Quercetin improves developmental competence of mouse oocytes by reducing oxidative stress during in vitro maturation

Abazari- Kia A.H., Mohammadi- Sangcheshmeh A., Dehghani-Mohammad - abadi M., Jamshidi-Adegani F., Veshkini A., Zhandi M., Cinar M.U., Sale- hi M. (2014). Intracellular glutathione content, developmental competence and expression of apoptosis- related genes associated with G6PDH-activity in goat oocyte. J. Assist. Reprod. Genet., 31: 313-321.Search in Google Scholar

Bayir H., Kagan V.E. (2008). Bench-to-bedside review: Mitochondrial injury, oxidative stress and apoptosis - there is nothing more practical thanagood theory. Crit. Care., 12: 206.Search in Google Scholar

Boots A.W., Haenen G.R.M.M., Bast A. (2008). Health effects of quercetin: From antioxidant to nutraceutical. Eur. J. Pharmacol., 585: 325-337.Search in Google Scholar

Camargo C.A.,da Silva M.E.F.,da Silva R.A., Justo G.Z., Gomes- Marcondes M.C., Aoyama H. (2011). Inhibition of tumor growth by quercetin with increase of survival and prevention of cachexia in Walker 256 tumor-bearing rats. Biochem. Biophys. Res. Commun., 406: 638-642.Search in Google Scholar

Cho J.Y., Kim I.S., Jang Y.H., Kim A.R., Lee S.R., (2006). Protective effect of quercetin, a natural flavonoid against neuronal damage after transient global cerebral ischemia. Neurosci. Lett., 404: 330-335.Search in Google Scholar

Choi T. (2011). Dimethyl sulfoxide inhibits spontaneous oocyte fragmentation and delays inactivation of maturation promoting factor (MPF) during the prolonged culture of ovulated murine oocytes in vitro. Cytotechnology, 63: 279-284.10.1007/s10616-011-9339-8Open DOISearch in Google Scholar

Gitika B., Sai Ram M., Sharma S.K., Ilavazhagan G., Banerjee P.K. (2006). Quercetin protects C6 glial cells from oxidative stress induced by tertiary-butylhydroperoxide. Free Radic. Res., 40: 95-102.Search in Google Scholar

Ishige K., Schubert D., Sagara Y. (2001). Flavonoids protect neuronal cells from oxidative stress by three distinct mechanisms. Free Radic. Biol. Med., 30: 433-446.Search in Google Scholar

Johnson M.K., Loo G. (2000). Effects of epigallocatechin gallate and quercetin on oxidative damage to cellular DNA. Mutat. Res., 459: 211-218.Search in Google Scholar

Kang J.T., Kwon D.K., Park S.J., Kim S.J., Moon J.H., Koo O.J., Jang G., Lee B.C. (2013). Quercetin improves the in vitro development of porcine oocytes by decreasing reactive oxygen species levels. J. Vet. Sci., 14: 15-20.10.4142/jvs.2013.14.1.15Open DOISearch in Google Scholar

Kang J.T., Moon J.H., Choi J.Y., Park S.J., Kim S.J., Saadeldin I.M., Lee B.C. (2016). Effect of antioxidant flavonoids (quercetin and taxifolin) on in vitro maturation of porcine oocytes. Asian Australas. J. Anim. Sci., 29: 352-358.Search in Google Scholar

Kim T.H., Yuh I.S., Park I.C., Cheong H.T., Kim J.T., Park C.K., Yang B.K. (2014). Effects of quercetin and genistein on boar sperm characteristics and porcine IVFembryo developments. J. Embryo Transfer, 29: 141-148.Search in Google Scholar

Kleemann R., Verschuren L., Morrison M., Zadelaar S.,van Erk M.J., Wielin - ga P.Y., Kooistra T. (2011). Anti-inflammatory, anti-proliferative and anti-atherosclerotic effects of quercetin in human in vitro and in vivo models. Atherosclerosis, 218: 44-52.Search in Google Scholar

Kwak S., Hyun S. (2012). The effects of resveratrol on oocyte maturation and preimplantation embryo development. J. Emb. Trans., 27: 71-80.Search in Google Scholar

Lee B.H., Choi S.H., Kim H.J., Jung S.W., Hwang S.H., Pyo M.K., Rhim H., Kim H.C., Kim H.K., Lee S.M., Nah S.Y. (2016). Differential effects of quercetin and quercetin glycosides on humanα7 nicotinic acetylcholine receptor-mediated ion currents. Biomol. Ther., 24: 410-417.Search in Google Scholar

Lin Y.H., Hwang J.L. (2006). In vitro maturation of human oocytes. Taiwanese J. Obstet. Gynecol., 45: 95-99.Search in Google Scholar

Maedomari N., Kikuchi K., Ozawa M., Noguchi J., Kaneko H., Ohnuma K., et al., (2007). Cytoplasmic glutathione regulated by cumulus cells during porcine oocyte maturation affects fertilization and embryonic development in vitro. Theriogenology, 67: 983-993.Search in Google Scholar

Matos D.G. de, Gasparrini B., Pasqalini S.R., Thompson J.G. (2002). Effect of glutathione synthesis stimulation during in vitro maturation of ovine oocytes on embryo development and intracellular peroxide content. Theriogenology, 57: 1443-1451.10.1016/S0093-691X(02)00643-XOpen DOISearch in Google Scholar

Mi Y., Zhang C., Taya K. (2007). Quercetin protects spermatogonial cells from 2,4-d-induced oxidative damage in embryonic chickens. J. Reprod. Dev., 53: 749-754.Search in Google Scholar

Moskaug J., Carlsen H., Myhrstad M., Blomhoff R. (2004). Molecular imaging of the biological effects of quercetin and quercetin-rich foods. Mech. Ageing Dev., 125: 315-324.Search in Google Scholar

Mukherjee A., Malik H., Saha A.P., Dubey A., Singhal D.K., Boateng S., Sau- gandhika S., Kumar S., De S., Guha S.K., Malakar D. (2014). Resveratrol treatment during goat oocytes maturation enhances developmental competence of parthenogenetic and handmade cloned blastocysts by modulating intracellular glutathione level and embryonic gene expression. J. Assist. Reprod. Genet., 31: 229-239.Search in Google Scholar

Rajabi-Toustani R., Motamedi-Mojdehi R., Roostaei-Ali Mehr M., Motame - di-Mojdehi R. (2013). Effect of Papaver rhoeas L. extract on in vitro maturation of sheep oocytes. Small Rumin. Res., 114: 146-151.Search in Google Scholar

Rao M.K., Ghosh B. (1999). Quercetin inhibits LPS-induced nitric oxide and tumor necrosis factor-α production in murine macrophages. Int. J. Immunopharmacol., 21: 435-443.10.1016/S0192-0561(99)00024-7Open DOISearch in Google Scholar

Rogerio A.P., Dora C.L., Andrade E.L., Chaves J.S., Silva L.F.C., Lemos- Senna E., Calixto J.B. (2010). Anti-inflammatory effect of quercetin-loaded microemulsion in the airways allergic inflammatory model in mice. Pharmacol. Res., 61: 288-297.10.1016/j.phrs.2009.10.005Open DOISearch in Google Scholar

Santos N.C., Prieto M.J.E., Morna- Gomes A., Betbeder D., Castanho M.A.R.B. (1997). Structural characterization (shape and dimensions) and stability of polysaccharide/lipid nanoparticles. Biopolymers, 41: 511-520.10.1002/(SICI)1097-0282(19970415)41:5<511::AID-BIP3>3.0.CO;2-POpen DOISearch in Google Scholar

Santos N.C., Figueira-Coelho J., Martins- Silva J., Saldanha C. (2003). Multidisciplinary utilization of dimethyl sulfoxide: pharmacological, cellular, and molecular aspects. Biochem Pharmacol., 65: 1035-1041.10.1016/S0006-2952(03)00002-9Open DOISearch in Google Scholar

Sestili P., Guidareli A., Dacha M., Cantoni M. (1998). Quercetin prevents DNAsingle strand breakage and cytotoxicity caused by tert-butylhydroperoxide free radical scavenging versus iron chelating mechanism. Free Radic. Biol. Med., 25: 196-200.Search in Google Scholar

Silva L.M., Lazzarotto C.R., Tavares K.C., Oliveira C.H., Silva A.M., Fernan - des C.C., Aguiar L.H., Martins L.T., Neto S.G., Rios D.B., Bertolini L.R., Berto- lini M., Silva C.M., Rondina D. (2014). Comparative expression profiles of genes related to oocyte development in goats after long-term feeding with biodiesel castor industry residues. Anim. Reprod. Sci., 148: 32-41.Search in Google Scholar

Sovernigo T.C., Adona P.R., Monzani P.S., Guemra S., Barros F.D.A., Lopes F.G., Leal C.L.V. (2017). Effects of supplementation of medium with different antioxidants during in vitro maturation of bovine oocytes on subsequent embryo production. Reprod. Domest. Anim., 52: 561-569.10.1111/rda.12946Open DOISearch in Google Scholar

Su J.F., Guo C.J., Wei J.Y., Yang J.J. (2002). Antioxidant capacity of quercetin in vitro and in vivo. Chin. J. Appl. Physiol., 18: 382-386.Search in Google Scholar

Su J.F., Guo C.J., Wei J.Y., Yang J.J., Jiang Y.G., Li Y.F. (2003). Protection against hepatic ischemia-reperfusion injury in rats by oral pretreatment with quercetin. Biomed. Environ. Sci., 16: 1-8.Search in Google Scholar

Suematsu N., Hosoda M., Fujimori K. (2011). Protective effects of quercetin against hydrogen peroxide-induced apoptosis in human neuronal SH-SY5Ycells. Neurosci. Lett., 504: 223-227.Search in Google Scholar

Tavana S., Eimani H., Azarnia M., Shahverdi A., Eftekhari- Yazdi P. (2012). Effects of saffron (Crocus sativus L.) aqueous extract on in vitro maturation, fertilization and embryo development of mouse oocytes. Cell J., 13: 259-264.Search in Google Scholar

Ubaldi F., Rienzi L. (2008). Morphological selection of gametes. Placenta, 29: S115-S120.10.1016/j.placenta.2008.08.009Open DOISearch in Google Scholar

Vijaya Kumar Reddy C., Sreeramulu D., Raghunath M. (2010). Antioxidant activity of fresh and dry fruits commonly consumed in India. Food Res. Int., 4: 285-288.10.1016/j.foodres.2009.10.006Open DOISearch in Google Scholar

Wang F., Tian X., Zhang L., He C., Ji P., Li Y., Tan D., Liu G. (2014). Beneficial effect of resveratrol on bovine oocyte maturation and subsequent embryonic development after in vitro fertilization. Fertil. Steril., 101: 577-586.Search in Google Scholar

Wang H., Jo Y.J., Oh J.S., Kim N.H. (2017). Quercetin delays postovulatory aging of mouse oocytes by regulating SIRTexpression and MPFactivity. Oncotarget, 8: 38631-38641.Search in Google Scholar

Yamamoto N., Moon J.H., Tsushida T., Nagao A., Terao J. (1999). Inhibitory effects of quercetin metabolites and their related derivatives on copper ion-induced lipid peroxidation in human low-density lipoprotein. Arch. Biochem. Biophys., 372: 347-354.Search in Google Scholar

Yu S., Long H., Lyu Q.F., Zhang Q.H., Yan Z.G., Liang H.X., et al. (2014). Protective effect of quercetin on the development of preimplantation mouse embryos against hydrogen peroxideinduced oxidative injury. Pl OS One, 9: e89520.Search in Google Scholar

Zhu J.T.T., Choi R.C.Y., Chu G.K.Y., Cheung A.W.H., Gao Q.T., Li J., Jiang Z.Y., Dong T.T.X., Tsim K.W.K. (2007). Flavonoids possess neuroprotective effects on cultured pheochromocytoma pc12 cells: Acomparison of different flavonoids in activating estrogenic effect and in preventingβ-amyloid-induced cell death. J. Agric. Food Chem., 55: 2438-2445.10.1021/jf063299zOpen DOISearch in Google Scholar

Zimmermann M. (1983). Ethical guidelines for investigations of experimental pain in conscious animals. Pain, 16: 109-110.10.1016/0304-3959(83)90201-4Open DOISearch in Google Scholar