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1. Kalata B1 Enhances Temozolomide Toxicity to Glioblastoma Cells.

Author

Gerlach, Samantha, Metcalf, James, Dunlop, Rachael, Banack, Sandra, Her, Cheenou, Krishnan, Viswanathan, Göransson, Ulf, Gunasekera, Sunithi, Slazak, Blazej, and Cox, Paul

Subjects
Viola, adjuvant therapy, chemosensitize, chemotherapy, cyclotides, glioblastoma, temozolomide
Abstract

Glioblastoma (GBM) is the most aggressive cancer originating in the brain, but unfortunately combination treatments with resection, radiation, and chemotherapy are relatively ineffective. Therefore, novel methods of adjuvant therapy are critically needed. Cyclotides are plant-derived circular peptides that chemosensitize drug-resistant breast cancer to doxorubicin. We analyzed naturally occurring and synthetic cyclotides (Cycloviolacin O3, Cycloviolacin O19, natural Kalata B1, synthetic Kalata B1, and Vitri E) alone and in co-exposure treatments with the drug temozolomide (TMZ) in human glioblastoma cells. The cyclotides were identified by UPLC-PDA and HPLC-UV. The synthetic Kalata B1 sequence was verified with orbitrap LC-MS, and structural confirmation was provided by NMR spectroscopy. The cyclotides displayed dose-dependent cytotoxicity (IC50 values 2.4-21.1 µM) both alone and as chemosensitizers of U-87 MG and T 98 cells to TMZ. In fact, a 16-fold lower concentration of TMZ (100 µM) was needed for significant cytotoxicity in U-87 MG cells co-exposed to synthetic Kalata B (0.5 µM). Similarly, a 15-fold lower concentration of TMZ (75 µM) was required for a significant reduction in cell viability in T 98 cells co-exposed to synthetic Kalata B1 (0.25 µM). Kalata B1 remained stable in human serum stability assays. The data support the assertion that cyclotides may chemosensitize glioblastoma cells to TMZ.

Published
2024

7. Screening for Cyclotides in Sri Lankan Medicinal Plants : Discovery, Characterization, and Bioactivity Screening of Cyclotides from Geophila repens

Author

Rajendran, Sanjeevan, Slazak, Blazej, Mohotti, Supun, Muhammad, Taj, Strömstedt, Adam A., Kapusta, Malgorzata, Wilmowicz, Emilia, Göransson, Ulf, Hettiarachchi, Chamari M., Gunasekera, Sunithi, Rajendran, Sanjeevan, Slazak, Blazej, Mohotti, Supun, Muhammad, Taj, Strömstedt, Adam A., Kapusta, Malgorzata, Wilmowicz, Emilia, Göransson, Ulf, Hettiarachchi, Chamari M., and Gunasekera, Sunithi

Abstract

Cyclotides are an intriguing class of structurally stable circular miniproteins of plant origin with numerous potential pharmaceutical and agricultural applications. To investigate the occurrence of cyclotides in Sri Lankan flora, 50 medicinal plants were screened, leading to the identification of a suite of new cyclotides from Geophila repens of the family Rubiaceae. Cycloviolacin O2-like (cyO2-like) gere 1 and the known cyclotide kalata B7 (kB7) were among the cyclotides characterized at the peptide and/or transcript level together with several putative enzymes, likely involved in cyclotide biosynthesis. Five of the most abundant cyclotides were isolated, sequenced, structurally characterized, and screened in antimicrobial and cytotoxicity assays. All gere cyclotides showed cytotoxicity (IC50 of 2.0-10.2 mu M), but only gere 1 inhibited standard microbial strains at a minimum inhibitory concentration of 4-16 mu M. As shown by immunohistochemistry, large quantities of the cyclotides were localized in the epidermis of the leaves and petioles of G. repens. Taken together with the cytotoxicity and membrane permeabilizing activities, this implicates gere cyclotides as potential plant defense molecules. The presence of cyO2-like gere 1 in a plant in the Rubiaceae supports the notion that phylogenetically distant plants may have coevolved to express similar cytotoxic cyclotides for a specific functional role, most likely involving host defense.

Published
2023
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10. Screening for Cyclotides in Sri Lankan Medicinal Plants: Discovery, Characterization, and Bioactivity Screening of Cyclotides from Geophila repens

Author

Rajendran, Sanjeevan, primary, Slazak, Blazej, additional, Mohotti, Supun, additional, Muhammad, Taj, additional, Strömstedt, Adam A., additional, Kapusta, Małgorzata, additional, Wilmowicz, Emilia, additional, Göransson, Ulf, additional, Hettiarachchi, Chamari M., additional, and Gunasekera, Sunithi, additional

Published
2022
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12. The Influence of Plant Stress Hormones and Biotic Elicitors on Cyclotide Production in Viola uliginosa Cell Suspension Cultures

Author

Slazak, Blazej, Jedrzejska, Aleksandra, Badyra, Bogna, Shariatgorji, Reza, Nilsson, Anna, Andrén, Per E., Göransson, Ulf, Slazak, Blazej, Jedrzejska, Aleksandra, Badyra, Bogna, Shariatgorji, Reza, Nilsson, Anna, Andrén, Per E., and Göransson, Ulf

Abstract

Cyclotides are macrocycle peptides produced by plants from several families, including Violaceae. These compounds have the potential for applications in medicine, bioengineering and crop protection thanks to their multiple biological activities. In most cases, cyclotides are extracted from plant material. Plant cell culture provides a viable and sustainable form of plant biomass production Cyclotides are host defense peptides. The aim of the current study was to test whether different plant stress hormones and biological elicitors have effects on cyclotide production in Viola uliginosa suspension cultures. Different concentrations of jasmonic acid (JA), salicylic acid (SA), abscisic acid (ABA) and neutralized pathogens were tested. The cyclotide production was assessed using MALDI-MS. Five major peptides produced by V. uliginosa cultures were chosen for analysis, of which one was sequenced de novo. The treatments had little influence on the suspension's growth, with the exception of 100 mu M SA, which enhanced the biomass increase, and 100 mu M ABA, which was toxic. Significant increases in the production of three cyclotides (viul M, cyO13 and cyO3) were observed in suspensions primed with JA (50 mu M, 100 mu M, 200 mu M) after 14 days of culturing. Biotic elicitors had no observable effect on cyclotide production. The current study indicates that some cyclotides in V. uliginosa are triggered in response to JA. The stress plant hormones can be used to enhance plant cell culture-based production systems.

Published
2022
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13. Spatial Distribution and Stability of Cholinesterase Inhibitory Protoberberine Alkaloids from Papaver setiferum

Author

Safa, Neda, Trobec, Tomaz., Holland, Darren C., Slazak, Blazej, Jacobsson, Erik, Hawkes, Jeffrey A., Frangez, Robert, Sepcic, Kristina, Göransson, Ulf, Moodie, Lindon W. K., Robertson, Luke, Safa, Neda, Trobec, Tomaz., Holland, Darren C., Slazak, Blazej, Jacobsson, Erik, Hawkes, Jeffrey A., Frangez, Robert, Sepcic, Kristina, Göransson, Ulf, Moodie, Lindon W. K., and Robertson, Luke

Abstract

During a research program to identify new cholinesterase inhibitors of natural origin, two new 7,8-didehy-droprotoberberine alkaloids (1 and 2) and nine known compounds (3-11) were isolated from the capsules of the common ornamental poppy, Papaver setiferum (previously P. pseudo-orientale). Despite their reported instability, the 7,8-didehydroprotoberberines isolated herein appeared relatively stable, particularly as their trifluoroacetic acid salts. The spatial distributions of the isolated alkaloids were also analyzed using desorption electrospray ionization imaging mass spectrometry. The alkaloids were localized predominantly within the walls and vascular bundles of the capsules, with the highest relative abundances occurring in the lower half of the capsules toward the peduncle. The relative abundances of the alkaloids were also compared across plant development stages. Although most alkaloids did not show clear patterns in their concentration across development stages, the concentration of suspected oxidation products clearly spiked upon plant death. Finally, all isolated natural products were screened for inhibitory activities against a panel of cholinesterases, from both human and animal sources. These studies identified several competitive inhibitors of cholinesterases with potency in the low micromolar range (1-4, 6, 7), offering new lead compounds for the development of cholinesterase inhibitory drugs.

Published
2022
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17. Behavioral and physiological effects of Viola spp. cyclotides on Myzus persicae (Sulz.)

Author

Dancewicz, Katarzyna, Slazak, Blazej, Kielkiewicz, Malgorzata, Kapusta, Malgorzata, Bohdanowicz, Jerzy, Gabrys, Beata, Dancewicz, Katarzyna, Slazak, Blazej, Kielkiewicz, Malgorzata, Kapusta, Malgorzata, Bohdanowicz, Jerzy, and Gabrys, Beata

Abstract

Cyclotides are defense peptides produced by several plant families. Viola spp. (Violaceae) produce an array of cyclotides with varying biological activities. The peach potato aphid Myzus persicae (Sulz.) (Hemiptera: Aphididae) is a generalist that feeds on the secondary hosts of over 40 plant families, including Violaceae. The present work aimed to evaluate the activities of cycloviolacins from Viola odorata L. and V. ulignosa Besser (cyO2, cyO3, cyO13, cyO19) against M. persicae. To investigate the peptides' influence on aphid feeding behavior, we used 20% sucrose diets supplemented with cyclotides and measured the effects with electrical penetration graph (EPG) technique. We also applied anti-cyclotide antibodies and immunohistochemistry to track the peptides in the digestive systems of the aphids. Our study shows that cyclotides affect aphid probing and feeding behavior and limit their diet sap uptake. The cycloviolacin cyclotides: cyO13 (100 mu M) and cyO19 (50 mu M) most strongly impeded aphid ingestion activities when applied in sucrose diet. Sustained ingestion of the diet was blocked by 100 mu M cyO13, and no aphid showed ingestion of the diet for longer than 10 min. Cyclotides were detected in the pharynx, in contact with the epipharyngeal gustatory organ, in the stomach (midgut) and upper intestine. The present study shows the deterrent activity of cycloviolacins on M. persicae. This activity may be related to the peptides' effects on epithelial cells and gustatory organs along the aphid digestive system. We demonstrate that cyclotides may play an important role in plant-aphid interactions.

Published
2020
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20. How Does the Sweet Violet (Viola odorata L.) Fight Pathogens and Pests - Cyclotides as a Comprehensive Plant Host Defense System

Author

Slazak, Blazej, Kapusta, Malgorzata, Strömstedt, Adam A., Slomka, Aneta, Krychowiak, Marta, Shariatgorji, Mohammadreza, Andrén, Per E., Bohdanowicz, Jerzy, Kuta, Elzbieta, Göransson, Ulf, Slazak, Blazej, Kapusta, Malgorzata, Strömstedt, Adam A., Slomka, Aneta, Krychowiak, Marta, Shariatgorji, Mohammadreza, Andrén, Per E., Bohdanowicz, Jerzy, Kuta, Elzbieta, and Göransson, Ulf

Abstract

Cyclotides are cyclic plant polypeptides of 27-37 amino acid residues. They have been extensively studied in bioengineering and drug development contexts. However, less is known about the relevance of cyclotides for the plants producing them. The anti-insect larvae effects of kB1 and antibacterial activity of cyO2 suggest that cyclotides are a part of plant host defense. The sweet violet (Viola odorata L.) produces a wide array of cyclotides, including kB1 (kalata B1) and cyO2 (cycloviolacin O2), with distinct presumed biological roles. Here, we evaluate V. odorata cyclotides' potency against plant pathogens and their mode of action using bioassays, liposome experiments and immunogold labeling for transmission electron microscopy (TEM). We explore the link between the biological activity and distribution in plant generative, vegetative tissues and seeds, depicted by immunohistochemistry and matrix assisted laser desorption ionization mass spectrometry imaging (MALDI-MSI). Cyclotides cyO2, cyO3, cyO13, and cyO19 are shown to have potent activity against model fungal plant pathogens (Fusarium oxysporum, F. graminearum, F. culmorum, Mycosphaerella fragariae, Botrytis cinerea) and fungi isolated from violets (Colletotrichum utrechtense and Alternaria alternata), with minimal inhibitory concentrations (MICs) ranging from 0.8 to 25 mu M. Inhibition of phytopathogenic bacteria - Pseudomonas syringae pv. syringae, Dickeya dadantii and Pectobacterium atrosepticum - is also observed with MIC = 25-100 mu M. A membrane-disrupting antifungal mode of action is shown. Finding cyO2 inside the fungal spore cells in TEM images may indicate that other, intracellular targets may be involved in the mechanism of toxicity. Fungi can not break down cyclotides in the course of days. varv A (kalata S) and kB1 show little potency against pathogenic fungi when compared with the tested cycloviolacins. cyO2, cyO3, cyO19 and kB1 are differentially distributed and found in tissues vulnerable to pa

Published
2018
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22. Single-step purification of cyclotides using affinity chromatography

Author

Uddin, Shaikh Jamal, Muhammad, Taj, Shafiullah, Md, Slazak, Blazej, Rouf, Razina, Göransson, Ulf, Uddin, Shaikh Jamal, Muhammad, Taj, Shafiullah, Md, Slazak, Blazej, Rouf, Razina, and Göransson, Ulf

Abstract

Cyclotides are considered promising scaffolds for drug development owing to their inherent host defence activities and highly stable structure, defined by the cyclic cystine knot. These proteins are expressed as complex mixtures in plants. Although several methods have been developed for their isolation and analysis, purification of cyclotides is still a lengthy process. Here, we describe the use of affinity chromatography for the purification of cyclotides using polyclonal IgG antibodies raised in rabbits against cycloviolacin O2 and immobilized on NHS-activated Sepharose columns. Cycloviolacin O2 was used as a model substance to evaluate the chromatographic principle, first as a pure compound and then in combination with other cyclotides, that is, bracelet cyclotide cycloviolacin O19 and Mobius cyclotide kalata B1, and in a plant extract. We demonstrate that single-step purification of cyclotides by affinity chromatography is possible but cross reactivity may occur between homologue cyclotides of the bracelet subfamily.

Published
2017
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24. Peptide biodiscovery from plants and animals : structure to function

Author

Göransson, Ulf, Gunasekera, Sunithi, Malik, S., Park, S., Slazak, Blazej, Jacobsson, Erik, Eriksson, Camilla, Andersson, H., Strömstedt, Adam A., Göransson, Ulf, Gunasekera, Sunithi, Malik, S., Park, S., Slazak, Blazej, Jacobsson, Erik, Eriksson, Camilla, Andersson, H., and Strömstedt, Adam A.

Published
2016
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25. Cyclotides in the Violaceae

Author

Göransson, Ulf, Malik, Sohaib, Slazak, Blazej, Göransson, Ulf, Malik, Sohaib, and Slazak, Blazej

Abstract

It has been 20 years since the cyclic cystine-knotted compounds, called cyclotides, tied our knot with the violets. This chapter, above all, is a lucid summary of the twists, turns, knots, and rings in the relationship that followed. The chapter begins by giving an account of how a little known scientific article facilitated the discovery of cyclotides in Violaceae, how it captured our imagination, and how it was realized that the discovery of a series of cyclotides was within a touching distance. The processes of extraction, isolation, and characterization as well as chemical synthesis of cyclotides used in our laboratory have been described, and in doing so, the solvents, materials, conditions, instrumentation, and techniques involved have been pointed out. An introduction to Violaceae and a description of these plants in diverse cultural settings for various therapeutic purposes is provided. A section follows it on the discovery of cycloviolacin O2 from Viola odorata as a potent antimicrobial peptide, and how its interaction with bacteria in terms of mechanism of action and resistance development was investigated. It is followed by a reflection on how the recent innovations in biotechnology and bioinformatics have helped out along the way: the use of novel strategies for cyclization and the use of transcriptomics data in the discovery of new cyclotides. Finally, the question about biological role of cyclotides in Violaceae has been asked, and an attempt to answer this question has been presented.

Published
2015
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27. Chapter Two - Cyclotides in the Violaceae.

Author

Göransson, Ulf, Malik, Sohaib, and Slazak, Blazej

Subjects
*VIOLACEAE, *PEPTIDES, *BIOTECHNOLOGY, *CULTURAL pluralism, *RING formation (Chemistry)
Abstract

It has been 20 years since the cyclic cystine-knotted compounds, called cyclotides, tied our knot with the violets. This chapter, above all, is a lucid summary of the twists, turns, knots, and rings in the relationship that followed. The chapter begins by giving an account of how a little known scientific article facilitated the discovery of cyclotides in Violaceae, how it captured our imagination, and how it was realized that the discovery of a series of cyclotides was within a touching distance. The processes of extraction, isolation, and characterization as well as chemical synthesis of cyclotides used in our laboratory have been described, and in doing so, the solvents, materials, conditions, instrumentation, and techniques involved have been pointed out. An introduction to Violaceae and a description of these plants in diverse cultural settings for various therapeutic purposes is provided. A section follows it on the discovery of cycloviolacin O2 from Viola odorata as a potent antimicrobial peptide, and how its interaction with bacteria in terms of mechanism of action and resistance development was investigated. It is followed by a reflection on how the recent innovations in biotechnology and bioinformatics have helped out along the way: the use of novel strategies for cyclization and the use of transcriptomics data in the discovery of new cyclotides. Finally, the question about biological role of cyclotides in Violaceae has been asked, and an attempt to answer this question has been presented. [ABSTRACT FROM AUTHOR]

Published
2015
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28. Screening for Cyclotides in Sri Lankan Medicinal Plants: Discovery, Characterization, and Bioactivity Screening of Cyclotides from Geophila repens .

Author

Rajendran S, Slazak B, Mohotti S, Muhammad T, Strömstedt AA, Kapusta M, Wilmowicz E, Göransson U, Hettiarachchi CM, and Gunasekera S

Subjects
Amino Acid Sequence, Plant Proteins chemistry, Sri Lanka, Cyclotides chemistry, Plants, Medicinal, Rubiaceae chemistry
Abstract

Cyclotides are an intriguing class of structurally stable circular miniproteins of plant origin with numerous potential pharmaceutical and agricultural applications. To investigate the occurrence of cyclotides in Sri Lankan flora, 50 medicinal plants were screened, leading to the identification of a suite of new cyclotides from Geophila repens of the family Rubiaceae. Cycloviolacin O2-like (cyO2-like) gere 1 and the known cyclotide kalata B7 (kB7) were among the cyclotides characterized at the peptide and/or transcript level together with several putative enzymes, likely involved in cyclotide biosynthesis. Five of the most abundant cyclotides were isolated, sequenced, structurally characterized, and screened in antimicrobial and cytotoxicity assays. All gere cyclotides showed cytotoxicity (IC 50 of 2.0-10.2 μM), but only gere 1 inhibited standard microbial strains at a minimum inhibitory concentration of 4-16 μM. As shown by immunohistochemistry, large quantities of the cyclotides were localized in the epidermis of the leaves and petioles of G. repens . Taken together with the cytotoxicity and membrane permeabilizing activities, this implicates gere cyclotides as potential plant defense molecules. The presence of cyO2-like gere 1 in a plant in the Rubiaceae supports the notion that phylogenetically distant plants may have coevolved to express similar cytotoxic cyclotides for a specific functional role, most likely involving host defense.

Published
2023
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29. Single-step purification of cyclotides using affinity chromatography.

Author

Uddin SJ, Muhammad T, Shafiullah M, Slazak B, Rouf R, and Göransson U

Subjects
Amino Acid Sequence, Animals, Antibodies immunology, Cyclotides immunology, Cystine Knot Motifs immunology, Rabbits, Antibodies chemistry, Chromatography, Affinity methods, Cyclotides chemistry, Cyclotides isolation & purification
Abstract

Cyclotides are considered promising scaffolds for drug development owing to their inherent host defence activities and highly stable structure, defined by the cyclic cystine knot. These proteins are expressed as complex mixtures in plants. Although several methods have been developed for their isolation and analysis, purification of cyclotides is still a lengthy process. Here, we describe the use of affinity chromatography for the purification of cyclotides using polyclonal IgG antibodies raised in rabbits against cycloviolacin O2 and immobilized on NHS-activated Sepharose columns. Cycloviolacin O2 was used as a model substance to evaluate the chromatographic principle, first as a pure compound and then in combination with other cyclotides, that is, bracelet cyclotide cycloviolacin O19 and Möbius cyclotide kalata B1, and in a plant extract. We demonstrate that single-step purification of cyclotides by affinity chromatography is possible but cross reactivity may occur between homologue cyclotides of the bracelet subfamily., (© 2016 Wiley Periodicals, Inc.)

Published
2017
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