nematodes, whereas similar enriched fractions from aerial organs contained cyclotides that exhibited stronger interactions with insect-like membrane lipids., Cyclotides are employed as versatile and combinatorial mediators of defence in C. ternatea and have specialized to affect different classes of attacking organisms. [ABSTRACT FROM AUTHOR]

Published
2016
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15. Cyclotides as grafting frameworks for protein engineering and drug design applications.

Author

Poth, Aaron G., Chan, Lai Y., and Craik, David J.

Abstract

ABSTRACT Cyclotides are a family of naturally occurring backbone-cyclized macrocyclic mini-proteins from plants that have a knotted trio of intramolecular disulfide bonds. Their structural features imbue cyclotides with extraordinary stability against degradation at elevated temperatures or in the presence of proteolytic enzymes. The plasticity of their intracysteine loop sequences is exemplified by the more than 250 natural cyclotides sequenced to date, and this tolerance to sequence variation, along with their diverse bioactivities, underpins the suitability of the cyclic cystine knot motif as a valuable drug design scaffold and research tool for protein engineering studies. Here, we review the recent literature on applications of cyclotides for the stabilization of peptide epitopes and related protein engineering studies. Possible future directions in this field are also described. © 2013 Wiley Periodicals, Inc. Biopolymers (Pept Sci) 100: 480-491, 2013. [ABSTRACT FROM AUTHOR]

Published
2013
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17. Isolation and Characterization of Antimicrobial Peptides with Unusual Disulfide Connectivity from the Colonial Ascidian Synoicum turgens.

Author

Hansen, Ida K. Ø., Isaksson, Johan, Poth, Aaron G., Hansen, Kine Ø., Andersen, Aaron J. C., Richard, Céline S. M., Blencke, Hans-Matti, Stensvåg, Klara, Craik, David J., and Haug, Tor

Abstract

This study reports the isolation of two novel cysteine-rich antibacterial peptides, turgencin A and turgencin B, along with their oxidized derivatives, from the Arctic marine colonial ascidian Synoicum turgens. The peptides are post-translationally modified, containing six cysteines with an unusual disulfide connectivity of Cys1-Cys6, Cys2-Cys5, and Cys3-Cys4 and an amidated C-terminus. Furthermore, the peptides contain methionine residues resulting in the isolation of peptides with different degrees of oxidation. The most potent peptide, turgencin AMox1 with one oxidized methionine, displayed antimicrobial activity against both Gram-negative and Gram-positive bacteria with a minimum inhibitory concentration (MIC) as low as 0.4 µM against selected bacterial strains. In addition, the peptide inhibited the growth of the melanoma cancer cell line A2058 (IC50 = 1.4 µM) and the human fibroblast cell line MRC-5 (IC50 = 4.8 µM). The results from this study show that natural peptides isolated from marine tunicates have the potential to be promising drug leads. [ABSTRACT FROM AUTHOR]

Published
2020
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18. Evaluation of Cyclic Peptide Inhibitors of the Grb7 Breast Cancer Target: Small Change in Cargo Results in Large Change in Cellular Activity.

Author

Sang, Jianrong, Kulkarni, Ketav, Watson, Gabrielle M., Ma, Xiuquan, Craik, David J., Henriques, Sónia T., Poth, Aaron G., Benfield, Aurélie H., Wilce, Jacqueline A., and Miyata, Yasuyoshi

Subjects
BREAST cancer, ADAPTOR proteins, MASS spectrometry, STERIC hindrance
Abstract

Grb7 is an adapter protein, overexpressed in HER2+ve breast and other cancers, and identified as a therapeutic target. Grb7 promotes both proliferative and migratory cellular pathways through interaction of its SH2 domain with upstream binding partners including HER2, SHC, and FAK. Here we present the evaluation of a series of monocyclic and bicyclic peptide inhibitors that have been developed to specifically and potently target the Grb7 SH2-domain. All peptides tested were found to inhibit signaling in both ERK and AKT pathways in SKBR-3 and MDA-MB-231 cell lines. Proliferation, migration, and invasion assays revealed, however, that the second-generation bicyclic peptides were not more bioactive than the first generation G7-18NATE peptide, despite their higher in vitro affinity for the target. This was found not to be due to steric hindrance by the cell-permeability tag, as ascertained by ITC, but to differences in the ability of the bicyclic peptides to interact with and penetrate cellular membranes, as determined using SPR and mass spectrometry. These studies reveal that just small differences to amino acid composition can greatly impact the effectiveness of peptide inhibitors to their intracellular target and demonstrate that G7-18NATE remains the most effective peptide inhibitor of Grb7 developed to date. [ABSTRACT FROM AUTHOR]

Published
2019
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20. Neurotoxic peptides from the venom of the giant Australian stinging tree.

Author

Gilding, Edward K., Jami, Sina, Deuis, Jennifer R., Israel, Mathilde R., Harvey, Peta J., Poth, Aaron G., Rehm, Fabian B. H., Stow, Jennifer L., Robinson, Samuel D., Yap, Kuok, Brown, Darren L., Hamilton, Brett R., Andersson, David, Craik, David J., Vetter, Irina, and Durek, Thomas

Subjects
*CONOTOXINS, *BIOLOGICAL evolution, *VENOM, *BOTANY, *PEPTIDES, *BIOPHYSICS
Abstract

The article focuses on stinging trees from Australasia produce remarkably persistent and painful stings upon contact of their stiff epidermal hairs, called trichomes, with mammalian skin. It mentions that dendrocnide-induced acute pain lasts for several hours, and intermittent painful flares can persist for days and weeks. It also mentions that pharmacological activity has been attributed to small-molecule neurotransmitters and inflammatory mediators.

Published
2020
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21. Insecticidal diversity of butterfly pea (Clitoria ternatea) accessions.

Author

Oguis, Georgianna K., Gilding, Edward K., Huang, Yen-Hua, Poth, Aaron G., Jackson, Mark A., and Craik, David J.

Subjects
*PEPTIDES, *BIOPESTICIDES, *LEGUMES, *ALBUMINS, *MISSENSE mutation
Abstract

• Butterfly pea accessions have variable cyclotide profiles and cytotoxicity to Sf9 insect cells. • Cter M is absent in some accessions. • Accessions lacking Cter M incurred missense mutations. • Accessions lacking Cter M remain cytotoxic. • Accessions lacking cliotide T1, cliotide T4, Cter A and Cter Q, are the least cytotoxic. Butterfly pea (Clitoria ternatea) is currently the only leguminous plant species known to produce a suite of ultrastable cyclic plant defense peptides called cyclotides. For agricultural applications, cyclotides have attracted significant interest, leading to the recent registration of a butterfly pea extract as an ecofriendly pesticide (Sero-X®). In this study, we set out to distinguish the variation in cyclotide expression and toxicity towards insect cells for butterfly pea accessions sourced worldwide. In characterizing the peptide extracts from 23 butterfly pea accessions sourced from 11 countries, we show that significant variation in cyclotide expression exists between them. For some accessions, the cyclotide Cter M, typically the most abundantly expressed cyclotide in vegetative butterfly pea tissues, is absent. Genomic and transcriptomic sequencing revealed the presence of CterM -like precursor genes in these accessions that contained missense mutations that were likely contributing to the lack of Cter M expression. Peptide profiling also showed that one accession does not produce detectable levels of other cyclotides: cliotide T1, cliotide T4, Cter A and Cter Q. A comparison of cytotoxicity against Sf9 (Spodoptera frugiperda) cells revealed that cytotoxicity is not dependent on Cter M, with accessions lacking this peptide also displaying cytotoxicity. Overall, insights from this study provides foundational knowledge about characters to be considered for selective breeding of butterfly pea with enhanced insecticidal properties. [ABSTRACT FROM AUTHOR]

Published
2020
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22. Discovery and Characterization of Cyclotides from Rinorea Species.

Author

Niyomploy P, Chan LY, Harvey PJ, Poth AG, Colgrave ML, and Craik DJ

Subjects
Amino Acid Sequence, Chromatography, High Pressure Liquid, Plant Extracts chemistry, Sequence Homology, Amino Acid, Spectrometry, Mass, Electrospray Ionization, Tandem Mass Spectrometry, Cyclotides chemistry, Violaceae chemistry
Abstract

Cyclotides are macrocyclic cystine-knotted peptides most commonly found in the Violaceae plant family. Although Rinorea is the second-largest genera within the Violaceae family, few studies have examined whether or not they contain cyclotides. To further our understanding of cyclotide diversity and evolution, we examined the cyclotide content of two Rinorea species found in Southeast Asia: R. virgata and R. bengalensis. Seven cyclotides were isolated from R. virgata (named Rivi1-7), and a known cyclotide (cT10) was found in R. bengalensis. Loops 2, 5, and 6 of Rivi1-4 contained sequences not previously seen in corresponding loops of known cyclotides, thereby expanding our understanding of the diversity of cyclotides. In addition, the sequence of loop 2 of Rivi3 and Rivi4 were identical to some related noncyclic "acyclotides" from the Poaceae plant family. As only acyclotides, but not cyclotides, have been reported in monocotyledons thus far, our findings support an evolutionary link between monocotyledon-derived ancestral cyclotide precursors and dicotyledon-derived cyclotides. Furthermore, Rivi2 and Rivi3 had comparable cytotoxic activities to the most cytotoxic cyclotide known to date: cycloviolacin O2 from Viola odorata; yet, unlike cycloviolacin O2, they did not show hemolytic activity. Therefore, these cyclotides represent novel scaffolds for use in future anticancer drug design.

Published
2018
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23. Understanding the Diversity and Distribution of Cyclotides from Plants of Varied Genetic Origin.

Author

Ravipati AS, Poth AG, Troeira Henriques S, Bhandari M, Huang YH, Nino J, Colgrave ML, and Craik DJ

Subjects
Amino Acid Sequence, Cyclotides chemistry, Cystine chemistry, Molecular Structure, Plant Proteins chemistry, Cyclotides isolation & purification, Cystine isolation & purification, Fabaceae chemistry, Plant Proteins isolation & purification, Rubiaceae chemistry, Solanaceae chemistry, Violaceae chemistry
Abstract

Cyclotides are a large family of naturally occurring plant-derived macrocyclic cystine-knot peptides, with more than 400 having been identified in species from the Violaceae, Rubiaceae, Cucurbitaceae, Fabaceae, and Solanaceae families. Nevertheless, their specialized distribution within the plant kingdom remains poorly understood. In this study, the diversity of cyclotides was explored through the screening of 197 plants belonging to 43 different families. In total, 28 cyclotides were sequenced from 15 plant species, one of which belonged to the Rubiaceae and 14 to the Violaceae. Every Violaceae species screened contained cyclotides, but they were only sparsely represented in Rubiaceae and nonexistent in other families. The study thus supports the hypothesis that cyclotides are ubiquitous in the Violaceae, and it adds to the list of plants found to express kalata S and cycloviolacin O12. Finally, previous studies suggested the existence of cyclotide isoforms with either an Asn or an Asp at the C-terminal processing site of the cyclotide domain within the precursor proteins. Here we found that despite the discovery of a few cyclotides genuinely containing an Asp in loop 6 as evidenced by gene sequencing, deamidation of Asn during enzymatic digestion resulted in the artifactual presence of Asp isoforms. This result is consistent with studies suggesting that peptides can undergo deamidation after being subjected to external factors, including pH, temperature, and enzymatic digestion.

Published
2017
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24. Isolation and Characterization of Cyclotides from Brazilian Psychotria: Significance in Plant Defense and Co-occurrence with Antioxidant Alkaloids.

Author

Matsuura HN, Poth AG, Yendo AC, Fett-Neto AG, and Craik DJ

Subjects
Amino Acid Sequence, Animals, Antioxidants chemistry, Brazil, Cyclotides analysis, Cyclotides chemistry, Cyclotides pharmacology, Herbivory, Indole Alkaloids analysis, Indole Alkaloids chemistry, Indole Alkaloids pharmacology, Insecticides chemistry, Larva drug effects, Lepidoptera drug effects, Molecular Sequence Data, Molecular Structure, Oxidative Stress, Plant Leaves chemistry, Cyclotides isolation & purification, Indole Alkaloids isolation & purification, Insecticides isolation & purification, Insecticides pharmacology, Psychotria chemistry
Abstract

Plants from the genus Psychotria include species bearing cyclotides and/or alkaloids. The elucidation of factors affecting the metabolism of these molecules as well as their activities may help to understand their ecological function. In the present study, high concentrations of antioxidant indole alkaloids were found to co-occur with cyclotides in Psychotria leiocarpa and P. brachyceras. The concentrations of the major cyclotides and alkaloids in P. leiocarpa and P. brachyceras were monitored following herbivore- and pathogen-associated challenges, revealing a constitutive, phytoanticipin-like accumulation pattern. Psyleio A, the most abundant cyclotide found in the leaves of P. leiocarpa, and also found in P. brachyceras leaves, exhibited insecticidal activity against Helicoverpa armigera larvae. Addition of ethanol in the vehicle for peptide solubilization in larval feeding trials proved deleterious to insecticidal activity and resulted in increased rates of larval survival in treatments containing indole alkaloids. This suggests that plant alkaloids ingested by larvae might contribute to herbivore oxidative stress detoxification, corroborating, in a heterologous system with artificial oxidative stress stimulation, the antioxidant efficiency of Psychotria alkaloids previously observed in planta. Overall, the present study reports data for eight novel cyclotides, the identification of P. leiocarpa as a cyclotide-bearing species, and the absence of these peptides in P. umbellata.

Published
2016
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25. Lysine-rich Cyclotides: A New Subclass of Circular Knotted Proteins from Violaceae.

Author

Ravipati AS, Henriques ST, Poth AG, Kaas Q, Wang CK, Colgrave ML, and Craik DJ

Subjects
Amino Acid Sequence, Cells, Cultured, Cyclotides pharmacology, Cystine Knot Motifs, Erythrocytes drug effects, Humans, Lysine pharmacology, Magnetic Resonance Spectroscopy, Models, Molecular, Peptides chemistry, Peptides genetics, Protein Binding, Spectrometry, Mass, Electrospray Ionization, Cyclotides chemistry, Lysine chemistry, Violaceae chemistry
Abstract

Cyclotides are macrocyclic proteins produced by plants for host defense. Although they occur sparsely in other plant families, cyclotides have been detected in every Violaceae plant species so far screened. Many of the Violaceae species examined until now have been from closely related geographical regions or habitats. To test the hypothesis that cyclotides are ubiquitous in this family, two geographically isolated (and critically endangered) species of Australasian Violaceae, namely Melicytus chathamicus and M. latifolius, were examined. Surprisingly, we discovered a suite of cyclotides possessing novel sequence features, including a lysine-rich nature, distinguishing them from "conventional" cyclotides and suggesting that they might have different physiological activities in plants to those reported to date. The newly discovered cyclotides were found to bind to lipid membranes and were cytotoxic against cancer cell lines but had low toxicity against red blood cells, which is advantageous for potential therapeutic applications. This suite of novel Lys-rich cyclotides emphasizes the broad diversity of cyclotides in Violaceae species.

Published
2015
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26. Glycine-containing flaxseed orbitides.

Author

Burnett PG, Jadhav PD, Okinyo-Owiti DP, Poth AG, and Reaney MJ

Subjects
Amino Acid Sequence, Cyclization, Glycine analysis, Molecular Structure, Nuclear Magnetic Resonance, Biomolecular, Flax chemistry, Glycine chemistry, Linseed Oil chemistry, Linseed Oil isolation & purification, Peptides, Cyclic chemistry, Peptides, Cyclic isolation & purification
Abstract

Five new orbitides, cyclolinopeptides 21-25, were identified in flaxseed oil (Linum usitatissimum) extracts. Their HPLC-ESIMS quasimolecular ion peaks at m/z 1097.7 (21), 1115.6 (22), 1131.6 (23), 1018.6 (24), and 1034.6 (25) [M + H](+) corresponded to the molecular formulae C59H89N10O10, C58H87N10O10S, C58H87N10O11S, C53H80N9O9S, and C53H80N9O10S, respectively. Their structures were elucidated by extensive HPLC-ESIMS/MS analyses, and their presence was confirmed by precursor proteins identified in flax genomic DNA sequence data. The amino acid sequences of these orbitides were confirmed as [1-10-NαC]-GILVPPFFLI, [1-10-NαC]-GMLIPPFFVI, [1-10-NαC]-GOLIPPFFVI, [1-9-NαC]-GMLVFPLFI, and [1-9-NαC]-GOLVFPLFI for cyclolinopeptides 21-25, respectively. Previously reported orbitides, [1-9-NαC]-ILVPPFFLI (1), [1-9-NαC]-MLIPPFFVI (2), [1-9-NαC]-OLIPPFFVI (3), [1-8-NαC]-MLVFPLFI (7), and [1-8-NαC]-OLVFPLFI (8), were also present in flaxseed oil. The precursors of orbitides 21, 22, and 24 also produced orbitides 1, 2, and 7 by alternative cyclization. Cyclolinopeptides 3, 8, 23, and 25 contain MetO (O) and are not directly encoded, but are products of post-translational modification of the Met present in 2, 7, 22, and 24, respectively. Sufficient cyclolinopeptide 23 was isolated for characterization via 1D ((1)H and (13)C) and 2D (NOESY and HMBC) NMR spectroscopy. These compounds have been named as cyclolinopeptides U, V, W, X, and Y for 21, 22, 23, 24, and 25, respectively.

Published
2015
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27. Cycloquest: identification of cyclopeptides via database search of their mass spectra against genome databases.

Author

Mohimani H, Liu WT, Mylne JS, Poth AG, Colgrave ML, Tran D, Selsted ME, Dorrestein PC, and Pevzner PA

Subjects
Animals, Bacillus subtilis metabolism, Borohydrides chemistry, Databases, Genetic, Defensins chemistry, Genome, Helianthus metabolism, Macaca mulatta, Proteomics methods, Ribosomes chemistry, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Tandem Mass Spectrometry methods, Trypsin chemistry, Mass Spectrometry methods, Peptides chemistry
Abstract

Hundreds of ribosomally synthesized cyclopeptides have been isolated from all domains of life, the vast majority having been reported in the last 15 years. Studies of cyclic peptides have highlighted their exceptional potential both as stable drug scaffolds and as biomedicines in their own right. Despite this, computational techniques for cyclopeptide identification are still in their infancy, with many such peptides remaining uncharacterized. Tandem mass spectrometry has occupied a niche role in cyclopeptide identification, taking over from traditional techniques such as nuclear magnetic resonance spectroscopy (NMR). MS/MS studies require only picogram quantities of peptide (compared to milligrams for NMR studies) and are applicable to complex samples, abolishing the requirement for time-consuming chromatographic purification. While database search tools such as Sequest and Mascot have become standard tools for the MS/MS identification of linear peptides, they are not applicable to cyclopeptides, due to the parent mass shift resulting from cyclization and different fragmentation patterns of cyclic peptides. In this paper, we describe the development of a novel database search methodology to aid in the identification of cyclopeptides by mass spectrometry and evaluate its utility in identifying two peptide rings from Helianthus annuus, a bacterial cannibalism factor from Bacillus subtilis, and a θ-defensin from Rhesus macaque.

Published
2011
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28. Discovery of cyclotides in the fabaceae plant family provides new insights into the cyclization, evolution, and distribution of circular proteins.

Author

Poth AG, Colgrave ML, Philip R, Kerenga B, Daly NL, Anderson MA, and Craik DJ

Subjects
Amino Acid Sequence, Cyclotides isolation & purification, Evolution, Molecular, Models, Molecular, Molecular Sequence Data, Phylogeny, Plant Extracts isolation & purification, Plant Proteins isolation & purification, Protein Conformation, Protein Structure, Tertiary, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Cyclotides chemistry, Fabaceae chemistry, Plant Extracts chemistry, Plant Proteins chemistry, Seeds chemistry
Abstract

Cyclotides are plant proteins whose defining structural features are a head-to-tail cyclized backbone and three interlocking disulfide bonds, which in combination are known as a cyclic cystine knot. This unique structural motif confers cyclotides with exceptional resistance to proteolysis. Their endogenous function is thought to be as plant defense agents, associated with their insecticidal and larval growth-inhibitory properties. However, in addition, an array of pharmaceutically relevant biological activities has been ascribed to cyclotides, including anti-HIV, anthelmintic, uterotonic, and antimicrobial effects. So far, >150 cyclotides have been elucidated from members of the Rubiaceae, Violaceae, and Cucurbitaceae plant families, but their wider distribution among other plant families remains unclear. Clitoria ternatea (Butterfly pea) is a member of plant family Fabaceae and through its usage in traditional medicine to aid childbirth bears similarity to Oldenlandia affinis, from which many cyclotides have been isolated. Using a combination of nanospray and matrix-assisted laser desorption ionization-time-of-flight (MALDI-TOF) analyses, we examined seed extracts of C. ternatea and discovered cyclotides in the Fabaceae, the third-largest family of flowering plants. We characterized 12 novel cyclotides, thus expanding knowledge of cyclotide distribution and evolution within the plant kingdom. The discovery of cyclotides containing novel sequence motifs near the in planta cyclization site has provided new insights into cyclotide biosynthesis. In particular, MS analyses of the novel cyclotides from C. ternatea suggest that Asn to Asp variants at the cyclization site are more common than previously recognized. Moreover, this study provides impetus for the examination of other economically and agriculturally significant species within Fabaceae, now the largest plant family from which cyclotides have been described.

Published
2011
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29. Analysis of the human casein phosphoproteome by 2-D electrophoresis and MALDI-TOF/TOF MS reveals new phosphoforms.

Author

Poth AG, Deeth HC, Alewood PF, and Holland JW

Subjects
Amino Acid Sequence, Caseins chemistry, Caseins genetics, Humans, Milk, Human chemistry, Molecular Sequence Data, Phosphorylation, Protein Isoforms chemistry, Protein Isoforms genetics, Caseins analysis, Electrophoresis, Gel, Two-Dimensional methods, Protein Isoforms analysis, Proteome analysis, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization methods
Abstract

Mammalian breast milk contains an array of proteins and other nutrients essential for the development of the newborn. In human milk, the caseins (alpha S1, beta and kappa) are a major class of proteins; however, the dynamic range of concentrations in which the various isoforms of each casein exist presents challenges in their characterization. To study human milk casein phosphoforms, we applied traditional two-dimensional polyacrylamide gel electrophoretic (2-DE) separation combined with matrix-assisted laser desorption ionization-time-of-flight (MALDI-TOF) tandem mass spectroscopic analysis. The abundant beta-casein was resolved as a train of 6 spots differing in phosphorylation level with 0-5 phosphates attached. To study the less abundant alpha S1-casein, a cysteine-tagging enrichment treatment was used prior to 2-DE. A train of 9 spots with 4.4 < p I < 5.3 were identified as alpha S1-casein. This included five previously uncharacterized phosphoforms with up to 8 phosphate groups located in two serine-rich tryptic phosphopeptides ( (27)L-R (51), (69)N-K (98)) consistent with alpha-caseins from various ruminant species. MS/MS analysis of the phosphopeptides released by tryptic digestion enabled identification of the residue-specific order of phosphorylation among the 6 beta-casein and 9 alpha S1-casein phosphoforms. Deamidation of N (47) of alpha S1-casein was also a feature of the MS analysis. This study represents the first comprehensive analysis of the human casein phosphoproteome and reveals a much higher level of phosphorylation than previously recognized. It also highlights the advantages of 2-DE for examining the global pattern of protein phosphoforms and the limitations of attempting to estimate phosphorylation site occupancies from "bottom-up" studies.

Published
2008
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