Daniels Karla J, Park Yang-Nim, Srikantha Thyagarajan, Pujol Claude, Soll David R
Developmental Studies Hybridoma Bank, Department of Biology, University of Iowa, Iowa City, Iowa, USA.
Eukaryot Cell. 2013 Oct;12(10):1389-402. doi: 10.1128/EC.00127-13. Epub 2013 Aug 16.
Candida albicans, like other pathogens, can form complex biofilms on a variety of substrates. However, as the number of studies of gene regulation, architecture, and pathogenic traits of C. albicans biofilms has increased, so have differences in results. This suggests that depending upon the conditions employed, biofilms may vary widely, thus hampering attempts at a uniform description. Gene expression studies suggest that this may be the case. To explore this hypothesis further, we compared the architectures and traits of biofilms formed in RPMI 1640 and Spider media at 37°C in air. Biofilms formed by a/α cells in the two media differed to various degrees in cellular architecture, matrix deposition, penetrability by leukocytes, fluconazole susceptibility, and the facilitation of mating. Similar comparisons of a/a cells in the two media, however, were made difficult given that in air, although a/a cells form traditional biofilms in RPMI medium, they form polylayers composed primarily of yeast cells in Spider medium. These polylayers lack an upper hyphal/matrix region, are readily penetrated by leukocytes, are highly fluconazole susceptible, and do not facilitate mating. If, however, air is replaced with 20% CO2, a/a cells make a biofilm in Spider medium similar architecturally to that of a/α cells, which facilitates mating. A second, more cursory comparison is made between the disparate cellular architectures of a/a biofilms formed in air in RPMI and Lee's media. The results demonstrate that C. albicans forms very different types of biofilms depending upon the composition of the medium, level of CO2 in the atmosphere, and configuration of the MTL locus.
白色念珠菌与其他病原体一样,能够在多种基质上形成复杂的生物膜。然而,随着对白色念珠菌生物膜的基因调控、结构和致病特性研究数量的增加,研究结果之间的差异也在增大。这表明,根据所采用的条件不同,生物膜可能差异很大,从而妨碍了进行统一描述的尝试。基因表达研究表明情况可能如此。为了进一步探究这一假设,我们比较了在37℃空气中于RPMI 1640培养基和Spider培养基中形成的生物膜的结构和特性。在这两种培养基中,由a/α细胞形成的生物膜在细胞结构、基质沉积、白细胞穿透性、氟康唑敏感性以及交配促进方面存在不同程度的差异。然而,由于在空气中,虽然a/a细胞在RPMI培养基中形成传统生物膜,但它们在Spider培养基中形成主要由酵母细胞组成的多层结构,使得对两种培养基中a/a细胞进行类似比较变得困难。这些多层结构缺乏上层菌丝/基质区域,容易被白细胞穿透,对氟康唑高度敏感,并且不促进交配。然而,如果将空气替换为20%的二氧化碳,a/a细胞在Spider培养基中形成的生物膜在结构上与a/α细胞形成的生物膜相似,且有利于交配。我们还对在空气中于RPMI培养基和Lee培养基中形成的a/a生物膜截然不同的细胞结构进行了第二次更粗略的比较。结果表明,白色念珠菌根据培养基的组成、大气中二氧化碳的水平以及MTL基因座的构型形成非常不同类型的生物膜。