Ferguson A D, Ködding J, Walker G, Bös C, Coulton J W, Diederichs K, Braun V, Welte W
Fakultät für Biologie, Universität Konstanz, D-78457, Konstanz, Germany.
Structure. 2001 Aug;9(8):707-16. doi: 10.1016/s0969-2126(01)00631-1.
FhuA, an integral membrane protein of Escherichia coli, actively transports ferrichrome and the structurally related antibiotic albomycin across the outer membrane. The transport is coupled to the proton motive force, which energizes FhuA through the inner-membrane protein TonB. FhuA also transports the semisynthetic rifamycin derivative CGP 4832, although the chemical structure of this antibiotic differs markedly from that of ferric hydroxamates.
X-ray crystallography revealed that rifamycin CGP 4832 occupies the same ligand binding site as ferrichrome and albomycin, thus demonstrating a surprising lack of selectivity. However, the binding of rifamycin CGP 4832 is deviant from the complexes of FhuA with hydroxamate-type ligands in that it does not result in the unwinding of the switch helix but only in its destabilization, as reflected by increased B factors. Unwinding of the switch helix is proposed to be required for efficient binding of TonB to FhuA and for coupling the proton motive force of the cytoplasmic membrane with energy-dependent ligand transport. The transport data from cells expressing mutant FhuA proteins indicated conserved structural and mechanistic requirements for the transport of both types of compounds.
We conclude that the binding of rifamycin CGP 4832 destabilizes the switch helix and promotes the formation of a transport-competent FhuA-TonB complex, albeit with lower efficiency than ferrichrome. Active transport of this rifamycin derivative explains the 200-fold increase in potency as compared to rifamycin, which is not a FhuA-specific ligand and permeates across the cell envelope by passive diffusion only.
FhuA是大肠杆菌的一种整合膜蛋白,可主动将高铁色素和结构相关抗生素白霉素转运穿过外膜。这种转运与质子动力势相偶联,质子动力势通过内膜蛋白托蛋白B(TonB)为FhuA提供能量。FhuA还可转运半合成利福霉素衍生物CGP 4832,尽管这种抗生素的化学结构与异羟肟酸铁有显著差异。
X射线晶体学研究表明,利福霉素CGP 4832占据了与高铁色素和白霉素相同的配体结合位点,因此显示出惊人的缺乏选择性。然而,利福霉素CGP 4832的结合与FhuA与异羟肟酸型配体的复合物不同,因为它不会导致开关螺旋的解旋,而只是使其不稳定,这表现为B因子增加。开关螺旋的解旋被认为是托蛋白B有效结合FhuA以及将细胞质膜的质子动力势与能量依赖的配体转运相偶联所必需的。来自表达突变型FhuA蛋白的细胞的转运数据表明,这两种化合物的转运在结构和机制上有保守的要求。
我们得出结论,利福霉素CGP 4832的结合使开关螺旋不稳定,并促进形成有转运能力的FhuA - 托蛋白B复合物,尽管效率低于高铁色素。这种利福霉素衍生物的主动转运解释了其与利福霉素相比效力增加200倍的原因,利福霉素不是FhuA特异性配体,仅通过被动扩散穿过细胞包膜。
