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Melatonin-induced demethylation of antioxidant genes increases antioxidant capacity through RORα in cumulus cells of prepubertal lambs.

Free radical biology & medicine
January 1, 1970
Yi Fang et al. (7 authors)
Journal ArticleResearch Support, Non-U.S. Gov'tAnimal StudyMolecular Study
Extracted Claims (30)
InterventionDirectionEndpointPopulationDosageImpactClaim #
melatonin implant
increase
superovulation
4-wk-old lambs
-
greater
#1
melatonin implant
increase
antioxidant capacity
4-wk-old lambs
-
better
#2
melatonin implant
increase
fully expanded COCs
4-wk-old lambs
-
higher proportion
#3
melatonin implant
decrease
apoptotic cumulus cells
4-wk-old lambs
-
lower proportion
#4
melatonin
increase
melatonin receptors MT1
ovine prepubertal cumulus cells
-
up-regulated mRNA expression
#5
melatonin
increase
nuclear binding site RORα
ovine prepubertal cumulus cells
-
up-regulated mRNA expression
#6
melatonin
increase
antioxidants (SOD1, GPx4 and CAT)
ovine prepubertal cumulus cells
-
up-regulated mRNA expression
#7
melatonin
increase
cumulus cell expansion (PTX3, HAS2 and PTGS2)
ovine prepubertal cumulus cells
-
up-regulated mRNA expression
#8
melatonin
increase
Bcl2
ovine prepubertal cumulus cells
-
up-regulated mRNA expression
#9
melatonin
decrease
Bax
ovine prepubertal cumulus cells
-
down-regulated expression
#10
melatonin
decrease
five CpG sites of SOD1
ovine prepubertal cumulus cells
-
less methylation
#11
melatonin
decrease
three CpG sites of GPx4
ovine prepubertal cumulus cells
-
less methylation
#12
melatonin
decrease
two CpG sites of CAT
ovine prepubertal cumulus cells
-
less methylation
#13
melatonin
decrease
SOD1, GPx4 and CAT promoters region
ovine prepubertal cumulus cells
-
lower total methylation
#14
MT1 antagonist
increase
ROS concentrations
ovine prepubertal cumulus cells
-
increased
#15
MT1 antagonist
increase
MDA concentrations
ovine prepubertal cumulus cells
-
increased
#16
MT1 antagonist
decrease
T-AOC concentrations
ovine prepubertal cumulus cells
-
decreased
#17
MT1 antagonist
decrease
GPx concentrations
ovine prepubertal cumulus cells
-
decreased
#18
MT1 antagonist
decrease
CAT concentrations
ovine prepubertal cumulus cells
-
decreased
#19
MT1 antagonist
decrease
T-SOD concentrations
ovine prepubertal cumulus cells
-
decreased
#20
RORα antagonist
increase
ROS concentrations
ovine prepubertal cumulus cells
-
increased
#21
RORα antagonist
increase
MDA concentrations
ovine prepubertal cumulus cells
-
increased
#22
RORα antagonist
decrease
T-AOC concentrations
ovine prepubertal cumulus cells
-
decreased
#23
RORα antagonist
decrease
GPx concentrations
ovine prepubertal cumulus cells
-
decreased
#24
RORα antagonist
decrease
CAT concentrations
ovine prepubertal cumulus cells
-
decreased
#25
RORα antagonist
decrease
T-SOD concentrations
ovine prepubertal cumulus cells
-
decreased
#26
melatonin
no change
T-AOC, GPx, CAT and T-SOD concentrations
ovine prepubertal cumulus cells
-
no significant difference
#27
MT2 antagonist
no change
T-AOC, GPx, CAT and T-SOD concentrations
ovine prepubertal cumulus cells
-
no significant difference
#28
RORα agonist
decrease
total DNA methylation of SOD1, GPx4 and CAT
ovine prepubertal cumulus cells
-
decreased
#29
MT1 agonist
no change
total DNA methylation of SOD1, GPx4 and CAT
ovine prepubertal cumulus cells
-
no significant difference
#30
Abstract

Physical damage and oxidative stress may occur in prepubertal cumulus cells, due to insufficient glutathione synthesis. To determine potential epigenetic mechanisms related to antioxidant effects of melatonin on ovine prepubertal cumulus cells, 30 lambs, 4-wk-old were randomly allocated into two groups: a control (C, n = 20) group and a melatonin (M, n = 10) group given a subcutaneous implant containing 18 mg melatonin. All lambs were superovulated (250 IU FSH and 250 IU eCG). Cumulus cells from germinal vesicle stage cumulus oocyte complexes (COCs) were collected by ovarian follicular aspiration and dissociated with hyaluronidase. Compared to the C group, the M group had greater superovulation, better antioxidant capacity, a higher proportion of fully expanded COCs and a lower proportion of apoptotic cumulus cells (P < 0.05). Melatonin up-regulated mRNA expression of genes for melatonin receptors MT1 and nuclear binding site RORα, antioxidants (SOD1, GPx4 and CAT) and cumulus cell expansion (PTX3, HAS2 and PTGS2), as well as Bcl2, but down-regulated expression of Bax (P < 0.05). Regarding epigenetics, there were less methylation at five CpG sites of SOD1, three CpG sites of GPx4 and two CpG sites of CAT in M versus C groups (P <  0.05), leading to lower total methylation of SOD1, GPx4 and CAT promoters region on M group (P < 0.05). In a mechanistic study, addition of MT1 or RORα antagonist increased ROS and MDA concentrations, but decreased T-AOC, GPx, CAT and T-SOD concentrations (P < 0.05), whereas there were no significant difference between the melatonin and MT2 antagonist treatment groups for T-AOC, GPx, CAT and T-SOD concentrations. Furthermore, addition of RORα agonist decreased total DNA methylation of SOD1, GPx4 and CAT, with no significant difference after MT1 agonist treatment. These studies provided new information regarding epigenetic mechanisms by which melatonin promoted ovine prepubertal cumulus cells antioxidant through RORα, both in vitro and in vivo.

Medical Subject Headings (MeSH)
Absorbable ImplantsAnimalsAntioxidantsC-Reactive ProteinCatalaseCell ProliferationCumulus CellsCyclooxygenase 2Epigenesis, GeneticFemaleFollicle Stimulating HormoneGlutathioneHyaluronan SynthasesMelatoninNuclear Receptor Subfamily 1, Group F, Member 1Phospholipid Hydroperoxide Glutathione PeroxidasePrimary Cell CultureProto-Oncogene Proteins c-bcl-2RNA, MessengerReceptors, MelatoninSerum Amyloid P-ComponentSexual MaturationSheepSuperovulationSuperoxide Dismutase-1
Study Links
PubMed ID30472366
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