一氧化氮（NO）诱导的光控一氧化氮释放平台中革兰氏阴性菌的死亡。

Nitric oxide (NO)-induced death of gram-negative bacteria from a light-controlled NO-releasing platform.

机构信息

Department of Chemistry and Biochemistry, University of California at Santa Cruz, 1156 High Street, Santa Cruz, CA 95062, USA.

出版信息

Chem Biodivers. 2012 Sep;9(9):1829-39. doi: 10.1002/cbdv.201100320.

DOI:10.1002/cbdv.201100320

PMID:22976973

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3517148/

Abstract

A NO-delivery platform has been fabricated from polydimethylsiloxane (PDMS) and Pluronic(®) F127 gel that contains the light-sensitive NO donor, [Mn(PaPy(3))(NO)]ClO(4). The material was assembled layer-by-layer. First, a thin PDMS membrane was cast. It was then layered with cold 25% (w/v) Pluronic(®) F127 gel mixed with [Mn(PaPy(3))(NO)]ClO(4). Finally, it was covered with a thick layer (nearly impermeable to NO) of PDMS (=polydimethoxysiloxane) to allow release of NO only from the thinner side upon exposure to light. Light-induced NO release from this layered material has been confirmed via NO-specific electrode and by a modified soft Griess-agar assay. Incorporation of ca. 8 mg/g of [Mn(PaPy(3))(NO)]ClO(4) in the Pluronic gel layer affords a material that drastically reduces the microbial loads of Acinetobacter baumannii and Pseudomonas aeruginosa via the antibiotic effects of the photoreleased NO. Application of this flexible layered NO-donating composite as bandage material has been proposed.

摘要

一种无载体平台由聚二甲基硅氧烷（PDMS）和含有光敏一氧化氮供体[Mn(PaPy(3))(NO)]ClO(4)的 Pluronic(®) F127 凝胶制成。该材料是通过层层组装而成的。首先，浇铸一层薄的 PDMS 膜。然后将其与冷的 25%（w/v）Pluronic(®) F127 凝胶混合，并加入[Mn(PaPy(3))(NO)]ClO(4)。最后，用一层厚厚的 PDMS（=聚二甲基甲氧基硅氧烷）覆盖，使 NO 只能从较薄的一侧释放，当暴露于光时。通过 NO 特异性电极和改良的软 Gries 琼脂测定法证实了这种分层材料的光诱导一氧化氮释放。在 Pluronic 凝胶层中掺入约 8mg/g 的[Mn(PaPy(3))(NO)]ClO(4)，通过光释放的一氧化氮的抗生素作用，使鲍曼不动杆菌和铜绿假单胞菌的微生物负荷大大降低。已经提出将这种灵活的分层一氧化氮供体复合材料用作绷带材料。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7e1b/3517148/114ac5518718/nihms414392f1.jpg

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一氧化氮（NO）诱导的光控一氧化氮释放平台中革兰氏阴性菌的死亡。

Nitric oxide (NO)-induced death of gram-negative bacteria from a light-controlled NO-releasing platform.

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