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Chemoenzymatic Synthesis, Nanotization, and Anti-Aspergillus Activity of Optically Enriched Fluconazole Analogues.

Shashwat MalhotraSeema SinghNeha RanaShilpi TomarPriyanka BhatnagarMohit GuptaSuraj K SinghBrajendra K SinghAnil K ChhillarAshok K PrasadChristophe LenPradeep KumarKailash C GuptaAnjani J VarmaRamesh C KuhadGainda L SharmaVirinder S ParmarNigel G J Richards
Published in: Antimicrobial agents and chemotherapy (2017)
Despite recent advances in diagnostic and therapeutic methods in antifungal research, aspergillosis still remains a leading cause of morbidity and mortality. One strategy to address this problem is to enhance the activity spectrum of known antifungals, and we now report the first successful application of Candida antarctica lipase (CAL) for the preparation of optically enriched fluconazole analogues. Anti-Aspergillus activity was observed for an optically enriched derivative, (-)-S-2-(2',4'-difluorophenyl)-1-hexyl-amino-3-(1‴,2‴,4‴)triazol-1‴-yl-propan-2-ol, which exhibits MIC values of 15.6 μg/ml and 7.8 μg/disc in broth microdilution and disc diffusion assays, respectively. This compound is tolerated by mammalian erythrocytes and cell lines (A549 and U87) at concentrations of up to 1,000 μg/ml. When incorporated into dextran nanoparticles, the novel, optically enriched fluconazole analogue exhibited improved antifungal activity against Aspergillus fumigatus (MIC, 1.63 μg/ml). These results not only demonstrate the ability of biocatalytic approaches to yield novel, optically enriched fluconazole derivatives but also suggest that enantiomerically pure fluconazole derivatives, and their nanotized counterparts, exhibiting anti-Aspergillus activity may have reduced toxicity.
Keyphrases
  • candida albicans
  • biofilm formation
  • mass spectrometry
  • structure activity relationship
  • high throughput
  • cell wall
  • simultaneous determination
  • molecularly imprinted
  • liquid chromatography
  • solid phase extraction