Transcription relative levels analysis of Aspergillus fumigatus antioxidant and electrons transport chain genes

Aspergillus fumigatus is an opportunistic fungus which has been referred to as a major cause of morbidity and mortality in imunosupressed patients affected with invasive aspergillosis. The antioxidant defense system of the fungus plays an important role in its pathogenicity by overcoming the negative effects of the oxygen reactive species produced by host. This work aims evaluating the transcription of genes associated to mitochondrial and antioxidant proteins in the presence of different prooxidants for hyphae and germinants of control (CEA17) and alternative oxidase knockout (?aoxA) strains. Using qPCR, 23 genes have been analyzed, 5 of which are electron transport chain (ETC), 4 are related to alternative components of the mitochondria, and 14 are associated to antioxidant proteins. The results were obtained via normalization with the constitutive gene gapdh using untreated CEA17 strain in each developmental phase as calibrator. The differences in the transcription of most analyzed genes varied with the prooxidant and the developmental phase (germinants and hyphae). The ETC in germinants presented higher amounts of transcripts of the complex II and III in CEA17 than in ?aoxA treated with menadione. With other complexes and the atpase no significant difference has been noted between both strains. However, the transcript levels of ATP synthase were not higher than control in any strain, which is related to its regulation in the presence of UCP. UCP-like had increased transcription in mutant, suggesting uncoupling from the ETC, relative to control and CEA17, which showed high levels of nde. In this strain, aoxA and ucp-like transcripts were not significantly different. This fact associated the lower levels of ndiA and transcripts of the complexes I and II suggest the maintenance of the electron flow in the mitochondria. Concerning the antioxidant enzymes, there was significant increase in the transcript production of cat2, catA, prx1, Ttrx1 and Ggrx1, suggesting a response to the absence of AOX. The ETC transcripts in hyphae did not present significant difference in the levels of complex III and atpase in CEA17 and ?aoxA. Yet the complex IV has shown higher in mutant than in CEA17. In this developmental phase, the increase of ucp-like is related to the treatment with menadione and not with the presence of aoxA, what explains the equivalent amount of transcripts in CEA17 and ?aoxA. The levels of nde suggest coordinated action of the protein with AOX, because it is modulated by the presence of aoxA. The role of Nde and AOX in the detoxification of reactive oxygen species is suggested by their high levels of transcripts in hyphae treated with menadione. Different from germinants, transcripts of sod3 was predominant in CEA17 hyphae, whereas transcripts of sod2 were higher for ?aoxA. Among catalases, levels of catA were higher in mutant, as was the activity of catalase as a whole. prx1 and trx1 transcripts were higher in CEA17 and grx1 in ?aoxA. Yet, trx1 reached the highest levels of transcripts in germinants, indicating a possible reduction of thiol proteins and ribonucleotides through different ways, according to the developmental phase of the fungus. The classical antioxidant enzymes, as superoxide dismutase, catalase and thiol enzymes showed increase in the transcripts in most of the analyzed situations. iv However, menadione and paraquat promoted higher variation in the transcripts than that observed with hydrogen peroxide generated by the system glucose/glucose oxidase. (AU)