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Vertebrate reproductive science and technology
RESEARCH ARTICLE

83 VITAMIN K2 SUPPLEMENTATION IMPROVES BLASTOCYST RATE BY RECOVERY OF MITOCHONDRIA IN IN VITRO-CULTURED BOVINE EMBRYOS

L. Baldoceda A , C. Vigneault B , P. Blondin B and C. Robert A
+ Author Affiliations
- Author Affiliations

A Centre de Recherche en Biologie de la Reproduction, Département des Sciences Animales, Université Laval, Québec, Québec, Canada;

B L'Alliance Boviteq Inc., Saint-Hyacinthe, Québec, Canada

Reproduction, Fertility and Development 26(1) 155-156 https://doi.org/10.1071/RDv26n1Ab83
Published: 5 December 2013

Abstract

Mitochondria play an important role during early mammalian embryo development through their diverse cellular functions, in particular creating balance between production of ATP by electron transport chain and oxidative stress. Embryonic mitochondria are inherited maternally and independently of the nuclear genome. They show limited activity during the early developmental stages before embryonic genome activation. It has been shown that in vitro culture (IVC) has an adverse effect on mitochondrial function in embryos. So far several attempts have been performed to improve and rescue the impaired mitochondria. It has been shown that vitamin K2 (a membrane-bound electron carrier, similar to ubiquinone) was used to rescue mitochondrial dysfunction and resulted in more efficient ATP production in eukaryotic cells (Vos et al. 2012 Science 336, 1306–1310). Therefore, the aim of the present study was to investigate the effects of supplementation of vitamin K2 on mitochondrial activity and blastocyst rate. Cumulus–oocytes complexes (n = 687) recovered from slaughtered animals, were matured and fertilized in vitro according to our standard procedures. After fertilization, zygotes were cultured in SOF media supplemented with 10 mg mL–1 BSA. At 96 h post-fertilization, vitamin K2 was added to the culture media (n = 448 oocytes). On Day 7, treatment embryos were compared with untreated controls (n = 239 oocytes). In vitro culture was carried out at 38.5°C under 5% CO2, 7% O2, and 88% N2. Differences among groups in blastocyst yield were analysed by ANOVA. Mitochondrial activity data was analysed by unpaired 2-tailed t-tests. Results show that the vitamin K2-treated group had a significantly (P < 0.05) higher blastocyst rate (+8.6%), expanded blastocyst rate (+7.8%), as well as better morphological quality compared with the control group. Furthermore, to evaluate mitochondria activity, pools of embryos of each treatment were labelled with a specific dye for active mitochondria (Mitotracker Red). A significantly higher intensity of Mitotracker Red (P < 0.05) was observed in the vitamin K2 treatment versus control group, as measured by fluorescent microscopy. In conclusion, for the first time, our data prove that supplementation of vitamin K2 during IVC of bovine embryos increases blastocyst rates and embryo quality. Future studies will focus on gene expression to identify targets implicated in impaired mitochondrial activity in in vitro bovine embryo production.