The Fungal Cell-Wall Integrity MAPK Cascade Is Crucial for Hyphal Network Formation and Maintenance of Restrictive Growth of Epichloë festucae in Symbiosis With Lolium perenne.

Epichloë festucae is a mutualistic symbiont that systemically colonizes the intercellular spaces of Lolium perenne leaves to form a highly structured and interconnected hyphal network. In an Agrobacterium tumefaciens T-DNA forward genetic screen, we identified a mutant TM1066 that had a severe host interaction phenotype, causing stunting and premature senescence of the host. Molecular analysis revealed that the mutation responsible for this phenotype was in the cell-wall integrity (CWI) mitogen-activated protein kinase kinase (MAPKK), mkkA. Mutants generated by targeted deletion of the mkkA or the downstream mpkA kinase recapitulated the phenotypes observed for TM1066. Both mutants were defective in hyphal cell­cell fusion, formed intrahyphal hyphae, had enhanced conidiation, and showed microcyclic conidiation. Transmission electron microscopy and confocal microscopy analysis of leaf tissue showed that mutant hyphae were more abundant than the wild type in the intercellular spaces and colonized the vascular bundles. Hyphal branches failed to fuse but, instead, grew past one another to form bundles of convoluted hyphae. Mutant hyphae showed increased fluorescence with AF488-WGA, indicative of increased accessibility of chitin, a hypothesis supported by changes in the cell-wall ultrastructure. These results show that the CWI MAPK pathway is a key signaling pathway for controlling the mutualistic symbiotic interaction between E. festucae and L. perenne.

Patterns of expression of a lolitrem biosynthetic gene in the Epichloë festucae-perennial ryegrass symbiosis.

Lolitrem B is synthesized by Epichloë festucae in associations with Pooid grasses. A complex cluster of at least 10 genes (ltm genes) is required for its synthesis. An early step in this pathway is catalyzed by ltmM, a symbiosis-expressed gene. PltmM-gusA reporter gene analysis was used to monitor ltmM gene expression patterns in planta. The minimum promoter length required for high-level gusA expression in infected seedlings is in the range of 480 to 782 bp. gusA was expressed by the endophyte in all infected vegetative plant tissues and in epiphyllous hyphae. Spikelets from reproductive tillers were analyzed at different developmental stages. During pre-anthesis, gusA expression was observed in all infected floral organs except the immature gynoecium. In post-anthesis florets, gene expression occurred almost exclusively in the gynoecium. Expression of gusA by the endophyte was observed in germinating seeds 24 h postimbibition and seedlings older than 6 days postimbibition in hyphae from the mesocotyl to the tip of the emerging first leaf. This work provides a detailed analysis of the spatial and temporal expression patterns of a symbiosis-expressed gene in planta.

Functional analysis of a beta-1,6-glucanase gene from the grass endophytic fungus Epichloë festucae.

beta-1,6-glucanases degrade the polysaccharide beta-1,6-glucan, a cell wall component in some filamentous fungi. A single copy of a beta-1,6-glucanase gene, designated gcnA, was identified in each of the grass endophytic fungi Neotyphodium lolii and Epichloë festucae. Phylogenetic analysis indicates that the GcnA protein is a member of glycosyl hydrolase family 5, and is closely related to fungal beta-1,6-glucanases implicated in mycoparasitism. The E. festucae gcnA gene was expressed in mycelium grown in culture and in both vegetative and reproductive tissues of perennial ryegrass. A gcnA replacement mutant had reduced beta-1,6-glucanase activity when grown in media containing pustulan as the major carbon source. beta-1,6-glucanase activity was restored in the replacement mutant by introducing multiple copies of the gcnA gene. Growth of DeltagcnA and gcnA-overexpressing strains in vegetative grass tissues was indistinguishable from wild type strains.