Nakayama Yoshitaka, Hashimoto Ken-Ichi, Kawasaki Hisashi, Martinac Boris
Molecular Cardiology and Biophysics Division, Victor Chang Cardiac Research Institute, 405 Liverpool St, Darlinghurst, NSW, 2010, Australia.
Biotechnology Research Center, The University of Tokyo, 1-1-1 Yayoi, Bunkyo-ku, Tokyo, 113-8657, Japan.
Biophys Rev. 2019 Jun;11(3):327-333. doi: 10.1007/s12551-019-00524-3. Epub 2019 May 4.
Since the mechanosensitive channel MscCG has been identified as the major glutamate efflux system in Corynebacterium glutamicum, studies of mechanotransduction processes in this bacterium have helped to unpuzzle a long-unresolved mystery of glutamate efflux that has been utilised for industrial monosodium glutamate production. The patch clamp recording from C. glutamicum giant spheroplasts revealed the existence of three types of mechanosensitive (MS) channels in the cell membrane of this bacterium. The experiments demonstrated that the MS channels could be activated by membrane tension, indicating that the channel gating by mechanical force followed the "Force-From-Lipids (FFL)" principle characteristic of ion channels inherently sensitive to transbilayer pressure profile changes in the mechanically stressed membrane bilayer. Mechanical properties of the C. glutamicum membrane are characteristics of very soft membranes, which in the C. glutamicum membrane are due to negatively charged lipids as its exclusive constituents. Given that membrane lipids are significantly altered during the fermentation process in the monosodium glutamate production, MS channels seem to respond to changes in force transmission through the membrane bilayer due to membrane lipid dynamics. In this review, we describe the recent results describing corynebacterial FFL-dependent mechanosensation originating from the particular lipid composition of the C. glutamicum membrane and unique structure of MscCG-type channels.
由于机械敏感通道MscCG已被确定为谷氨酸棒杆菌中主要的谷氨酸外排系统,对该细菌中机械转导过程的研究有助于解开一个长期未解决的谷氨酸外排之谜,而谷氨酸外排已被用于工业生产味精。对谷氨酸棒杆菌巨大球状体进行的膜片钳记录显示,该细菌细胞膜中存在三种类型的机械敏感(MS)通道。实验表明,MS通道可被膜张力激活,这表明机械力作用下的通道门控遵循“脂质作用力(FFL)”原理,这是对机械应力作用下膜双层中跨膜压力分布变化具有固有敏感性的离子通道的特征。谷氨酸棒杆菌膜的机械特性是非常柔软的膜的特性,在谷氨酸棒杆菌膜中,这是由于其仅由带负电荷的脂质组成。鉴于在味精生产的发酵过程中膜脂会发生显著变化,MS通道似乎会因膜脂动态变化而对通过膜双层的力传递变化做出反应。在这篇综述中,我们描述了最近的研究结果,这些结果描述了源于谷氨酸棒杆菌膜的特殊脂质组成和MscCG型通道独特结构的棒杆菌FFL依赖性机械感受。