Class III Chitin Synthase ChsB of Aspergillus nidulans Localizes at the Sites of Polarized Cell Wall Synthesis and Is Required for Conidial Development

Class III chitin synthases play important roles in tip growth and conidiation in many filamentous fungi. However, little is known about their functions in those processes. To address these issues, we characterized the deletion mutant of a class III chitin synthase-encoding gene of Aspergillus nidulans, chsB, and investigated ChsB localization in the hyphae and conidiophores. Multilayered cell walls and intrahyphal hyphae were observed in the hyphae of the chsB deletion mutant, and wavy septa were also occasionally observed. ChsB tagged with FLAG or enhanced green fluorescent protein (EGFP) localized mainly at the tips of germ tubes, hyphal tips, and forming septa during hyphal growth. EGFP-ChsB predominantly localized at polarized growth sites and between vesicles and metulae, between metulae and phialides, and between phalides and conidia in asexual development. These results strongly suggest that ChsB functions in the formation of normal cell walls of hyphae, as well as in conidiophore and conidia development in A. nidulans.Chitin, a polymer of β-1,4-linked N-acetylglucosmine, is one of the major structural components of the fungal cell wall. Its metabolism, including synthesis, degradation, assembly, and cross-linking to other cell wall components, is thought to be very important for many fungi (5, 22, 24, 36, 45). Fungal chitin synthases have been classified into seven groups, classes I to VII, depending on the structures of their conserved regions (6). The genes encoding the synthases belonging to classes III, V, VI, and VII are only found in fungi with high chitin contents in their cell walls. We have identified six chitin synthase genes from Aspergillus nidulans and designated them chsA, chsB, chsC, chsD, csmA, and csmB; these gene products belong to classes II, III, I, IV, V, and VI, respectively (9, 13, 30, 31, 44, 52). The chsB deletion mutant grew very slowly and formed small colonies with highly branched hyphae, suggesting its important role in hyphal tip growth (3, 52). Repression of chsB expression in the deletion mutant of chsA, chsC, or chsD exaggerated the defects in the formation of aerial hyphae, the production of cell mass, or the growth under high-osmolarity conditions, respectively, compared to each single mutant. These results indicate that chsB functions at various stages of development (15, 16).The deletion of class III chitin synthase-encoding genes leads to severe defects in most of the filamentous fungi thus far investigated. However, their detailed functions are currently unknown. In Neurospora crassa, inactivation of the gene encoding Chs-1, a class III chitin synthase with 63% identity to A. nidulans ChsB, leads to slow growth, aberrant hyphal morphology, and a decrease in chitin synthase activity. The mutant of chs-1 became sensitive to Nikkomycin Z, a chitin synthase inhibitor (53). In Aspergillus fumigatus, two genes encoding class III chitin synthases, chsC and chsG, have been identified. Their gene products showed 66 and 89% identity, respectively, to A. nidulans ChsB. The chsG deletion mutant showed slow growth and defects in conidiation, and its hyphae were highly branched. chsC deletion did not cause any phenotypic change. The chsC chsG double deletion mutant showed almost the same phenotype as the chsG single deletion mutant (28). Class III chitin synthases have been reported to be involved in the virulence of some pathogens. Deletion of Bcchs3a in the phytopathogenic fungus Botrytis cinerea and double deletion of WdCHS3 and class I chitin synthase WdCHS2 in the human pathogen Wangiella dermatitidis both caused a reduction of virulence (40, 48). On the other hand, the deletion mutant of a class III chitin synthase-encoding gene, CgChsIII, of the maize pathogen Colletotrichum graminicola did not exhibit the significant phenotypic difference from the wild-type strain (50). Deletion of a gene, chs1, encoding a class III chitin synthase of the maize pathogenic dimorphic fungi Ustilago maydis caused minor defects in the growth of haploid yeastlike cells and conjugation tube formation (49). These results indicate that the functions of class III chitin synthases has evolutionally diverged.In the present study, we characterized the cytological defects of the A. nidulans chsB deletion mutant and investigated the localization of ChsB using FLAG- or enhanced green fluorescent protein (EGFP)-tagged ChsB. We reveal that the deletion mutant formed hyphae with aberrant cell wall structures and that ChsB tagged with EGFP primarily localized at polarized growth sites during germination, hyphal growth, septation, and conidiation. These findings suggest that ChsB functions at the polarized growth sites and forming septa during the hyphal growth and conidia development.