State Key Laboratory of Membrane Biology, Beijing Frontier Research Center for Biological Structure, School of Life Sciences, Tsinghua University, Beijing, People's Republic of China.
Independent Researcher, Urbana, Illinois, USA.
Appl Environ Microbiol. 2023 Mar 29;89(3):e0006623. doi: 10.1128/aem.00066-23. Epub 2023 Feb 22.
Lactococcin A (LcnA), a class IId bacteriocin, induces membrane leakage and cell death by specifically binding to the membrane receptor-mannose phosphotransferase system (man-PTS), as is the case for pediocin-like (class IIa) bacteriocins. The cognate immunity protein of bacteriocins, which protects the producer cell from its own bacteriocin, recognizes and binds to the bacteriocin-man-PTS complex, consequently blocking membrane leakage. We previously deciphered the mode of action and immunity of class IIa bacteriocins. Here, we determined the structure of the ternary complex of LcnA, LciA (, the immunity protein), and its receptor, , the man-PTS of Lactococcus lactis (ll-man-PTS). An external loop on the membrane-located component IIC of ll-man-PTS was found to prevent specific binding of the N-terminal region of LcnA to the site recognized by pediocin-like bacteriocins. Thus, the N-terminal β-sheet region of LcnA recognized an adjacent site on the extracellular side of ll-man-PTS, with the LcnA C-terminal hydrophobic helix penetrating into the membrane. The cytoplasmic cleft formed within the man-PTS Core and Vmotif domains induced by embedded LcnA from the periplasmic side is adopted by the appropriate angle between helices H3 and H4 of the N terminus of LciA. The flexible C terminus of LciA then blocks membrane leakage. To summarize, our findings reveal the molecular mechanisms of action and immunity of LcnA and LciA, laying a foundation for further design of class IId bacteriocins. Class IId (lactococcin-like) bacteriocins and class IIa (pediocin-like) bacteriocins share a few similarities: (i) both induce membrane leakage and cell death by specifically binding the mannose phosphotransferase system (man-PTS) on their target cells, and (ii) cognate immunity proteins recognize and bind to the bacteriocin-man-PTS complex to block membrane leakage. However, class IId bacteriocins lack the "pediocin box" motif, which is typical of class IIa bacteriocins, and basically target only lactococcal cells; in contrast, class IIa bacteriocins target diverse bacterial cells, but not lactococcal cells. We previously solved the structure of class IIa bacteriocin-receptor-immunity ternary complex from Lactobacillus sakei. Here, we determined the structure of the ternary complex of class IId bacteriocin LcnA, its cognate immunity protein LciA, and its receptor, the man-PTS of Lactococcus lactis. By comparing the interactions between man-PTS and class IIa and class IId bacteriocins, this study affords some clues to better understand the specificity of bacteriocins targeting the mannose phosphotransferase system.
乳球菌素 A(LcnA)是一种 IId 型细菌素,通过特异性结合到细胞膜受体-甘露糖磷酸转移酶系统(man-PTS)来诱导膜渗漏和细胞死亡,就像肠球菌素样(IIa 型)细菌素一样。细菌素的同源免疫蛋白可以保护产生菌免受自身细菌素的侵害,它识别并结合细菌素-man-PTS 复合物,从而阻止膜渗漏。我们之前已经破译了 IIa 型细菌素的作用模式和免疫机制。在这里,我们确定了 LcnA、LciA(其免疫蛋白)及其受体乳球菌乳脂亚种(ll-man-PTS)三元复合物的结构。发现 ll-man-PTS 中位于膜上的 IIC 组件的一个外部环阻止了 LcnA 的 N 端区域与肠球菌素样细菌素识别的位点特异性结合。因此,LcnA 的 N 端 β-折叠区域识别 ll-man-PTS 细胞外侧的相邻位点,LcnA 的 C 端疏水性螺旋嵌入膜中。由周质侧嵌入的 LcnA 在 man-PTS Core 和 Vmotif 结构域内诱导的细胞质裂隙被 LciA 的 N 端的螺旋 H3 和 H4 之间的适当角度采用。LciA 的柔性 C 端随后阻止膜渗漏。总之,我们的研究结果揭示了 LcnA 和 LciA 的作用机制和免疫机制,为进一步设计 IId 型细菌素奠定了基础。IId 类(乳球菌素样)细菌素和 IIa 类(肠球菌素样)细菌素有一些相似之处:(i)两者通过特异性结合其靶细胞上的甘露糖磷酸转移酶系统(man-PTS)诱导膜渗漏和细胞死亡,(ii)同源免疫蛋白识别并结合细菌素-man-PTS 复合物以阻止膜渗漏。然而,IId 类细菌素缺乏 IIa 类细菌素典型的“肠球菌素盒”基序,基本上只针对乳球菌细胞;相比之下,IIa 类细菌素针对多种细菌细胞,而不是乳球菌细胞。我们之前解决了来自清酒乳杆菌的 IIa 类细菌素-受体-免疫三元复合物的结构。在这里,我们确定了 IId 类细菌素 LcnA、其同源免疫蛋白 LciA 和其受体乳球菌乳脂亚种(ll-man-PTS)三元复合物的结构。通过比较 man-PTS 与 IIa 类和 IId 类细菌素的相互作用,本研究为更好地理解细菌素靶向甘露糖磷酸转移酶系统的特异性提供了一些线索。
