Department of Inorganic and Analytical Chemistry, University of Debrecen, Hungary.
Dalton Trans. 2011 Oct 14;40(38):9711-21. doi: 10.1039/c1dt10835b. Epub 2011 Aug 22.
The fragments of rat amylin rIAPP(17-29) (Ac-VRSSNNLGPVLPP-NH(2)), rIAPP(17-22) (Ac-VRSSNN-NH(2)), rIAPP(19-22) (Ac-SSNN-NH(2)) and rIAPP(17-20) (Ac-VRSS-NH(2)) together with the related mutant peptides (Ac-VASS-NH(2) and Ac-VRAA-NH(2)) have been synthesized and their copper(II) complexes studied by potentiometric, UV-Vis, CD and EPR spectroscopic methods. Despite the lack of any common strongly coordinating donor functions some of these fragments are able to bind copper(II) ions in the physiological pH range. The longest fragment rat amylin(17-29) keeps one equivalent copper(II) ion in solution in the whole pH range, while two other peptides Ac-VRSSNN-NH(2) and Ac-SSNN-NH(2) are also able to interact with copper(II) ions in the slightly alkaline pH range. According to the spectral parameters of the complexes, the peptides can be classified into two different categories: (i) the tetrapeptides Ac-VRSS-NH(2), Ac-VASS-NH(2) and Ac-VRAA-NH(2) can interact with copper(II) only under strongly alkaline conditions (pH > 10.0) and the formation of only one species with four amide nitrogen coordination can be detected; (ii) the peptides Ac-VRSSNNLGPVLPP-NH(2), Ac-VRSSNN-NH(2) and Ac-SSNN-NH(2) can form complexes above pH 6.0 with the major stoichiometries [CuH(-2)L], CuH(-3)L and CuH(-4)L. These data support that rIAPP(17-29) can interact with copper(II) ions under physiological conditions and the SSNN tetrapeptide fragment can be considered as the shortest sequence responsible for metal binding. Density functional theory (DFT) calculations provide some information on the possible coordination modes of Ac-SSNN-NH(2) towards the copper(II) ion and suggest that for [CuH(-2)L], CuH(-3)L and CuH(-4)L, the binding of two, three and four deprotonated amide nitrogens, with NH(-) of the side chain of asparagine as anchoring group, is probable. Moreover, these data reveal that peptides can be effective metal binding ligands even in the absence of anchoring groups, if more polar side chains are present in a specific sequence.
已合成了大鼠胰岛淀粉样多肽 rIAPP(17-29)(Ac-VRSSNNLGPVLPP-NH(2))、rIAPP(17-22)(Ac-VRSSNN-NH(2))、rIAPP(19-22)(Ac-SSNN-NH(2))和 rIAPP(17-20)(Ac-VRSS-NH(2))及其相关突变肽(Ac-VASS-NH(2)和 Ac-VRAA-NH(2)),并通过电位法、UV-Vis、CD 和 EPR 光谱法研究了它们的铜(II)配合物。尽管缺乏任何常见的强配位供体功能,但这些片段中的一些能够在生理 pH 范围内结合铜(II)离子。最长的片段大鼠胰岛淀粉样多肽(17-29)在整个 pH 范围内保持一个当量的铜(II)离子在溶液中,而另外两个肽 Ac-VRSSNN-NH(2)和 Ac-SSNN-NH(2)也能够在略碱性 pH 范围内与铜(II)离子相互作用。根据配合物的光谱参数,这些肽可分为两类:(i)四肽 Ac-VRSS-NH(2)、Ac-VASS-NH(2)和 Ac-VRAA-NH(2)仅能在强碱性条件(pH > 10.0)下与铜(II)相互作用,并且只能检测到具有四个酰胺氮配位的一种物种的形成;(ii)肽 Ac-VRSSNNLGPVLPP-NH(2)、Ac-VRSSNN-NH(2)和 Ac-SSNN-NH(2)可在 pH 高于 6.0 时与主要配位比 [CuH(-2)L]、[CuH(-3)L](-)和 [CuH(-4)L](2-)形成配合物。这些数据支持 rIAPP(17-29)可在生理条件下与铜(II)离子相互作用,并且 SSNN 四肽片段可被认为是负责金属结合的最短序列。密度泛函理论(DFT)计算为 Ac-SSNN-NH(2)与铜(II)离子的可能配位模式提供了一些信息,并表明对于[CuH(-2)L]、[CuH(-3)L](-)和[CuH(-4)L](2-),两个、三个和四个去质子酰胺氮与天冬酰胺侧链的 NH(-)作为锚固基团结合是可能的。此外,这些数据表明,如果在特定序列中存在更多极性侧链,即使没有锚固基团,肽也可以作为有效的金属结合配体。
