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나무딸기 과일의 항산화·항염증 효과 = Antioxidant and Antiinflammatory Activities of Rubus Fruits

정하나 2015년

논문상세정보
인용/피인용
' 나무딸기 과일의 항산화·항염증 효과 = Antioxidant and Antiinflammatory Activities of Rubus Fruits' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • caco-2
  • raw264.7
  • 나무딸기
  • 난소절제쥐
  • 복분자
  • 블랙라즈베리
  • 블랙베리
  • 안토시아닌
  • 폴리페놀
  • 항산화
  • 항염증
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
870 0

0.0%

' 나무딸기 과일의 항산화·항염증 효과 = Antioxidant and Antiinflammatory Activities of Rubus Fruits' 의 참고문헌

  • Abu-Taha M, Rius C, Hermenegildo C, Noguera I, Cerda-Nicolas J-M, Issekutz AC, Jose PJ, Cortijo J, Morcillo EJ& Sanz M-J. (2009) Menopause and ovariectomy causea low grade of systemic inflammation that may beprevented by chronic treatment with low doses ofestrogen or losartan. The Journal of Immunology, 183,1393-1402.
  • Yu X & Kensler T. (2005) Nrf2 as a target for cancerchemoprevention. Mutation Research/Fundamental andMolecular Mechanisms of Mutagenesis, 591, 93-102.
  • Youdim KA, McDonald J, Kalt W & Joseph JA. (2002) Potentialrole of dietary flavonoids in reducing microvascularendothelium vulnerability to oxidative and inflammatoryinsults. The Journal of Nutritional Biochemistry, 13,282-288.
  • Yen G-C, Lai H-H & Chou H-Y. (2001) Nitric oxidescavengingand antioxidant effects of Uraria crinita root. Food Chemistry, 74, 471-478.
  • Xia M, Ling W, Zhu H, Ma J, Wang Q, Hou M, Tang Z, Guo H,Liu C & Ye Q. (2009) Anthocyanin attenuates CD40-mediated endothelial cell activation and apoptosis byinhibiting CD40-induced MAPK activation. Atherosclerosis, 202, 41-47.
  • Wyzgoski FJ, Reese RN, Rinaldi PL, Green TP, Ozgen M, TulioAZ, Miller AR, Scheerens JC & Reddy DV. (2005) NMRcharacterization of black raspberry cultivars identifyingbiologically active metabolic constituents correlating withbiochemical and bioassay data. Abstracts of Papers ofthe American Chemical Society, 230, U88-U89.
  • Wu XL, Pittman HE & Prior RL. (2006) Fate of anthocyaninsand antioxidant capacity in contents of thegastrointestinal tract of weanling pigs following blackraspberry consumption. Journal of Agricultural and FoodChemistry, 54, 583-589.
  • Witthoft T, Eckmann L, Kim JM & Kagnoff MF. (1998)Enteroinvasive bacteria directly activate expression ofiNOS and NO production in human colon epithelial cells. American Journal of Physiology-Gastrointestinal andLiver Physiology, 275, G564-G571.
  • Widen C, Ekholm A, Piwowar-Zail D & Rumpunen K. (2010)Antioxidant activity of polyphenol rich fruits on humanerythrocytes. In XXVIII International HorticulturalCongress on Science and Horticulture for People(IHC2010): International Symposium on 926, 669-674.
  • Wallace TC. (2011) Anthocyanins in cardiovascular disease. Advances in Nutrition: An International Review Journal,2, 1-7.
  • Tsuda T, Horio F, Uchida K, Aoki H & Osawa T. (2003)Dietary cyanidin 3-O-β-D-glucoside-rich purple corncolor prevents obesity and ameliorates hyperglycemia inmice. The Journal of Nutrition, 133, 2125-2130.
  • Tanoue T, Nishitani Y, Kanazawa K, Hashimoto T & Mizuno M. (2008) In vitro model to estimate gut inflammation usingco-cultured Caco-2 and RAW264.7 cells. Biochemicaland Biophysical Research Communications, 374, 565-569.
  • Talavera S, Felgines C, Texier O, Besson C, Gil-Izquierdo A,Lamaison JL & Remesy C. (2005) Anthocyaninmetabolism in rats and their distribution to digestive area,kidney, and brain. Journal of Agricultural and FoodChemistry, 53, 3902-3908.
  • Takeshi T, Keisuke N, Takaaki I, Makoto Y & Tatsuji N. (2010)Involvement of adhesion molecule in in vitro plaque-likeformation of macrophages stimulated withAggregatibacter actinomycetemcomitanslipopolysaccharide. Journal of Periodontal Research, 45,550-556.
  • Tak PP & Firestein GS. (2001) NF-kappa B: a key role ininflammatory diseases. Journal of Clinical Investigation,107, 7-11.
  • Singleton VL, Orthofer R & Lamuela-Raventos RM. (1999)Analysis of total phenols and other oxidation substratesand antioxidants by means of folin-ciocalteu reagent. Methods in Enzymology, 299, 152-178.
  • Seymour E, Lewis SK, Urcuyo-Llanes DE, Tanone II,Kirakosyan A, Kaufman PB & Bolling SF. (2009) Regulartart cherry intake alters abdominal adiposity, adiposegene transcription, and inflammation in obesity-pronerats fed a high fat diet. Journal of Medicinal Food, 12,935-942.
  • Sauer T, Raithel M, Kressel J, Munch G & Pischetsrieder M. (2012) Activation of the transcription factor Nrf2 inmacrophages, Caco-2 cells and intact human gut tissueby Maillard reaction products and coffee. Amino Acids,42, 1-13.
  • Sangha V. (2012) Proanthocyanidin-rich cranberry-fractioninducedalteration of periodontal pathogenlipopolysaccharide functions. The University ofTennessee. Ph.D. Thesis
  • Romier-Crouzet B, Van De Walle J, During A, Joly A, RousseauC, Henry O, Larondelle Y & Schneider Y-J. (2009)Inhibition of inflammatory mediators by polyphenolicplant extracts in human intestinal Caco-2 cells. Food andChemical Toxicology, 47, 1221-1230.
  • Romier B, Van De Walle J, During A, Larondelle Y & SchneiderYJ. (2008) Modulation of signalling nuclear factor Bactivation pathway by polyphenols in human intestinalCaco-2 cells. British Journal of Nutrition, 100, 542-551.
  • Riceevans CA, Miller NJ, Bolwell GP, Bramley PM & PridhamJB. (1995) The relative antioxidant activities of plantderivedpolyphenolic flavonoids. Free Radical Research,22, 375-383.
  • Reyes-Carmona J, Yousef GG, Martinez-Peniche RA & LilaMA. (2005) Antioxidant capacity of fruit extracts ofblackberry (Rubus sp.) produced in different climaticregions. Journal of Food Science, 70, S497-S503.
  • Reed J. (2002) Cranberry flavonoids, atherosclerosis andcardiovascular health. Critical Reviews in Food Scienceand Nutrition, 42, 301-316.
  • Prior RL, Cao GH, Martin A, Sofic E, McEwen J, O’Brien C,Lischner N, Ehlenfeldt M, Kalt W, Krewer G & MainlandCM. (1998) Antioxidant capacity as influenced by totalphenolic and anthocyanin content, maturity, and varietyof Vaccinium species. Journal of Agricultural and FoodChemistry, 46, 2686-2693.
  • Pool-Zobel B, Bub A, Schroder N & Rechkemmer G. (1999)Anthocyanins are potent antioxidants in model systemsbut do not reduce endogenous oxidative DNA damage inhuman colon cells. European Journal of Nutrition, 38,227-234.
  • Pergola C, Rossi A, Dugo P, Cuzzocrea S & Sautebin L. (2006)Inhibition of nitric oxide biosynthesis by anthocyaninfraction of blackberry extract. Nitric Oxide-Biology andChemistry, 15, 30-39.
  • Park HJ, Lee HJ, Choi MS, Son DJ, Song HS, Song MJ, Lee JM,Han SB, Kim Y & Hong JT. (2008) JNK pathway isinvolved in the inhibition of inflammatory target geneexpression and NF-kappaB activation by melittin. Journal of Inflammation-London, 5, 1-13.
  • Pantelidis GE, Vasilakakis M, Manganaris GA & Diamantidis G. (2007) Antioxidant capacity, phenol, anthocyanin andascorbic acid contents in raspberries, blackberries, redcurrants, gooseberries and cornelian cherries. FoodChemistry, 102, 777-783.
  • Nizamutdinova IT, Kim YM, Chung JI, Shin SC, Jeong Y-K, SeoHG, Lee JH, Chang KC & Kim HJ. (2009) Anthocyaninsfrom black soybean seed coats preferentially inhibitTNF-α-mediated induction of VCAM-1 over ICAM-1through the regulation of GATAs and IRF-1. Journal ofAgricultural and Food Chemistry, 57, 7324-7330.
  • Neto CC. (2007) Cranberry and blueberry: evidence forprotective effects against cancer and vascular diseases. Molecular Nutrition & Food Research, 51, 652-664.
  • Murphy E. (2011) Estrogen signaling and cardiovasculardisease. Circulation Research, 109, 687-696.
  • Muller CE, Khoo C & Percival SS. (2010) Cranberrypolyphenols down-regulate the toll-like receptor 4pathway and NF-κB activation, while still enhancingtumor necrosis factor α secretion. FASEB Journal, 24,332-332.
  • Moyer RA, Hummer KE, Finn CE, Frei B & Wrolstad RE. (2002)Anthocyanins, phenolics, and antioxidant capacity indiverse small fruits: Vaccinium, Rubus, and Ribes. Journal of Agricultural and Food Chemistry, 50, 519-525.
  • Mosmann T. (1983) Rapid colorimetric assay for cellulargrowth and survival: application to proliferation andcytotoxicity assays. Journal of Immunological Methods,65, 55-63.
  • Miller AP, Chen Y-F, Xing D, Feng W & Oparil S. (2003)Hormone replacement therapy and inflammationinteractions in cardiovascular disease. Hypertension, 42,657-663.
  • Matsumoto H, Nakamura Y, Hirayama M, Yoshiki Y & Okubo K. (2002) Antioxidant activity of black currant anthocyaninaglycons and their glycosides measured bychemiluminescence in a neutral pH region and in humanplasma. Journal of Agricultural and Food Chemistry, 50,5034-5037.
  • Marques A, Dragano NR, Lenquiste SA, Batista A, Palazzo CC &Marostica Jr MR. (2012) Freeze-dried jaboticaba peelpowder rich in anthocyanins did not reduce weight gainand lipid content in mice and rats. ArchivosLatinoamericanos de Nutricion, 62, 37-43.
  • Madhusoodhanan R, Natarajan M, Singh JVN, Jamgade A,Awasthi V, Anant S, Herman TS & Aravindan N. (2010)Effect of black raspberry extract in inhibiting NF-κBdependent radioprotection in human breast cancer cells. Nutrition and Cancer-an International Journal, 62, 93-104.
  • Li JX, Zhang DY, Stoner GD & Huang CS. (2008) Differentialeffects of black raspberry and strawberry extracts onBaPDE-induced activation of transcription factors andtheir target genes. Molecular Carcinogenesis, 47, 286-294.
  • Lee B, Shin H, Jung J, Hwang K, Lee Y & Kim T. (2009)Anthocyanins, polyphenols and antioxidant activities ofblack raspberry exudates. Journal of the Korean Societyof Food Science and Nutrition, 38, 125-130
  • Lai Y-S, Hsu W-H, Huang J-J & Wu S-C. (2012) Antioxidantand anti-inflammatory effects of pigeon pea (Cajanuscajan L.) extracts on hydrogen peroxide-andlipopolysaccharide-treated RAW264. 7 macrophages. Food & Function, 3, 1294-1301.
  • Lacombe A, Wu VC, Tyler S & Edwards K. (2010)Antimicrobial action of the American cranberryconstituents; phenolics, anthocyanins, and organic acids,against Escherichia coli O157: H7. International Journalof Food Microbiology, 139, 102-107.
  • La VD, Labrecque J & Grenier D. (2009) Cytoprotective effectof proanthocyanidin rich cranberry fraction againstbacterial cell wall mediated toxicity in macrophages andepithelial cells. Phytotherapy Research, 23, 1449-1452.
  • Kuhn AM, Tzieply N, Schmidt MV, von Knethen A, NamgaladzeD, Yamamoto M & Brune B. (2011) Antioxidant signalingvia Nrf2 counteracts lipopolysaccharide-mediatedinflammatory responses in foam cell macrophages. FreeRadical Biology and Medicine, 50, 1382-1391.
  • Kris-Etherton PM, Hecker KD, Bonanome A, Coval SM,Binkoski AE, Hilpert KF, Griel AE & Etherton TD. (2002)Bioactive compounds in foods: their role in theprevention of cardiovascular disease and cancer. TheAmerican Journal of Medicine, 113, 71-88.
  • Korea Food Industry Association. (2013) Food Code. 539-564.
  • Kim YH, Lee MJ, Lee HS, Kim JG & Park WH. (2011)Suppressive effect of euryale ferox salisbury extracts oninflammatory response in lps-stimulated RAW 264.7cells through the antioxidative mechanism. KoreanJournal of Oriental Physiology & Pathology, 25, 202-211.
  • Kim MJ, Chung J-Y, Kim JH & Kwak H-K. (2013) Effects ofcranberry powder on biomarkers of oxidative stress andglucose control in db/db mice. Nutrition Research andPractice, 7, 430-438.
  • Khor TO, Huang MT, Kwon KH, Chan JY, Reddy BS & Kong AN. (2006) Nrf2-deficient mice have an increasedsusceptibility to dextran sulfate sodium?induced colitis. Cancer Research, 66, 11580-11584.
  • Kaume L, Gilbert WC, Brownmiller C, Howard LR, & DevareddyL. (2012). Cyanidin 3-O-β-D-glucoside-richblackberries modulate hepatic gene expression, andanti-obesity effects in ovariectomized rats. Journal ofFunctional Foods, 4, 480-488.
  • Kalt W, MacKinnon S, McDonald J, Vinqvist M, Craft C &Howell A. (2008) Phenolics of Vaccinium berries andother fruit crops. Journal of the Science of Food andAgriculture, 88, 68-76.
  • Kahkonen MP, Heinamaki J, Ollilainen V & Heinonen M. (2003)Berry anthocyanins: isolation, identification andantioxidant activities. Journal of the Science of Food andAgriculture, 83, 1403-1411.
  • Kahkonen MP & Heinonen M. (2003) Antioxidant activity ofanthocyanins and their aglycons. Journal of Agriculturaland Food Chemistry, 51, 628-633.
  • Jung H, Lee H, Cho H & Hwang KT. (2012) Antioxidant andanti-proliferative activities of Rubus fruits in korea. Journal of Korean society Food Science and Nutrition, 41,1649-1655.
  • Jeong JH, Jung H, Lee SR, Lee HJ, Hwang KT & Kim TY. (2010) Anti-oxidant, anti-proliferative and antiinflammatoryactivities of the extracts from blackraspberry fruits and wine. Food Chemistry, 123(2),338-344.
  • Izumi S, Ohno N & Yadomae T. (1997) Down-regulation ofLPS-induced nitric oxide synthesis of murinemacrophages by oral administration of Sho-saiko-to. Drug Development Research, 40, 48-55.
  • Hemnani T & Parihar M. (1998) Reactive oxygen species andoxidative DNA damage. Indian Journal of Physiology andPharmacology, 42, 440-452.
  • Gloire G, Legrand-Poels S & Piette J. (2006) NF-κBactivation by reactive oxygen species: fifteen years later. Biochemical Pharmacology, 72, 1493-1505.
  • Fujihara M, Muroi M, Tanamoto K, Suzuki T, Azuma H & IkedaH. (2003) Molecular mechanisms of macrophageactivation and deactivation by lipopolysaccharide: rolesof the receptor complex. Pharmacology & Therapeutics,100, 171-194.
  • Fubini B & Hubbard A. (2003) Reactive oxygen species (ROS)and reactive nitrogen species (RNS) generation by silicain inflammation and fibrosis. Free Radical Biology andMedicine, 34, 1507-1516.
  • Feghali K, Feldman M, La VD, Santos J & Grenier D. (2011)Cranberry proanthocyanidins: natural weapons againstperiodontal diseases. Journal of Agricultural and FoodChemistry, 60, 5728-5735.
  • Fan-Chiang HJ & Wrolstad RE. (2005) Anthocyanin pigmentcomposition of blackberries. Journal of Food Science,70(3), C198-C202.
  • Elisia I, Hu C, Popovich DG & Kitts DD. (2007) Antioxidantassessment of an anthocyanin-enriched blackberryextract. Food Chemistry, 101, 1052-1058.
  • Duthie G & Crozier A. (2000) Plant-derived phenolicantioxidants. Current Opinion in Lipidology, 11, 43-47.
  • Chung JH, Kang MK, Rho JS & Yum KS.(2010) The associationbetween visceral fat and endotoxin. The Korean Journalof Obesity, 19, 78-84.
  • Chu Y-F & Liu RH. (2005) Cranberries inhibit LDL oxidationand induce LDL receptor expression in hepatocytes. LifeSciences, 77, 1892-1901.
  • Chen T, Hwang HJ, Rose ME, Nines RG & Stoner GD. (2006)Chemopreventive properties of black raspberries in N-130 -nitrosomethylbenzylamine-induced rat esophagealtumorigenesis: down-regulation of cyclooxygenase-2,inducible nitric oxide synthase, and c-Jun. CancerResearch, 66, 2853-2859.
  • Chapple I. (1997) Reactive oxygen species and antioxidants ininflammatory diseases. Journal of Clinical Periodontology,24, 287-296.
  • Boyles MJ & Wrolstad RE. (1993) Anthocyanin composition ofred raspberry juice - influences of cultivar, processing,and environmental-factors. Journal of Food Science, 58,1135-1141.
  • Bowen-Forbes CS, Zhang YJ & Nair MG. (2010) Anthocyanincontent, antioxidant, anti-inflammatory and anticancerproperties of blackberry and raspberry fruits. Journal ofFood Composition and Analysis, 23, 554-560.
  • Bodet C, Chandad F & Grenier D. (2006) Anti-inflammatoryactivity of a high-molecular-weight cranberry fractionon macrophages stimulated by lipopolysaccharides fromperiodontopathogens. Journal of Dental Research, 85,235-239.
  • Benzie IF & Strain J. (1996) The ferric reducing ability ofplasma (FRAP) as a measure of “antioxidant power”:the FRAP assay. Analytical Biochemistry, 239, 70-76.
  • AOAC : Official Methods of Analysis. (1995) 16th ed.,Association of Official Analytical Chemists, Virginia,Chapter 45.
  • AOAC : Official Methods of Analysis. (1995) 16th ed.,Association of Official Analytical Chemists, Virginia,Chapter 37.
  • ?i? M, Pavelkova M, Gallova L, Kralova J, Kubala L & Lojek A. (2008) The influence of wine polyphenols on reactiveoxygen and nitrogen species production by murinemacrophages RAW 264.7. Physiological Research, 57,393-402.