Spin trapping radicals from lipid oxidation in liposomes in the presence of flavonoids

TY - JOUR

T1 - Spin trapping radicals from lipid oxidation in liposomes in the presence of flavonoids

AU - Arshad, Nasima

AU - Janjua, Naveed Kausar

AU - Skibsted, Leif Horsfelt

AU - Andersen, Mogens Larsen

PY - 2013/4

Y1 - 2013/4

N2 - Interactions of four structurally related flavonoids - quercetin, rutin, morin and catechin with peroxyl radicals using liposome/N-tert-butyl-α- phenylnitrone (PBN) and liposome/α-(4- pyridyl-N-oxide)-N-tert- butylnitrone (POBN)-spin trap systems have been studied through spin trapping ESR. Results obtained were different from that of conjugated diene analysis experiments, where lag phases indicated radical scavenging activity of all the flavonoids. No clear lag phase was observed in ESR experiments under same conditions. In the presence of flavonoids decreasing ESR signals of spin adducts in PBN, while no or negligibly smaller spin adducts with POBN system were observed which may be attributed to the possibility that spin traps interacted with free radicals. Experiments with buffer/spin trap systems without liposome revealed that spin adducts were only stable with catechin and destroyed by quercetin, rutin and morin in buffer/spin trap systems. These results further assured that quercetin, rutin and morin not only interacted with peroxyl radicals but also with spin adducts.

AB - Interactions of four structurally related flavonoids - quercetin, rutin, morin and catechin with peroxyl radicals using liposome/N-tert-butyl-α- phenylnitrone (PBN) and liposome/α-(4- pyridyl-N-oxide)-N-tert- butylnitrone (POBN)-spin trap systems have been studied through spin trapping ESR. Results obtained were different from that of conjugated diene analysis experiments, where lag phases indicated radical scavenging activity of all the flavonoids. No clear lag phase was observed in ESR experiments under same conditions. In the presence of flavonoids decreasing ESR signals of spin adducts in PBN, while no or negligibly smaller spin adducts with POBN system were observed which may be attributed to the possibility that spin traps interacted with free radicals. Experiments with buffer/spin trap systems without liposome revealed that spin adducts were only stable with catechin and destroyed by quercetin, rutin and morin in buffer/spin trap systems. These results further assured that quercetin, rutin and morin not only interacted with peroxyl radicals but also with spin adducts.

M3 - Journal article

SN - 0253-5106

VL - 35

SP - 544

EP - 553

JO - Journal of the Chemical Society of Pakistan

JF - Journal of the Chemical Society of Pakistan

IS - 2

ER -