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5. Navigating the fungal battlefield: cysteine-rich antifungal proteins and peptides from Eurotiales.

Author

Holzknecht, Jeanett and Marx, Florentine

Subjects
*MYCOSES, *SPECIES specificity, *ANTIFUNGAL agents, *ANTIMICROBIAL peptides, *AGRICULTURE
Abstract

Fungi are ubiquitous in the environment and play a key role in the decomposition and recycling of nutrients. On the one hand, their special properties are a great asset for the agricultural and industrial sector, as they are used as source of nutrients, producers of enzymes, pigments, flavorings, and biocontrol agents, and in food processing, bio-remediation and plant growth promotion. On the other hand, they pose a serious challenge to our lives and the environment, as they are responsible for fungal infections in plants, animals and humans. Although host immunity opposes invading pathogens, certain factors favor the manifestation of fungal diseases. The prevalence of fungal infections is on the rise, and there is an alarming increase in the resistance of fungal pathogens to approved drugs. The limited number of antimycotics, the obstacles encountered in the development of new drugs due to the poor tolerability of antifungal agents in patients, the limited number of unique antifungal targets, and the low species specificity contribute to the gradual depletion of the antifungal pipeline and newly discovered antifungal drugs are rare. Promising candidates as nextgeneration therapeutics are antimicrobial proteins and peptides (AMPs) produced by numerous prokaryotic and eukaryotic organisms belonging to all kingdom classes. Importantly, filamentous fungi from the order Eurotiales have been shown to be a rich source of AMPs with specific antifungal activity. A growing number of published studies reflects the efforts made in the search for new antifungal proteins and peptides (AFPs), their efficacy, species specificity and applicability. In this review, we discuss important aspects related to fungi, their impact on our life and issues involved in treating fungal infections in plants, animals and humans. We specifically highlight the potential of AFPs from Eurotiales as promising alternative antifungal therapeutics. This article provides insight into the structural features, mode of action, and progress made toward their potential application in a clinical and agricultural setting. It also identifies the challenges that must be overcome in order to develop AFPs into therapeutics. [ABSTRACT FROM AUTHOR]

Published
2024
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6. The Neosartorya (Aspergillus) fischeri antifungal protein NFAP2 has low potential to trigger resistance development in Candida albicans in vitro

Author

Bende, Gabor, primary, Zsindely, Nora, additional, Laczi, Krisztian, additional, Kristoffy, Zsolt, additional, Papp, Csaba, additional, Farkas, Attila, additional, Toth, Liliana, additional, Saringer, Szabolcs, additional, Bodai, Laszlo, additional, Rakhely, Gabor, additional, Marx, Florentine, additional, and Galgoczy, Laszlo, additional

Published
2024
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8. Confirmation of the Disulfide Connectivity and Strategies for Chemical Synthesis of the Four-Disulfide-Bond-Stabilized Aspergillus giganteus Antifungal Protein, AFP

Author

Váradi, Györgyi, primary, Batta, Gyula, additional, Galgóczy, László, additional, Hajdu, Dorottya, additional, Fizil, Ádám, additional, Czajlik, András, additional, Virágh, Máté, additional, Kele, Zoltán, additional, Meyer, Vera, additional, Jung, Sascha, additional, Marx, Florentine, additional, and Tóth, Gábor K., additional

Published
2023
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9. The Membrane Activity of the Amphibian Temporin B Peptide Analog TB_KKG6K Sheds Light on the Mechanism That Kills Candida albicans

Author

Kakar, Anant, primary, Sastré-Velásquez, Luis Enrique, additional, Hess, Michael, additional, Galgóczy, László, additional, Papp, Csaba, additional, Holzknecht, Jeanett, additional, Romanelli, Alessandra, additional, Váradi, Györgyi, additional, Malanovic, Nermina, additional, and Marx, Florentine, additional

Published
2022
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13. New Perspectives in the Antimicrobial Activity of the Amphibian Temporin B: Peptide Analogs Are Effective Inhibitors of Candida albicans Growth

Author

Kakar, Anant, Holzknecht, Jeanett, Dubrac, Sandrine, Gelmi, Maria Luisa, Romanelli, Alessandra, and Marx, Florentine

Subjects
keratinocytes, fungicidal activity, Candida albicans, skin irritation, QH301-705.5, Temporin B peptide analogs, IL-1α, Biology (General), reconstructed epidermis model, Article, antifungal
Abstract

Temporin B (TB) is a short, positively charged peptide secreted by the granular glands of the European frog Rana temporaria. While the antibacterial and antiviral efficacy of TB and some of its improved analogs are well documented, nothing is known about their antifungal potency so far. We dedicated this study to characterize the antifungal potential of the TB analog TB_KKG6K and the newly designed D-Lys_TB_KKG6K, the latter having the L-lysines replaced by the chiral counterpart D-lysines to improve its proteolytic stability. Both peptides inhibited the growth of opportunistic human pathogenic yeasts and killed planktonic and sessile cells of the most prevalent human pathogen, Candida albicans. The anti-yeast efficacy of the peptides coincided with the induction of intracellular reactive oxygen species. Their thermal, cation, pH and serum tolerance were similar, while the proteolytic stability of D-Lys_TB_KKG6K was superior to that of its template peptide. Importantly, both peptides lacked hemolytic activity and showed minimal in vitro cytotoxicity in primary human keratinocytes. The tolerance of both peptides in a reconstructed human epidermis model further supports their potential for topical application. Our results open up an exciting field of research for new anti-Candida therapeutic options based on amphibian TB analogs.

Published
2021
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16. Potential of Antifungal Proteins (AFPs) to Control Penicillium Postharvest Fruit Decay

Author

Ministerio de Ciencia, Innovación y Universidades (España), Generalitat Valenciana, European Commission, National Research, Development and Innovation Office (Hungary), Austrian Science Fund, Gandía, Mónica, Kakar, Anant, Giner-Llorca, Moisés, Holzknecht, Jeanett, Martínez-Culebras, Pedro V., Galgóczy, László, Marx, Florentine, Marcos López, José Francisco, Manzanares, Paloma, Ministerio de Ciencia, Innovación y Universidades (España), Generalitat Valenciana, European Commission, National Research, Development and Innovation Office (Hungary), Austrian Science Fund, Gandía, Mónica, Kakar, Anant, Giner-Llorca, Moisés, Holzknecht, Jeanett, Martínez-Culebras, Pedro V., Galgóczy, László, Marx, Florentine, Marcos López, José Francisco, and Manzanares, Paloma

Abstract

Penicillium phytopathogenic species provoke severe postharvest disease and economic losses. Penicillium expansum is the main pome fruit phytopathogen while Penicillium digitatum and Penicillium italicum cause citrus green and blue mold, respectively. Control strategies rely on the use of synthetic fungicides, but the appearance of resistant strains and safety concerns have led to the search for new antifungals. Here, the potential application of different antifungal proteins (AFPs) including the three Penicillium chrysogenum proteins (PAF, PAFB and PAFC), as well as the Neosartorya fischeri NFAP2 protein to control Penicillium decay, has been evaluated. PAFB was the most potent AFP against P. digitatum, P. italicum and P. expansum, PAFC and NFAP2 showed moderate antifungal activity, whereas PAF was the least active protein. In fruit protection assays, PAFB provoked a reduction of the incidence of infections caused by P. digitatum and P. italicum in oranges and by P. expansum in apples. A combination of AFPs did not result in an increase in the efficacy of disease control. In conclusion, this study expands the antifungal inhibition spectrum of the AFPs evaluated, and demonstrates that AFPs act in a species-specific manner. PAFB is a promising alternative compound to control Penicillium postharvest fruit decay.

Published
2021

18. The Penicillium chrysogenum Q176 Antimicrobial Protein PAFC Effectively Inhibits the Growth of the Opportunistic Human Pathogen Candida albicans

Author

Holzknecht, Jeanett, Kühbacher, Alexander, Papp, Csaba, Farkas, Attila, Váradi, Györgyi, Marcos, José F., Manzanares, Paloma, Tóth, Gábor K., Galgóczy, László, Marx, Florentine, Austrian Science Fund, National Research, Development and Innovation Office (Hungary), Agencia Estatal de Investigación (España), Hungarian Academy of Sciences, and Ministerio de Ciencia, Innovación y Universidades (España)

Subjects
reactive oxygen species, PAFC, Exudate, Plasma membrane permeabilization, exudate, Candida albicans, cell death, plasma membrane permeabilization, lcsh:Biology (General), Penicillium chrysogenum antimicrobial protein C, Reactive oxygen species, lcsh:QH301-705.5
Abstract

© 2020 by the authors., Small, cysteine-rich and cationic antimicrobial proteins (AMPs) from filamentous ascomycetes promise treatment alternatives to licensed antifungal drugs. In this study, we characterized the Penicillium chrysogenum Q176 antifungal protein C (PAFC), which is phylogenetically distinct to the other two Penicillium antifungal proteins, PAF and PAFB, that are expressed by this biotechnologically important ascomycete. PAFC is secreted into the culture broth and is co-expressed with PAF and PAFB in the exudates of surface cultures. This observation is in line with the suggested role of AMPs in the adaptive response of the host to endogenous and/or environmental stimuli. The in silico structural model predicted five β-strands stabilized by four intramolecular disulfide bonds in PAFC. The functional characterization of recombinant PAFC provided evidence for a promising new molecule in anti-Candida therapy. The thermotolerant PAFC killed planktonic cells and reduced the metabolic activity of sessile cells in pre-established biofilms of two Candidaalbicans strains, one of which was a fluconazole-resistant clinical isolate showing higher PAFC sensitivity than the fluconazole-sensitive strain. Candidacidal activity was linked to severe cell morphology changes, PAFC internalization, induction of intracellular reactive oxygen species and plasma membrane disintegration. The lack of hemolytic activity further corroborates the potential applicability of PAFC in clinical therapy., This study was supported by the Austrian Science Fund FWF (I3132-B21) to FM and Open Access Funding by the FWF covers the publication costs. JH was financed by the Scholarship of the Aktion Österreich-Ungarn. LG is financed by the Postdoctoral Excellence Programme (PD 135248) and the bilateral Austrian-Hungarian Joint Research Project (ANN 131341) of the Hungarian National Research, Development and Innovation (NKFIH) Office. Research of LG was supported by the János Bolyai Research Scholarship of the Hungarian Academy of Sciences. The present work of LG was supported by the ÚNKP-20-5 New National Excellence Program of the Ministry for Innovation and Technology (ITM). GV and GKT were supported by the NKFIH Office (GINOP-2.3.2-15-2016-00014, 20391-3/2018/FEKUSTRAT) and the ITM (TUDFO/47138-1/2019-ITM FIKP). JFM and PM were supported by grant RTI2018-101115B-C21 from the “Ministerio de Ciencia, Innovación, y Universidades” (Spain) (MICINN/FEDER Funds).

Published
2020

19. The antifungal protein AFP from Aspergillus giganteus inhibits chitin synthesis in sensitive fungi

Author

Hagen, Silke, Marx, Florentine, Ram, Arthur F., and Meyer, Vera

Subjects
Aspergillus -- Genetic aspects, Aspergillus -- Research, Bacterial proteins -- Structure, Bacterial proteins -- Research, Chitin -- Research, Chitin -- Structure, Biological sciences
Abstract

Several analyses are used to show that the N-terminal domain of the antifungal protein AFP from Aspergillus giganteus is responsible for efficient binding of AFP to chitin, but it is not enough for inhibiting the growth of sensitive fungi. The results have shown that AFP has induced cell wall stress and also the cell wall integrity (CWI) pathway in the AFP-sensitive fungus Aspergillus niger.

Published
2007

22. Solution Structure, Dynamics, and New Antifungal Aspects of the Cysteine-Rich Miniprotein PAFC

Author

Czajlik, András, primary, Holzknecht, Jeanett, additional, Galgóczy, László, additional, Tóth, Liliána, additional, Poór, Péter, additional, Ördög, Attila, additional, Váradi, Györgyi, additional, Kühbacher, Alexander, additional, Borics, Attila, additional, Tóth, Gábor K., additional, Marx, Florentine, additional, and Batta, Gyula, additional

Published
2021
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24. The Penicillium chrysogenum Q176 Antimicrobial Protein PAFC Effectively Inhibits the Growth of the Opportunistic Human Pathogen Candida albicans

Author

Holzknecht, Jeanett, primary, Kühbacher, Alexander, additional, Papp, Csaba, additional, Farkas, Attila, additional, Váradi, Györgyi, additional, Marcos, Jose F., additional, Manzanares, Paloma, additional, Tóth, Gábor K., additional, Galgóczy, László, additional, and Marx, Florentine, additional

Published
2020
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26. The potential use of the Penicillium chrysogenum antifungal protein PAF, the designed variant PAFopt and its γ‐core peptide Pγopt in plant protection

Author

Tóth, Liliána, primary, Boros, Éva, additional, Poór, Péter, additional, Ördög, Attila, additional, Kele, Zoltán, additional, Váradi, Györgyi, additional, Holzknecht, Jeanett, additional, Bratschun‐Khan, Doris, additional, Nagy, István, additional, Tóth, Gábor K., additional, Rákhely, Gábor, additional, Marx, Florentine, additional, and Galgóczy, László, additional

Published
2020
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32. Membrane Sphingolipids Regulate the Fitness and Antifungal Protein Susceptibility of Neurospora crassa

Author

Huber, Anna, Oemer, Gregor, Malanovic, Nermina, Lohner, Karl, Kovács, Laura, Salvenmoser, Willi, Zschocke, Johannes, Keller, Markus A., and Marx, Florentine

Subjects
Microbiology (medical), sphingolipids, Neurospora crassa, glucosylceramide, antimicrobial proteins, fungi, lcsh:QR1-502, lipidomics, Penicillium chrysogenum, Microbiology, lcsh:Microbiology
Abstract

The membrane sphingolipid glucosylceramide (GlcCer) plays an important role in fungal fitness and adaptation to most diverse environments. Moreover, reported differences in the structure of GlcCer between fungi, plants and animals render this pathway a promising target for new generation therapeutics. Our knowledge about the GlcCer biosynthesis in fungi is mainly based on investigations of yeasts, whereas this pathway is less well characterized in molds. We therefore performed a detailed lipidomic profiling of GlcCer species present in Neurospora crassa and comprehensively show that the deletion of genes encoding enzymes involved in GlcCer biosynthesis affects growth, conidiation and stress response in this model fungus. Importantly, our study evidences that differences in the pathway intermediates and their functional role exist between N. crassa and other fungal species. We further investigated the role of GlcCer in the susceptibility of N. crassa toward two small cysteine-rich and cationic antimicrobial proteins (AMPs), PAF and PAFB, which originate from the filamentous ascomycete Penicillium chrysogenum. The interaction of these AMPs with the fungal plasma membrane is crucial for their antifungal toxicity. We found that GlcCer determines the susceptibility of N. crassa toward PAF, but not PAFB. A higher electrostatic affinity of PAFB than PAF to anionic membrane surfaces might explain the difference in their antifungal mode of action.

Published
2019

33. Potential of Antifungal Proteins (AFPs) to ControlPenicilliumPostharvest Fruit Decay.

Author

Gandía, Mónica, Kakar, Anant, Giner-Llorca, Moisés, Holzknecht, Jeanett, Martínez-Culebras, Pedro, Galgóczy, László, Marx, Florentine, Marcos, Jose F., and Manzanares, Paloma

Subjects
ANTIFUNGAL agents, POSTHARVEST diseases, PENICILLIUM, FUNGICIDES, CITRUS
Abstract

Penicilliumphytopathogenic species provoke severe postharvest disease and economiclosses.Penicillium expansumis the main pome fruit phytopathogen whilePenicillium digitatumandPenicillium italicumcause citrus green and blue mold, respectively. Control strategies rely on theuse of synthetic fungicides, but the appearance of resistant strains and safety concerns have ledto the search for new antifungals. Here, the potential application of different antifungal proteins(AFPs) including the threePenicillium chrysogenumproteins (PAF, PAFB and PAFC), as well as theNeosartorya fischeriNFAP2 protein to controlPenicilliumdecay, has been evaluated. PAFB wasthe most potent AFP againstP. digitatum,P. italicumandP. expansum, PAFC and NFAP2 showedmoderate antifungal activity, whereas PAF was the least active protein. In fruit protection assays,PAFB provoked a reduction of the incidence of infections caused byP. digitatumandP. italicuminoranges and byP. expansumin apples. A combination of AFPs did not result in an increase in theefficacy of disease control. In conclusion, this study expands the antifungal inhibition spectrum of theAFPs evaluated, and demonstrates that AFPs act in a species-specific manner. PAFB is a promisingalternative compound to controlPenicilliumpostharvest fruit decay. [ABSTRACT FROM AUTHOR]

Published
2021
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35. Calcium binding of the antifungal protein PAF: Structure, dynamics and function aspects by NMR and MD simulations

Author

Fizil, Ádám, Sonderegger, Christoph, Czajlik, András, Fekete, Attila, Komáromi, István, Hajdu, Dorottya, Marx, Florentine, and Batta, Gyula

Subjects
Protein Structure Comparison, Models, Molecular, Protein Structure, Fungal Structure, Magnetic Resonance Spectroscopy, lcsh:Medicine, Yeast and Fungal Models, Mycology, Calorimetry, Molecular Dynamics Simulation, Penicillium chrysogenum, Research and Analysis Methods, Molecular Dynamics, Microbiology, Biochemistry, Fungal Proteins, Model Organisms, Computational Chemistry, Microbial Control, Medicine and Health Sciences, Electrochemistry, Biochemical Simulations, Macromolecular Structure Analysis, Salt Bridges, lcsh:Science, Molecular Biology, Pharmacology, Antifungals, Binding Sites, Neurospora crassa, Antimicrobials, lcsh:R, Organisms, Fungi, Drugs, Biology and Life Sciences, Computational Biology, Proteins, Eukaryota, Chemistry, Neurospora, Experimental Organism Systems, Physical Sciences, Mutation, Animal Studies, lcsh:Q, Calcium, Research Article, Protein Binding
Abstract

Calcium ions (Ca2+) play an important role in the toxicity of the cysteine-rich and cationic antifungal protein PAF from Penicillium chrysogenum: high extracellular Ca2+ levels reduce the toxicity of PAF in the sensitive model fungus Neurospora crassa in a concentration dependent way. However, little is known about the mechanistic details of the Ca2+ ion impact and the Ca2+ binding capabilities of PAF outside the fungal cell, which might be the reason for the activity loss. Using nuclear magnetic resonance (NMR), isothermal titration calorimetry and molecular dynamics (MD) simulations we demonstrated that PAF weakly, but specifically binds Ca2+ ions. MD simulations of PAF predicted one major Ca2+ binding site at the C-terminus involving Asp53 and Asp55, while Asp19 was considered as putative Ca2+ binding site. The exchange of Asp19 to serine had little impact on the Ca2+ binding, however caused the loss of antifungal activity, as was shown in our recent study. Now we replaced the C-terminal aspartates and expressed the serine variant PAFD53S/D55S. The specific Ca2+ binding affinity of PAFD53S/D55S decreased significantly if compared to PAF, whereas the antifungal activity was retained. To understand more details of Ca2+ interactions, we investigated the NMR and MD structure/dynamics of the free and Ca2+-bound PAF and PAFD53S/D55S. Though we found some differences between these protein variants and the Ca2+ complexes, these effects cannot explain the observed Ca2+ influence. In conclusion, PAF binds Ca2+ ions selectively at the C-terminus; however, this Ca2+ binding does not seem to play a direct role in the previously documented modulation of the antifungal activity of PAF.

Published
2018

36. The Evolutionary Conserved γ-Core Motif Influences the Anti-Candida Activity of the Penicillium chrysogenum Antifungal Protein PAF

Author

Sonderegger, Christoph, Váradi, Györgyi, Galgóczy, László, Kocsubé, Sándor, Posch, Wilfried, Borics, Attila, Dubrac, Sandrine, Tóth, Gábor K., Wilflingseder, Doris, and Marx, Florentine

Subjects
reactive oxygen species, Microbiology (medical), antimicrobial peptides, antimicrobial proteins, Candida albicans, Penicillium chrysogenum antifungal protein PAF, gamma(γ-) core, Microbiology, biofilm, Original Research
Abstract

Small, cysteine-rich and cationic antimicrobial proteins (AMPs) from filamentous ascomycetes represent ideal bio-molecules for the development of next-generation antifungal therapeutics. They are promising candidates to counteract resistance development and may complement or even replace current small molecule-based antibiotics in the future. In this study, we show that a 14 amino acid (aa) long peptide (Pγ) spanning the highly conserved γ-core motif of the Penicillium chrysogenum antifungal protein (PAF) has antifungal activity against the opportunistic human pathogenic yeast Candida albicans. By substituting specific aa we elevated the positive net charge and the hydrophilicity of Pγ and created the peptide variants Pγvar and Pγopt with 10-fold higher antifungal activity than Pγ. Similarly, the antifungal efficacy of the PAF protein could be significantly improved by exchanging the respective aa in the γ-core of the protein by creating the protein variants PAFγvar and PAFγopt. The designed peptides and proteins were investigated in detail for their physicochemical features and mode of action, and were tested for cytotoxicity on mammalian cells. This study proves for the first time the important role of the γ-core motif in the biological function of an AMP from ascomycetes. Furthermore, we provide a detailed phylogenetic analysis that proves the presence and conservation of the γ-core motif in all AMP classes from Eurotiomycetes. We emphasize the potential of this common protein motif for the design of short antifungal peptides and as a protein motif in which targeted aa substitutions enhance antimicrobial activity.

Published
2018
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39. In Vivo Applicability of Neosartorya fischeri Antifungal Protein 2 (NFAP2) in Treatment of Vulvovaginal Candidiasis

Author

Kovács, Renátó, primary, Holzknecht, Jeanett, additional, Hargitai, Zoltán, additional, Papp, Csaba, additional, Farkas, Attila, additional, Borics, Attila, additional, Tóth, Lilána, additional, Váradi, Györgyi, additional, Tóth, Gábor K., additional, Kovács, Ilona, additional, Dubrac, Sandrine, additional, Majoros, László, additional, Marx, Florentine, additional, and Galgóczy, László, additional

Published
2019
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41. The Aspergillus giganteus antifungal protein AFPNN5353 activates the cell wall integrity pathway and perturbs calcium homeostasis

Author

Eigentler Andrea, Bencina Mojca, Binder Ulrike, Meyer Vera, and Marx Florentine

Subjects
Microbiology, QR1-502
Abstract

Abstract Background The antifungal protein AFPNN5353 is a defensin-like protein of Aspergillus giganteus. It belongs to a group of secretory proteins with low molecular mass, cationic character and a high content of cysteine residues. The protein inhibits the germination and growth of filamentous ascomycetes, including important human and plant pathogens and the model organsims Aspergillus nidulans and Aspergillus niger. Results We determined an AFPNN5353 hypersensitive phenotype of non-functional A. nidulans mutants in the protein kinase C (Pkc)/mitogen-activated protein kinase (Mpk) signalling pathway and the induction of the α-glucan synthase A (agsA) promoter in a transgenic A. niger strain which point at the activation of the cell wall integrity pathway (CWIP) and the remodelling of the cell wall in response to AFPNN5353. The activation of the CWIP by AFPNN5353, however, operates independently from RhoA which is the central regulator of CWIP signal transduction in fungi. Furthermore, we provide evidence that calcium (Ca2+) signalling plays an important role in the mechanistic function of this antifungal protein. AFPNN5353 increased about 2-fold the cytosolic free Ca2+ ([Ca2+]c) of a transgenic A. niger strain expressing codon optimized aequorin. Supplementation of the growth medium with CaCl2 counteracted AFPNN5353 toxicity, ameliorated the perturbation of the [Ca2+]c resting level and prevented protein uptake into Aspergillus sp. cells. Conclusions The present study contributes new insights into the molecular mechanisms of action of the A. giganteus antifungal protein AFPNN5353. We identified its antifungal activity, initiated the investigation of pathways that determine protein toxicity, namely the CWIP and the Ca2+ signalling cascade, and studied in detail the cellular uptake mechanism in sensitive target fungi. This knowledge contributes to define new potential targets for the development of novel antifungal strategies to prevent and combat infections of filamentous fungi which have severe negative impact in medicine and agriculture.

Published
2011
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42. 'Invisible' Conformers of an Antifungal Disulfide Protein Revealed by Constrained Cold and Heat Unfolding, CEST-NMR Experiments, and Molecular Dynamics Calculations

Author

Fizil, Ádám, Gáspári, Zoltán, Barna, Teréz, Marx, Florentine, and Batta, Gyula

Subjects
Models, Molecular, Protein Folding, Antifungal Agents, Magnetic Resonance Spectroscopy, molecular modeling, Protein Conformation, Proteins, Full Papers, Molecular Dynamics Simulation, Molecular Imaging, NMR spectroscopy, Természettudományok, conformation analysis, protein structures, Disulfides, Kémiai tudományok
Abstract

Transition between conformational states in proteins is being recognized as a possible key factor of function. In support of this, hidden dynamic NMR structures were detected in several cases up to populations of a few percent. Here, we show by two- and three-state analysis of thermal unfolding, that the population of hidden states may weight 20-40 % at 298 K in a disulfide-rich protein. In addition, sensitive (15) N-CEST NMR experiments identified a low populated (0.15 %) state that was in slow exchange with the folded PAF protein. Remarkably, other techniques failed to identify the rest of the NMR "dark matter". Comparison of the temperature dependence of chemical shifts from experiments and molecular dynamics calculations suggests that hidden conformers of PAF differ in the loop and terminal regions and are most similar in the evolutionary conserved core. Our observations point to the existence of a complex conformational landscape with multiple conformational states in dynamic equilibrium, with diverse exchange rates presumably responsible for the completely hidden nature of a considerable fraction.

Published
2015

43. Three Antifungal Proteins From Penicillium expansum: Different Patterns of Production and Antifungal Activity

Author

Ministerio de Economía y Competitividad (España), European Commission, Generalitat Valenciana, Austrian Science Fund, Ministerio de Educación, Cultura y Deporte (España), CSIC - Unidad de Recursos de Información Científica para la Investigación (URICI), Garrigues, Sandra, Gandía Gómez, Mónica, Castillo, Laia, Coca, María, Marx, Florentine, Marcos López, José Francisco, Manzanares, Paloma, Ministerio de Economía y Competitividad (España), European Commission, Generalitat Valenciana, Austrian Science Fund, Ministerio de Educación, Cultura y Deporte (España), CSIC - Unidad de Recursos de Información Científica para la Investigación (URICI), Garrigues, Sandra, Gandía Gómez, Mónica, Castillo, Laia, Coca, María, Marx, Florentine, Marcos López, José Francisco, and Manzanares, Paloma

Abstract

Antifungal proteins of fungal origin (AFPs) are small, secreted, cationic, and cysteine-rich proteins. Filamentous fungi encode a wide repertoire of AFPs belonging to different phylogenetic classes, which offer a great potential to develop new antifungals for the control of pathogenic fungi. The fungus Penicillium expansum is one of the few reported to encode three AFPs each belonging to a different phylogenetic class (A, B, and C). In this work, the production of the putative AFPs from P. expansum was evaluated, but only the representative of class A, PeAfpA, was identified in culture supernatants of the native fungus. The biotechnological production of PeAfpB and PeAfpC was achieved in Penicillium chrysogenum with the P. chrysogenum-based expression cassette, which had been proved to work efficiently for the production of other related AFPs in filamentous fungi. Western blot analyses confirmed that P. expansum only produces PeAfpA naturally, whereas PeAfpB and PeAfpC could not be detected. From the three AFPs from P. expansum, PeAfpA showed the highest antifungal activity against all fungi tested, including plant and human pathogens. P. expansum was also sensitive to its self-AFPs PeAfpA and PeAfpB. PeAfpB showed moderate antifungal activity against filamentous fungi, whereas no activity could be attributed to PeAfpC at the conditions tested. Importantly, none of the PeAFPs showed hemolytic activity. Finally, PeAfpA was demonstrated to efficiently protect against fungal infections caused by Botrytis cinerea in tomato leaves and Penicillium digitatum in oranges. The strong antifungal potency of PeAfpA, together with the lack of cytotoxicity, and significant in vivo protection against phytopathogenic fungi that cause postharvest decay and plant diseases, make PeAfpA a promising alternative compound for application in agriculture, but also in medicine or food preservation.

Published
2018

44. D19S Mutation of the Cationic, Cysteine-Rich Protein PAF: Novel Insights into Its Structural Dynamics, Thermal Unfolding and Antifungal Function

Author

Sonderegger, Christoph, Fizil, Ádám, Burtscher, Laura, Hajdu, Dorottya, Muñoz, Alberto, Gáspári, Zoltán, Read, Nick D., Batta, Gyula, and Marx, Florentine

Subjects
Protein Denaturation, Antifungal Agents, Cell Membranes, Amino Acid Motifs, lcsh:Medicine, Yeast and Fungal Models, Penicillium chrysogenum, Biochemistry, Electricity, Természettudományok, Medicine and Health Sciences, Kémiai tudományok, lcsh:Science, Medicine(all), Agricultural and Biological Sciences(all), Antimicrobials, Physics, Drugs, respiratory system, Experimental Organism Systems, Physical Sciences, Amino Acid Analysis, lipids (amino acids, peptides, and proteins), Cellular Structures and Organelles, Research Article, Protein Binding, Imaging Techniques, Mutation, Missense, Mycology, Molecular Dynamics Simulation, Research and Analysis Methods, Microbiology, Fungal Proteins, Model Organisms, Electrostatics, Microbial Control, Fluorescence Imaging, Cysteine, Protein Interactions, Molecular Biology Techniques, Molecular Biology, Pharmacology, Antifungals, Molecular Biology Assays and Analysis Techniques, Binding Sites, Biochemistry, Genetics and Molecular Biology(all), lcsh:R, Organisms, Fungi, Biology and Life Sciences, Neurospora Crassa, Membrane Proteins, Proteins, Cell Biology, Neurospora, Calcium, lcsh:Q
Abstract

The cysteine-rich, cationic, antifungal protein PAF is abundantly secreted into the culture supernatant of the filamentous Ascomycete Penicillium chrysogenum. The five β-strands of PAF form a compact β-barrel that is stabilized by three disulphide bonds. The folding of PAF allows the formation of four surface-exposed loops and distinct charged motifs on the protein surface that might regulate the interaction of PAF with the sensitive target fungus. The growth inhibitory activity of this highly stable protein against opportunistic fungal pathogens provides great potential in antifungal drug research. To understand its mode of action, we started to investigate the surface-exposed loops of PAF and replaced one aspartic acid at position 19 in loop 2 that is potentially involved in PAF active or binding site, with a serine (Asp19 to Ser19). We analysed the overall effects, such as unfolding, electrostatic changes, sporadic conformers and antifungal activity when substituting this specific amino acid to the fairly indifferent amino acid serine. Structural analyses revealed that the overall 3D solution structure is virtually identical with that of PAF. However, PAFD19S showed slightly increased dynamics and significant differences in the surface charge distribution. Thermal unfolding identified PAFD19S to be rather a two-state folder in contrast to the three-state folder PAF. Functional comparison of PAFD19S and PAF revealed that the exchange at residue 19 caused a dramatic loss of antifungal activity: the binding and internalization of PAFD19S by target cells was reduced and the protein failed to trigger an intracellular Ca2+ response, all of which are closely linked to the antifungal toxicity of PAF. We conclude that the negatively charged residue Asp19 in loop 2 is essential for full function of the cationic protein PAF.

Published
2017

45. The potential use of the Penicillium chrysogenum antifungal protein PAF, the designed variant PAFopt and its γ‐core peptide Pγopt in plant protection.

Author

Tóth, Liliána, Boros, Éva, Poór, Péter, Ördög, Attila, Kele, Zoltán, Váradi, Györgyi, Holzknecht, Jeanett, Bratschun‐Khan, Doris, Nagy, István, Tóth, Gábor K., Rákhely, Gábor, Marx, Florentine, and Galgóczy, László

Subjects
PENICILLIUM chrysogenum, PLANT protection, PROTEOLYSIS, ANTIFUNGAL agents, BOTRYTIS cinerea, CROP losses
Abstract

Summary: The prevention of enormous crop losses caused by pesticide‐resistant fungi is a serious challenge in agriculture. Application of alternative fungicides, such as antifungal proteins and peptides, provides a promising basis to overcome this problem; however, their direct use in fields suffers limitations, such as high cost of production, low stability, narrow antifungal spectrum and toxicity on plant or mammalian cells. Recently, we demonstrated that a Penicillium chrysogenum‐based expression system provides a feasible tool for economic production of P. chrysogenum antifungal protein (PAF) and a rational designed variant (PAFopt), in which the evolutionary conserved γ‐core motif was modified to increase antifungal activity. In the present study, we report for the first time that γ‐core modulation influences the antifungal spectrum and efficacy of PAF against important plant pathogenic ascomycetes, and the synthetic γ‐core peptide Pγopt, a derivative of PAFopt, is antifungal active against these pathogens in vitro. Finally, we proved the protective potential of PAF against Botrytis cinerea infection in tomato plant leaves. The lack of any toxic effects on mammalian cells and plant seedlings, as well as the high tolerance to harsh environmental conditions and proteolytic degradation further strengthen our concept for applicability of these proteins and peptide in agriculture. [ABSTRACT FROM AUTHOR]

Published
2020
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47. Anti-Candidal Activity and Functional Mapping of Recombinant and Synthetic Neosartorya fischeri Antifungal Protein 2 (NFAP2)

Author

Tóth, Liliána, primary, Váradi, Györgyi, additional, Borics, Attila, additional, Batta, Gyula, additional, Kele, Zoltán, additional, Vendrinszky, Ákos, additional, Tóth, Roberta, additional, Ficze, Hargita, additional, Tóth, Gábor K., additional, Vágvölgyi, Csaba, additional, Marx, Florentine, additional, and Galgóczy, László, additional

Published
2018
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48. New Antimicrobial Potential and Structural Properties of PAFB: A Cationic, Cysteine-Rich Protein from Penicillium chrysogenum Q176

Author

Huber, Anna, primary, Hajdu, Dorottya, additional, Bratschun-Khan, Doris, additional, Gáspári, Zoltán, additional, Varbanov, Mihayl, additional, Philippot, Stéphanie, additional, Fizil, Ádám, additional, Czajlik, András, additional, Kele, Zoltán, additional, Sonderegger, Christoph, additional, Galgóczy, László, additional, Bodor, Andrea, additional, Marx, Florentine, additional, and Batta, Gyula, additional

Published
2018
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49. MOESM1 of A Penicillium chrysogenum-based expression system for the production of small, cysteine-rich antifungal proteins for structural and functional analyses

Author

Sonderegger, Christoph, Galgóczy, László, Garrigues, Sandra, Fizil, Ádám, Borics, Attila, Manzanares, Paloma, Hegedüs, Nikoletta, Huber, Anna, Marcos, Jose, Batta, Gyula, and Marx, Florentine

Subjects
lipids (amino acids, peptides, and proteins)
Abstract

Additional file 1. Table S1. Composition of media used in this study. Table S2. Oligonucleotides used in this study. Figure S1. Nucleotide sequence of plasmid pSK275paf containing the paf expression cassette. Figure S2. Cloning strategy of pSK275nfap paf_signal . Figure S3. Southern blot analysis of genomic integration of the P. chrysogenum expression cassettes in the Penicillium spp. Figure S4. Chromatogram of the purification of PAF[Pd]. Figure S5. Microscopic images of growth inhibition assays with A. niger exposed to PAF, PAF[Pc], PAFF31N, PAFY48Q, PAF[Pd], NFAP and NFAP[Pc].

Published
2016
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50. A Penicillium chrysogenum-based expression system for the production of small, cysteine-rich antifungal proteins for structural and functional analyses

Author

Sonderegger, Christoph, Galgóczy, László, Garrigues, Sandra, Fizil, Adam, Borics, Attila, Manzanares, Paloma, Hegedues, Nikoletta, Huber, Anna, Marcos López, José Francisco, Batta, Gyula, Marx, Florentine, Austrian Science Fund, Hungarian Scientific Research Fund, Ministerio de Economía y Competitividad (España), and European Commission

Subjects
NFAP, Neosartorya fischeri, PAF, Bioengineering, Biológiai tudományok, Penicillium chrysogenum, Penicillium digitatum, Recombinant protein production, Applied Microbiology and Biotechnology, Electronic circular dichroism (ECD) spectroscopy, Természettudományok, Antifungal proteins, Nuclear magnetic resonance (NMR), Biotechnology
Abstract

Background: Small, cysteine-rich and cationic antifungal proteins (APs) from filamentous ascomycetes, such as NFAP from Neosartorya fischeri and PAF from Penicillium chrysogenum, are promising candidates for novel drug development. A prerequisite for their application is a detailed knowledge about their structure–function relation and mode of action, which would allow protein modelling to enhance their toxicity and specificity. Technologies for structure analyses, such as electronic circular dichroism (ECD) or NMR spectroscopy, require highly purified samples and in case of NMR milligrams of uniformly 15N-/13C-isotope labelled protein. To meet these requirements, we developed a P. chrysogenum-based expression system that ensures sufficient amount and optimal purity of APs for structural and functional analyses. Results: The APs PAF, PAF mutants and NFAP were expressed in a P. chrysogenum ∆paf mutant strain that served as perfect microbial expression factory. This strain lacks the paf-gene coding for the endogenous antifungal PAF and is resistant towards several APs from other ascomycetes. The expression of the recombinant proteins was under the regulation of the strong paf promoter, and the presence of a paf-specific pre-pro sequence warranted the secretion of processed proteins into the supernatant. The use of defined minimal medium allowed a single-step purification of the recombinant proteins. The expression system could be extended to express PAF in the related fungus Penicillium digitatum, which does not produce detectable amounts of APs, demonstrating the versatility of the approach. The molecular masses, folded structures and antifungal activity of the recombinant proteins were analysed by ESI–MS, ECD and NMR spectroscopy and growth inhibition assays. Conclusion: This study demonstrates the implementation of a paf promoter driven expression cassettes for the production of cysteine-rich, cationic, APs in different Penicillium species. The system is a perfect tool for the generation of correctly folded proteins with high quality for structure–function analyses., This study was supported by the Austrian Science Fund (FWF P25894-B20 to FM, FWF I1644-B20 to FM), the Hungarian Science Fund (OTKA ANN 110821 to GB), and the Spanish Ministry of Economy (BIO2015-68790-C2-1-R MINECO/FEDER to PM and JFM). LG holds a Lise Meitner fellowship from the Austrian Science Fund FWF (M1776-B20). SG holds a FPU doctoral fellowship (MECD FPU13/04584) from the Spanish Ministry of Education. The research of AB was supported by the János Bolyai Research Scholarship of the Hungarian Academy of Sciences.

Published
2016

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