BACKGROUND: The antioxidant capacity of rice bran (RB) (due mainly to its gamma-oryzanol content) is very well known. We have recently developed a water-soluble oryzanol enzymatic extract (WSOEE), which shows a greatly increased functionality. AIM OF THE STUDY: The aim of our study is the evaluation of the antioxidant potential of WSOEE in an ex vivo model to compare its protective capacity against oxidative damage by active-oxygen substances and free radicals (mainly the peroxyl radical) to biomolecules (such as proteins and lipids) with that of antioxidants, such as Trolox (a water-soluble derivative of vitamin E), melatonin, and folic acid. METHODS: WSOEE gamma-oryzanol content and composition were determined by HPLC. Free-radical-scavenging capacity was evaluated using the assay based on phycoerythrin fluorescence. Antioxidant capacity against hydroperoxide-caused oxidative injury to proteins and lipids was evaluated using an ex vivo model: a rat brain homogenate. The effectiveness was determined by assessing protein damage (measured as carbonyl group content by Western blot immunoassay) and lipid peroxidation (measured as malondialdehyde content). RESULTS: The WSOEE gamma-oryzanol composition profile was similar to that of RB (cycloartenyl, 24-methylene cycloartenyl, campesteryl, and sitosteryl ferulates), but with two major differences: WSOEE gamma-oryzanol concentration was five times higher than that of RB, and WSOEE was water soluble. WSOEE total antioxidant capacity to trap the peroxyl radical was high, and similar to that of Trolox. The capacity to inhibit lipid peroxidation induced by cumene hydroperoxide in rat brain homogenate yielded a protection similar to that of Trolox. WSOEE also showed the capacity to protect protein from oxidation phenomena in rat brain homogenate, with a behavior similar to that of melatonin. This is of particular importance, since the loss of protein function caused by oxidative modification may affect the activity of enzymes, receptors, and membrane transporters, among other functions. CONCLUSION: WSOEE is a new potential antioxidant agent from rice bran that shows a high free-radical-scavenging capacity and prevents protein oxidation and lipid peroxidation when cells ex vivo are exposed to free radicals.
BACKGROUND: The antioxidant capacity of rice bran (RB) (due mainly to its gamma-oryzanol content) is very well known. We have recently developed a water-soluble oryzanol enzymatic extract (WSOEE), which shows a greatly increased functionality. AIM OF THE STUDY: The aim of our study is the evaluation of the antioxidant potential of WSOEE in an ex vivo model to compare its protective capacity against oxidative damage by active-oxygen substances and free radicals (mainly the peroxyl radical) to biomolecules (such as proteins and lipids) with that of antioxidants, such as Trolox (a water-soluble derivative of vitamin E), melatonin, and folic acid. METHODS: WSOEE gamma-oryzanol content and composition were determined by HPLC. Free-radical-scavenging capacity was evaluated using the assay based on phycoerythrin fluorescence. Antioxidant capacity against hydroperoxide-caused oxidative injury to proteins and lipids was evaluated using an ex vivo model: a rat brain homogenate. The effectiveness was determined by assessing protein damage (measured as carbonyl group content by Western blot immunoassay) and lipid peroxidation (measured as malondialdehyde content). RESULTS: The WSOEE gamma-oryzanol composition profile was similar to that of RB (cycloartenyl, 24-methylene cycloartenyl, campesteryl, and sitosteryl ferulates), but with two major differences: WSOEE gamma-oryzanol concentration was five times higher than that of RB, and WSOEE was water soluble. WSOEE total antioxidant capacity to trap the peroxyl radical was high, and similar to that of Trolox. The capacity to inhibit lipid peroxidation induced by cumene hydroperoxide in rat brain homogenate yielded a protection similar to that of Trolox. WSOEE also showed the capacity to protect protein from oxidation phenomena in rat brain homogenate, with a behavior similar to that of melatonin. This is of particular importance, since the loss of protein function caused by oxidative modification may affect the activity of enzymes, receptors, and membrane transporters, among other functions. CONCLUSION: WSOEE is a new potential antioxidant agent from rice bran that shows a high free-radical-scavenging capacity and prevents protein oxidation and lipid peroxidation when cells ex vivo are exposed to free radicals.
Authors: Maria L Justo; Rosalia Rodriguez-Rodriguez; Carmen M Claro; Maria Alvarez de Sotomayor; Juan Parrado; Maria D Herrera Journal: Eur J Nutr Date: 2012-06-04 Impact factor: 5.614
Authors: W Rungratanawanich; G Abate; M M Serafini; M Guarienti; M Catanzaro; M Marziano; M Memo; C Lanni; D Uberti Journal: Oxid Med Cell Longev Date: 2018-03-14 Impact factor: 6.543