Department of Molecular Biology and Biophysics, UConn Health, Farmington, CT, USA.
J Appl Microbiol. 2021 Dec;131(6):2612-2625. doi: 10.1111/jam.15137. Epub 2021 Jun 3.
Previous work showed that Bacillus subtilis dormant spore killing and germination by dodecylamine take place by different mechanisms. This new work aimed to optimize killing of B. subtilis and other Firmicutes spores and to determine the mechanism of the killing.
Spores of seven Firmicute species were killed rapidly by dodecylamine under optimal conditions and more slowly by decylamine or tetradecylamine. The killed spores were not recovered by additions to recovery media, and some of the killed spores subsequently germinated, all indicating that dodecylamine-killed spores truly are dead. Spores of two species treated with dodecylamine were more sensitive to killing by a subsequent heat treatment, and spore killing of at least one species was faster with chemically decoated spores. The cores of dodecylamine-killed spores were stained by the nucleic acid stain propidium iodide, and dodecylamine-killed wild-type and germination-deficient spores released their stores of phosphate-containing small molecules.
This work indicates that dodecylamine is likely a universal sporicide for Firmicute species, and it kills spores by damaging their inner membrane, with attendant loss of this membrane as a permeability barrier.
There is a significant need for agents that can effectively kill spores of a number of Firmicute species, especially in wide area decontamination. Dodecylamine appears to be a universal sporicide with a novel mechanism of action, and this or some comparable molecule could be useful in wide area spore decontamination.
先前的工作表明,十二胺通过不同的机制来杀死枯草芽孢杆菌休眠孢子并促进其发芽。本项新工作旨在优化十二胺对枯草芽孢杆菌和其他厚壁菌孢子的杀灭效果,并确定其杀菌机制。
在最佳条件下,七种厚壁菌属物种的孢子被十二胺迅速杀死,而被癸胺或十四胺缓慢杀死。添加到恢复培养基中不能使已被杀死的孢子恢复,并且一些已被杀死的孢子随后发芽,所有这些都表明十二胺杀死的孢子确实是死亡的。用十二胺处理的两种孢子对随后的热处理更敏感,并且至少有一种孢子的杀菌速度更快,这是由于用化学方法去除了孢子的涂层。十二胺杀死的孢子的核心被核酸染料碘化丙啶染色,并且野生型和发芽缺陷型的十二胺杀死的孢子释放出它们储存的含磷小分子。
这项工作表明,十二胺可能是厚壁菌属物种的通用杀孢子剂,它通过破坏其内膜来杀死孢子,同时伴随该膜作为渗透屏障的丧失。
需要有效的药剂来有效杀死多种厚壁菌属物种的孢子,特别是在大面积消毒中。十二胺似乎是一种具有新型作用机制的通用杀孢子剂,这种或类似的分子在大面积孢子消毒中可能有用。
