Supramolecular hydrogelation triggered by a gold catalyst

Tetrahedron chem Pub Date : 2024-03-01 DOI:10.1016/j.tchem.2023.100058

Tomoya Yamamoto , Akiko Nakamura , Akari Mukaimine , Katsunori Tanaka

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Abstract

Supramolecular gels formed by self-assembly of low-molecular-weight gelators have been attracting attention as biomaterials. In particular, various triggers for supramolecular hydrogelation, such as enzymatic reactions, have been developed to selectively induce the formation of gels at targeted sites in vivo. However, there are still limitations to the methods for triggering self-assembly, such as the selectivity of hydrogelation at targeted sites. Here, we report the first example of a low-molecular-weight hydrogelator whose gelation is triggered by catalytic amount of transition-metal complexes. This gelator consists of a substrate structure for a ring-closing reaction catalyzed by gold, and this reaction transforms the morphology of fibrils to induce hydrogelation in the presence of peptide additives. This novel trigger for hydrogelation will expand the applicability of a low-molecular-weight gelator in vivo when used with biocompatible metal catalysts.

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金催化剂引发的超分子水凝胶作用

低分子量凝胶体自组装形成的超分子凝胶作为生物材料一直备受关注。特别是，人们开发了各种超分子水凝胶化的触发器，如酶反应，以选择性地诱导体内目标部位凝胶的形成。然而，触发自组装的方法仍然存在局限性，例如在目标部位水凝胶化的选择性。在此，我们首次报道了一种低分子量水凝胶剂，其凝胶化是由催化量的过渡金属复合物引发的。这种凝胶剂由金催化闭环反应的底物结构组成，在肽添加剂存在的情况下，这种反应会改变纤维的形态，从而诱导水凝胶化。这种新型水凝胶触发器与生物相容性金属催化剂一起使用时，将扩大低分子量凝胶剂在体内的适用性。

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