Resveratrol is a potent activator of NAD-dependent deacetyltransferase sirtuin-1 (SIRT1) and affects lipid metabolism and ATP generation in somatic cells. In the present study, the effects of supplementing culture medium with
resveratrol on lipid metabolism, ATP generation, and cryosensitivity of bovine in vitro produced embryos were investigated. Bovine early cleaved-stage embryos were cultured in medium containing 0 or 0.5 µM
resveratrol for 1 or 5 days. Resveratrol treatment for both 1 day and 5 days increased the expression levels of SIRT1 and phosphorylated AMP-activated protein kinase (pAMPK) in the embryos. Furthermore, resveratrol treatment was
effective to increase ATP generation and reduce lipid content of the embryos. The effects of resveratrol treatment were diminished by the SIRT1 inhibitor “EX527”, and the reduced lipid content was reversed by treatment with
etomoxir (a potent inhibitor of beta-oxidation). Blastocysts developed after resveratrol treatment showed low levels reactive oxygen species and increased cryotolerance. These results demonstrate that resveratrol improves
in vitro development of bovine embryos, while reducing cytoplasmic lipid content through activation of beta-oxidation, thereby effective for production of bovine blastocysts with enhanced cryotolerance.
This study evaluated the effects of cryopreservation by slow freezing on the mitochondrial function, DNA integrity, and developmental ability of bovine embryos and examined whether resveratrol treatment of the frozen‐thawed blastocysts improved embryonic viability. In vitro produced bovine embryos were subjected to slow freezing. After thawing, the ATP content and mitochondrial DNA integrity (mtDNA), determined by real‐time PCR targeting short and long mitochondrial sequences, was found to be lower in frozen‐thawed embryos than in fresh embryos, and mtDNA copy number was significantly reduced during the 24‐hr incubation post warming. Furthermore, immunostaining against double‐strand DNA revealed DNA damage in frozen‐thawed embryos. When frozen‐thawed embryos were incubated in the medium containing 0.5 µM resveratrol, SIRT1 expression, and survival rate of the embryos significantly improved compared with the vehicle‐treated embryos. In addition, cell‐free mtDNA content in medium was higher in case of resveratrol‐treated embryos than of vehicle‐treated embryos. In conclusion, slow freezing affects mitochondrial integrity and function in the blastocysts. In the frozen‐thawed embryos, mitochondria were removed during post‐thawing incubation and resveratrol enhanced the process, resulting in improved survivability of the embryos.
The aim of the present study was to examine the fertilization ability and mitochondrial function of oocytes
derived from cows with or without liver damage. Oocytes were collected from the ovaries of cows with damaged
livers (DL) and those of cows with healthy livers (HL), subjected to in vitro maturation, and
fertilized in vitro. A significantly high abnormal fertilization rate was observed for
oocytes from DL cows compared to oocytes from HL cows. The time to dissolve the zona pellucida by protease
before fertilization was similar between the two liver conditions, whereas after fertilization treatment this
time was shorter for DL cows than for HL cows. The percentage of oocytes with equivalent cortical granule
distributions underneath the membrane was greater for in vitro matured oocytes from HL cows,
whereas an immature distribution pattern was observed for oocytes from DL cows. In addition, a greater
percentage of oocytes derived from HL cows released cortical granules following fertilization compared with
oocytes from DL cows. Mitochondrial function determined by ATP content and membrane potential were similar at
the germinal vesicle stage, but post-in vitro maturation, the oocytes derived from HL cows
showed higher values than DL cows. The mitochondrial DNA copy number in oocytes was similar between the two
liver conditions for both the germinal vesicle and post-in vitro maturation oocytes. In
conclusion, liver damage induces low fertilization, likely because of incomplete cortical granule distribution
and release, and the maturation of oocytes from DL cows contain low-functioning mitochondria compared to their
HL counterparts.
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