Eckhard Thines

MAP kinase and protein kinase A-dependent mobilization of triacylglycerol and glycogen during appressorium turgor generation by Magnaporthe grisea.

Magnaporthe grisea produces an infection structure called an appressorium, which is used to breach the plant cuticle by mechanical force. Appressoria generate hydrostatic turgor by accumulating molar concentrations of glycerol. To investigate the genetic control and biochemical mechanism for turgor generation, we assayed glycerol biosynthetic enzymes during appressorium development, and the movement of storage reserves was monitored in developmental mutants. Enzymatic activities for glycerol generation from carbohydrate sources were present in appressoria but did not increase during development. In contrast, triacylglycerol lipase activity increased during appressorium maturation. Rapid glycogen degradation occurred during conidial germination, followed by accumulation in incipient appressoria and dissolution before turgor generation. Lipid droplets also moved to the incipient appressorium and coalesced into a central vacuole before degrading at the onset of turgor generation. Glycogen and lipid mobilization did not occur in a Δpmk1 mutant, which lacked the mitogen-activated protein kinase (MAPK) required for appressorium differentiation, and was retarded markedly in a ΔcpkA mutant, which lacks the catalytic subunit of cAMP-dependent protein kinase A (PKA). Glycogen and lipid degradation were very rapid in a Δmac1 sum1-99 mutant, which carries a mutation in the regulatory subunit of PKA, occurring before appressorium morphogenesis was complete. Mass transfer of storage carbohydrate and lipid reserves to the appressorium therefore occurs under control of the PMK1 MAPK pathway. Turgor generation then proceeds by compartmentalization and rapid degradation of lipid and glycogen reserves under control of the CPKA/SUM1-encoded PKA holoenzyme.

Polar Localizing Class V Myosin Chitin Synthases Are Essential during Early Plant Infection in the Plant Pathogenic Fungus Ustilago maydis

Fungal chitin synthases (CHSs) form fibers of the cell wall and are crucial for substrate invasion and pathogenicity. Filamentous fungi contain up to 10 CHSs, which might reflect redundant functions or the complex biology of these fungi. Here, we investigate the complete repertoire of eight CHSs in the dimorphic plant pathogen Ustilago maydis. We demonstrate that all CHSs are expressed in yeast cells and hyphae. Green fluorescent protein (GFP) fusions to all CHSs localize to septa, whereas Chs5-GFP, Chs6-GFP, Chs7-yellow fluorescent protein (YFP), and Myosin chitin synthase1 (Mcs1)-YFP were found at growth regions of yeast-like cells and hyphae, indicating that they participate in tip growth. However, only the class IV CHS genes chs7 and chs5 are crucial for shaping yeast cells and hyphae ex planta. Although most CHS mutants were attenuated in plant pathogenicity, Δchs6, Δchs7, and Δmcs1 mutants were drastically reduced in virulence. Δmcs1 showed no morphological defects in hyphae, but Mcs1 became essential during invasion of the plant epidermis. Δmcs1 hyphae entered the plant but immediately lost growth polarity and formed large aggregates of spherical cells. Our data show that the polar class IV CHSs are essential for morphogenesis ex planta, whereas the class V myosin-CHS is essential during plant infection.

The transcription factor Con7p is a central regulator of infection‐related morphogenesis in the rice blast fungus Magnaporthe grisea

A strain harbouring an insertion within the promoter of the CON7 gene of Magnaporthe grisea was isolated. This gene was previously shown to be essential for appressorium formation and growth in planta and is predicted to encode a transcription factor. Microarray‐based gene expression analysis was used to identify several genes whose transcription during germination depends on Con7p. These include the pathogenicity factor‐encoding gene PTH11 and several other genes which like PTH11 are predicted to encode G protein‐coupled receptors. Microarray analysis also revealed several Con7p‐dependent genes which may encode factors determining cell wall structure or function, either through the synthesis/degradation of cell wall components or by association with the cell exterior. One Con7p‐dependent gene predicted to encode a class VII chitin synthase was deleted, leading to dramatic consequences on the pathogenic development of the resultant strain. Within the con7– mutant, a 29% reduction in chitin content of germinated spores was found and the mutant was hypersensitive to the chitin synthase inhibitor nikkomycin Z. A green fluorescent protein‐tagged Con7p was found to have nuclear localization within spores. Taken together, these observations suggest that Con7p encodes a transcription factor required for the transcription of several genes which participate in disease‐related morphogenesis in M. grisea.

The vacuole as central element of the lytic system and sink for lipid droplets in maturing appressoria ofMagnaporthe grisea

SummaryHistochemical and ultrastructural studies were carried out on a wild-type strain (Guyll) and a melanin-deficient mutant(büβ) of the rice-blast pathogen,Magnaporthe grisea (=Pyricularia oryzae), in order to investigate the destination of lipid storage reserves during appressorium development. Lipid droplets were abundant in conidia and were mobilised upon germination, accumulating in the appressorial hook which developed at the tip of each germ tube. Following the formation of a septum at the base of the nascent appressorium, one or a few closely appressed central vacuoles became established and were observed to enlarge in the course of appressorium maturation. On unyielding artificial surfaces such as glass or plastic, appressoria matured to completion within 36–48 h, by which time the enlarged vacuole filled most of the inside volume of the appressorium. Light and transmission electron microscopical observations revealed that the lipid droplets entered the vacuole by autophagocytosis and were degraded therein. Histochemical approaches confirmed the vacuole as the key lytic element in maturing appressoria. Endocytosis of a vital dye, Neutral Red, progressed via endosomes which migrated into the vacuole and lysed there, releasing their dye content into the vacuolar lumen. Furthermore, activity of the lysosomal marker enzyme, acid phospho-monoesterase, was strongly localised in the vacuole at all stages of appressorium maturation. It is therefore envisaged that vacuoles are involved in the degradation of lipid storage reserves which may act as sources of energy and/or osmotically active metabolites such as glycerol, which generate the very high turgor pressure known to be crucial for penetration of hard surfaces. On softer surfaces such as onion epidermis, appressoria ofM. grisea were able to penetrate before degradation of lipid droplets had been completed.

Sfp-Type 4′-Phosphopantetheinyl Transferase Is Indispensable for Fungal Pathogenicity

In filamentous fungi, Sfp-type 4′-phosphopantetheinyl transferases (PPTases) activate enzymes involved in primary (α-aminoadipate reductase [AAR]) and secondary (polyketide synthases and nonribosomal peptide synthetases) metabolism. We cloned the PPTase gene PPT1 of the maize anthracnose fungus Colletotrichum graminicola and generated PPTase-deficient mutants (Δppt1). Δppt1 strains were auxotrophic for Lys, unable to synthesize siderophores, hypersensitive to reactive oxygen species, and unable to synthesize polyketides (PKs). A differential analysis of secondary metabolites produced by wild-type and Δppt1 strains led to the identification of six novel PKs. Infection-related morphogenesis was affected in Δppt1 strains. Rarely formed appressoria of Δppt1 strains were nonmelanized and ruptured on intact plant. The hyphae of Δppt1 strains colonized wounded maize (Zea mays) leaves but failed to generate necrotic anthracnose disease symptoms and were defective in asexual sporulation. To analyze the pleiotropic pathogenicity phenotype, we generated AAR-deficient mutants (Δaar1) and employed a melanin-deficient mutant (M1.502). Results indicated that PPT1 activates enzymes required at defined stages of infection. Melanization is required for cell wall rigidity and appressorium function, and Lys supplied by the AAR1 pathway is essential for necrotrophic development. As PPTase-deficient mutants of Magnaporthe oryzea were also nonpathogenic, we conclude that PPTases represent a novel fungal pathogenicity factor.

Heptemerones A-G, seven novel diterpenoids from Coprinus heptemerus: Producing organism, fermentation, isolation and biological activities

Seven novel diterpenoids, named heptemerones A∼G, were isolated from the broth of submerged cultures of Coprinus heptemerus, a basidiomycete which previously had not been known to produce secondary metabolites. The compounds were purified by solid phase extraction and silica gel chromatography followed by preparative HPLC. Among the biological activities the inhibition of fungal germination was the most potent, and depended highly on the composition of the assay medium. In water, inhibition occurred at 5∼10 fold lower concentrations as compared to complex media. Heptemerone G was the most active compound with MICs starting at 1 µg/ml. Four of the antifungal compounds exhibited plant protective activity in a leaf segment assay using Magnaporthe grisea as the pathogen. Growth of yeasts and bacteria was hardly affected. Cytotoxic activities were moderate and only heptemerone D was phytotoxic.

MAP kinase signalling pathway components and targets conserved between the distantly related plant pathogenic fungi Mycosphaerella graminicola and Magnaporthe grisea.

Mycosphaerella graminicola is a dimorphic fungus which causes Septoria tritici leaf blotch. This report describes the examination of the role of several components of the Pmk1p/Fus3p mitogen-activated protein kinase (MAPK) signalling pathway in the development of this species. The genes encoding the MAPK kinase kinase MgSte11p and the MAPK kinase MgSte7p were found to be indispensible for pathogenicity while the deletion of the gene encoding the proposed scaffold protein MgSte50p led to a reduction in virulence. These phenotypes were attributed to a reduced ability to form filaments on the plant surface which prevented penetration. A delayed disease progression was observed on deletion of the gene MGSTE12. The MGSTE7, MGSTE50 and MGSTE12 genes were able to complement mutants of Magnaporthe grisea lacking the orthologous genes. Interactions between the My. graminicola signalling components were also investigated. Furthermore genes whose MgSte12p/Mst12p dependence is conserved between My. graminicola and Ma. grisea were identified.

Fungal secondary metabolites as inhibitors of infection-related morphogenesis in phytopathogenic fungi

The life-cycle of many plant-pathogenic fungi, especially those infecting aerial plant organs, contains several specific developmental stages. If these are sufficiently distinct in their physiology from vegetative hyphal growth, they present potential targets for non-fungitoxic plant protectants. The present review identifies such targets especially in the pre-penetration stages of the infection cycle of Magnaporthe grisea and other fungi infecting from air-borne spores. Examples of non-toxic natural products with activity against spore germination, attachment, appressorium formation, appressorium maturation and penetration of the host surface are given. In contrast, no substances selectively active against in planta growth or sporulation appear to be known. The selective activity of numerous secondary metabolites against specific infection stages without accompanying toxicity against vegetatively growing hyphae indicates a direction for the development of future natural product-derived fungicides which are more easily degraded in the environment and possess fewer non-target effects. Such substances are produced by many saprotrophic and endophytic fungi in pure culture. The paucity of data on the production of biologically active substances in natural situations limits the interpretation of their ecophysiological significance for the producer.

Biodegradable lignin nanocontainers

The abundant biomaterial lignin was used to prepare hollow nanocapsules by interfacial polyaddition in inverse miniemulsions. These cross-linked lignin nanocontainers can be loaded with hydrophilic substances which can be released by an enzymatic trigger from natural plant extracts revealing them as potential nanocontainers for agricultural applications.

The Magnaporthe grisea class VII chitin synthase is required for normal appressorial development and function.

The plant pathogenic fungus Magnaporthe grisea is able to enter its host via appressorium-mediated penetration. Earlier investigations have shown that these infection structures are rich in the cell wall polysaccharide chitin. Previously, we have described how the transcription of a class VII chitin synthase-encoding gene CHS7 is completely dependent on the putative transcription factor Con7p during the germination of conidia, and how con7(-) mutants are unable to form appressoria under any conditions tested. Because of the pleiotropic effects of the con7(-) mutation, we examined the consequences of the targeted deletion of CHS7. The chs7(-) mutants generated were unable to form appressoria on artificial surfaces, except following the application of the exogenous inducers 1,16-hexadecanediol and cyclic adenosine monophosphate. The appressoria formed had a reduced chitin content and were often found to be smaller and misshapen compared with the wild-type. chs7(-) mutants were significantly reduced in their ability to enter rice plants, but growth in planta was not affected. Reverse transcriptase-polymerase chain reaction analysis demonstrated that CHS7 transcription was strongly induced on germination of spores, and a green fluorescent protein-tagged Chs7p protein was found to be produced abundantly during infection-related morphogenesis. Together, these data suggest that the class VII chitin synthase Chs7p of M. grisea is required for normal appressorium formation and function.