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两亲性海洋杆菌铁载体的膜亲和力。

Membrane affinity of the amphiphilic marinobactin siderophores.

作者信息

Xu Guofeng, Martinez Jennifer S, Groves John T, Butler Alison

机构信息

Department of Chemistry, Princeton University, New Jersey 08544, USA.

出版信息

J Am Chem Soc. 2002 Nov 13;124(45):13408-15. doi: 10.1021/ja026768w.

Abstract

Marinobactins are a class of newly discovered marine bacterial siderophores with a unique amphiphilic structure, suggesting that their functions relate to interactions with cell membranes. Here we use small and large unilamellar L-alpha-dimyristoylphosphatidylcholine vesicles (SUVs and LUVs) as model membranes to examine the thermodynamics and kinetics of the membrane binding of marinobactins, particularly marinobactin E (apo-M(E)) and its iron(III) complex, Fe-M(E). Siderophore-membrane interactions are characterized by NMR line broadening, stopped-flow spectrophotometry, fluorescence quenching, and ultracentrifugation. It is determined that apo-M(E) has a strong affinity for lipid membranes with molar fraction partition coefficients K(x)()(apo)(-)(M)E = 6.3 x 10(5) for SUVs and 3.6 x 10(5) for LUVs. This membrane association is shown to cause only a 2-fold decrease in the rate of iron(III) binding by apo-M(E). However, upon the formation of the iron(III) complex Fe-M(E), the membrane affinity of the siderophore decreased substantially (K(x)()(Fe)(-)(M)E = 1.3 x 10(4) for SUVs and 9.6 x 10(3) for LUVs). The kinetics of membrane binding and dissociation by Fe-M(E) were also determined (k(on)(Fe)(-)(M)E = 1.01 M(-)(1) s(-)(1); k(off)(Fe)(-)(M)E = 4.4 x 10(-)(3) s(-)(1)). The suite of marinobactins with different fatty acid chain lengths and degrees of chain unsaturation showed a range of membrane affinities (5.8 x 10(3) to 36 M(-)(1)). The affinity that marinobactins exhibit for membranes and the changes observed upon iron binding could provide unique biological advantages in a receptor-assisted iron acquisition process in which loss of the iron-free siderophore by diffusion is limited by the strong association with the lipid phase.

摘要

海洋菌素是一类新发现的具有独特两亲结构的海洋细菌铁载体,这表明它们的功能与和细胞膜的相互作用有关。在此,我们使用小的和大的单层L-α-二肉豆蔻酰磷脂酰胆碱囊泡(SUV和LUV)作为模型膜,来研究海洋菌素,特别是海洋菌素E(脱铁海洋菌素E,apo-M(E))及其铁(III)配合物Fe-M(E)与膜结合的热力学和动力学。铁载体与膜的相互作用通过核磁共振线宽、停流分光光度法、荧光猝灭和超速离心来表征。已确定apo-M(E)对脂质膜具有很强的亲和力,对于SUV,摩尔分数分配系数K(x)()(apo)(-)(M)E = 6.3×10(5),对于LUV,K(x)()(apo)(-)(M)E = 3.6×10(5)。这种膜结合仅使apo-M(E)与铁(III)结合的速率降低2倍。然而,在形成铁(III)配合物Fe-M(E)后,铁载体的膜亲和力大幅下降(对于SUV,K(x)()(Fe)(-)(M)E = 1.3×10(4),对于LUV,K(x)()(Fe)(-)(M)E = 9.6×10(3))。还测定了Fe-M(E)与膜结合和解离的动力学(k(on)(Fe)(-)(M)E = 1.01 M(-)(1) s(-)(1);k(off)(Fe)(-)(M)E = 4.4×10(-)(3) s(-)(1))。一系列具有不同脂肪酸链长度和链不饱和程度的海洋菌素表现出一系列膜亲和力(5.8×10(3)至36 M(-)(1))。海洋菌素对膜的亲和力以及铁结合后观察到的变化,在受体辅助的铁获取过程中可能提供独特的生物学优势,在该过程中,无铁铁载体因扩散而损失的情况会受到与脂质相的强结合作用的限制。

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