Metal Ions and Intrinsically Disordered Proteins and Peptides: From Cu/Zn Amyloid-β to General Principles

被引:224
|
作者
Faller, Peter [1 ,2 ]
Hureau, Christelle [1 ,2 ]
La Penna, Giovanni [3 ]
机构
[1] CNRS, LCC, F-31077 Toulouse 4, France
[2] Univ Toulouse, UPS, INPT, F-31077 Toulouse 4, France
[3] CNR, Natl Res Council Italy, ICCOM, Inst Chem Organometall Cpds, I-50019 Florence, Italy
关键词
SUPEROXIDE-DISMUTASE; ALZHEIMERS-DISEASE; COPPER COORDINATION; ALPHA-SYNUCLEIN; ZINC-BINDING; AFFINITY; CU; ZN-7-METALLOTHIONEIN-3; CONFORMATION; AGGREGATION;
D O I
10.1021/ar400293h
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
CONSPECTUS: The interaction of d-block metal ions (Cu, Zn, Fe, etc.) with intrinsically disordered proteins (IDPs) has gained interest, partly due to their proposed roles in several diseases, mainly neurodegenerative. A prominent member of IDPs is the peptide amyloid-beta (A beta) that aggregates into metal-enriched amyloid plaques, a hallmark of Alzheimer's disease, in which Cu and Zn are bound to A beta. IDPs are a class of proteins and peptides that lack a unique 3D structure when the protein is isolated. This disordered structure impacts their interaction with metal ions compared with structured metalloproteins. Metalloproteins either have a preorganized metal binding site or fold upon metal binding, resulting in defined 3D structure with a well-defined metal site. In contrast, for A beta and likely most of the other IDPs, the affinity for Cu(I/II) and Zn(II) is weaker and the interaction is flexible with different coordination sites present. Coordination of Cu(I/II) with A beta is very dynamic including fast Cu-exchange reactions (milliseconds or less) that are intrapeptidic between different sites as well as interpeptidic. This highly dynamic metal-IDP interaction has a strong impact on reactivity and potential biological role: (i) Due to the low affinity compared with classical metalloproteins, IDPs likely bind metals only at special places or under special conditions. For A beta, this is likely in the neurons that expel Zn or Cu into the synapse and upon metal dysregulation occurring in Alzheimer's disease. (ii) Amino acid substitutions (mutations) on noncoordinating residues can change drastically the coordination sphere. (iii) Considering the Cu/Zn-A beta aberrant interaction, therapeutic strategies can be based on removal of Cu/Zn or precluding their binding to the peptide. The latter is very difficult due to the multitude of metal-binding sites, but the fast k(off) facilitates removal. (iv) The high flexibility of the Cu-A beta complex results in different conformations with different redox activity. Only some conformations are able to produce reactive oxygen species. (v) Other, more specific catalysis (like enzymes) is very unlikely for Cu/Zn-A beta. (vi) The Cu/Zn exchange reactions with A beta are faster than the aggregation process and can hence have a strong impact on this process. In conclusion, the coordination chemistry is fundamentally different for most of IDPs compared with the classical, structured metalloproteins or with (bio)-inorganic complexes. The dynamics is a key parameter to understand this interaction and its potential biological impact.
引用
收藏
页码:2252 / 2259
页数:8
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