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

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.

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

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.

Medicinal Properties of the Genus Clitocybe and of Lectins from the Clouded Funnel Cap Mushroom, C. nebularis (Agaricomycetes): A Review.

Current knowledge of the medicinal properties of Basidiomycetes mushroom species of the genus Clitocybe and of the biological activity of C. nebularis fruiting bodies is reviewed. The main focus is the therapeutic potential of lectins from C. nebularis. Species of the genus Clitocybe, including C. nebularis, have not been traditionally considered as medicinal mushrooms; however, recent studies have demonstrated their antitumor, immunomodulatory, and antioxidative properties, their antimicrobial (antiviral, antibacterial, and antifungal) activities against various bacteria and fungi, as well as their potential use in therapy for alcoholism and as psychotropic agents. These activities have been shown to be due to various compounds, either isolated or in extracts, mainly polysaccharides but also phenols, ribonucleosides, and proteins. These include laccase, protease inhibitors, and lectins. C. nebularis has been shown to be rich in a variety of lectins and isolectins with distinct carbohydrate-binding specificities, showing versatile biological activities. They exhibit immunostimulatory and adhesion-/phagocytosis-promoting properties, as well as toxicity in various invertebrates. Mushroom species of the genus Clitocybe, including C. nebularis, thus constitute a valuable source of compounds showing diverse biological activities with a broad potential for applications in biomedicine or biotechnology. On the basis of such evidence reviewed here, we propose that C. nebularis and other Clitocybe species can be considered to be medicinal mushrooms.

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

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.

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

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 Panc., 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.

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

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.