Laboratory of Food and Environmental Microbiology, Earth and Life Institute, Université Catholique de Louvain, Louvain-la-Neuve, Belgium.
J Virol. 2022 Jul 27;96(14):e0069622. doi: 10.1128/jvi.00696-22. Epub 2022 Jun 27.
Holins are small transmembrane proteins involved in the final stage of the lytic cycle of double-stranded DNA (dsDNA) phages. They cooperate with endolysins to achieve bacterial lysis, thereby releasing the phage progeny into the extracellular environment. Besides their role as membrane permeabilizers, allowing endolysin transfer and/or activation, holins also regulate the lysis timing. In this work, we provide functional characterization of the holins encoded by three phages targeting the Bacillus cereus group. The siphovirus Deep-Purple has a lysis cassette in which and encode two proteins displaying holin properties, including a transmembrane domain. The holin genes were expressed in Escherichia coli and induced bacterial lysis, with HolP30 being more toxic than HolP33. In Bacillus thuringiensis, the simultaneous expression of both holins was necessary to observe lysis, suggesting that they may interact to form functional pores. The myoviruses Deep-Blue and Vp4 both encode a single candidate holin (HolB and HolV, respectively) with two transmembrane domains, whose genes are not located near the endolysin genes. Their function as holin proteins was confirmed as their expression in E. coli impaired cell growth and viability. The HolV expression in B. thuringiensis also led to bacterial lysis, which was enhanced by coexpressing the holin with its cognate endolysin. Despite similar organizations and predicted topologies, truncated mutants of the HolB and HolV proteins showed different toxicity levels, suggesting that differences in amino acid composition influence their lysis properties. The phage life cycle ends with the host cell lysis, thereby releasing new virions into the environment for the next round of bacterial infection. Nowadays, there is renewed interest in phages as biocontrol agents, primarily due to their ability to cause bacterial death through lysis. While endolysins, which mediate peptidoglycan degradation, have been fairly well described, the pore-forming proteins, referred to as holins, have been extensively characterized in only a few model phages, mainly infecting Gram-negative bacteria. In this work, we characterized the holins encoded by a siphovirus and two myoviruses targeting members of the Gram-positive Bacillus cereus group, which comprises closely related species, including the well-known Bacillus anthracis, B. cereus sensu stricto, and Bacillus thuringiensis. Overall, this paper provides the first experimental characterization of holins encoded by B. cereus phages and reveals versatile lysis mechanisms used by these phages.
溶菌蛋白是参与双链 DNA(dsDNA)噬菌体裂解周期最后阶段的小跨膜蛋白。它们与内溶素合作实现细菌裂解,从而将噬菌体后代释放到细胞外环境中。除了作为膜通透性蛋白,允许内溶素转移和/或激活外,溶菌蛋白还调节裂解时间。在这项工作中,我们对靶向芽孢杆菌属的三种噬菌体编码的溶菌蛋白进行了功能表征。丝状噬菌体 Deep-Purple 的裂解盒中包含编码两个具有溶菌蛋白特性的蛋白的 和 ,它们都具有跨膜结构域。溶菌蛋白基因在大肠杆菌中表达并诱导细菌裂解,其中 HolP30 比 HolP33 更具毒性。在苏云金芽孢杆菌中,同时表达两个溶菌蛋白是观察到裂解所必需的,这表明它们可能相互作用形成功能孔。肌尾噬菌体 Deep-Blue 和 Vp4 都编码一个具有两个跨膜结构域的单一候选溶菌蛋白(分别为 HolB 和 HolV),它们的基因不位于内溶素基因附近。它们作为溶菌蛋白的功能通过在大肠杆菌中表达来确认,这会损害细胞生长和活力。HolV 在苏云金芽孢杆菌中的表达也导致细菌裂解,而与同源内溶素共表达则增强了裂解。尽管组织和预测的拓扑结构相似,但 HolB 和 HolV 蛋白的截断突变体表现出不同的毒性水平,这表明氨基酸组成的差异影响了它们的裂解特性。噬菌体生命周期以宿主细胞裂解结束,从而将新的病毒颗粒释放到环境中,以备下一轮细菌感染。如今,噬菌体作为生物防治剂重新引起了人们的兴趣,主要是因为它们能够通过裂解导致细菌死亡。虽然介导肽聚糖降解的内溶素已经得到了相当好的描述,但被称为溶菌蛋白的孔形成蛋白仅在少数几个模型噬菌体中得到了广泛的研究,这些噬菌体主要感染革兰氏阴性菌。在这项工作中,我们对靶向革兰氏阳性芽孢杆菌属成员的一种丝状噬菌体和两种肌尾噬菌体编码的溶菌蛋白进行了表征,该属包含密切相关的物种,包括著名的炭疽芽孢杆菌、芽孢杆菌属和苏云金芽孢杆菌。总的来说,本文首次对芽孢杆菌噬菌体编码的溶菌蛋白进行了实验表征,并揭示了这些噬菌体使用的多功能裂解机制。
