用含有调谐反应性 N-酰基-N-烷基磺酰胺可裂解连接体的亲和基探针对基质金属蛋白酶进行共价标记。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-10-01 DOI:10.1002/cbic.202400441
Laurent Devel, Carole Malgorn, Regis-William Tohon, Marie Launay, Konstantinos Patiniotis, Mylene Sejalon-Cipolla, Fabrice Beau, Robert Thai, Pierrick Bruyat, Annabelle Bonino, Sarah Bregant, Gilles Subra, Sonia Cantel, Dimitris Georgiadis
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引用次数: 0

摘要

我们开发了带有 N-酰基-N-烷基磺酰胺可裂解连接体的原创共价探针,用于靶向多种人类基质金属蛋白酶(MMPs)。我们调节了这种可裂解连接体的亲电性,以提高探针的选择性,并降低它们在复杂生物基质中的非特异性反应。我们首先证明,以 MMP 的 S3 位点为靶点可以获得广谱亲和性探针,这些探针只与这些蛋白酶的活性版本发生反应。我们在不同复杂程度的蛋白质组中对探针进行了进一步评估,人为引入已知浓度的人类 MMP-13,并通过凝胶内荧光成像对标记的 MMP 进行成像。我们的研究表明,反应性较低的探针仍能共价修饰 MMP-13,同时降低了脱靶的非特异性反应。这项研究清楚地表明,精细控制 NASA 弹头的反应性对于提高共价探针在复杂生物系统中的选择性非常重要。
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Covalent Labeling of Matrix Metalloproteases with Affinity-Based Probes Containing Tuned Reactive N-Acyl-N-Alkyl Sulfonamide Cleavable Linkers.

Original covalent probes with an N-acyl-N-alkyl sulfonamide cleavable linker were developed to target a broad set of human Matrix Metalloproteases (MMPs). The electrophilicity of this cleavable linker was modulated to improve the selectivity of the probes as well as reduce their unspecific reactivity in complex biological matrices. We first demonstrated that targeting the S3 subsite of MMPs enables access to broad-spectrum affinity-based probes that exclusively react with the active version of these proteases. The probes were further assessed in proteomes of varying complexity, where human MMP-13 was artificially introduced at known concentration and the resulting labeled MMP was imaged by in-gel fluorescence imaging. We showed that the less reactive probe was still able to covalently modify MMP-13 while exhibiting reduced off-target unspecific reactivity. This study clearly demonstrated the importance of finely controlling the reactivity of the NASA warhead to improve the selectivity of covalent probes in complex biological systems.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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