Abstrakt

Przypisy

• 1. Amin A., Buratovich M.: The anti-cancer charm of flavonoids:a cup-of-tea will do! Recent Pat. Anticancer Drug Discov., 2007; 2:109-117 2 Arimura T., Kojima-Yuasa A., Tatsumi Y., Kennedy D.O., Matsui–Yuasa I.: Involvement of polyamines in evening primrose extract–induced apoptosis in Ehrlich ascites tumor cells. Amino Acids, 2005;28: 21-27
  Google Scholar
• 2. and 9, and extracellular matrix in Kaposi’s sarcoma.Dermatol. Ther., 2010; 23: S33-S36
  Google Scholar
• 3. Bachmeier B., Nerlich A.G., Iancu C.M., Cilli M., Schleicher E.,Vené R., Dell’Eva R., Jochum M., Albini A., Pfeffer U.: The chemopreventivepolyphenol Curcumin prevents hematogenous breastcancer metastases in immunodeficient mice. Cell. Physiol. Biochem.,2007; 19: 137-152
  Google Scholar
• 4. Bongiorno M.R., Doukaki S., Ferro G., Aricò M.: Matrix metalloproteinases
  Google Scholar
• 5. Bordonaba J.G., Terry L.A.: Biochemical profiling and chemometricanalysis of seventeen UK-grown black currant cultivars. J. Agric.Food Chem., 2008; 56: 7422-7430
  Google Scholar
• 6. Chen C.J., Yu W., Fu Y.C., Wang X., Li J.L., Wang W.: Resveratrol protectscardiomyocytes from hypoxia-induced apoptosis through the SIRT1-FoxO1 pathway. Biochem. Biophys. Res. Commun., 2009; 378: 389-393
  Google Scholar
• 7. Chen Y., Huang C., Zhou T., Chen G.: Genistein induction of humansulfotransferases in HepG2 and Caco-2 cells. Basic Clin. Pharmacol.Toxicol., 2008; 103: 553-559
  Google Scholar
• 8. Déziel B.A., Patel K., Neto C., Gottschall-Pass K., Hurta R.A.: Proanthocyanidinsfrom the American Cranberry (Vaccinium macrocarpon)inhibit matrix metalloproteinase-2 and matrix metalloproteinase-9activity in human prostate cancer cells via alterations inmultiple cellular signalling pathways. J. Cell. Biochem., 2010; 111:742-754
  Google Scholar
• 9. Dhandapani K.M., Mahesh V.B., Brann D.W.: Curcumin suppressesgrowth and chemoresistance of human glioblastoma cells via AP-1and NFκB transcription factors. J. Neurochem., 2007; 102: 522-538
  Google Scholar
• 10. Dyrby M., Westergaard N., Stapelfeldt H.: Light and heat sensitivityof red cabbage extract in soft drink model systems. FoodChem., 2001; 72: 431-437
  Google Scholar
• 11. Egeblad M., Werb Z.: New functions for the matrix metalloproteinasesin cancer progression. Nat. Rev. Cancer, 2002; 3: 161-174
  Google Scholar
• 12. Emmert-Buck M.R., Roth M.J., Zhuang Z., Campo E., RozhinJ., Sloane B.F., Liotta L.A., Stetler-Stevenson W.G.: Increased gelatinaseA (MMP-2) and cathepsin B activity in invasive tumorregions of human colon cancer samples. Am. J. Pathol., 1994;145: 1285-1290
  Google Scholar
• 13. Garbisa S., Sartor L., Biggin S., Salvato B., Benelli R., Albini A.:Tumor gelatinases and invasion inhibited by the green tea flavanolepigallocatechin-3-gallate. Cancer, 2001; 91: 822-832
  Google Scholar
• 14. Gonzalez-Sarrias A., Espin J.C., Tomas-Barberan F.A., Garcia-ConesaM.T.: Gene expression, cell cycle arrest and MAPK signallingregulation in Caco-2 cells exposed to ellagic acid and its metabolitesurolithins. Mol. Nutr. Food Res., 2009; 53: 686-698
  Google Scholar
• 15. Gorlach S., Wagner W., Podsedek A., Sosnowska D., Dastych, J.,Koziołkiewicz M.: Polyphenols from evening primrose (Oenotheraparadoxa) defatted seeds induce apoptosis in human colon cancerCaco-2 cells. J. Agr. Food Chem., 2011; 59: 6985-6997
  Google Scholar
• 16. Hartzfeld P.W., Forkner R., Hunter M.D., Hagerman A.E.: Determinationof hydrolyzable tannins (gallotannins and ellagitannins)after reaction with potassium iodate. J. Agr. Food Chem., 2002; 50:1785-1790
  Google Scholar
• 17. Henriksson E., Kjellén E., Wahlberg P., Wennerberg J., KjellströmJ. H.: Differences in estimates of cisplatin-induced cell kill in vitrobetween colorimetric and cell count/colony assays. In Vitro Cell.Dev. Biol. Anim., 2006; 42: 320-323
  Google Scholar
• 18. Hrabec E., Stręk M., Nowak D., Greger J., Suwalski M., HrabecZ.: Activity of type IV collagenases (MMP-2 and MMP-9) in primarypulmonary carcinomas: a quantitative analysis. J. Cancer Res. Clin.Oncol., 2002; 128: 197-204
  Google Scholar
• 19. Itoh T., Tanioka M., Yoshida H., Yoshioka T., Nishimoto H., ItoharaS.: Reduced angiogenesis and tumor progression in gelatinaseA-deficient mice. Cancer Res., 1998; 58: 1048-1051
  Google Scholar
• 20. Jaszewska E., Kośmider A., Kiss A.K., Naruszewicz M.: Pro-oxidativeand pro-apoptotic action of defatted seeds of Oenothera paradoxaon human skin melanoma cells. J. Agr. Food Chem., 2009; 57:8282-8289
  Google Scholar
• 21. Jespersen C., Doller A., Akool el S., Bachmann M., Müller R.,Gutwein P., Mühl H., Pfeilschifter J., Eberhardt W.: Molecular mechanismsof nitric oxide-dependent inhibition of TPA-induced matrixmetalloproteinase-9 (MMP-9) in MCF-7 cells. J. Cell Physiol., 2009;219: 276-287
  Google Scholar
• 22. Kiss A.K., Derwińska M., Dawidowska A., Naruszewicz M.: Novelbiological properties of Oenothera paradoxa defatted seed extracts:effects on metallopeptidase activity. J. Agr. Food Chem., 2008; 56:7845-7852
  Google Scholar
• 23. Kowluru R.A., Kanwar M.: Oxidative stress and the developmentof diabetic retinopathy: contributory role of matrix metalloproteinase-2.Free Radic. Biol. Med., 2009; 46: 1677-1685
  Google Scholar
• 24. Kris-Etherton P.M., Hecker K.D., Bonanome A., Coval S.M.,Binkoski A.E., Hilpert K.F., Griel AE, Etherton T.D.: Bioactive compoundsin foods: their role in the prevention of cardiovascular diseaseand cancer. Am. J. Med., 2002; 113: 71S-88S
  Google Scholar
• 25. Leung H.W., Lin C.J., Hour M.J., Yang W.H., Wang M.Y., Lee H.Z.:Kaempferol induces apoptosis in human lung non-small carcinomacells accompanied by an induction of antioxidant enzymes. FoodChem. Toxicol., 2007; 45: 2005-2013
  Google Scholar
• 26. Lewandowska U., Szewczyk K., Owczarek K., Hrabec Z., PodsędekA., Koziołkiewicz M., Hrabec E.: Flavanols from Japanese quince(Chaenomeles japonica) fruit inhibit human prostate and breast cancercell line invasiveness and cause favorable changes in Bax/Bcl-2mRNA ratio. Nutr. Cancer, 2013; 65: 273-285
  Google Scholar
• 27. Liu R.H.: Health benefits of fruit and vegetables are from additiveand synergistic combinations of phytochemicals. Am. J. Clin.Nutr., 2003; 78: 517S-520S
  Google Scholar
• 28. Mattson M.P.: Dietary factors, hormesis and health. Ageing Res.Rev., 2008; 7: 43-48
  Google Scholar
• 29. Ohshima S., Fujimoto S., Petrov A., Nakagami H., Haider N., ZhouJ., Tahara N., Osako M.K., Fujimoto A., Zhu J., Murohara T., EdwardsD.S., Narula N., Wong N.D., Chandrashekhar Y., Morishita R., NarulaJ.: Effect of an antimicrobial agent on atherosclerotic plaques: assessmentof metalloproteinase activity by molecular imaging. J. Am.Coll. Cardiol., 2010; 55: 1240-1249
  Google Scholar
• 30. Panickar K.S., Anderson R.A.: Role of dietary polyphenols in attenuatingbrain edema and cell swelling in cerebral ischemia. RecentPat. CNS Drug Discov., 2010; 5: 99-108
  Google Scholar
• 31. Peiretti P.G., Palmegiano G.B., Masoero G.: Chemical composition,organic matter digestibility and fatty acid content of eveningprimrose (Oenothera paradoxa) during its growth cycle. Anim. FeedSci. Tech., 2004; 116: 293-299
  Google Scholar
• 32. Pellegrina C.D., Padovani G., Mainente F., Zoccatelli G., Bissoli G.,Mosconi S., Veneri G, Peruffo A, Andrighetto G, Rizzi C, Chignola R.:Anti-tumour potential of a gallic acid-containing phenolic fractionfrom Oenothera biennis. Cancer Lett., 2005; 226: 17-25
  Google Scholar
• 33. Psahoulia F.H., Moumtzi S., Roberts M.L., Sasazuki T., ShirasawaS., Pintzas A.: Quercetin mediates preferential degradation of oncogenicRas and causes autophagy in Ha-RAS transformed humancolon cells. Carcinogenesis, 2007; 28: 1021-1031
  Google Scholar
• 34. Rösch D., Bergmann M., Knorr D., Kroh L. W.: Structure-antioxidantefficiency relationships of phenolic compounds and theircontribution to the antioxidant activity of sea buckthorn juice. J.Agric. Food Chem., 2003; 51: 4233-4239
  Google Scholar
• 35. Swain T., Hillis W.E.: The phenolics constituents of Prunus domesticaII. J. Sci. Food Agr., 1959; 10: 63-68
  Google Scholar
• 36. Talorete T.P., Bouaziz M., Sayadi S., Isoda H.: Influence of mediumtype and serum on MTT reduction by flavonoids in the absence ofcells. Cytotechnology, 2006; 52: 189-198
  Google Scholar
• 37. Vayalil P.K., Katiyar S.K.: Treatment of epigallocatechin-3-gallateinhibits matrix metalloproteinases-2 and -9 via inhibition ofactivation of mitogen-activated protein kinases, c-jun and NF–kappaB in human prostate carcinoma DU-145 cells. Prostate, 2004;59: 33-42
  Google Scholar
• 38. Vela-Navarrete R., Escribano-Burgos M., Farré A.L., García-CardosoJ., Manzarbeitia F., Carrasco C.: Serenoa repens treatment modifiesbax/bcl-2 index expression and caspase-3 activity in prostatictissue from patients with benign prostatic hyperplasia., J. Urol.,2005; 173: 507-510
  Google Scholar
• 39. World Cancer Research Fund/American Institute for CancerResearch. Food, Nutrition, Physical Activity, and the Prevention ofCancer: a Global Perspective. Washington DC: AICR, 2007
  Google Scholar
• 40. Xu J., Rodriguez D., Petitclerc E., Kim J.J., Hangai M., Moon Y.S.,Davis G.E., Brooks P.C.: Proteolytic exposure of a cryptic site withincollagen type IV is required for angiogenesis and tumor growth invivo. J. Cell Biol., 2001; 154: 1069-1079
  Google Scholar
• 41. Zhang X., Fang H., Zhang J., Yuan Y., Xu W.: Recent advance inaminopeptidase N(APN/CD13) inhibitor research. Curr. Med. Chem.,2011; 18: 5011-5021
  Google Scholar

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