Abstract
Analysis of the Ashbya gossypii Wiskott-Aldrich syndrome-like gene AgWAL1 indicates that it is required for the maintenance of polarized hyphal growth. Growth and organelle dynamics of the wild type and of wal1 and other mutant strains were monitored by in vivo (fluorescence) time-lapse microscopy. Loss of WAL1 led to slow growth and defects in polarized growth that produced swellings in subapical regions, whereas formation of hyphal tips and dichotomous tip branching occurred as in the wild-type. Few actin cables in Agwal1 cells were found to insert into the hyphal tip, but specific clustering of cortical actin patches was observed in subapical regions of hyphal tips instead of at the hyphal apex. Distribution and movement of vacuoles was observed in vivo using FM4-64. In the wild type and in the slowly growing mutant strains bem2 and cla4, which lack a Rho-GTPase-activating protein and a PAK kinase, respectively, early endosomes appeared in the hyphal tip, whereas very few early endosomes and small vacuoles were found in the wal1 mutant hyphal tips, thus linking the cortical patch defect of wal1 hyphae with the distribution of endosomes. Vivid movement of vacuoles seen in the wild type and in the bem2 mutant in subapical regions was largely reduced in the wal1 and cla4 mutants. The tubular structure of mitochondria (as visualized by DIOC6 in vivo) was similar in the wild type and the wal1 mutant, although wal1 mitochondria appeared to be larger. Interestingly, mitochondria were found to insert into the hyphal tips in both strains. Our results indicate a function for Wal1p in filamentous fungi in coordinating actin patch distribution with polarized hyphal tip growth.
Highlights
The dynamic reorganization of the actin cytoskeleton is essential for cell polarization, morphogenesis, the distribution of organelles and cytokinesis (Drubin and Nelson, 1996)
Analysis of the Ashbya gossypii Wiskott-Aldrich syndromelike gene AgWAL1 indicates that it is required for the maintenance of polarized hyphal growth
Few actin cables in Agwal1 cells were found to insert into the hyphal tip, but specific clustering of cortical actin patches was observed in subapical regions of hyphal tips instead of at the hyphal apex
Summary
The dynamic reorganization of the actin cytoskeleton is essential for cell polarization, morphogenesis, the distribution of organelles and cytokinesis (Drubin and Nelson, 1996). Rho-GTPases relay spatial and temporal information to effector proteins and are able to integrate multiple signalling inputs with the state of actin cytoskeletal organization (Schmidt and Hall, 1998). Among these effectors are multidomain adaptor proteins, such as members of the Formin, PAK (p21-activated kinase) and WASP (Wiskott-Aldrich syndrome protein) families, that can act as scaffolds (Frazier and Field, 1997; Ramesh et al, 1999; Mullins, 2000; Pollard et al, 2001; Sharpless and Harris, 2002; Wild et al, 2004). The S. cerevisiae formin Bni1p, which is activated by Cdc42p, has recently been shown to play a central role in the nucleation of actin cables, which is achieved in an Arp2/3 independent manner (Evangelista et al, 2002; Pruyne et al, 2002; Sagot et al, 2002; Evangelista et al, 2003)
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