In vitro reduction of bovine oocyte ATP production with oligomycin affects embryo epigenome

B Meulders, JLMR Leroy, I Xhonneux, PEJ Bols… - …, 2024 - rep.bioscientifica.com
B Meulders, JLMR Leroy, I Xhonneux, PEJ Bols, WFA Marei
Reproduction, 2024rep.bioscientifica.com
In brief Epigenetic programming is a crucial process during early embryo development that
can have a significant impact on the results of assisted reproductive technology (ART) and
offspring health. Here we show evidence using a bovine in vitro experiment that embryo
epigenetic programing is dependent on oocyte mitochondrial bioenergetic activity during
maturation. Abstract This study investigated if oocyte and early embryo epigenetic
programming are dependent on oocyte mitochondrial ATP production. A bovine in vitro …
In brief
Epigenetic programming is a crucial process during early embryo development that can have a significant impact on the results of assisted reproductive technology (ART) and offspring health. Here we show evidence using a bovine in vitro experiment that embryo epigenetic programing is dependent on oocyte mitochondrial bioenergetic activity during maturation.
Abstract
This study investigated if oocyte and early embryo epigenetic programming are dependent on oocyte mitochondrial ATP production. A bovine in vitro experiment was performed in which oocyte mitochondrial ATP production was reduced using 5 nmol/L oligomycin A (OM; ATP synthase inhibitor) during in vitro maturation (IVM) compared to control (CONT). OM exposure significantly reduced mitochondrial ATP production rate in MII oocytes (34.6% reduction, P = 0.018) and significantly decreased embryo cleavage rate at 48 h post insemination (7.6% reduction, P =  0.031). Compared to CONT, global DNA methylation (5mC) levels were decreased in OM-exposed MII oocytes (9.8% reduction, P = 0.019) while global histone methylation (H3K9me2) was increased (9.4% increase, P = 0.024). In zygotes, OM exposure during IVM increased 5mC (22.3% increase, P < 0.001) and histone acetylation (H3K9ac, 17.3% increase, P = 0.023) levels, while H3K9me2 levels were not affected. In morulae, 5mC levels were increased (10.3% increase, P = 0.041) after OM exposure compared to CONT, while there was no significant difference in H3K9ac and H3K9me2 levels. These epigenetic alterations were not associated with any persistent effects on embryo mitochondrial ATP production rate or mitochondrial membrane potential (assessed at the four-cell stage). Also, epigenetic regulatory genes were not differentially expressed in OM-exposed zygotes or morulae. Finally, apoptotic cell index in blastocysts was increased after OM exposure during oocyte maturation (41.1% increase, P < 0.001). We conclude that oocyte and early embryo epigenetic programming are dependent on mitochondrial ATP production during IVM.
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