Determining radical penetration of lipid bilayers with new lipophilic spin traps

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• 作者：Ayelet Gamliel ; Michal Afri ; Aryeh A. Frimer
• 关键词：Liposome ; ¹³C NMR ; ESR ; E_T(30) ; DMPC ; Membrane ; Spin trap ; Water/lipid interface ; PBN derivatives ; DMPO derivatives ; Free radicals
• 刊名：Free Radical Biology and Medicine
• 出版年：2008
• 出版时间：1 April 2008
• 年：2008
• 卷：44
• 期：7
• 页码：1394-1405
• 全文大小：778 K

文摘

Predicting the susceptibility of lipid moieties to radical attack requires a determination of the depth of radical penetration into a lipid membrane. We thus synthesized three homologous series of lipophilic spin traps—DMPO analogs 2-alkanoyl-2-methyl-1-pyrroline N-oxides (11) and PBN derivatives 4-alkoxyphenyl N-tert-butylnitrones (18) and 4-alkoxyphenyl N-admantylnitrones (20). The intercalation depth of these spin traps within the liposomal bilayer was determined via the previously reported NMR technique, which correlates the chemical shift and the micropolarity (measured in E_T(30) units) experienced by the pivotal nitronyl carbon. Hydroxyl and -hydroxyalkyl radicals were generated in the extraliposomal aqueous phase and the lowest depth at which a radical could be spin trapped was determined. The ESR data indicate that these radicals can exit the aqueous phase, penetrate the lipid bilayer past the head groups (E_T(30) = 63 kcal/mol) and the glycerol ester (E_T(30) = 52 kcal/mol), and pass down to an E_T(30) polarity of at least 44 kcal/mol. The latter depth presumably corresponds to the upper portion of the lipid slab. It is likely, if not probable, that having come this far they can abstract the allylic/diallylic hydrogens resident in the midslab at E_T(30) values of > 31 kcal/mol.