RT Journal Article SR Electronic(1) A1 Agarwal, Charu A1 Aulakh, Kavita B. A1 Edelen, Kaly A1 Cooper, Michael A1 Wallen, R. Margaret A1 Adams, Seth A1 Schultz, David J. A1 Perlin, Michael H.YR 2013 T1 Ustilago maydis phosphodiesterases play a role in the dimorphic switch and in pathogenicity JF Microbiology, VO 159 IS Pt_5 SP 857 OP 868 DO https://doi.org/10.1099/mic.0.061234-0 PB Microbiology Society, SN 1465-2080, AB Components of the cAMP (cyclic AMP) signalling cascades are conserved from fungi to humans, and are particularly important for fungal dimorphism and pathogenicity. Previous work has described two phosphodiesterases, UmPde1 and UmPde2, in Ustilago maydis which show strong phosphodiesterase activity. We further characterized the biological function(s) of these phosphodiesterases in U. maydis. Specifically, we examined their possible role(s) in regulation of the cAMP-dependent protein kinase A (PKA) pathway and their roles in filamentous growth and pathogenicity. We found that UmPde1, which shares 35 % similarity with Cryptococcus neoformans Pde1, also displays functional homology with this enzyme. UmPde1 complements the capsule-formation defect of C. neoformans strains deleted for Pde1. In U. maydis, the cell morphology of the umpde1 deletion mutant resembled the multiple budding phenotypes seen with the ubc1 mutant, which lacks the regulatory subunit of PKA. Interestingly, on low-ammonium medium, umpde2 deletion strains showed a reduction in filamentation that was comparable to that of ubc1 deletion strains; however, umpde1 deletion strains showed normal filamentation on low-ammonium medium. Furthermore, both the ubc1 deletion strain in which the PKA pathway was constitutively active and the umpde1 deletion strains were significantly reduced in pathogenicity, while the umpde2 deletion strains showed a trend for reduced pathogenicity compared with wild-type strains. These data support a role for the phosphodiesterases UmPde1 and UmPde2 in regulating the U. maydis cAMP-dependent PKA pathway through modulation of cAMP levels, thus affecting dimorphic growth and pathogenicity., UL https://www.microbiologyresearch.org/content/journal/micro/10.1099/mic.0.061234-0