Verticillium dahliae ubiquitin-specific proteases coordinate key developmental processes and pathogenicity
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Ubiquitin is a posttranslational modifier that is conserved among eukaryotes. Ubiquitination alters stability and folding of cellular proteins. Deubiquitinases (DUBs) reverse ubiquitination and often function as part of protein complexes. There are 32 predicted DUB-encoding genes present in the soil-borne phytopathogenic fungus Verticillium dahliae . Nuclear ubiquitin-specific protease 3 (Usp3) is a member of the S pt– A da– G cn5 a cetyltransferase (SAGA) complex, whereas Usp1 is predicted to associate with the C OP9 s ig n alosome (CSN), which controls specificities of cellular E3 ubiquitin ligase activities. A proteomics approach using bio tin capture and id entification (BioID) supports that Usp3 regulates gene expression beyond the transcription level. Western experiments showed a dysregulation in ubiquitinated cellular proteins in corresponding deletion strains. Usp3 and Usp1 are both required for fungal development. They regulate microsclerotia formation based on different environmental cues and provide redundant functions in controlling conidiation. Absence of both corresponding genes resulted in significant impairment of conidiospore formation, which is required for fungal propagation within the plant vascular system. This paralysed spreading ability reduced virulence on tomato plants ( Solanum lycopersicum ). In summary, V. dahliae responds to environmental cues by Usp3- and Usp1-mediated adjustment of gene expression and protein stability. This is important for key developmental processes of the V. dahliae disease cycle and its virulence towards the host plant.
Author summary
Ubiquitination and deubiquitination of proteins enable cells to rapidly react to environmental cues and adjust protein stabilities and subsequently transcriptomic profiles. Usp3 is a nuclear deubiquitinase subunit of the S pt– A da– G cn5 a cetyltransferase (SAGA) transcriptional coactivator complex. Usp1 is predicted to be associated with the COP9 signalosome that regulates substrate specificities of the ubiquitin-proteasome system. BioID experiments suggest that other SAGA complex subunits, histone proteins, spliceosomal proteins, ribosomal proteins, a protein that tackles transcriptionally stalled RNAPII, and a protein that degrades mRNA with premature stop codons locate proximal to Usp3 within the cell. Deletion of USP3 led to the dysregulation of protein ubiquitination. A single deletion of USP1 did not significantly change ubiquitination profiles, however, a double deletion of USP1/3 significantly affected the ubiquitin-proteasome system. The altered ubiquitination profile correlated with a dysregulation of key developmental processes. Microsclerotia formation was decoupled from environmental cues in the Δ USP3 strain, whereas an additional deletion of USP1 reconnected it in a media-dependent manner. USP3 and USP1 contribute to a common governing process in conidiation, and the defect in spreading of the Δ USP1/3 strain is reflected by a significant reduction in plant pathogenicity.
