Soll David R
Department of Biology, The University of Iowa, Iowa City, IA 52242, USA.
FEMS Yeast Res. 2009 Oct;9(7):973-89. doi: 10.1111/j.1567-1364.2009.00562.x. Epub 2009 Aug 7.
White-opaque switching in Candida albicans was first discovered in 1987. Fifteen years later, and three years after the discovery of the mating system, it was demonstrated that the switch from white to opaque was an essential step in the mating process. But this latter discovery did not reveal why C. albicans had this requirement, when Saccharomyces cerevisiae and other hemiascomycetes did not. The discovery that mating-competent opaque cells signaled mating-incompetent white cells, through the release of pheromones, to become adhesive and form biofilms provided a clue to this fundamental question. Opaque cells appeared to signal white cells to form biofilms that facilitated mating by protecting the fragile gradients of the pheromone that directed chemotropism, a process necessary for fusion. Here, we explore the discoveries and observations that have led to this hypothesis, and the ancillary questions that have risen that are related to the regulation of the unique pheromone response, the evolution of this response and the relationship between pheromone-enhanced white cell biofilms and 'asexual' biofilms formed by a/alpha cells. This discussion, therefore, focuses on a unique and complex component of the basic biology of C. albicans that relates switching, mating and pathogenesis.
白色念珠菌的白-不透明转换于1987年首次被发现。15年后,在交配系统被发现3年后,人们证明从白色到不透明的转换是交配过程中的一个关键步骤。但后一项发现并未揭示为什么白色念珠菌有此需求,而酿酒酵母和其他半子囊菌却没有。有交配能力的不透明细胞通过释放信息素向无交配能力的白色细胞发出信号,使其变得有黏附性并形成生物膜,这一发现为这个基本问题提供了线索。不透明细胞似乎向白色细胞发出信号以形成生物膜,该生物膜通过保护引导趋化性的信息素的脆弱梯度来促进交配,趋化性是融合所必需的过程。在此,我们探讨了导致这一假设的发现和观察结果,以及由此引发的相关辅助问题,这些问题涉及独特信息素反应的调控、该反应的进化以及信息素增强的白色细胞生物膜与由a/α细胞形成的“无性”生物膜之间的关系。因此,本讨论聚焦于白色念珠菌基础生物学中一个独特且复杂的组成部分,该部分涉及转换、交配和发病机制。
