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A strain-specific metabolic role for the UDP-glucose 4-epimerase Uge3 in Aspergillus fumigatus virulence

Kordana, N.; Johnson, A.; Puerner, C.; Jones, J. T.; Kowalski, C. H.; Quinn, K. G.; Liu, K.-W.; Le Mauff, F.; Cramer, R. A.

2026-06-17 microbiology
10.64898/2026.06.17.732805 bioRxiv
Show abstract

Expression of a fungal-specific sub-telomeric gene, hrmA, in Aspergillus fumigatus is important for a colony biofilm morphology termed H-MORPH, increased hypoxic fitness, and virulence in a murine model of invasive pulmonary aspergillosis (IPA). How expression of hrmA contributes to virulence and worse disease progression is ill-defined. Increased hrmA expression results in reduced attachment of the extracellular matrix (ECM) to the fungal cell wall resulting in decreased strain adherence. Fungal strains that are less adherent in vitro are typically less virulent as the ECM heteropolysaccharide galactosaminogalactan (GAG) aids in adhesion to host cells and confers protection from host responses. Here we report that the UDP-glucose 4-epimerase encoding gene required for GAG biosynthesis, uge3, is necessary for full virulence of the H-MORPH strain, hrmAREV (AF293::hrmAD304G). In contrast, loss of uge3 in the reference strain AF293 did not significantly impact virulence in the tested IPA murine model. Phenotypic, transcriptomic, and metabolic analyses of uge3 loss in the respective strain backgrounds revealed a key role for Uge3 in central carbon metabolism in a strain specific context that promotes disease progression. These results complement the known role of Uge3 in GAG biosynthesis and highlight strain specific metabolic differences in pathogenic A. fumigatus strains. IMPORTANCEAspergillus fumigatus forms adherent biofilms that contribute to its ability to persist and cause disease. However, significant strain diversity exists with regard to the morphology of A. fumigatus biofilms. A distinct colony morphotype associated with increased disease progression and low oxygen fitness, termed H-MORPH, was recently described. An additional defining feature of the H-MORPH biofilm morphotype is reduced in vitro adherence to surfaces. While reduced fungal strain adherence is most commonly associated with reductions in virulence, H-MORPH strains exhibit increased virulence relative to the well-studied N-MORPH reference strain AF293. Here we discover that the UDP-glucose 4-epimerase, Uge3, plays an important role in H-MORPH central carbon metabolism complementary to its role in production of the extracellular matrix polysaccharide galactosaminogalactan (GAG). In H-MORPH strains, this metabolic role for Uge3 becomes central to virulence. These data highlight A. fumigatus strain specific mechanisms of fungal carbon metabolism related to biofilm matrix production and fungal virulence.

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