Rice bran(RB) is one of the nutrient-rich agricultural byproducts. It is a composite of carbohydrates, lipids, proteins, fibers, minerals, and trace elements such as phosphorus, potassium, magnesium, calcium and manga...Rice bran(RB) is one of the nutrient-rich agricultural byproducts. It is a composite of carbohydrates, lipids, proteins, fibers, minerals, and trace elements such as phosphorus, potassium, magnesium, calcium and manganese. The extraction and purification process influences the quality and quantity of rice bran oil, which is rich in tocopherols, tocotrienols, 毭-oryzanol, and unsaturated fatty acids. The bioactive components of RB have been reported for exhibiting antioxidant, anti-inflammatory, hypocholesterolemic, anti-cancer, anti-colitis, and antidiabetic properties. In vitro and in vivo studies, and clinical trials in human volunteers revealed the anti-hyperglycemic activity of RB derived compounds. An updated comprehensive review on the antidiabetic property of RB and its derivative is required to appraise the current knowledge in the particular field. Thus, the present paper covered the composition and bioactivities of RB, and influence of extraction methods on the biological property of rice bran oil and rice bran extract. And the current review also focused on the reported antihyperglycemia activity of rice bran derivatives, and its probable mechanism.展开更多
Objective:To determine the effect of rice bran extract(RBE)in combination with doxorubicin on 4 T1 triple-negative breast cancer cells and NIH-3 T3 cells.Methods:RBE was obtained by maceration with n-hexane.The phytoc...Objective:To determine the effect of rice bran extract(RBE)in combination with doxorubicin on 4 T1 triple-negative breast cancer cells and NIH-3 T3 cells.Methods:RBE was obtained by maceration with n-hexane.The phytochemical profile of RBE was observed using highperformance liquid chromatography.Cytotoxic effect of RBE was evaluated through MTT assay.In addition,flow cytometry was used for cell cycle and apoptosis analysis.Cellular senescence was observed using SA-β-Gal assay and intracellular reactive oxygen species(ROS)levels were evaluated using DCFDA staining.The pro-oxidant property of RBE was also evaluated through 1-chloro-2,4-dinitrobenzene spectrophotometry and molecular docking.Results:RBE was obtained with a yield of 18.42%w/w and contained tocotrienols as the major compound.RBE exerted no cytotoxic effect on 4 T1 and NIH-3 T3 cells.However,RBE in combination with doxorubicin decreased 4 T1 cell viability synergistically(combination index<0.9)and induced apoptosis and senescence on 4 T1 cells.RBE significantly decreased senescence in doxorubicin-treated NIH-3 T3 cells.Additionally,RBE did not increase ROS levels in doxorubicin-treated 4 T1 cells.Meanwhile,the combination of RBE and doxorubicin reduced ROS levels in NIH-3 T3 cells.RBE significantly reduced glutathione-S-transferase activity and alpha-tocotrienol interacted with glutathione-Stransferase in the glutathione binding site.Conclusions:Rice bran may be used as a co-chemotherapeutic agent to improve the therapeutic effectiveness of doxorubicin while protecting against the cellular senescence effects of doxorubicin on healthy cells.展开更多
Metabolic syndrome(Met S)is a chronic disease associated with the disturbance of gut microbiota homeostasis.Metabolites derived from gut microbes play essential roles in Met S prevention and therapy.Here,we focused on...Metabolic syndrome(Met S)is a chronic disease associated with the disturbance of gut microbiota homeostasis.Metabolites derived from gut microbes play essential roles in Met S prevention and therapy.Here,we focused on the inhibitory effect of the extract of millet bran protein(EMBP)on a high-fat diet(HFD)-induced Met S,aiming to identify gut microbiota and their metabolites that involve in the anti-Met S activity of EMBP.The obesity,chronic inflammation,insulin resistance in Met S mouse models were abolished after EMBP treatment.The protective mechanism of EMBP against HFD-induced Met S may depend on improved gut barrier function.Using microbiome analysis,we found that EMBP supplementation improved gut microbiome dysbiosis in Met S mice,specifically upregulating Bacteroides acidifaciens.The fecal microbiota transplantation(FMT)also demonstrated this phenomenon.In addition,metabolomic analysis showed that EMBP mediates metabolic profiling reprogramming in Met S mice.Notably,a microbiota-derived metabolite,gamma-aminobutyric acid(GABA),is enriched by EMBP.In addition,exogenous GABA treatment produced a similar protective effect to EMBP by improving NRF2-dependent gut barrier function to protect HFDinduced Met S.The results suggest that EMBP suppress host Met S by remodeling of gut microbiota as an effective candidate for next-generation medicine food dual purpose dietary supplement to intervene in MetS.展开更多
基金supported by the CMU Post-Doctoral Fellowship(Ref:No.6592(11)/01501,dated 24 February 2017)
文摘Rice bran(RB) is one of the nutrient-rich agricultural byproducts. It is a composite of carbohydrates, lipids, proteins, fibers, minerals, and trace elements such as phosphorus, potassium, magnesium, calcium and manganese. The extraction and purification process influences the quality and quantity of rice bran oil, which is rich in tocopherols, tocotrienols, 毭-oryzanol, and unsaturated fatty acids. The bioactive components of RB have been reported for exhibiting antioxidant, anti-inflammatory, hypocholesterolemic, anti-cancer, anti-colitis, and antidiabetic properties. In vitro and in vivo studies, and clinical trials in human volunteers revealed the anti-hyperglycemic activity of RB derived compounds. An updated comprehensive review on the antidiabetic property of RB and its derivative is required to appraise the current knowledge in the particular field. Thus, the present paper covered the composition and bioactivities of RB, and influence of extraction methods on the biological property of rice bran oil and rice bran extract. And the current review also focused on the reported antihyperglycemia activity of rice bran derivatives, and its probable mechanism.
基金supported by RTA program of Universitas Gadjah Mada 2020
文摘Objective:To determine the effect of rice bran extract(RBE)in combination with doxorubicin on 4 T1 triple-negative breast cancer cells and NIH-3 T3 cells.Methods:RBE was obtained by maceration with n-hexane.The phytochemical profile of RBE was observed using highperformance liquid chromatography.Cytotoxic effect of RBE was evaluated through MTT assay.In addition,flow cytometry was used for cell cycle and apoptosis analysis.Cellular senescence was observed using SA-β-Gal assay and intracellular reactive oxygen species(ROS)levels were evaluated using DCFDA staining.The pro-oxidant property of RBE was also evaluated through 1-chloro-2,4-dinitrobenzene spectrophotometry and molecular docking.Results:RBE was obtained with a yield of 18.42%w/w and contained tocotrienols as the major compound.RBE exerted no cytotoxic effect on 4 T1 and NIH-3 T3 cells.However,RBE in combination with doxorubicin decreased 4 T1 cell viability synergistically(combination index<0.9)and induced apoptosis and senescence on 4 T1 cells.RBE significantly decreased senescence in doxorubicin-treated NIH-3 T3 cells.Additionally,RBE did not increase ROS levels in doxorubicin-treated 4 T1 cells.Meanwhile,the combination of RBE and doxorubicin reduced ROS levels in NIH-3 T3 cells.RBE significantly reduced glutathione-S-transferase activity and alpha-tocotrienol interacted with glutathione-Stransferase in the glutathione binding site.Conclusions:Rice bran may be used as a co-chemotherapeutic agent to improve the therapeutic effectiveness of doxorubicin while protecting against the cellular senescence effects of doxorubicin on healthy cells.
基金supported by National Natural Science Foundation of China(32270420,32072220)National Key Research and Development Project(2020YFD1001405)+2 种基金Shanxi Province Science Foundation(202103021224011)Shanxi Key Laboratory for Research and Development of Regional PlantsShanxi Province“136”Revitalization Medical Project Construction Funds。
文摘Metabolic syndrome(Met S)is a chronic disease associated with the disturbance of gut microbiota homeostasis.Metabolites derived from gut microbes play essential roles in Met S prevention and therapy.Here,we focused on the inhibitory effect of the extract of millet bran protein(EMBP)on a high-fat diet(HFD)-induced Met S,aiming to identify gut microbiota and their metabolites that involve in the anti-Met S activity of EMBP.The obesity,chronic inflammation,insulin resistance in Met S mouse models were abolished after EMBP treatment.The protective mechanism of EMBP against HFD-induced Met S may depend on improved gut barrier function.Using microbiome analysis,we found that EMBP supplementation improved gut microbiome dysbiosis in Met S mice,specifically upregulating Bacteroides acidifaciens.The fecal microbiota transplantation(FMT)also demonstrated this phenomenon.In addition,metabolomic analysis showed that EMBP mediates metabolic profiling reprogramming in Met S mice.Notably,a microbiota-derived metabolite,gamma-aminobutyric acid(GABA),is enriched by EMBP.In addition,exogenous GABA treatment produced a similar protective effect to EMBP by improving NRF2-dependent gut barrier function to protect HFDinduced Met S.The results suggest that EMBP suppress host Met S by remodeling of gut microbiota as an effective candidate for next-generation medicine food dual purpose dietary supplement to intervene in MetS.
