Miguel Hernández‐González scite author profile

Intracellular traffic in Aspergillus nidulans hyphae must cope with the challenges that the high rates of apical extension (1μm/min) and the long intracellular distances (>100 μm) impose. Understanding the ways in which the hyphal tip cell coordinates traffic to meet these challenges is of basic importance, but is also of considerable applied interest, as fungal invasiveness of animals and plants depends critically upon maintaining these high rates of growth. Rapid apical extension requires localization of cell-wall-modifying enzymes to hyphal tips. By combining genetic blocks in different trafficking steps with multidimensional epifluorescence microscopy and quantitative image analyses we demonstrate that polarization of the essential chitin-synthase ChsB occurs by indirect endocytic recycling, involving delivery/exocytosis to apices followed by internalization by the sub-apical endocytic collar of actin patches and subsequent trafficking to TGN cisternae, where it accumulates for ~1 min before being re-delivered to the apex by a RAB11/TRAPPII-dependent pathway. Accordingly, ChsB is stranded at the TGN by Sec7 inactivation but re-polarizes to the apical dome if the block is bypassed by a mutation in geaAgea1 that restores growth in the absence of Sec7. That polarization is independent of RAB5, that ChsB predominates at apex-proximal cisternae, and that upon dynein impairment ChsB is stalled at the tips in an aggregated endosome indicate that endocytosed ChsB traffics to the TGN via sorting endosomes functionally located upstream of the RAB5 domain and that this step requires dynein-mediated basipetal transport. It also requires RAB6 and its effector GARP (Vps51/Vps52/Vps53/Vps54), whose composition we determined by MS/MS following affinity chromatography purification. Ablation of any GARP component diverts ChsB to vacuoles and impairs growth and morphology markedly, emphasizing the important physiological role played by this pathway that, we propose, is central to the hyphal mode of growth.

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GBF/Gea mutant with a single substitution sustains fungal growth in the absence of BIG/Sec7

Arst

Hernández‐González

Peñalva

et al. 2014

FEBS Letters

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Conditional inactivation of Aspergillus nidulans sarA^SAR1 uncovers the morphogenetic potential of regulating endoplasmic reticulum (ER) exit

Hernández‐González

Peñalva

Pantazopoulou

2014

Molecular Microbiology

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SummaryIn 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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Effects of hormonal replacement with androgens and estrogens on male sexual behavior and plasma levels of these steroids in gonadectomized golden hamsters (Mesocricetus auratus)

Arteaga-Silva

Márquez-Villanueva

Martínez‐García³

et al. 2005

Physiology & Behavior

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