鏻盐柱[5]芳烃作为一类新型高效生物膜抑制剂：电荷协同作用和柱平台的重要性

Phosphonium pillar[5]arenes as a new class of efficient biofilm inhibitors: importance of charge cooperativity and the pillar platform.

作者信息

Joseph Roymon, Kaizerman Dana, Herzog Ido M, Hadar Maya, Feldman Mark, Fridman Micha, Cohen Yoram

机构信息

School of Chemistry, Raymond and Beverly Sackler Faculty of Exact Sciences, Tel Aviv University, Tel Aviv 69978, Israel.

出版信息

Chem Commun (Camb). 2016 Aug 23;52(70):10656-9. doi: 10.1039/c6cc05170g.

DOI:10.1039/c6cc05170g

PMID:27503150

Abstract

Biofilm formation, which frequently occurs in microbial infections and often reduces the efficacy of antibiotics, also perturbs many industrial and domestic processes. We found that a new class of water soluble pillar[5]arenes bearing phosphonium moieties (1, 2) and their respective ammonium analogues (3, 4) inhibit biofilm formation with IC50 values in the range of 0.67-1.66 μM. These compounds have no antimicrobial activity, do not damage red blood cell membranes, and do not affect mammalian cell viability in culture. Comparison of the antibiofilm activities of the phosphonium-decorated pillar[5]arene derivatives 1 and 2 with their respective ammonium counterparts 3 and 4 and their monomers 5 and 6, demonstrate that while positive charges, charge cooperativity and the pillararene platform are essential for the observed antibiofilm activity the nature of the charges is not.

摘要

生物膜形成经常发生在微生物感染中，且常常降低抗生素的疗效，它还会干扰许多工业和家庭生产过程。我们发现一类新型的带有鏻基团的水溶性柱[5]芳烃（1、2）及其相应的铵类似物（3、4）能够抑制生物膜形成，其半数抑制浓度（IC50）值在0.67 - 1.66 μM范围内。这些化合物没有抗菌活性，不会损伤红细胞膜，也不影响培养中的哺乳动物细胞活力。将带有鏻基团的柱[5]芳烃衍生物1和2与其相应的铵类似物3和4以及它们的单体5和6的抗生物膜活性进行比较，结果表明，虽然正电荷、电荷协同作用和柱芳烃平台对于所观察到的抗生物膜活性至关重要，但电荷的性质并非如此。

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鏻盐柱[5]芳烃作为一类新型高效生物膜抑制剂：电荷协同作用和柱平台的重要性

Phosphonium pillar[5]arenes as a new class of efficient biofilm inhibitors: importance of charge cooperativity and the pillar platform.

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