Felicitas Fazius (née Schöbel)

Lysine biosynthesis in Aspergillus fumigatus

Lysine is an essential amino acid for humans and must be obtained from the diet. In contrast, fungi, such as Aspergillus fumigatus, are able to synthesise lysine de novo via the alpha-aminoadipate pathway. Deletion of A. fumigatus homoaconitase, a key enzyme of lysine biosynthesis, leads to a strongly attenuated virulence in a murine infection model for bronchopulmonary invasive aspergillosis, making these enzymes interesting targets for new antifungal drugs. However, biochemistry of alpha-aminoadipate pathway enzymes is not well studied and an important catalytic step has not been investigated yet.

Therefore, the following main issues are addressed:
1) Re-evaluation of lysine biosynthesis as antifungal drug target. Deletion of the first key enzyme of lysine biosynthesis, the homocitrate synthase, showed a strongly attenuated virulence in murine infection model for bronchopulmonary invasive aspergillosis. However, this attenuation is less pronounced under lysine supplementation and not observed in a model for disseminated aspergillosis. In agreement, in vitro growth experiments on protein containing media showed a requirement of free lysine for conidia germination, whereas hyphae secrete proteases, which release sufficient lysine from proteins to enable growth. These results indicate that drugs directed against lysine biosynthetic enzymes might only be useful for preventing conidia germination but not for therapy of an already manifested infection.

2) Conversion of homocitrate to homoisocitrate: A reaction solely carried out by the homoaconitase? To elucidate this question the homoaconitase was purified as recombinant enzyme. Interestingly, homoaconitase displayed no activity with homocitrate as substrate, suggesting the involvement of additional, yet unknown, enzymes in this conversion. one candidate is the citric acid cycle Aconitase, but further studies are required to confirm this assumption.

Publications

Fazius F, Zaehle C, Brock M (2013) Lysine biosynthesis in microbes: relevance as drug target and prospects for β-lactam antibiotics production. Appl Microbiol Biotechnol 97(9), 3763-3772. Details PubMed

Fazius F, Shelest E, Gebhardt P, Brock M (2012) The fungal α-aminoadipate pathway for lysine biosynthesis requires two enzymes of the aconitase family for the isomerization of homocitrate to homoisocitrate. Mol Microbiol 86(6), 1508-1530. Details PubMed

Fleck CB, Schöbel F, Brock M (2011) Nutrient acquisition by pathogenic fungi: nutrient availability, pathway regulation, and differences in substrate utilization. Int J Med Microbiol 301(5), 400-407. Details PubMed

Schöbel F, Jacobsen ID, Brock M (2010) Evaluation of lysine biosynthesis as an antifungal drug target: biochemical characterization of Aspergillus fumigatus homocitrate synthase and virulence studies. Eukaryot Cell 9(6), 878-893. Details PubMed

Schöbel F, Ibrahim-Granet O, Avé P, Latgé JP, Brakhage AA, Brock M (2007) Aspergillus fumigatus does not require fatty acid metabolism via isocitrate lyase for development of invasive aspergillosis. Infect Immun 75(3), 1237-1244. Details PubMed

Supervisor

Mattthias Brock

Co-Supervisors

Axel A. Brakhage

Start of PhD

January 1, 2007

Doctoral Disputation

July 5, 2011

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