Simple procedures using FM4-64 to follow membrane internalization and transport to the vacuolar system and endomembranes in
Aspergillus nidulans are described. FM4-64 internalization is energy, ...temperature and F-actin dependent, strongly suggesting that it occurs by endocytosis. The dye sequentially labels: (i) cortical punctuate organelles whose motility resembles that of yeast actin patches; (ii) ∼0.7
μm circular, hollow structures representing mature endosome/vacuole; and (iii) intermediate and large (2–3
μm in diameter) size vacuoles whose lumen is strongly labeled with 5-(and-6)-carboxy-2′,7′-dichlorofluorescein diacetate (CDCFDA). These large vacuoles possibly correspond to the final stage of one branch of the endocytic pathway. In addition, FM4-64 labels strongly the mitochondrial network and weakly the nuclear membrane. A class of cytoplasmic punctuate organelles which become fluorescent very shortly after dye loading and that can move in either apical or basal direction at an average rate of 2–3
μm
s
−1 is also described. This work provides a useful framework for the phenotypic characterization of
A. nidulans mutants affected in endocytosis.
Activation of the Aspergillus nidulans transcription factor PacC, which mediates ambient pH regulation of gene expression and is recruited to ESCRT-III by the Vps32-interacting scaffold PalA, ...involves its ambient pH-dependent C-terminal proteolysis. This reaction is almost certainly catalyzed by the PalB calpain-like protease. Here we show that PalB associates with membranes and interacts specifically and directly with ESCRT-III Vps24. The PalB N-terminal MIT domain and the Vps24 C-terminal MIM motif are necessary and sufficient for this interaction. PalBΔMIT, a mutant PalB lacking the MIT domain is inefficiently recruited to membranes and impaired in PacC proteolytic processing. Notably, membrane recruitment is promoted and PacC processing largely restored by covalent attachment of Vps24 to mutant PalBΔMIT. This is the first reported evidence that calpain-like recruitment to ESCRT-III lattices plays a physiological role. It unambiguously positions the calpain-like protease PalB within the ESCRT-III-associated pH signaling complex, underlines the positive role of ESCRT-III in ambient pH signal transduction, and suggests a possible mechanism for PalB activation.
Summary
The pal/RIM ambient pH signalling pathway is crucial for the ability of pathogenic fungi to infect hosts. The Aspergillus nidulans 7‐TMD receptor PalH senses alkaline pH, subsequently ...facilitating ubiquitination of the arrestin PalF. Ubiquitinated PalF triggers downstream signalling events. The mechanism(s) by which PalH transduces the alkaline pH signal to PalF is poorly understood. We show that PalH is phosphorylated in a signal dependent manner, resembling mammalian GPCRs, although PalH phosphorylation, in contrast to mammalian GPCRs, is arrestin dependent. A genetic screen revealed that an ambient‐exposed region comprising the extracellular loop connecting TM4‐TM5 and ambient‐proximal residues within TM5 is required for signalling. In contrast, substitution by alanines of four aromatic residues within TM6 and TM7 results in a weak ‘constitutive’ activation of the pathway. Our data support the hypothesis that PalH mechanistically resembles mammalian GPCRs that signal via arrestins, such that the relative positions of individual helices within the heptahelical bundle determines the Pro316‐dependent transition between inactive and active PalH conformations, governed by an ambient‐exposed region including critical Tyr259 that potentially represents an agonist binding site. These findings open the possibility of screening for agonist compounds stabilizing the inactive conformation of PalH, which might act as antifungal drugs against ascomycetes.
Fungi colonize environments with different values of pH by adapting their patterns of gene expression to the needs imposed by ambient pH. pH regulation is important for fungal pathogenicity, but therapeutically useful drugs targeting the pH signalling pathway are yet to be developed. We show that the ascomycete ambient pH receptor PalH resembles a major class of mammalian receptors, denoted GPCRs. Thus our data pave the way for the identification of specific inhibitors of the ambient pH receptor for antifungal intervention.
We have investigated the target and mechanism of action of a new family of cytotoxic small molecules of marine origin. PM050489 and its dechlorinated analogue PM060184 inhibit the growth of relevant ...cancer cell lines at subnanomolar concentrations. We found that they are highly potent microtubule inhibitors that impair mitosis with a distinct molecular mechanism. They bind with nanomolar affinity to unassembled αβ-tubulin dimers, and PM050489 binding is inhibited by known Vinca domain ligands. NMR TR-NOESY data indicated that a hydroxyl-containing analogue, PM060327, binds in an extended conformation, and STD results define its binding epitopes. Distinctly from vinblastine, these ligands only weakly induce tubulin self-association, in a manner more reminiscent of isohomohalichondrin B than of eribulin. PM050489, possibly acting like a hinge at the association interface between tubulin heterodimers, reshapes Mg2+-induced 42 S tubulin double rings into smaller 19 S single rings made of 7 ± 1 αβ-tubulin dimers. PM060184-resistant mutants of Aspergillus nidulans map to β-tubulin Asn100, suggesting a new binding site different from that of vinblastine at the associating β-tubulin end. Inhibition of assembly dynamics by a few ligand molecules at the microtubule plus end would explain the antitumor activity of these compounds, of which PM060184 is undergoing clinical trials.
The mechanisms governing traffic across the Golgi are incompletely understood. We studied, by live-cell microscopy, the consequences of disorganizing the Aspergillus nidulansGolgi, using an extended ...set of fluorescent protein markers to resolve early from late cisternae. The early Golgi syntaxin SedVSed5 and the RabORab1 regulatory GTPaseplay essential roles in secretion, cooperating in the ER-Golgi interface. Following a temperature shift-up 'on-the-stage', hyphae carrying engineered sedVR258G and rabOA136Dtsmutations arrest polarized growth. This arrest correlates with overall Golgi disorganization and characteristic hyphal tip swelling. Using v-SNARE SynA as reporter, we show that the sedVR258G phenotypes correlate with arrested secretion. Both the morphogenetic defect and the secretory deficit are reversible. Thus downregulation of secretion, like that of endocytosis, has morphogenetic consequences, implying that mechanisms tuning the secretory pathway might be involved in developmental processes. According to the cisternal maturation model, acute impairment of traffic in the ER-Golgi interface should lead to disorganization of both the early and the late Golgi cisternae. Thus, the relatively rapid late Golgi disorganization observed upon shifting ER-Golgi interface mutants to the restrictive temperature seems incompatible with an A. nidulansGolgi network organized on the basis of stable early and late compartments, supporting instead cisternal maturation.
Aspergillus nidulans (Pal) ambient pH signaling takes place in cortical structures containing components of the ESCRT pathway, which are hijacked by the alkaline pH-activated, ubiquitin-modified ...version of the arrestin-like protein PalF and taken to the plasma membrane. There, ESCRTs scaffold the assembly of dedicated Pal proteins acting downstream. The molecular details of this pathway, which results in the two-step proteolytic processing of the transcription factor PacC, have received considerable attention due to the key role that it plays in fungal pathogenicity. While current evidence strongly indicates that the pH signaling role of ESCRT complexes is limited to plasma membrane-associated structures where PacC proteolysis would take place, the localization of the PalB protease, which almost certainly catalyzes the first and only pH-regulated proteolytic step, had not been investigated. In view of ESCRT participation, this formally leaves open the possibility that PalB activation requires endocytic internalization. As endocytosis is essential for hyphal growth, nonlethal endocytic mutations are predicted to cause an incomplete block. We used a SynA internalization assay to measure the extent to which any given mutation prevents endocytosis. We show that none of the tested mutations impairing endocytosis to different degrees, including slaB1, conditionally causing a complete block, have any effect on the activation of the pathway. We further show that PalB, like PalA and PalC, localizes to cortical structures in an alkaline pH-dependent manner. Therefore, signaling through the Pal pathway does not involve endocytosis.
Metazoan arrestins bind to seven-transmembrane (7TM) receptors to regulate function. Aspergillus nidulans PalF, a protein involved in the fungal ambient pH signaling pathway, contains arrestin ...N-terminal and C-terminal domains and binds strongly to two different regions within the C-terminal cytoplasmic tail of the 7TM, putative pH sensor PalH. Upon exposure to alkaline ambient pH, PalF is phosphorylated and, like mammalian β-arrestins, ubiquitinated in a signal-dependent and 7TM protein-dependent manner. Substitution in PalF of a highly conserved arrestin N-terminal domain Ser residue prevents PalF-PalH interaction and pH signaling in vivo. Thus, PalF is the first experimentally documented fungal arrestin-related protein, dispelling the notion that arrestins are restricted to animal proteomes. Epistasis analyses demonstrate that PalF posttranslational modification is partially dependent on the 4TM protein Pall but independent of the remaining pH signal transduction pathway proteins PalA, PalB, and PalC, yielding experimental evidence bearing on the order of participation of the six components of the pH signal transduction pathway. Our data strongly implicate PalH as an ambient pH sensor, possibly with the cooperation of PalI.
In the genetic model Aspergillus nidulans, hyphal growth is exquisitely dependent on exocytic traffic. Following mutagenic PCR and gene replacement, we characterized thermosensitive mutations in ...sarA(SAR1) encoding a key regulator of endoplasmic reticulum (ER) exit. Six sarA(ts) alleles permitting relatively normal growth at 30°C prevented it at 42°C. This growth phenotype correlated with markedly reduced SarA levels at high temperature, suggesting that these alleles cause temperature-dependent SarA misfolding. sarA8 results in Ser substitution for conserved P-loop Gly27. sarA5 (Trp185Cys) and sarA6 (Ser186Pro) substitutions underscore the importance of the C-terminal α-helix on SarA(Sar1) function/stability. sarA6 markedly diminishing growth at 37°C was useful for microscopy experiments in which ER exit was impaired by shifting the incubation temperature. Early and late Golgi cisternae, labeled with the integral membrane syntaxins SedV(Sed5) and TlgB(Tlg2) , respectively, were rapidly dissipated by sarA6. However, whereas SedV(Sed5) was shifted toward the ER, TlgB(Tlg2) relocalized to a haze, underscoring the asymmetry of Golgi organization. This rapid Golgi dissipation that takes place after blocking anterograde COPII traffic is consistent with the cisternal maturation model. Incubation of sarA6 cells at 37°C led to the formation of apical balloons resembling specialized fungal structures. The formation of these balloons highlights the morphogenetic consequences of impairing ER exit.
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