利用非天然支架提高SH3结构域配体选择性

Improving SH3 domain ligand selectivity using a non-natural scaffold.

作者信息

Nguyen J T, Porter M, Amoui M, Miller W T, Zuckermann R N, Lim W A

机构信息

Program in Biophysics, University of California, San Francisco 94143-0450, USA.

出版信息

Chem Biol. 2000 Jul;7(7):463-73. doi: 10.1016/s1074-5521(00)00130-7.

DOI:10.1016/s1074-5521(00)00130-7

PMID:10903934

Abstract

BACKGROUND

Src homology 3 (SH3) domains bind sequences bearing the consensus motif PxxP (where P is proline and x is any amino acid), wherein domain specificity is mediated largely by sequences flanking the PxxP core. This specificity is limited, however, as most SH3 domains show high ligand cross-reactivity. We have recently shown that diverse N-substituted residues (peptoids) can replace the prolines in the PxxP motif, yielding a new source of ligand specificity.

RESULTS

We have tested the effects of combining multiple peptoid substitutions with specific flanking sequences on ligand affinity and specificity. We show that by varying these different elements, a ligand can be selectively tuned to target a single SH3 domain in a test set. In addition, we show that by making multiple peptoid substitutions, high-affinity ligands can be generated that completely lack the canonical PxxP motif. The resulting ligands can potently disrupt natural SH3-mediated interactions.

CONCLUSIONS

Peptide-peptoid hybrid scaffolds yield SH3 ligands with markedly improved domain selectivity, overcoming one of the principal challenges in designing inhibitors against these domains. These compounds represent important leads in the search for orthogonal inhibitors of SH3 domains, and can serve as tools for the dissection of complex signaling pathways.

摘要

背景

Src同源结构域3（SH3）结合含有共有基序PxxP（其中P为脯氨酸，x为任意氨基酸）的序列，其中结构域特异性很大程度上由PxxP核心两侧的序列介导。然而，这种特异性是有限的，因为大多数SH3结构域表现出高配体交叉反应性。我们最近表明，多种N-取代残基（类肽）可以取代PxxP基序中的脯氨酸，产生一种新的配体特异性来源。

结果

我们测试了将多个类肽取代与特定侧翼序列相结合对配体亲和力和特异性的影响。我们表明，通过改变这些不同的元件，可以选择性地调整配体以靶向测试集中的单个SH3结构域。此外，我们表明，通过进行多个类肽取代，可以产生完全缺乏典型PxxP基序的高亲和力配体。所得配体可以有效地破坏天然SH3介导的相互作用。

结论

肽-类肽杂合支架产生具有显著改善的结构域选择性的SH3配体，克服了设计针对这些结构域的抑制剂的主要挑战之一。这些化合物是寻找SH3结构域正交抑制剂的重要先导物，并且可以用作剖析复杂信号通路的工具。

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利用非天然支架提高SH3结构域配体选择性

Improving SH3 domain ligand selectivity using a non-natural scaffold.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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