Capsule enlargement in C neoformans requires extracellular deliv

Capsule enlargement in C. neoformans requires extracellular deliverance of GXM, which is further incorporated into the fungal cell surface to promote distal capsular growth (reviewed in Zaragoza et al., 2009). The subsequent self-aggregation of polysaccharide molecules occurs by mechanisms that putatively require divalent cations, such as calcium II (Nimrichter et al., 2007). The inhibitory activity of microplusin on capsular

enlargement could be due to the interference with aggregation of the building blocks through metal chelation, thereby affecting the correct polysaccharide capsule assembly. However, based on our mass spectrometry analysis, microplusin does not bind calcium II (Silva et al., 2009). Thus, its effect on capsule enlargement GDC-0980 ic50 Selleckchem Dasatinib most likely results from inhibition of one or more metabolic processes dependent on enzymes that requires copper as a cofactor. Notably, the Δvph1 mutant also had aberrant capsular production (Li & Kaplan,

1998; Erickson et al., 2001). In conclusion, microplusin showed a noteworthy fungistatic activity in vitro against C. neoformans. We demonstrate that this effect may be related to its inhibitory effect on the classical respiratory pathway of C. neoformans. Microplusin also affected the two most important virulence factors of this mycopathogen: the melanization process and the formation of a polysaccharide capsule. These findings are particularly relevant for determining the utility of copper-chelator compounds, like microplusin as a therapeutic for cryptococcosis.

However, studies in vivo are Oxymatrine crucial to corroborate the efficiency of this peptide or other metal chelators for combating C. neoformans. S.D. is supported by grants from Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) and Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq); M.L.R. is supported by CNPq, Fundação de Amparo à Pesquisa do Estado do Rio de Janeiro (FAPERJ) and Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES); J.D.N. is supported in part by RO1 AI52733 and by the Einstein-Montefiore CFAR (NIH AI-51519). L.R.M. gratefully acknowledges support from Long Island University. We are grateful to Susana P. Lima for technical assistance and Cassiano Pereira for figure preparation. “
“Adherent growth of Pseudomonas putida KT2440 with and without the TOL plasmid (pWWO) at the solid–liquid and air–liquid interface was examined. We compared biofilm formation on glass in flow cells, and assayed pellicle (air–liquid interface biofilm) formation in stagnant liquid cultures by confocal laser scanning microscopy. The TOL-carrying strains formed pellicles and thick biofilms, whereas the same strains without the plasmid displayed little adherent growth. Microscopy using fluorescent nucleic acid-specific stains revealed differences in the production of extracellular polymeric substances: TOL carriage leads to more extracellular DNA (eDNA) in pellicles and biofilms.

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