Your search keyword '"Sabotič, J."' showing total 59 results

1. P01.02 Selective induction of cell death in Jurkat cells with recombinant fungal lectin CNL

Author

Perisic Nanut, MM, primary, Žurga, S, additional, Konjar, Š, additional, Prunk, M, additional, Kos, J, additional, and Sabotič, J, additional

Published

2022

2. Cytotoxic L-amino-acid oxidases from Amanita phalloides and Clitocybe geotropa induce caspase-dependent apoptosis

Author

Pišlar, A, primary, Sabotič, J, additional, Šlenc, J, additional, Brzin, J, additional, and Kos, J, additional

Published

2016

3. SEMI-QUANTITATIVE RT-PCR ANALYSIS OF SELECTED PROTEASE INHIBITORS IN DROUGHT-STRESSED TRITICUM AESTIVUM.

Author

Vaseva, I., Zehirov, G., Stoychev, V., Kirova, E., Simova-Stoilova, L., Sabotič, J., Šuštar-Vozlič, J., Meglič, V., and Kidrič, M.

Subjects

POLYMERASE chain reaction, ENZYME inhibitors, PROTEASE inhibitors, CYSTEINE, SULFUR amino acids

Abstract

Proteases and their specific inhibitors are ubiquitously distributed and play a key regulatory role in many biological processes. Gene expression and activity of certain proteases has been shown to increase in Triticum aestivum L. leaves under drought, with a major contribution of cysteine proteases, especially in sensitive wheat varieties. However, little is known about the stress response of protease inhibitors (PIs) and their role in the regulation of intracellular proteolysis. In this study the changes in transcript abundance of some protease inhibitors (belonging to cystatin and serpin classes) were evaluated by semi-quantitative RT-PCR in leaves and roots of winter wheat seedlings from two varieties with differing tolerance. The expression of two cysteine proteases in the same samples was also assessed. The expression of the studied genes was compared in the tolerant variety "Katya" and the more susceptible to water deprivation variety "Sadovo", applying severe but recoverable soil drought. Growth inhibition and stress related parameters confirmed the relatively higher drought sensitivity of variety "Sadovo". Serpin transcript abundance in control roots was higher than in the leaves. An opposite trend was documented for cystatins - the level of their expression was stronger in the non-treated leaves compared to roots. Drought stress inhibited PI expression in roots, while varying effects on the transcript levels were detected in the leaves of water deprived plants. The levels of the two cysteine protease transcripts under drought exhibited organ-specific response - they declined in roots, and increased in leaves. Further detailed studies using more sensitive methods are necessary to evaluate the potential of protease inhibitors as biochemical markers for drought tolerance. [ABSTRACT FROM AUTHOR]

Published

2014

4. Synthesis and application of a phenazine class substrate for high-throughput screening of laccase activity.

Author

Babinskas J, Sabotič J, and Matijošytė I

Subjects

Agar, Biocatalysis, Phenazines, High-Throughput Screening Assays, Laccase

Abstract

Biocatalysis is one of the greatest tools for implementing the 12 principles of Green chemistry. Biocatalysts are bio-based, highly efficient and selective, operate at moderate conditions, and can be reused multiple times. However, the wider application of biocatalysts is plagued by a plethora of drawbacks, such as poor stability at operating conditions, inadequate efficiency of catalytic systems, a small number of commercially available biocatalysts, and a lack of substrates or methods for their discovery and development. In this work, we address the lack of suitable substrates for high-throughput screening of laccase by synthesising and investigating a newly developed phenazine-type substrate - Ferbamine. Investigation of Ferbamine pH and thermal stability indicated that its long-term stability in an aqueous medium is superior to that of commercially available substrates and does not require organic solvents. Ferbamine displayed convincing performance in detecting laccase activity on Ferbamine-agar plates in commercial laccase products and the collection of extracts from wild terrestrial fungi (42 species, 65 extracts), of which 26 species have not been described to have laccase activity prior to this work. Incubation of microorganisms on Ferbamine-agar plates showed its compatibility with live colonies. Ferbamine proved to be an easy-to-use substrate, which could be a great addition to the toolbox of methods for the functional analysis of laccases., (© 2024. The Author(s).)

Published

2024

5. Evaluation of physical and chemical isolation methods to extract and purify Campylobacter jejuni extracellular polymeric substances.

Author

Pavlinjek N, Klančnik A, and Sabotič J

Abstract

The pathogenic bacterium Campylobacter jejuni is a major food safety concern as it can form biofilms that increase its survival and infective potential. Biofilms consist of microbial cells and extracellular matrix (ECM), which is made of water and extracellular polymeric substances (EPS), which are critical for structural integrity and pathogenicity. The aim of this study was to optimize a protocol for the isolation of C. jejuni ECM. We employed eight physical and chemical isolation methods to extract and purify ECM, followed by different qualitative and quantitative analyses using gel electrophoresis and spectroscopy. This comprehensive approach enabled the evaluation of ECM composition in terms of polysaccharides, proteins, and extracellular DNA. The isolation methods resulted in different yields and purities of the extracted ECM components. Centrifugation in combination with chemical treatments proved to be most effective, isolating higher concentrations of polysaccharides and proteins. Additionally, extraction with ether solution facilitated the recovery of high-molecular-weight extracellular DNA. Overall, we provide a refined methodology for ECM extraction from C. jejuni . As polysaccharides and proteins participate in biofilm stability and microbial communication, and extracellular DNA participates in genetic exchange and virulence, our study contributes towards a better understanding of the persistence of this pathogen in the food industry., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Pavlinjek, Klančnik and Sabotič.)

Published

2024

6. Modulation of Campylobacter jejuni adhesion to biotic model surfaces by fungal lectins and protease inhibitors.

Author

Jug B, Šikić Pogačar M, Sterniša M, Tumpej T, Karničar K, Turk D, Langerholc T, Sabotič J, and Klančnik A

Subjects

Humans, Caco-2 Cells, Fungi drug effects, Mucins metabolism, Epithelial Cells microbiology, Fibronectins metabolism, Campylobacter jejuni drug effects, Campylobacter jejuni physiology, Campylobacter jejuni metabolism, Bacterial Adhesion drug effects, Lectins metabolism, Lectins pharmacology, Protease Inhibitors pharmacology, Protease Inhibitors metabolism

Abstract

Campylobacter jejuni , a Gram-negative bacterium, is one of the most common causes of foodborne illness worldwide. Its adhesion mechanism is mediated by several bacterial factors, including flagellum, protein adhesins, lipooligosaccharides, proteases, and host factors, such as surface glycans on epithelial cells and mucins. Fungal lectins, specialized carbohydrate-binding proteins, can bind to specific glycans on host and bacterial cells and thus influence pathogenesis. In this study, we investigated the effects of fungal lectins and protease inhibitors on the adhesion of C. jejuni to model biotic surfaces (mucin, fibronectin, and collagen) and Caco-2 cells as well as the invasion of Caco-2 cells. The lectins Marasmius oreades agglutinin (MOA) and Laccaria bicolor tectonin 2 (Tec2) showed remarkable efficacy in all experiments. In addition, different pre-incubations of lectins with C. jejuni or Caco-2 cells significantly inhibited the ability of C. jejuni to adhere to and invade Caco-2 cells, but to varying degrees. Pre-incubation of Caco-2 cells with selected lectins reduced the number of invasive C. jejuni cells the most, while simultaneous incubation showed the greatest reduction in adherent C. jejuni cells. These results suggest that fungal lectins are a promising tool for the prevention and treatment of C. jejuni infections. Furthermore, this study highlights the potential of fungi as a rich reservoir for novel anti-adhesive agents., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Jug, Šikić Pogačar, Sterniša, Tumpej, Karničar, Turk, Langerholc, Sabotič and Klančnik.)

Published

2024

7. A guide to the use of bioassays in exploration of natural resources.

Author

Sabotič J, Bayram E, Ezra D, Gaudêncio SP, Haznedaroğlu BZ, Janež N, Ktari L, Luganini A, Mandalakis M, Safarik I, Simes D, Strode E, Toruńska-Sitarz A, Varamogianni-Mamatsi D, Varese GC, and Vasquez MI

Subjects

Biological Assay methods, Anti-Infective Agents, Biological Products pharmacology

Abstract

Bioassays are the main tool to decipher bioactivities from natural resources thus their selection and quality are critical for optimal bioprospecting. They are used both in the early stages of compounds isolation/purification/identification, and in later stages to evaluate their safety and efficacy. In this review, we provide a comprehensive overview of the most common bioassays used in the discovery and development of new bioactive compounds with a focus on marine bioresources. We present a comprehensive list of practical considerations for selecting appropriate bioassays and discuss in detail the bioassays typically used to explore antimicrobial, antibiofilm, cytotoxic, antiviral, antioxidant, and anti-ageing potential. The concept of quality control and bioassay validation are introduced, followed by safety considerations, which are critical to advancing bioactive compounds to a higher stage of development. We conclude by providing an application-oriented view focused on the development of pharmaceuticals, food supplements, and cosmetics, the industrial pipelines where currently known marine natural products hold most potential. We highlight the importance of gaining reliable bioassay results, as these serve as a starting point for application-based development and further testing, as well as for consideration by regulatory authorities., Competing Interests: Declaration of competing interest None., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

8. Diabrotica v. virgifera Seems Not Affected by Entomotoxic Protease Inhibitors from Higher Fungi.

Author

Toepfer S, Toth S, Zupan T, Bogataj U, Žnidaršič N, Ladanyi M, and Sabotič J

Abstract

Certain soil insects, such as the root-damaging larvae of the maize pest Diabrotica virgifera virgifera (Coleoptera: Chrysomelidae), are increasingly difficult to control because of recent bans of some insecticides. An alternative and safer approach may be the development of biopesticides based on entomotoxic defense proteins of higher fungi. Many of these potentially interesting proteins are protease inhibitors, and some have been shown to adversely affect insects. We examined the effects of the cysteine protease inhibitors macrocypin 1, 3, and 4 from Macrolepiota procera , clitocypin from Clitocybe nebularis , and cocaprin 1 and the serine protease inhibitor cospin 1 from Coprinopsis cinerea on D. v. virgifera . We confirmed the inhibition by mycocypins of the cysteine catalytic-type proteolytic activities in gut extracts of larvae and adults. The inhibition of p Glu-Phe-Leu-hydrolyzing activity was stronger than that of Z-Phe-Arg-hydrolyzing activity. Mycocypins and cospin resisted long-term proteolytic digestion, whereas cocaprin 1 was digested. Bioassays with overlaid artificial diet revealed no effects of proteins on neonatal mortality or stunting, and no effects on adult mortality. Immersion of eggs in protein solutions had little effect on egg hatching or mortality of hatching neonates. Microscopic analysis of the peritrophic matrix and apical surface of the midguts revealed the similarity between larvae of D. v. virgifera and the chrysomelid Leptinotarsa decemlineata , which are sensitive to these inhibitors. The resistance of D. v. virgifera to fungal protease inhibitors is likely due to effective adaptation of digestive enzyme expression to dietary protease inhibitors. We continue to study unique protein complexes of higher fungi for the development of new approaches to pest control.

Published

2024

9. Different glycosylation profiles of cystatin F alter the cytotoxic potential of natural killer cells.

Author

Senjor E, Pirro M, Švajger U, Prunk M, Sabotič J, Jewett A, Hensbergen PJ, Perišić Nanut M, and Kos J

Subjects

Humans, Glycosylation, Mannose, Cathepsin C metabolism, Killer Cells, Natural metabolism, Cystatins, Antineoplastic Agents

Abstract

Cystatin F, a cysteine peptidase inhibitor, is a potent modulator of NK cytotoxicity. By inhibiting granule-mediated cytotoxicity pathway, cystatin F induces formation of non-functional NK cell stage, called split-anergy. We show that N-glycosylation determines the localization and cellular function of cystatin F. Cystatin F mostly exhibited high-mannose glycosylation in U-937 cells, both high-mannose and complex glycosylation in NK-92 and primary NKs, and predominantly complex glycosylation in super-charged NKs. Manipulating N-glycosylation with kifunensine increased high-mannose glycosylation of cystatin F and lysosome localisation, which decreased cathepsin C activity and reduced NK cytotoxicity. Mannose-6-phosphate could significantly reduce the internalization of extracellular cystatin F. By comparing NK cells with different cytotoxic potentials, we found that high-mannose cystatin F was strongly associated with lysosomes and cathepsin C in NK-92 cell line. In contrast, in highly cytotoxic super-charged NKs, cystatin F with complex glycosylation was associated with the secretory pathway and less prone to inhibit cathepsin C. Modulating glycosylation to alter cystatin F localisation could increase the cytotoxicity of NK cells, thereby enhancing their therapeutic potential for treating cancer patients., (© 2023. The Author(s).)

Published

2023

10. Molecular structures mediating adhesion of Campylobacter jejuni to abiotic and biotic surfaces.

Author

Sabotič J, Janež N, Volk M, and Klančnik A

Subjects

Humans, Animals, Bacterial Adhesion, Molecular Structure, Polysaccharides, Campylobacter jejuni genetics, Campylobacter jejuni metabolism, Campylobacter Infections veterinary, Campylobacter Infections microbiology

Abstract

Microaerophilic, Gram-negative Campylobacter jejuni is the causative agent of campylobacteriosis, the most common bacterial gastrointestinal infection worldwide. Adhesion is the crucial first step in both infection or interaction with the host and biofilm formation, and is a critical factor for bacterial persistence. Here we describe the proteins and other surface structures that promote adhesion to various surfaces, including abiotic surfaces, microorganisms, and animal and human hosts. In addition, we provide insight into the distribution of adhesion proteins among strains from different ecological niches and highlight unexplored proteins involved in C. jejuni adhesion. Protein-protein, protein-glycan, and glycan-glycan interactions are involved in C. jejuni adhesion, with different factors contributing to adhesion to varying degrees under different circumstances. As adhesion is essential for survival and persistence, it represents an interesting target for C. jejuni control. Knowledge of the adhesion process is incomplete, as different molecular and functional aspects have been studied for different structures involved in adhesion. Therefore, it is important to strive for an integration of different approaches to obtain a clearer picture of the adhesion process on different surfaces and to consider the involvement of proteins, glycoconjugates, and polysaccharides and their cooperation., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2023

11. SIMBA Method-Simultaneous Detection of Antimicrobial and Anti-biofilm Activity of New Compounds Using Salmonella Infantis.

Author

Sterniša M, Sabotič J, Janež N, Curk T, and Klančnik A

Abstract

The development of antimicrobial resistance and the formation of Salmonella biofilms are serious public health problems. For this reason, new natural compounds with antimicrobial and anti-biofilm activity are being sought, and wild fungi represent an untapped potential. Various extraction agents, including organic solvents and aqueous buffers, can be used to obtain bioactive compounds from natural sources. To evaluate their bioactivity, extensive screening studies are required to determine antimicrobial and anti-biofilm activity using methods such as broth microdilution or crystal violet assay, respectively, but none of these methods allow simultaneous evaluation of both activities against bacteria. Cold water extraction from wild fungi offers the advantage of extracting water-soluble compounds. The SIMultaneous detection of antiMicrobial and anti-Biofilm Activity (SIMBA) method combines the testing of both types of activity against bacteria with the evaluation of the 20 h growth curve of the Salmonella Infantis ŽM9 strain determined with absorbance measurements at 600 nm in a 96-well plate. SIMBA method thus shortens the time to determine the bioactivity of extracts, reduces material consumption, and eliminates the need for additional reagents. SIMBA enables rapid selection of bioactive extracts for their fractionation and shortens the time to determine new natural products with antimicrobial and anti-biofilm activity. Graphical overview., Competing Interests: Competing interestsPatent application EP2022058548W·2022-03-31 was published WO2022207781A2·2022-10-06 (Sterniša et al., 2022b)., (©Copyright : © 2023 The Authors; This is an open access article under the CC BY-NC license.)

Published

2023

12. Mycorrhiza-induced mycocypins of Laccaria bicolor are potent protease inhibitors with nematotoxic and collembola antifeedant activity.

Author

Plett JM, Sabotič J, Vogt E, Snijders F, Kohler A, Nielsen UN, Künzler M, Martin F, and Veneault-Fourrey C

Subjects

Cysteine Proteinase Inhibitors metabolism, Ecosystem, Fungal Proteins genetics, Fungal Proteins metabolism, Laccaria, Plant Roots microbiology, Protease Inhibitors metabolism, Protease Inhibitors pharmacology, Soil, Symbiosis genetics, Mycorrhizae genetics, Mycorrhizae metabolism

Abstract

Fungivory of mycorrhizal hyphae has a significant impact on fungal fitness and, by extension, on nutrient transfer between fungi and host plants in natural ecosystems. Mycorrhizal fungi have therefore evolved an arsenal of chemical compounds that are hypothesized to protect the hyphal tissues from being eaten, such as the protease inhibitors mycocypins. The genome of the ectomycorrhizal fungus Laccaria bicolor has an unusually high number of mycocypin-encoding genes. We have characterized the evolution of this class of proteins, identified those induced by symbiosis with a host plant and characterized the biochemical properties of two upregulated L. bicolor mycocypins. More than half of L. bicolor mycocypin-encoding genes are differentially expressed during symbiosis or fruiting body formation. We show that two L. bicolor mycocypins that are strongly induced during symbiosis are cysteine protease inhibitors and exhibit similar but distinct localization in fungal tissues at different developmental stages and during interaction with a host plant. Moreover, we show that these L. bicolor mycocypins have toxic and feeding deterrent effect on nematodes and collembolans, respectively. Therefore, L. bicolor mycocypins may be part of a mechanism by which this species deters grazing by different members of the soil food web., (© 2022 Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published

2022

13. Cocaprins, β-Trefoil Fold Inhibitors of Cysteine and Aspartic Proteases from Coprinopsis cinerea .

Author

Renko M, Zupan T, Plaza DF, Schmieder SS, Perišić Nanut M, Kos J, Turk D, Künzler M, and Sabotič J

Subjects

Aspartic Acid Endopeptidases, Cysteine, Peptide Hydrolases metabolism, Protease Inhibitors chemistry, Agaricales chemistry, Aspartic Acid Proteases genetics, Cysteine Proteases genetics

Abstract

We introduce a new family of fungal protease inhibitors with β-trefoil fold from the mushroom Coprinopsis cinerea , named cocaprins, which inhibit both cysteine and aspartic proteases. Two cocaprin-encoding genes are differentially expressed in fungal tissues. One is highly transcribed in vegetative mycelium and the other in the stipes of mature fruiting bodies. Cocaprins are small proteins (15 kDa) with acidic isoelectric points that form dimers. The three-dimensional structure of cocaprin 1 showed similarity to fungal β-trefoil lectins. Cocaprins inhibit plant C1 family cysteine proteases with K i in the micromolar range, but do not inhibit the C13 family protease legumain, which distinguishes them from mycocypins. Cocaprins also inhibit the aspartic protease pepsin with K i in the low micromolar range. Mutagenesis revealed that the β2-β3 loop is involved in the inhibition of cysteine proteases and that the inhibitory reactive sites for aspartic and cysteine proteases are located at different positions on the protein. Their biological function is thought to be the regulation of endogenous proteolytic activities or in defense against fungal antagonists. Cocaprins are the first characterized aspartic protease inhibitors with β-trefoil fold from fungi, and demonstrate the incredible plasticity of loop functionalization in fungal proteins with β-trefoil fold.

Published

2022

14. The fungal Clitocybe nebularis lectin binds distinct cell surface glycoprotein receptors to induce cell death selectively in Jurkat cells.

Author

Perišić Nanut M, Žurga S, Konjar Š, Prunk M, Kos J, and Sabotič J

Subjects

Humans, Jurkat Cells, Agaricales physiology, Cell Death, Lectins metabolism, Membrane Glycoproteins metabolism, Plant Lectins metabolism, Receptors, N-Acetylglucosamine metabolism

Abstract

Clitocybe nebularis lectin (CNL) is a GalNAcβ1-4GlcNAc-binding lectin that exhibits an antiproliferative effect exclusively on the Jurkat leukemic T cell line by provoking homotypic aggregation and dose-dependent cell death. Cell death of Jurkat cells exhibited typical features of early apoptosis, but lacked the activation of initiating and executing caspases. None of the features of CNL-induced cell death were effectively blocked with the pan-caspase inhibitor or different cysteine peptidase inhibitors. Furthermore, CNL binding induced Jurkat cells to release the endogenous damage-associated molecular pattern molecule high-mobility group box 1 (HMGB1). A plant lectin with similar glycan-binding specificity, Wisteria floribunda agglutinin (WFA) showed less selective toxicity and induced cell death in Jurkat, Tall-104, and Hut-87 cell lines. HMGB1 release was also detected when Jurkat cells were treated with WFA. We identified the CD45 and CD43 cell surface glycoproteins on Jurkat cells as the main targets for CNL binding. However, the blockade of CD45 phosphatase activity failed to block either CNL-induced homotypic agglutination or cell death. Overall, our results indicate that CNL triggers atypical cell death selectively on Jurkat cells, suggesting the potential applicability of CNL in novel strategies for treating and/or detecting acute T cell leukemia., (© 2022 The Authors. The FASEB Journal published by Wiley Periodicals LLC on behalf of Federation of American Societies for Experimental Biology.)

Published

2022

15. A novel approach using growth curve analysis to distinguish between antimicrobial and anti-biofilm activities against Salmonella.

Author

Sterniša M, Sabotič J, and Klančnik A

Subjects

Anti-Bacterial Agents pharmacology, Biofilms, Humans, Microbial Sensitivity Tests, Plant Extracts, Salmonella, Anti-Infective Agents pharmacology, Foodborne Diseases

Abstract

Salmonella spp. are a commonly identified cause of outbreaks of food-borne diseases. Despite much research, there remains the need to find new antimicrobial and anti-biofilm agents against Salmonella. For this, it is necessary to distinguish between these two aspects. Agents that influence biofilm formation should not affect bacterial growth, to thus avoid further promotion of the development of resistance. In this study, we present the use of growth curves of Salmonella Infantis to simultaneously determine antimicrobial and anti-biofilm activities, for the screening for anti-Salmonella activities of 42 aqueous fungal extracts. The extract from Pseudohydnum gelatinosum showed good antimicrobial activity, and that from Pleurotus ostreatus showed good anti-biofilm activity. In extracts from Infundibulicybe geotropa and Infundibulicybe gibba, both activities were determined after fractionation. The antimicrobial activity was associated with protein-rich fractions and mediated by l-amino acid oxidase activity. The fractionation did not allow determination of the anti-biofilm active fraction, so further studies are needed to define these compounds. Growth curve analysis of S. Infantis is shown here to provide a fast and simple approach to distinguish between antimicrobial and anti-biofilm activities in a high-throughput setting, such that it can be easily implemented in screening and further bioassay-based purification of novel alternatives to antibiotics., (Copyright © 2022 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2022

16. Listeria innocua Biofilm Assay Using NanoLuc Luciferase.

Author

Berlec A, Janež N, Sterniša M, Klančnik A, and Sabotič J

Abstract

Biofilms serve as a bacterial survival strategy, allowing bacteria to persist under adverse environmental conditions. The non-pathogenic Listeria innocua is used as a surrogate organism for the foodborne pathogen Listeria monocytogenes, because they share genetic and physiological similarities and can be used in a Biosafety Level 1 laboratory. Several methods are used to evaluate biofilms, including different approaches to determine biofilm biomass or culturability, viability, metabolic activity, or other microbial community properties. Routinely used methods for biofilm assay include the classical culture-based plate counting method, biomass staining methods (e.g., crystal violet and safranin red), DNA staining methods (e.g., Syto 9), methods that use metabolic substrates to detect live bacteria (e.g., tetrazolium salts or resazurin), and PCR-based methods to quantify bacterial DNA. The NanoLuc (Nluc) luciferase biofilm assay is a viable alternative or complement to existing methods. Functional Nluc was expressed in L. innocua using the nisin-inducible expression system and bacterial detection was performed using furimazine as substrate. Concentration dependent bioluminescence signals were obtained over a concentration range greater than three log units. The Nluc bioluminescence method allows absolute quantification of bacterial cells, has high sensitivity, broad range, good day-to-day repeatability, and good precision with acceptable accuracy. The advantages of Nluc bioluminescence also include direct detection, absolute cell quantification, and rapid execution. Graphic abstract: Engineering Listeria innocua to express NanoLuc and its application in bioluminescence assay., Competing Interests: Competing interestsThe authors declare no competing interests., (Copyright © 2022 The Authors; exclusive licensee Bio-protocol LLC.)

Published

2022

17. Characterisation of a new cell wall teichoic acid produced by Listeria innocua ŽM39 and analysis of its biosynthesis genes.

Author

Bellich B, Janež N, Sterniša M, Klančnik A, Ravenscroft N, Rizzo R, Sabotič J, and Cescutti P

Subjects

Cell Wall chemistry, Humans, Teichoic Acids, Listeria genetics, Listeria metabolism, Listeria monocytogenes genetics

Abstract

Listeria innocua is genetically closely related to the foodborne human pathogen Listeria monocytogenes. However, as most L. innocua strains are non-pathogenic, it has been proposed as a surrogate organism for determining the efficacy of antimicrobial strategies against L. monocytogenes. Teichoic acids are one of the three major cell wall components of Listeria, along with the peptidoglycan backbone and cell wall-associated proteins. The polymeric teichoic acids make up the majority of cell wall carbohydrates; the type of teichoic acids directly attached to the peptidoglycan are termed wall teichoic acids (WTAs). WTAs play vital physiological roles, are important virulence factors, antigenic determinants, and phage-binding ligands. The structures of the various WTAs of L. monocytogenes are well known, whereas those of L. innocua are not. In the present study, the WTA structure of L. innocua ŽM39 was determined mainly by 1D and 2D NMR spectroscopy and it was found to be the following: [→4)-[α-D-GlcpNAc-(1→3)]-β-D-GlcpNAc-(1→4)-D-Rbo-(1P→] n This structure is new with respect to all currently known Listeria WTAs and it shares structural similarities with type II WTA serovar 6a. In addition, the genome of strain L. innocua ŽM39 was sequenced and the majority of putative WTA synthesis genes were identified., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

18. The role of the Listeria monocytogenes surfactome in biofilm formation.

Author

Janež N, Škrlj B, Sterniša M, Klančnik A, and Sabotič J

Subjects

Biofilms, Cell Wall, Food Handling, Listeria monocytogenes genetics

Abstract

Listeria monocytogenes is a highly pathogenic foodborne bacterium that is ubiquitous in the natural environment and capable of forming persistent biofilms in food processing environments. This species has a rich repertoire of surface structures that enable it to survive, adapt and persist in various environments and promote biofilm formation. We review current understanding and advances on how L. monocytogenes organizes its surface for biofilm formation on surfaces associated with food processing settings, because they may be an important target for development of novel antibiofilm compounds. A synthesis of the current knowledge on the role of Listeria surfactome, comprising peptidoglycan, teichoic acids and cell wall proteins, during biofilm formation on abiotic surfaces is provided. We consider indications gained from genome-wide studies and discuss surfactome structures with established mechanistic aspects in biofilm formation. Additionally, we look at the analogies to the species L. innocua, which is closely related to L. monocytogenes and often used as its model (surrogate) organism., (© 2021 The Authors. Microbial Biotechnology published by John Wiley & Sons Ltd and Society for Applied Microbiology.)

Published

2021

19. Expression of NanoLuc Luciferase in Listeria innocua for Development of Biofilm Assay.

Author

Berlec A, Janež N, Sterniša M, Klančnik A, and Sabotič J

Abstract

Studies of biofilm formation by bacteria are crucial for understanding bacterial resistance and for development of novel antibacterial strategies. We have developed a new bioluminescence biofilm assay for Listeria innocua , which is considered a non-pathogenic surrogate for Listeria monocytogenes. L. innocua was transformed with a plasmid for inducible expression of NanoLuc luciferase (Nluc). Concentration-dependent bioluminescence signals were obtained over a concentration range of more than three log units. This biofilm assay enables absolute quantification of bacterial cells, with the necessary validation. For biofilm detection and quantification, this "Nluc bioluminescence" method has sensitivity of 1.0 × 10 4 and 3.0 × 10 4 colony forming units (CFU)/mL, respectively, with a dynamic range of 1.0 × 10 4 to 5.0 × 10 7 CFU/mL. These are accompanied by good precision (coefficient of variation, <8%) and acceptable accuracy (relative error for most samples, <15%). This novel method was applied to assess temporal biofilm formation of L. innocua as a function of concentration of inoculant, in comparison with conventional plating and CFU counting, the crystal violet assay, and the resazurin fluorescence assay. Good correlation ( r = 0.9684) of this Nluc bioluminescence assay was obtained with CFU counting. The limitations of this Nluc bioluminescence assay include genetic engineering of bacteria and relatively high cost, while the advantages include direct detection, absolute cell quantification, broad dynamic range, low time requirement, and high sensitivity. Nluc-based detection of L. innocua should therefore be considered as a viable alternative or a complement to existing methods., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Berlec, Janež, Sterniša, Klančnik and Sabotič.)

Published

2021

20. Lectin-Mediated Binding of Engineered Lactococcus lactis to Cancer Cells.

Author

Plavec TV, Zahirović A, Zadravec P, Sabotič J, and Berlec A

Abstract

Lectins have been increasingly utilized as carriers for targeted drug delivery based on their specific binding to glycans located on mammalian cells. This study employed two lectins, B subunit of bacterial Shiga holotoxin (Stx1B) and fungal Clitocybe nebularis lectin (CNL), for surface display on the lactic acid bacterium Lactococcus lactis . The specific adhesion of these engineered, lectin-displaying L. lactis to cancer cells was evaluated. The expression and surface display of both lectins on L. lactis were demonstrated by western blotting and flow cytometry, respectively. MTS assays revealed that recombinant Stx1B had no effect on Caco-2 cell viability at concentrations of ≤25 µg/mL, whereas CNL was non-toxic even at relatively high concentrations of ≤250 µg/mL. Stx1B bound to Caco-2, HT-29 and HeLa cells after 1 h of incubation. CNL bound to Caco-2 cells and recognized several glycoproteins in HT-29 and Caco-2 cell homogenates of which a 70 kDa protein predominated. Confocal microscopy revealed adhesion of Stx1B-displaying L. lactis to HeLa, Caco-2, and, to a lesser extent, HT-29 cells; CNL-displaying L. lactis showed a relatively similar level of adherence to HT-29 and Caco-2 cells. Thus, lectin-displaying L. lactis might serve as a carrier in targeted drug delivery when coupled to a therapeutic moiety.

Published

2021

21. Extracellular Cystatin F Is Internalised by Cytotoxic T Lymphocytes and Decreases Their Cytotoxicity.

Author

Prunk M, Perišić Nanut M, Jakoš T, Sabotič J, Švajger U, and Kos J

Abstract

Cystatin F is a protein inhibitor of cysteine cathepsins, peptidases involved in the activation of the effector molecules of the perforin/granzyme pathway. Cystatin F was previously shown to regulate natural killer cell cytotoxicity. Here, we show that extracellular cystatin F has a role in regulating the killing efficiency of cytotoxic T lymphocytes (CTLs). Extracellular cystatin F was internalised into TALL-104 cells, a cytotoxic T cell line, and decreased their cathepsin C and H activity. Correspondingly, granzyme A and B activity was also decreased and, most importantly, the killing efficiency of TALL-104 cells as well as primary human CTLs was reduced. The N-terminally truncated form of cystatin F, which can directly inhibit cathepsin C (unlike the full-length form), was more effective than the full-length inhibitor. Furthermore, cystatin F decreased cathepsin L activity, which, however, did not affect perforin processing. Cystatin F derived from K-562 target cells could also decrease the cytotoxicity of TALL-104 cells. These results clearly show that, by inhibiting cysteine cathepsin proteolytic activity, extracellular cystatin F can decrease the cytotoxicity of CTLs and thus compromise their function.

Published

2020

22. The role of cysteine peptidases in coronavirus cell entry and replication: The therapeutic potential of cathepsin inhibitors.

Author

Pišlar A, Mitrović A, Sabotič J, Pečar Fonović U, Perišić Nanut M, Jakoš T, Senjor E, and Kos J

Subjects

Animals, Coronavirus Infections drug therapy, Humans, Virus Replication drug effects, Antiviral Agents pharmacology, Coronavirus drug effects, Coronavirus Infections virology, Cysteine Proteinase Inhibitors pharmacology, Virus Internalization drug effects

Abstract

Over the last 2 decades, several coronaviruses (CoVs) have crossed the species barrier into humans, causing highly prevalent and severe respiratory diseases, often with fatal outcomes. CoVs are a large group of enveloped, single-stranded, positive-sense RNA viruses, which encode large replicase polyproteins that are processed by viral peptidases to generate the nonstructural proteins (Nsps) that mediate viral RNA synthesis. Papain-like peptidases (PLPs) and chymotrypsin-like cysteine 3C-like peptidase are essential for coronaviral replication and represent attractive antiviral drug targets. Furthermore, CoVs utilize the activation of their envelope spike glycoproteins by host cell peptidases to gain entry into cells. CoVs have evolved multiple strategies for spike protein activation, including the utilization of lysosomal cysteine cathepsins. In this review, viral and host peptidases involved in CoV cell entry and replication are discussed in depth, with an emphasis on papain-like cysteine cathepsins. Furthermore, important findings on cysteine peptidase inhibitors with regard to virus attenuation are highlighted as well as the potential of such inhibitors for future treatment strategies for CoV-related diseases., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

23. L-Amino Acid Oxidases From Mushrooms Show Antibacterial Activity Against the Phytopathogen Ralstonia solanacearum .

Author

Sabotič J, Brzin J, Erjavec J, Dreo T, Tušek Žnidarič M, Ravnikar M, and Kos J

Abstract

Ralstonia solanaceraum is the quarantine plant pathogenic bacterium that causes bacterial wilt in over 200 host plants, which include economically important crops such as potato, tomato, tobacco, banana, and ginger. Alternative biological methods of disease control that can be used in integrated pest management are extensively studied. In search of new proteins with antibacterial activity against R. solanacearum , we identified L-amino acid oxidases (LAOs) from fruiting bodies of Amanita phalloides ( Ap LAO) and Infundibulicybe geotropa ( Cg LAO). We describe an optimized isolation procedure for their biochemical characterization, and show that they are dimeric proteins with estimated monomer molecular masses of 72 and 66 kDa, respectively, with isoelectric point of pH 6.5. They have broad substrate specificities for hydrophobic and charged amino acids, with highest K m for L-Leu, and broad pH optima at pH 5 and pH 6, respectively. An enzyme with similar properties is also characterized from the mycelia of I. geotropa ( Cg mycLAO). Fractionated aqueous extracts of 15 species of mushrooms show that LAO activity against L-Leu correlates with antibacterial activity. We confirm that the LAO activities mediate the antibacterial actions of Ap LAO, Cg LAO, and Cg mycLAO. Their antibacterial activities are greater against Gram-negative versus Gram-positive bacteria, with inhibition of growth rate, prolongation of lag-phase, and decreased endpoint biomass. In Gram-positive bacteria, they mainly prolong the lag phase. These in vitro antibacterial activities of Cg LAO and Cg mycLAO are confirmed in vivo in tomato plants, while Ap LAO has no effect on disease progression in planta . Transmission electron microscopy shows morphological changes of R. solanacearum upon LAO treatments. Finally, broad specificity of the antibacterial activities of these purified LAOs were seen for in vitro screening against 14 phytopathogenic bacteria. Therefore, these fungal LAOs show great potential as new biological phytoprotective agents and show the fruiting bodies of higher fungi to be a valuable source of antimicrobials with unique features., (Copyright © 2020 Sabotič, Brzin, Erjavec, Dreo, Tušek Žnidarič, Ravnikar and Kos.)

Published

2020

24. CNL- Clitocybe nebularis Lectin-The Fungal GalNAcβ1-4GlcNAc-Binding Lectin.

Author

Sabotič J and Kos J

Subjects

Animals, Lactose chemistry, Agaricales chemistry, Fungal Proteins chemistry, Lactose analogs & derivatives, Lectins chemistry

Abstract

Clitocybe nebularis lectin (CNL) is present in fruiting bodies of clouded agaric along with several similar isolectins that are all small and stable proteins. It is a beta-trefoil type lectin forming homodimers that are essential for its functionality. It binds specifically N , N '-diacetyllactosediamine (GalNAcβ1-4GlcNAc, LacDiNac) and human blood group A determinant-containing glycan epitopes. Its most probable function is to defend fruiting bodies against predators and parasites. In addition, an endogenous regulatory function is possible for CNL, as indicated by its interaction with fungal protease inhibitors sharing the beta-trefoil fold. CNL is toxic to insects, nematodes and amoebae, as well as to leukemic T-cell lines. Bivalent carbohydrate binding is essential for the toxicity of CNL, against both invertebrates and cancer-derived cell lines. In addition, CNL exhibits potent immunostimulation of human dendritic cells, resulting in a strong T helper cell type 1 response. Based on its unique characteristics, CNL is a promising candidate for applications in human and veterinary medicine as well as in agriculture, for plant protection., Competing Interests: The authors declare no conflict of interest. The funders had no role in the design of the study; in the collection, analyses, or interpretation of data; in the writing of the manuscript, or in the decision to publish the results.

Published

2019

25. First evidence of cholinesterase-like activity in Basidiomycota.

Author

Sepčić K, Sabotič J, A Ohm R, Drobne D, and Jemec Kokalj A

Subjects

Animals, Basidiomycota genetics, Cholinesterase Inhibitors pharmacology, Cholinesterases genetics, Drosophila melanogaster enzymology, Genes, Fungal, Lipase metabolism, Phylogeny, Substrate Specificity drug effects, Basidiomycota enzymology, Cholinesterases metabolism

Abstract

Cholinesterases (ChE), the enzymes whose primary function is the hydrolysis of choline esters, are widely expressed throughout the nature. Although they have already been found in plants and microorganisms, including ascomycete fungi, this study is the first report of ChE-like activity in fungi of the phylum Basidiomycota. This activity was detected in almost a quarter of the 45 tested aqueous fungal extracts. The ability of these extracts to hydrolyse acetylthiocholine was about ten times stronger than the hydrolytic activity towards butyrylthiocholine and propionylthiocholine. In-gel detection of ChE-like activity with acetylthiocholine indicated a great variability in the characteristics of these enzymes which are not characterized as vertebrate-like based on (i) differences in inhibition by excess substrate, (ii) susceptibility to different vertebrate acetylcholinesterase and butyrylcholinesterase inhibitors, and (iii) a lack of orthologs using phylogenetic analysis. Limited inhibition by single inhibitors and multiple activity bands using in-gel detection indicate the presence of several ChE-like enzymes in these aqueous extracts. We also observed inhibitory activity of the same aqueous mushroom extracts against insect acetylcholinesterase in 10 of the 45 samples tested; activity was independent of the presence of ChE-like activity in extracts. Both ChE-like activities with different substrates and the ability of extracts to inhibit insect acetylcholinesterase were not restricted to any fungal family but were rather present across all included Basidiomycota families. This study can serve as a platform for further research regarding ChE activity in mushrooms., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

26. ?-Trefoil Protease Inhibitors Unique to Higher Fungi.

Author

Sabotič J, Renko M, and Kos J

Abstract

The cysteine protease inhibitors, clitocypin and macrocypins, from higher fungi (mycocypins), together with the serine protease inhibitors highly specific for trypsin cospin and cnispin from higher fungi (mycospins), display several characteristics that distinguish them from protease inhibitors from other sources. Their high genetic heterogeneity affects their functionality and/or stability and results in numerous protein variants with slightly different inhibitory profiles that influence the type of protease inhibited and/or the strength of inhibition. They possess the μ-trefoil fold that shows high plasticity in their utilization of the 11 diverse loops for the inhibition of various families of proteases through different mechanisms of inhibition. Their high versatility is also seen in their regulatory and defence functions and in their potential applications in biotechnology, crop protection and medicine.

Published

2019

27. Bidirectional Propagation of Signals and Nutrients in Fungal Networks via Specialized Hyphae.

Author

Schmieder SS, Stanley CE, Rzepiela A, van Swaay D, Sabotič J, Nørrelykke SF, deMello AJ, Aebi M, and Künzler M

Subjects

Animals, Antibiosis, Microfluidic Analytical Techniques, Microscopy, Fluorescence, Nutrients physiology, Signal Transduction, Agaricales physiology, Food Chain, Hyphae physiology, Tylenchida physiology

Abstract

Intercellular distribution of nutrients and coordination of responses to internal and external cues via endogenous signaling molecules are hallmarks of multicellular organisms. Vegetative mycelia of multicellular fungi are syncytial networks of interconnected hyphae resulting from hyphal tip growth, branching, and fusion. Such mycelia can reach considerable dimensions and, thus, different parts can be exposed to quite different environmental conditions. Our knowledge about the mechanisms by which fungal mycelia can adjust nutrient gradients or coordinate their defense response to fungivores is scarce, in part due to limitations in technologies currently available for examining different parts of a mycelium over longer time periods at the microscopic level. Here, we combined a tailor-made microfluidic platform with time-lapse fluorescence microscopy to visualize the dynamic response of the vegetative mycelium of a basidiomycete to two different stimuli. The microfluidic platform allows simultaneous monitoring at both the colony and single-hypha level. We followed the dynamics of the distribution of a locally administered nutrient analog and the defense response to spatially confined predation by a fungivorous nematode. Although both responses of the mycelium were constrained locally, we observed long-distance propagation for both the nutrient analog and defense response in a subset of hyphae. This propagation along hyphae occurred in both acropetal and basipetal directions and, intriguingly, the direction was found to alternate every 3 hr in an individual hypha. These results suggest that multicellular fungi have, as of yet, undescribed mechanisms to coordinate the distribution of nutrients and their behavioral response upon attack by fungivores., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2019

28. Cystatin F as a regulator of immune cell cytotoxicity.

Author

Kos J, Nanut MP, Prunk M, Sabotič J, Dautović E, and Jewett A

Subjects

Animals, Humans, Immunity, Lymphocyte Activation, Cystatins metabolism, Cytotoxicity, Immunologic, Immunomodulation, Killer Cells, Natural immunology, Killer Cells, Natural metabolism

Abstract

Cysteine cathepsins are lysosomal peptidases involved in the regulation of innate and adaptive immune responses. Among the diverse processes, regulation of granule-dependent cytotoxicity of cytotoxic T-lymphocytes (CTLs) and natural killer (NK) cells during cancer progression has recently gained significant attention. The function of cysteine cathepsins is regulated by endogenous cysteine protease inhibitors-cystatins. Whereas other cystatins are generally cytosolic or extracellular proteins, cystatin F is present in endosomes and lysosomes and is thus able to regulate the activity of its target directly. It is delivered to endosomal/lysosomal vesicles as an inactive, disulphide-linked dimer. Proteolytic cleavage of its N-terminal part leads to the monomer, the only form that is a potent inhibitor of cathepsins C, H and L, involved in the activation of granzymes and perforin. In NK cells and CTLs the levels of active cathepsin C and of granzyme B are dependent on the concentration of monomeric, active cystatin F. In tumour microenvironment, inactive dimeric cystatin F can be secreted from tumour cells or immune cells and further taken up by the cytotoxic cells. Subsequent monomerization and inhibition of cysteine cathepsins within the endosomal/lysosomal vesicles impairs granzyme and perforin activation, and provokes cell anergy. Further, the glycosylation pattern has been shown to be important in controlling secretion of cystatin F from target cells, as well as internalization by cytotoxic cells and trafficking to endosomal/lysosomal vesicles. Cystatin F is therefore an important mediator used by bystander cells to reduce NK and T-cell cytotoxicity.

Published

2018

29. Different response of acetylcholinesterases in salt- and detergent-soluble fractions of honeybee haemolymph, head and thorax after exposure to diazinon.

Author

Glavan G, Kos M, Božič J, Drobne D, Sabotič J, and Kokalj AJ

Subjects

Acetylcholinesterase chemistry, Acetylcholinesterase genetics, Administration, Oral, Animals, Bees growth & development, Bees metabolism, Biomarkers metabolism, Cholinesterase Inhibitors administration & dosage, Detergents chemistry, Diazinon administration & dosage, Dose-Response Relationship, Drug, Head, Hemolymph enzymology, Hemolymph metabolism, Insect Proteins antagonists & inhibitors, Insect Proteins genetics, Insect Proteins metabolism, Insecticides administration & dosage, Isoenzymes antagonists & inhibitors, Isoenzymes genetics, Isoenzymes metabolism, Male, Nerve Tissue Proteins antagonists & inhibitors, Nerve Tissue Proteins genetics, Nerve Tissue Proteins metabolism, Organ Specificity, Osmolar Concentration, Random Allocation, Slovenia, Solubility, Thorax enzymology, Thorax metabolism, Acetylcholinesterase metabolism, Bees drug effects, Cholinesterase Inhibitors pharmacology, Diazinon pharmacology, Hemolymph drug effects, Insecticides pharmacology, Thorax drug effects

Abstract

Organophosphate pesticide diazinon is a specific inhibitor of acetylcholinesterase (AChE), which is a common neurotoxicity biomarker in environmental studies. In honeybees, AChE exists in two forms having different physiological roles, one existing as a soluble form and the other as membrane-bound. In most studies AChE activity has been analysed without paying considerable attention to different forms of AChE. In this study, we exposed honeybees Apis mellifera carnica for 10days to diazinon via oral exposure and analysed the total AChE activities in salt soluble (SS) and detergent soluble (DS) fractions. We assumed that SS fraction would preferentially contain the soluble AChE, but the DS fraction would contain only membrane AChE. On the contrary, our results showed that SS and DS fractions both contain soluble and membrane AChE and the latter has considerably higher activity. Despite this we obtained a differential response of AChE activity in SS and DS fractions when exposed to diazinon. The head/thorax AChE activity in DS fraction decreased, while the head/thorax AChE activity in SS fraction increased at sublethal concentrations. The AChE activity in honeybee hemolymph shown here for the first time is a salt soluble enzyme. Its activity remained unaltered after diazinon treatment. In conclusion, we provide evidence that varying results regarding AChE activity alterations upon stressor exposure are obtained when extracted through different procedures. In further environmental studies with honeybees this differential response of AChE activity should be given considerable attention because this affects the outcome of ecotoxicity study., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2018

30. Aqueous Extracts of Wild Mushrooms Show Antimicrobial and Antiadhesion Activities against Bacteria and Fungi.

Author

Klančnik A, Megušar P, Sterniša M, Jeršek B, Bucar F, Smole Možina S, Kos J, and Sabotič J

Subjects

Agaricales chemistry, Anti-Bacterial Agents therapeutic use, Anti-Infective Agents therapeutic use

Abstract

Mushrooms represent promising sources of novel bioactive compounds and can be applied as innovative strategies to control microbial contamination and infection via the food chain. We characterized aqueous extracts from 21 wild basidiomycete mushrooms and the cultivated oyster mushroom, Pleurotus ostreatus, as putative sources of antimicrobial and antiadhesive compounds. Broth microdilutions and adhesion to a polystyrene surface were evaluated on Gram-positive and Gram-negative bacteria and on fungi. The aqueous extracts tested showed antimicrobial and antiadhesive activities against these microorganisms. Biochemical analyses of the P. ostreatus extract indicated the involvement of several compounds with different molecular masses. Copyright © 2017 John Wiley & Sons, Ltd., (Copyright © 2017 John Wiley & Sons, Ltd.)

Published

2017

31. Cystatin F Affects Natural Killer Cell Cytotoxicity.

Author

Perišić Nanut M, Sabotič J, Švajger U, Jewett A, and Kos J

Abstract

Cystatin F is a cysteine peptidase inhibitor which, unlike other cystatin family members, is targeted to endosomal/lysosomal compartments. It is synthesized as an inactive disulfide-linked dimer which is then converted to an active monomer by proteolytic cleavage of 15 N-terminal residues. Cystatin F has been suggested to regulate the cytotoxicity of natural killer (NK) cells by inhibiting the major granzyme convertases, cathepsins C and H. To test this hypothesis, we prepared variants of cystatin F and analyzed their uptake, subcellular trafficking, and peptidase inhibition, as well as their impact on the cytotoxicity of NK-92 cells and primary NK cells. The N-glycosylation pattern is responsible for the secretion, uptake, and subcellular sorting of cystatin F in HeLa and Hek293 cells, whereas the legumain binding site had no effect on these processes. Active, N-terminally truncated, monomeric cystatin F can also be internalized by recipient cells and targeted to endo/lysosomes, affecting also cells lacking the activating peptidase. Cystatin F mutants capable of cell internalization and trafficking through the endo/lysosomal pathway significantly decreased cathepsin C and H activities, both in situ , following transfection and in trans, using conditioned media. Further, incubation of IL-2 stimulated NK-92 and primary NK cells with full-length and N-terminally truncated cystatin F mutants led to suppression of their granule-mediated cytotoxicity. This effect was most significant with the N-terminally truncated mutants. These results suggest that cystatin F can be an important mediator within tumor microenvironment affecting the cytotoxicity of NK cells and consequently antitumor immune response.

Published

2017

32. Higher fungi are a rich source of L-amino acid oxidases.

Author

Žun G, Kos J, and Sabotič J

Abstract

L-Amino acid oxidases (LAO) are widely distributed enzymes but those from snake venoms have been studied the most. We describe a method for in-gel detection of LAO activities based on H 2 O 2 detection by a horseradish peroxidase-coupled reaction using o-phenylenediamine. Complex substrates and single L-amino acids were used successfully for screening LAO activities in higher fungi using crude aqueous extracts of fruiting bodies of 22 basidiomycetes and 1 ascomycete. Half of these samples exhibited one to two bands of LAO activities with mostly broad substrate specificities and a variety of apparent molecular masses ranging from 25 to 200 kDa that were generally more active at pH 5.5 than at pH 8.0. Mushrooms are shown to be a rich source of LAOs that could find use in various medical and biotechnological applications.

Published

2017

33. Fungal lectin MpL enables entry of protein drugs into cancer cells and their subcellular targeting.

Author

Å Urga S, Nanut MP, Kos J, and Sabotič J

Subjects

Cell Line, Tumor, Cell Membrane metabolism, Collagen Type IV metabolism, Endocytosis, Glycoproteins metabolism, Humans, Intracellular Space metabolism, Protein Binding, Protein Transport, Proteolysis, Recombinant Fusion Proteins metabolism, Drug Carriers, Fungal Proteins metabolism, Lectins metabolism

Abstract

Lectins have been recognized as promising carrier molecules for targeted drug delivery. They specifically bind carbohydrate moieties on cell membranes and trigger cell internalization. Fungal lectin MpL (Macrolepiota procera lectin) does not provoke cancer cell cytotoxicity but is able to bind aminopeptidase N (CD13) and integrin α3β1, two glycoproteins that are overexpressed on the membrane of tumor cells. Upon binding, MpL is endocytosed in a clathrin-dependent manner and accumulates initially in the Golgi apparatus and, finally, in the lysosomes. For effective binding and internalization a functional binding site on the α-repeat is needed. To test the potential of MpL as a carrier for delivering protein drugs to cancer cells we constructed fusion proteins consisting of MpL and the cysteine peptidase inhibitors cystatin C and clitocypin. The fused proteins followed the same endocytic route as the unlinked MpL. Peptidase inhibitor-MpL fusions impaired both the intracellular degradation of extracellular matrix and the invasiveness of cancer cells. MpL is thus shown in vitro to be a lectin that can enable protein drugs to enter cancer cells, enhance their internalization and sort them to lysosomes and the Golgi apparatus.

Published

2017

34. Trypsin-specific Inhibitors from the Macrolepiota procera, Armillaria mellea and Amanita phalloides wild mushrooms.

Author

Lukanc T, Brzin J, Kos J, and Sabotič J

Subjects

Hot Temperature, Hydrogen-Ion Concentration, Isoelectric Point, Molecular Weight, Trypsin Inhibitors chemistry, Amanita chemistry, Armillaria chemistry, Trypsin Inhibitors isolation & purification

Abstract

Wild growing mushrooms are a rich source of novel proteins with unique features. We have isolated and characterized trypsin inhibitors from two edible mushrooms, the honey fungus (Armillaria mellea) and the parasol mushroom (Macrolepiota procera), and from the poisonous death cap (Amanita phalloides). The trypsin inhibitors isolated: armespin, macrospin and amphaspin, have similar molecular masses, acidic isoelectric points and are not N-glycosylated. They are very strong trypsin inhibitors and weak chymotrypsin inhibitors. They are resistant to exposure to high temperatures and withstand extreme pH values. These exceptional characteristics are advantageous for their potential use in biotechnology, agriculture and medicine.

Published

2017

35. The response of aminopeptidases of Phaseolus vulgaris to drought depends on the developmental stage of the leaves.

Author

Budič M, Cigić B, Šoštarič M, Sabotič J, Meglič V, Kos J, and Kidrič M

Subjects

Aminopeptidases isolation & purification, Droughts, Plant Leaves enzymology, Plant Leaves growth & development, Plant Proteins isolation & purification, Aminopeptidases metabolism, Phaseolus enzymology, Phaseolus growth & development, Plant Proteins metabolism

Abstract

Aminopeptidases, together with other proteases, execute and regulate the total and specifically limited protein breakdown involved in plant physiology, raising the possibility of their involvement in response to drought. We have identified, in leaves of Phaseolus vulgaris L., five aminopeptidases (E.C.3.4.11) whose levels of activity changed when three week old plants were subjected to drought. First, second and third trifoliate leaves were investigated separately. The aminopeptidases were first identified then isolated using ion exchange chromatography of leaf extracts. Three, named PvAP1, PvAP2 and PvAP4, are metallo aminopeptidases with broad substrate specificity, active against substrates conjugated to alanine and lysine. Two others, PvAP3 and PvAP5, are apparently serine aminopeptidases, the former active against substrates conjugated to phenylalanine and leucine, and the latter characterised by narrow specificity against substrates conjugated to phenylalanine. Their apparent molecular weights range from ∼37 kDa to ∼80 kDa. Levels of activity of individual aminopeptidases in both watered and drought stressed plants are shown to depend on the age of leaves. In watered plants they were generally highest in young, and very low in older, trifoliate leaves, the latter with the exception of PvAP5. Drought initiated an almost general increase of their activities, although to different extents, with the exception of PvAP4 and PvAP5 in young trifoliate leaves. Thus, in such studies it is necessary to investigate the effects of drought separately in leaves of different ages in order to elucidate the different complex and probably specific roles of aminopeptidases in the response of common bean to drought., (Copyright © 2016 Elsevier Masson SAS. All rights reserved.)

Published

2016

36. Antibacterial Activity of Wild Mushroom Extracts on Bacterial Wilt Pathogen Ralstonia solanacearum.

Author

Erjavec J, Ravnikar M, Brzin J, Grebenc T, Blejec A, Gosak MŽ, Sabotič J, Kos J, and Dreo T

Abstract

In total, 150 protein extracts from 94 different basidiomycete and ascomycete wild mushroom species were tested for antibacterial activity against the quarantine plant-pathogen bacterium Ralstonia solanacearum. In in vitro microtiter plate assays, 15 extracts with moderate to high antibacterial activities were identified: 11 completely inhibited bacterial growth and 4 showed partial inhibition. Of these 15 extracts, 5 were further tested and 3 extracts slowed disease progression and reduced disease severity in artificially inoculated tomato and potato plants. However, the in vitro activities of the extracts did not always correlate with their in vivo activities, which emphasizes the importance of performing early screening tests also in vivo. Testing of selected extracts against 12 R. solanacearum strains identified 6 with potential for broader applicability. Further analysis of extracts from Amanita phalloides and Clitocybe geotropa showed that the active substances are proteins with an approximate size of 180 kDa. To our knowledge, this is the first in vitro and in vivo study that demonstrates that mushroom protein extracts can be promising for treatment of bacterial wilt caused by R. solanacearum.

Published

2016

37. Entomotoxic and nematotoxic lectins and protease inhibitors from fungal fruiting bodies.

Author

Sabotič J, Ohm RA, and Künzler M

Subjects

Animals, Anthelmintics isolation & purification, Evolution, Molecular, Insecticides isolation & purification, Lectins genetics, Lectins isolation & purification, Phylogeny, Protease Inhibitors isolation & purification, Anthelmintics pharmacology, Fruiting Bodies, Fungal chemistry, Insecta drug effects, Insecticides pharmacology, Lectins pharmacology, Nematoda drug effects, Protease Inhibitors pharmacology

Abstract

Fruiting bodies or sporocarps of dikaryotic (ascomycetous and basidiomycetous) fungi, commonly referred to as mushrooms, are often rich in entomotoxic and nematotoxic proteins that include lectins and protease inhibitors. These protein toxins are thought to act as effectors of an innate defense system of mushrooms against animal predators including fungivorous insects and nematodes. In this review, we summarize current knowledge about the structures, target molecules, and regulation of the biosynthesis of the best characterized representatives of these fungal defense proteins, including galectins, beta-trefoil-type lectins, actinoporin-type lectins, beta-propeller-type lectins and beta-trefoil-type chimerolectins, as well as mycospin and mycocypin families of protease inhibitors. We also present an overview of the phylogenetic distribution of these proteins among a selection of fungal genomes and draw some conclusions about their evolution and physiological function. Finally, we present an outlook for future research directions in this field and their potential applications in medicine and crop protection.

Published

2016

38. β-Trefoil structure enables interactions between lectins and protease inhibitors that regulate their biological functions.

Author

Žurga S, Pohleven J, Kos J, and Sabotič J

Subjects

Agaricales chemistry, Lectins metabolism, Models, Molecular, Peptides metabolism, Protease Inhibitors metabolism, Protein Folding, Trefoil Factor-2, Lectins chemistry, Peptides chemistry, Protease Inhibitors chemistry

Abstract

Fungal ricin B-like lectins and protease inhibitors, mycocypins and mycospins, are important mediators in fungal defence against antagonists and all possess the β-trefoil fold. We demonstrate here that fungal β-trefoil proteins interact with each other, in addition to their apparent targets, and that these interactions modulate their biological activity. Such regulation of carbohydrate binding or inhibitory activity is observed for the first time in β-trefoil proteins and could constitute a mechanism for regulating their physiological functions. It could also have implications in molecular recognition of other combinations of β-trefoil proteins in other species., (© The Authors 2015. Published by Oxford University Press on behalf of the Japanese Biochemical Society. All rights reserved.)

Published

2015

39. Clitocypin, a fungal cysteine protease inhibitor, exerts its insecticidal effect on Colorado potato beetle larvae by inhibiting their digestive cysteine proteases.

Author

Šmid I, Rotter A, Gruden K, Brzin J, Buh Gašparič M, Kos J, Žel J, and Sabotič J

Subjects

Animals, Coleoptera enzymology, Coleoptera genetics, Digestive System drug effects, Digestive System enzymology, Dose-Response Relationship, Drug, Female, Fungal Proteins genetics, Gene Expression Regulation drug effects, Larva drug effects, Larva physiology, Plants, Genetically Modified, Recombinant Proteins pharmacology, Coleoptera drug effects, Cysteine Proteinase Inhibitors pharmacology, Fungal Proteins pharmacology, Insecticides pharmacology, Solanum tuberosum genetics

Abstract

Colorado potato beetle (Leptinotarsa decemlineata Say, CPB) is a major potato pest that adapts readily to insecticides. Several types of protease inhibitors have previously been investigated as potential control agents, but with limited success. Recently, cysteine protease inhibitors from parasol mushroom, the macrocypins, were reported to inhibit growth of CPB larvae. To further investigate the insecticidal potential and mode of action of cysteine protease inhibitors of fungal origin, clitocypin, a cysteine protease inhibitor from clouded agaric (Clitocybe nebularis), was evaluated for its lethal effects on CPB larvae. Clitocypin isolated from fruiting bodies and recombinant clitocypin produced in Escherichia coli slowed growth and reduced survival of CPB larvae in a concentration dependent manner. Clitocypin was also expressed by transgenic potato, but only at low levels. Nevertheless, it reduced larval weight gain and delayed development. We have additionally shown that younger larvae are more susceptible to the action of clitocypin. The inhibition of digestive cysteine proteases, intestains, by clitocypin was shown to be the underlying mode of action. Protease inhibitors from mushrooms are confirmed as promising candidates for biopesticides., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published

2015

40. Cysteine cathepsins as regulators of the cytotoxicity of NK and T cells.

Author

Perišić Nanut M, Sabotič J, Jewett A, and Kos J

Abstract

Cysteine cathepsins are lysosomal peptidases involved at different levels in the processes of the innate and adaptive immune responses. Some, such as cathepsins B, L, and H are expressed constitutively in most immune cells. In cells of innate immunity they play a role in cell adhesion and phagocytosis. Other cysteine cathepsins are expressed more specifically. Cathepsin X promotes dendritic cell maturation, adhesion of macrophages, and migration of T cells. Cathepsin S is implicated in major histocompatibility complex class II antigen presentation, whereas cathepsin C, expressed in cytotoxic T lymphocytes and natural killer (NK) cells, is involved in processing pro-granzymes into proteolytically active forms, which trigger cell death in their target cells. The activity of cysteine cathepsins is controlled by endogenous cystatins, cysteine protease inhibitors. Of these, cystatin F is the only cystatin that is localized in endosomal/lysosomal vesicles. After proteolytic removal of its N-terminal peptide, cystatin F becomes a potent inhibitor of cathepsin C with the potential to regulate pro-granzyme processing and cell cytotoxicity. This review is focused on the role of cysteine cathepsins and their inhibitors in the molecular mechanisms leading to the cytotoxic activity of T lymphocytes and NK cells in order to address new possibilities for regulation of their function in pathological processes.

Published

2014

41. Probing bacterial-fungal interactions at the single cell level.

Author

Stanley CE, Stöckli M, van Swaay D, Sabotič J, Kallio PT, Künzler M, deMello AJ, and Aebi M

Subjects

Bacillus subtilis ultrastructure, Basidiomycota ultrastructure, Hyphae ultrastructure, Microscopy, Fluorescence, Time-Lapse Imaging, Bacillus subtilis growth & development, Basidiomycota growth & development, Hyphae growth & development, Microfluidics methods

Abstract

Interactions between fungi and prokaryotes are abundant in many ecological systems. A wide variety of biomolecules regulate such interactions and many of them have found medicinal or biotechnological applications. However, studying a fungal-bacterial system at a cellular level is technically challenging. New microfluidic devices provided a platform for microscopic studies and for long-term, time-lapse experiments. Application of these novel tools revealed insights into the dynamic interactions between the basidiomycete Coprinopsis cinerea and the bacterium Bacillus subtilis. Direct contact was mediated by polar attachment of bacteria to only a subset of fungal hyphae suggesting a differential competence of fungal hyphae and thus differentiation of hyphae within a mycelium. The fungicidal activity of B. subtilis was monitored at a cellular level and showed a novel mode of action on fungal hyphae.

Published

2014

42. Fungal β-trefoil trypsin inhibitors cnispin and cospin demonstrate the plasticity of the β-trefoil fold.

Author

Avanzo Caglič P, Renko M, Turk D, Kos J, and Sabotič J

Abstract

The recently identified fungal protease inhibitors cnispin, from Clitocybe nebularis, and cospin, from Coprinopsis cinerea, are both β-trefoil proteins highly specific for trypsin. The reactive site residue of cospin, Arg27, is located on the β2-β3 loop. We show here, that the reactive site residue in cnispin is Lys127, located on the β11-β12 loop. Cnispin is a substrate-like inhibitor and the β11-β12 loop is yet another β-trefoil fold loop recruited for serine protease inhibition. By site-directed mutagenesis of the P1 residues in the β2-β3 and β11-β12 loops in cospin and cnispin, protease inhibitors with different specificities for trypsin and chymotrypsin inhibition have been engineered. Double headed inhibitors of trypsin or trypsin and chymotrypsin were prepared by introducing a second specific site residue into the β2-β3 loop in cnispin and into the β11-β12 loop in cospin. These results show that β-trefoil protease inhibitors from mushrooms exhibit broad plasticity of loop utilization in protease inhibition., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2014

43. A novel β-trefoil lectin from the parasol mushroom (Macrolepiota procera) is nematotoxic.

Author

Žurga S, Pohleven J, Renko M, Bleuler-Martinez S, Sosnowski P, Turk D, Künzler M, Kos J, and Sabotič J

Subjects

Amino Acid Sequence, Amino Acid Substitution, Animals, Antinematodal Agents metabolism, Antinematodal Agents pharmacology, Binding Sites, Caenorhabditis elegans drug effects, Carbohydrate Sequence, Crystallography, X-Ray, Fruiting Bodies, Fungal metabolism, Fungal Proteins metabolism, Fungal Proteins pharmacology, Hydrogen Bonding, Lectins metabolism, Lectins pharmacology, Models, Molecular, Molecular Sequence Data, Polysaccharides chemistry, Protein Binding, Protein Structure, Secondary, Agaricales metabolism, Antinematodal Agents chemistry, Fungal Proteins chemistry, Lectins chemistry

Abstract

Unlabelled: Lectins are carbohydrate-binding proteins present in all organisms. Some cytoplasmic lectins from fruiting bodies of dikaryotic fungi are toxic against a variety of parasites and predators. We have isolated, cloned and expressed a novel, single domain lectin from Macrolepiota procera, designated MpL. Determination of the crystal structure revealed that MpL is a ricin B-like lectin with a β-trefoil fold. Biochemical characterization, site-directed mutagenesis, co-crystallization with carbohydrates, isothermal titration calorimetry and glycan microarray analyses show that MpL forms dimers with the carbohydrate-binding site at the α-repeat, with the highest specificity for terminal N-acetyllactosamine and other β-galactosides. A second putative carbohydrate-binding site with a low affinity for galactose is present at the γ-repeat. In addition, a novel hydrophobic binding site was detected in MpL with specificity for molecules other than carbohydrates. The tissue specific distribution of MpL in the stipe and cap tissue of fruiting bodies and its toxicity towards the nematode Caenorhabditis elegans indicate a function of MpL in protecting fruiting bodies against predators and parasites., Database: Nucleotide sequence data have been deposited in the DDBJ/EMBL/GenBank databases under accession numbers HQ449738 and HQ449739. Structural data have been deposited in the Protein Data Bank under accession codes 4ION, 4IYB, 4IZX and 4J2S., (© 2014 FEBS.)

Published

2014

44. Desiccation tolerance of the resurrection plant Ramonda serbica is associated with dehydration-dependent changes in levels of proteolytic activities.

Author

Kidrič M, Sabotič J, and Stevanović B

Subjects

Aminopeptidases metabolism, Craterostigma enzymology, Desiccation, Plant Extracts metabolism, Plant Leaves enzymology, Plant Leaves physiology, Adaptation, Physiological, Craterostigma physiology, Proteolysis

Abstract

The unique response of desiccation-tolerant, or resurrection plants, to extreme drought is accompanied by major changes in the protein pool, raising the possibility of the involvement of proteases. We detected and characterized proteases present in their active state in leaf extracts of desiccated Ramonda serbica Panč., a resurrection plant from the Balkan Peninsula. Plants desiccated under laboratory conditions and maintained in anhydrobiosis for 4 and 14 months revived upon rehydration. Protease activities were determined spectrophotometrically in solution and by zymography on gels. Several endo- and aminopeptidases were detected and characterized by their pH profiles. Their enzyme class was determined using specific inhibitors. Those with higher activities were a serine endopeptidase active against Bz-Arg-pNA with a pH optimum around 9, and aminopeptidases optimally active at pHs from 7 to 9 against Leu-pNA, Met-pNA, Phe-pNA, Pro-pNA and Ala-pNA. The levels of their activities in leaf extracts from desiccated plants were significantly higher than those from rehydrated plants and from regularly watered plants, implying their involvement in the recovery of vegetative tissues from desiccation., (Copyright © 2014 Elsevier GmbH. All rights reserved.)

Published

2014

45. Inhibition of the growth of colorado potato beetle larvae by macrocypins, protease inhibitors from the parasol mushroom.

Author

Smid I, Gruden K, Buh Gašparič M, Koruza K, Petek M, Pohleven J, Brzin J, Kos J, Zel J, and Sabotič J

Subjects

Agaricales chemistry, Agaricales metabolism, Animals, Coleoptera enzymology, Coleoptera genetics, Fungal Proteins metabolism, Insect Proteins genetics, Insect Proteins metabolism, Larva enzymology, Larva genetics, Larva growth & development, Peptide Hydrolases genetics, Peptide Hydrolases metabolism, Plant Diseases parasitology, Plants, Genetically Modified genetics, Plants, Genetically Modified metabolism, Solanum tuberosum genetics, Solanum tuberosum metabolism, Agaricales genetics, Coleoptera growth & development, Fungal Proteins genetics, Insect Proteins antagonists & inhibitors, Plant Diseases prevention & control, Plants, Genetically Modified parasitology, Protease Inhibitors metabolism, Solanum tuberosum parasitology

Abstract

Proteins from higher fungi have attracted interest because of their exceptional characteristics. Macrocypins, cysteine protease inhibitors from the parasol mushroom Macrolepiota procera , were evaluated for their adverse effects and their mode of action on the major potato pest Colorado potato beetle (CPB, Leptinotarsa decemlineata Say). They were shown to reduce larval growth when expressed in potato or when their recombinant analogues were added to the diet. Macrocypins target a specific set of digestive cysteine proteases, intestains. Additionally, protein-protein interaction analysis revealed potential targets among other digestive enzymes and proteins related to development and primary metabolism. No effect of dietary macrocypins on gene expression of known adaptation-related digestive enzymes was observed in CPB guts. Macrocypins are the first fungal protease inhibitors to be reported as having a negative effect on growth and development of CPB larvae and could also be evaluated as control agents for other pests.

Published

2013

46. Expression of a hepatitis A virus antigen in Lactococcus lactis and Escherichia coli and evaluation of its immunogenicity.

Author

Berlec A, Malovrh T, Zadravec P, Steyer A, Ravnikar M, Sabotič J, Poljšak-Prijatelj M, and Štrukelj B

Subjects

Antigens, Viral genetics, Base Sequence, Electrophoresis, Polyacrylamide Gel, Molecular Sequence Data, Neutralization Tests, Viral Vaccines administration & dosage, Antigens, Viral immunology, Escherichia coli genetics, Hepatitis A immunology, Lactococcus lactis genetics, Viral Vaccines immunology

Abstract

An epidemic shift in Hepatitis A virus (HAV) infection has been observed in recent years in rapidly developing countries, with increasing numbers of severe adult cases which has led to renewed interest in vaccination. Our approach in vaccine development uses recombinant expression of the highly immunogenic HAV antigen VP1-P2a in food-grade lactic acid bacterium Lactococcus lactis and in Escherichia coli. We used genetic constructs that enable nisin-controlled expression of the antigen in L. lactis in three different forms: (a) intracellularly, (b) on the bacterial surface and (c) on the bacterial surface fused with the fragment of the E. coli flagellin molecule that can act as a molecular adjuvant. Expression of the two surface forms of the antigen was achieved in L. lactis, and the resulting antigen-displaying bacteria were administered orally to mice. Half the animals in each of the two groups developed specific IgGs, with titers increasing over time and reaching 1:422 without flagellin and 1:320 with flagellin. A much higher titer 1:25,803 was observed with the parenterally administered antigen, which was purified from E. coli. With the latter, a significant mucosal IgA response was also observed. Despite significant titers, the IgGs elicited with oral or parenteral administration could not prevent HAV from infecting cells in a virus neutralization assay, suggesting that the antibodies cannot recognize viral surface epitopes. Nevertheless, orally administered HAV antigen expressed in L. lactis elicited significant systemic humoral immune response showing the feasibility for development of effective HAV vaccine for mucosal delivery.

Published

2013

47. Characterization of two novel subtilases from common bean (Phaseolus vulgaris L.) and their responses to drought.

Author

Budič M, Sabotič J, Meglič V, Kos J, and Kidrič M

Subjects

Amino Acid Sequence, Molecular Sequence Data, Gene Expression Regulation, Enzymologic physiology, Gene Expression Regulation, Plant physiology, Phaseolus enzymology, Phaseolus genetics, Plant Leaves enzymology, Plant Leaves genetics, Stress, Physiological physiology, Subtilisins biosynthesis, Subtilisins genetics

Abstract

Protein breakdown by proteases is basic to the plant response to abiotic stresses such as drought. A large number of genes encoding proteases or putative proteases exist in plants. Only a few of those involved in the response to drought have been characterized, and their regulation is poorly understood. We have identified two new subtilases from leaves of Phaseolus vulgaris L. cultivar Zorin, PvSLP1 and PvSLP2. PvSLP1 was identified at the gene level, using primers based on the gene sequence of the putative drought induced serine protease from Arachis hypogaea L. In P. vulgaris, expression of the PvSLP1 transcript did not change on water withdrawal. PvSLP2 was isolated and characterized at the protein level, together with complete gene and cDNA sequences. The deduced amino acid sequences of both PvSLP1 and PvSLP2 are characteristic of plant subtilases of the S8 family of clan SB. PvSLP2 shows 33% sequence identity to PvSLP1. Expression of the PvSLP2 transcript did not change on withdrawal of water, but its proteolytic activity in leaves increased, depending on the age and position of the leaf. In addition, the level of activity in senescent leaves of well watered plants was higher than in mature or young leaves. These results, together with the fact that PvSLP2 cleaves peptide bonds following an Arg residue, point to regulation of PvSLP2 subtilase activity at translational and/or post-translational levels and suggest a specific role in the response to drought and senescence., (Copyright © 2012 Elsevier Masson SAS. All rights reserved.)

Published

2013

48. β-trefoil inhibitors--from the work of Kunitz onward.

Author

Renko M, Sabotič J, and Turk D

Subjects

Amino Acid Sequence, Molecular Sequence Data, Protease Inhibitors metabolism, Protein Structure, Secondary, Peptide Hydrolases metabolism, Protease Inhibitors chemistry

Abstract

Protein protease inhibitors are the tools of nature in controlling proteolytic enzymes. They come in different shapes and sizes. The β-trefoil protease inhibitors that come from plants, first discovered by Kunitz, were later complemented with representatives from higher fungi. They inhibit serine (families S1 and S8) and cysteine proteases (families C1 and C13) as well as other hydrolases. Their versatility is the result of the plasticity of the loops coming out of the stable β-trefoil scaffold. For this reason, they display several different mechanisms of inhibition involving different positions of the loops and their combinations. Natural diversity, as well as the initial successes in de novo protein engineering, makes the β-trefoil proteins a promising starting point for the generation of strong, specific, multitarget inhibitors capable of inhibiting multiple types of hydrolytic enzymes and simultaneously interacting with different protein, carbohydrate, or DNA molecules. This pool of knowledge opens up new possibilities for the exploration of their naturally occurring as well as modified properties for applications in many fields of medicine, biotechnology, and agriculture.

Published

2012

49. Proteins of higher fungi--from forest to application.

Author

Erjavec J, Kos J, Ravnikar M, Dreo T, and Sabotič J

Subjects

Biotechnology methods, Fungal Proteins pharmacology, Technology, Pharmaceutical methods, Agaricales chemistry, Fungal Proteins isolation & purification, Fungal Proteins metabolism, Proteome

Abstract

Mushrooms are rapidly becoming recognized as a promising source of novel proteins. Several proteins showing unique features have been isolated, including lectins, lignocellulolytic enzymes, protease inhibitors and hydrophobins. They can offer solutions to several medical and biotechnological problems such as microbial drug resistance, low crop yields, and demands for renewable energy. Large-scale production and industrial application of some fungal proteins proves their biotechnological potential and establishes higher fungi as a valuable, although relatively unexplored, source of unique proteins. This review provides the first comprehensive overview of known proteins from mushrooms, describes the process of acquiring a new bioactive protein, and provides an overview of current and anticipated applications of these proteins across biotechnology, medicine and agriculture., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2012

50. Bivalent carbohydrate binding is required for biological activity of Clitocybe nebularis lectin (CNL), the N,N'-diacetyllactosediamine (GalNAcβ1-4GlcNAc, LacdiNAc)-specific lectin from basidiomycete C. nebularis.

Author

Pohleven J, Renko M, Magister Š, Smith DF, Künzler M, Štrukelj B, Turk D, Kos J, and Sabotič J

Subjects

ABO Blood-Group System chemistry, ABO Blood-Group System genetics, ABO Blood-Group System metabolism, Agaricales, Amino Acid Sequence, Animals, Caenorhabditis elegans metabolism, Crystallography, X-Ray, Erythrocytes chemistry, Erythrocytes metabolism, Escherichia coli genetics, Humans, Jurkat Cells, Lactose chemistry, Lactose genetics, Lactose metabolism, Molecular Sequence Data, Mutation, Protein Binding, Protein Multimerization, Protein Structure, Quaternary, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins metabolism, Recombinant Proteins toxicity, Ricin genetics, Ricin metabolism, Ricin toxicity, Lactose analogs & derivatives, Ricin chemistry

Abstract

Lectins are carbohydrate-binding proteins that exert their biological activity by binding to specific cell glycoreceptors. We have expressed CNL, a ricin B-like lectin from the basidiomycete Clitocybe nebularis in Escherichia coli. The recombinant lectin, rCNL, agglutinates human blood group A erythrocytes and is specific for the unique glycan N,N'-diacetyllactosediamine (GalNAcβ1-4GlcNAc, LacdiNAc) as demonstrated by glycan microarray analysis. We here describe the crystal structures of rCNL in complex with lactose and LacdiNAc, defining its interactions with the sugars. CNL is a homodimeric lectin, each of whose monomers consist of a single ricin B lectin domain with its β-trefoil fold and one carbohydrate-binding site. To study the mode of CNL action, a nonsugar-binding mutant and nondimerizing monovalent CNL mutants that retain carbohydrate-binding activity were prepared. rCNL and the mutants were examined for their biological activities against Jurkat human leukemic T cells and the hypersensitive nematode Caenorhabditis elegans mutant strain pmk-1. rCNL was toxic against both, although the mutants were inactive. Thus, the bivalent carbohydrate-binding property of homodimeric CNL is essential for its activity, providing one of the rare pieces of evidence that certain activities of lectins are associated with their multivalency.

Published

2012