Paracoccidoides brasiliensis and Paracoccidioides lutzii, the etiologic agents of paracoccidioidomycosis, cause disease in healthy and immunocompromised persons in Latin America. We developed a method for harvesting P. brasiliensis yeast cells from infected murine lung to facilitate in vivo transcriptional and proteomic profiling. P. brasiliensis harvested at 6 h post-infection were analyzed using RNAseq and LC-MSE. In vivo yeast cells had 594 differentially expressed transcripts and 350 differentially expressed proteins. Integration of transcriptional and proteomic data indicated that early in infection (6 h), P. brasiliensis yeast cells underwent a shift in metabolism from glycolysis to β-oxidation, upregulated detoxifying enzymes to defend against oxidative stress, and repressed cell wall biosynthesis. Bioinformatics and functional analyses also demonstrated that a serine proteinase was upregulated and secreted in vivo. To our knowledge this is the first study depicting transcriptional and proteomic data of P. brasiliensis yeast cells upon 6 h post-infection of mouse lung.
Iron is an essential nutrient for all organisms. For pathogenic fungi, iron is essential for the success of infection. Thus, these organisms have developed high affinity iron uptake mechanisms to deal with metal deprivation imposed by the host. Siderophore production is one of the mechanisms that fungal pathogens employ for iron acquisition. Paracoccidioides spp. present orthologous genes encoding the enzymes necessary for the biosynthesis of hydroxamates, and plasma membrane proteins related to the transport of these molecules. All these genes are induced in iron deprivation. In addition, it has been observed that Paracoccidioides spp. are able to use siderophores to scavenge iron. Here we observed that addition of the xenosiderophore ferrioxamine B FOB) to P. brasiliensis culture medium results in repression (at RNA and protein levels) of the SidA, the first enzyme of the siderophore biosynthesis pathway. Furthermore, SidA activity was reduced in the presence of FOB, suggesting that P. brasiliensis blocks siderophores biosynthesis and can explore siderophores in the environment to scavenge iron. In order to support the importance of siderophores on Paracoccidioides sp. life and infection cycle, silenced mutants for the sidA gene were obtained by antisense RNA technology. The obtained AsSidA strains displayed decreased siderophore biosynthesis in iron deprivation conditions and reduced virulence to an invertebrate model.
Carbonic anhydrases (CA) belong to the family of zinc metalloenzymes that catalyze
the reversible hydration of carbon dioxide to bicarbonate. In the present work, we
characterized the cDNAs of four Paracoccidioides CAs (CA1, CA2, CA3,
and CA4). In the presence of CO2, there was not a significant increase in
fungal ca1, ca2 and ca4 gene
expression. The ca1 transcript was induced during the
mycelium-to-yeast transition, while ca2 and ca4
gene expression was much higher in yeast cells, when compared to mycelium and
mycelium-to-yeast transition. The ca1 transcript was induced in
yeast cells recovered directly from liver and spleen of infected mice, while
transcripts for ca2 and ca4 were down-regulated.
Recombinant CA1 (rCA1) and CA4 (rCA4), with 33 kDa and 32 kDa respectively, were
obtained from bacteria. The enzymes rCA1 (β-class) and rCA4 (α-class) were
characterized regarding pH, temperature, ions and amino acids addition influence.
Both enzymes were stable at pHs 7.5-8.5 and temperatures of 30-35 °C. The enzymes
were dramatically inhibited by Hg+2 and activated by Zn+2,
while only rCA4 was stimulated by Fe2+. Among the amino acids tested (all
in L configuration), arginine, lysine, tryptophan and histidine enhanced residual
activity of rCA1 and rCA4.
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