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RESEARCH ARTICLE

60 Quercetin protects bovine pre-implantation embryos against oxidative stress via activation of Nrf2 signaling pathway

O. Khadrawy A , S. Gebremedhn A , D. Salilew-Wondim A , F. Rings A , C. Neuhoff A , E. Tholen A , E. Held-Hoelker A , M. Hoelker A , K. Schellander A and D. Tesfaye A
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Department of Animal Breeding and Husbandry, Institute of Animal Sciences, University of Bonn, Bonn, Germany

Reproduction, Fertility and Development 31(1) 155-155 https://doi.org/10.1071/RDv31n1Ab60
Published online: 3 December 2018

Abstract

High atmospheric oxygen level during in vitro embryo culture system is reported to induce oxidative stress, leading to an increased intracellular reactive oxygen species (ROS) accumulation and lower the quality and development of the embryos. The Nrf2 is a redox sensitive transcription factor, which regulates the antioxidant machinery against oxidative stress in bovine pre-implantation embryos (Amin et al. 2014 Mol. Reprod. Dev. 81, 497-513). Quercetin is a plant-derived flavonoid found in fruits and vegetables with antioxidant, anti-inflammatory, and anti-apoptotic properties. The effect of these antioxidants on the development and quality of bovine pre-implantation embryos with respect to the activation of the Nrf2 signalling pathways is not yet discovered. Here, we aimed to investigate the effect of quercetin supplementation on the activation of the Nrf2 signalling pathway and the subsequent impact on the quality of bovine embryos. For this, presumptive bovine zygotes were cultured in SOFaa embryo culture media supplemented with or without 10 µM quercetin (482 and 485 zygotes, respectively) and incubated under high oxygen level (20%) conditions. Day 7 and Day 8 blastocysts were analysed for the accumulation intracellular ROS and mitochondrial activity using H2DCFDA and MitoTracker® Red, respectively. Thereafter, blastocysts from both groups were subjected to total RNA isolation using Norgen total RNA purification plus kit (BioTek, Winooski, VT, USA). The relative abundance of Nrf2 and its downstream antioxidant genes (NQO1, PRDX1, SOD1, and CAT) was quantified using quantitative PCR. Moreover, the protein level of Nrf2 was detected using immunofluorescence staining. Data from 4 independent biological replicates were statistically analysed using a 2-tailed Student’s t-test. A significant difference in the mean value among treatments was determined at P = 0.05. Results showed that quercetin supplementation in embryo culture medium significantly increased the blastocyst total cell number both at Day 7 (125 ± 7.98 v. 100 ± 3.74; P = 0.007) and Day 8 (128 ± 4.49 v. 95 ± 3.15; P < 0.0001). However, no difference was observed in the quercetin-treated group compared with control with respect to the cleavage rate (85.89 ± 1.11 v. 83.86 ± 1.27; P = 0.2) as well as the blastocyst rate at Day 7 (24.57 ± 4.94 v. 27.23 ± 1.68; P = 0.64) and Day 8 (41.17 ± 3.70 v. 38.87 ± 0.85; P = 0.58). Interestingly, quercetin-supplemented blastocysts showed a significant reduction in intracellular ROS level and increment in the mitochondrial activity compared with untreated counterparts. Supplementation of quercetin activated the Nrf2 transcriptional factor both at the mRNA and protein level, which subsequently activated the transcription of the aforementioned downstream antioxidant genes. In conclusion, supplementation of quercetin to embryo culture media protects embryos against oxidative stress by activating the Nrf2-mediated oxidative stress response mechanism, which leads to reduced accumulation of ROS and elevated mitochondrial activity.