Role of Arf-like proteins (Arl1 and Arl2) of Mucor circinelloides in virulence and antifungal susceptibility

•Two Arf-like proteins are encoded in the genome of M. circinelloides.•Arl1 and Arl2 share 55% sequence identity with different expression profiles.•Arl1 is essential for M. circinelloides growth.•Arl1 and Arl2 dysfunction led to mislocalization of vesicles in the hyphae.•Arl1 is important for sporu...

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Published in:	Fungal genetics and biology Vol. 129; pp. 40 - 51
Main Authors:	Patiño-Medina, J. Alberto, Valle-Maldonado, Marco I., Maldonado-Herrera, Guadalupe, Pérez-Arques, Carlos, Jácome-Galarza, Irvin E., Díaz-Pérez, César, Díaz-Pérez, Alma L., Araiza-Cervantes, Carlos A., Villagomez-Castro, Julio C., Campos-García, Jesús, Ramírez-Díaz, Martha I., Garre, Victoriano, Meza-Carmen, Víctor
Format:	Journal Article
Language:	English
Published:	United States Elsevier Inc 01-08-2019
Subjects:	ADP-ribosylation factor Antifungal Antifungal Agents - pharmacology Arl proteins Fungal Proteins - genetics Genotype Mucor - drug effects Mucor - genetics Mucor - pathogenicity Mucor circinelloides Mutation Phylogeny Protein Transport Spores, Fungal - pathogenicity Vesicle trafficking Vesicular Transport Proteins - genetics Virulence ADP-ribosylation factor Antifungal Vesicle trafficking Virulence Arl proteins Mucor circinelloides
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Summary:	•Two Arf-like proteins are encoded in the genome of M. circinelloides.•Arl1 and Arl2 share 55% sequence identity with different expression profiles.•Arl1 is essential for M. circinelloides growth.•Arl1 and Arl2 dysfunction led to mislocalization of vesicles in the hyphae.•Arl1 is important for sporulation, virulence, and resistance to antifungal agents. Mucor circinelloides is an etiologic agent of mucormycosis, a fungal infection produced by Mucorales often associated with mortality due to unavailability of antifungal drugs. Arl proteins belong to the Arf family and are involved in vesicle trafficking and tubulin assembly. This study identified two Arl (Arf-like)-encoding genes, arl1 and arl2, in M. circinelloides and explored their function in morphogenesis, virulence, and antifungal susceptibility. Although Arl1 and Arl2 proteins shared 55% amino acid sequence identity, arl1 and arl2 genes showed distinct transcriptional expression patterns. arl1 was expressed at higher levels than arl2 and induced in mycelia, suggesting a role in morphological transitions. Disruption of the arl1 and arl2 genes led to heterokaryon (Δarl1(+)(−)) and homokaryon (Δarl2) genotypes, respectively. The incapacity to generate homokaryon mutants for arl1 suggested that it is essential for growth of M. circinelloides. Deletion of each gene reduced the expression of the other, suggesting the existence of a positive cross-regulation between them. Thus, deletion of arl2 resulted in a ~60% reduction of arl1 expression, whereas the Δarl1(+)(−) showed ∼90% reduction of arl1 expression. Mutation of arl2 showed no phenotype or a mild phenotype between Δarl1(+)(−) and wild-type (WT), suggesting that all observed phenotypes in both mutant strains corresponded to arl1 low expression. The Δarl1(+)(−) produced a small amount of spores that showed increased sensitivity to dodecyl-sulfate and azoles, suggesting a defect in the cell wall that was further supported by decrease in saccharide content. These defects in the cell wall were possibly originated by abnormal vesicle trafficking since FM4-64 staining of both mutants Δarl1(+)(−) and Δarl2 revealed less well-localized endosomes compared to the WT. Moreover, aberrant vesicle trafficking may be responsible for the secretion of specific virulence-related proteins since cell-free medium from Δarl1(+)(−) were found to increase killing of Caenorhabditis elegans compared to WT.
Bibliography:	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23
ISSN:	1087-1845 1096-0937
DOI:	10.1016/j.fgb.2019.04.011