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Azole resistance of Aspergillus fumigatus biofilms is partly associated with efflux pump activity.

Rajendran, Ranjith; Mowat, Eilidh; McCulloch, Elaine; Lappin, David F; Jones, Brian; Lang, Sue; Majithiya, Jayesh B; Warn, Peter; Williams, Craig; Ramage, Gordon.
Antimicrob Agents Chemother; 55(5): 2092-7, 2011 May.
Artigo em Inglês | MEDLINE | ID: mdl-21321135
This study investigated the phase-dependent expression and activity of efflux pumps in Aspergillus fumigatus treated with voriconazole. Fourteen strains were shown to become increasingly resistant in the 12-h (16- to 128-fold) and 24-h (>512-fold) phases compared to 8-h germlings. An Ala-Nap uptake assay demonstrated a significant increase in efflux pump activity in the 12-h and 24-h phases (P<0.0001). The efflux pump activity of the 8-h germling cells was also significantly induced by voriconazole (P<0.001) after 24 h of treatment. Inhibition of efflux pump activity with the competitive substrate MC-207,110 reduced the voriconazole MIC values for the A. fumigatus germling cells by 2- to 8-fold. Quantitative expression analysis of AfuMDR4 mRNA transcripts showed a phase-dependent increase as the mycelial complexity increased, which was coincidental with a strain-dependent increase in azole resistance. Voriconazole also significantly induced this in a time-dependent manner (P<0.001). Finally, an in vivo mouse biofilm model was used to evaluate efflux pump expression, and it was shown that AfuMDR4 was constitutively expressed and significantly induced by treatment with voriconazole after 24 h (P<0.01). Our results demonstrate that efflux pumps are expressed in complex A. fumigatus biofilm populations and that this contributes to azole resistance. Moreover, voriconazole treatment induces efflux pump expression. Collectively, these data may provide evidence for azole treatment failures in clinical cases of aspergillosis.
Selo DaSilva