Mechanisms of Candida Biofilm Drug Resistance

生物膜 微生物学 流出 抗药性 生物 胞外聚合物 抗真菌 抗真菌药 细菌 生物化学 遗传学
作者
Heather Taff,Kaitlin F. Mitchell,Jessica A. Edward,David R. Andes
出处
期刊:Future Microbiology [Future Medicine]
卷期号:8 (10): 1325-1337 被引量:360
标识
DOI:10.2217/fmb.13.101
摘要

Candida commonly adheres to implanted medical devices, growing as a resilient biofilm capable of withstanding extraordinarily high antifungal concentrations. As currently available antifungals have minimal activity against biofilms, new drugs to treat these recalcitrant infections are urgently needed. Recent investigations have begun to shed light on the mechanisms behind the profound resistance associated with the biofilm mode of growth. This resistance appears to be multifactorial, involving both mechanisms similar to conventional, planktonic antifungal resistance, such as increased efflux pump activity, as well as mechanisms specific to the biofilm lifestyle. A unique biofilm property is the production of an extracellular matrix. Two components of this material, β-glucan and extracellular DNA, promote biofilm resistance to multiple antifungals. Biofilm formation also engages several stress response pathways that impair the activity of azole drugs. Resistance within a biofilm is often heterogeneous, with the development of a subpopulation of resistant persister cells. In this article we review the molecular mechanisms underlying Candida biofilm antifungal resistance and their relative contributions during various growth phases.
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