Oxidative stress and cellular and tissue damage in organogenic outbred mouse embryos after moderate perigestational alcohol intake

Perigestational alcohol consumption by CF-1 mouse, from before mating up to the period of embryo organogenesis, leads to retarded early embryo development and neural tube defects. Here, we addressed if perigestational alcohol ingestion up to Day 10 of pregnancy induces oxidative stress and changes i...

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Autores principales: Coll, T.A., Chaufan, G., Pérez-Tito, L., Ventureira, M.R., Sobarzo, C.M.A., Ríos de Molina, M.D.C., Cebral, E.
Formato: JOUR
Materias:
apoptosis
mouse embryo organogenesis
nitrosylation
oxidative stress
perigestational alcohol
3 nitrotyrosine
alcohol
caspase 3
catalase
drinking water
glutathione
nitrite
superoxide dismutase
thiobarbituric acid reactive substance
antioxidant
adult
alcohol consumption
animal tissue
Article
caloric intake
cardiac muscle
cell adhesion
cell damage
controlled study
ectoderm
embryo
endocardium
enzyme activity
female
fetus development
fetus growth
immunohistochemistry
immunoreactivity
ingestion
lipid peroxidation
macromolecule
mesoderm
mouse
neural tube
nonhuman
organogenesis
priority journal
tissue injury
TUNEL assay
Western blotting
animal
DNA damage
drinking behavior
drug effect
embryo development
genetics
mammalian embryo
metabolism
outbred strain
pathology
pregnancy
prenatal exposure
Alcohol Drinking
Animals
Animals, Outbred Strains
Antioxidants
Apoptosis
DNA Damage
Embryo, Mammalian
Embryonic Development
Ethanol
Female
Mice
Organogenesis
Oxidative Stress
Pregnancy
Prenatal Exposure Delayed Effects
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_1040452X_v84_n10_p1086_Coll
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
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spelling todo:paper_1040452X_v84_n10_p1086_Coll2023-10-03T15:57:53Z Oxidative stress and cellular and tissue damage in organogenic outbred mouse embryos after moderate perigestational alcohol intake Coll, T.A. Chaufan, G. Pérez-Tito, L. Ventureira, M.R. Sobarzo, C.M.A. Ríos de Molina, M.D.C. Cebral, E. apoptosis mouse embryo organogenesis nitrosylation oxidative stress perigestational alcohol 3 nitrotyrosine alcohol caspase 3 catalase drinking water glutathione nitrite superoxide dismutase thiobarbituric acid reactive substance alcohol antioxidant adult alcohol consumption animal tissue apoptosis Article caloric intake cardiac muscle cell adhesion cell damage controlled study ectoderm embryo endocardium enzyme activity female fetus development fetus growth immunohistochemistry immunoreactivity ingestion lipid peroxidation macromolecule mesoderm mouse neural tube nonhuman organogenesis oxidative stress priority journal tissue injury TUNEL assay Western blotting animal DNA damage drinking behavior drug effect embryo development genetics mammalian embryo metabolism outbred strain oxidative stress pathology pregnancy prenatal exposure Alcohol Drinking Animals Animals, Outbred Strains Antioxidants Apoptosis DNA Damage Embryo, Mammalian Embryonic Development Ethanol Female Mice Organogenesis Oxidative Stress Pregnancy Prenatal Exposure Delayed Effects Perigestational alcohol consumption by CF-1 mouse, from before mating up to the period of embryo organogenesis, leads to retarded early embryo development and neural tube defects. Here, we addressed if perigestational alcohol ingestion up to Day 10 of pregnancy induces oxidative stress and changes in macromolecules and organ tissues of early organogenic embryos. Adult CF-1 female mice were administered 10% ethanol in their drinking water for 17 days prior to mating and until Day 10 of gestation, whereas control females were administered ethanol-free water. Our results demonstrated significantly reduced Catalase abundance and activity and increased glutathione content in the embryos of ethanol-treated females. The nitrite level was significantly reduced, but TBARS (thiobarbituric acid reactive substances) content, an index of lipid peroxidation, did not change. Embryos derived from ethanol-treated females also showed higher abundance of 3-nitrotyrosine (3-NT)-containing proteins in all tissues, compared to the control group. Apoptosis was significantly increased in the ectoderm and mesoderm, but not in the heart—although this organ did contain more cleaved Caspase-3-positive cardiomyocytes per area of ventricular myocardium than controls. In sum, moderate perigestational alcohol ingestion up to Day 10 of gestation in mice induces oxidative stress by altering radical nitrogen species and antioxidant enzymatic and non-enzymatic mechanisms in embryos. Further, generalized protein nitration, due to unbalanced nitric oxide levels associated with tissue-specific apoptosis, was detected in embryos, suggesting that oxidative mechanisms may play an important role in the perigestational alcohol-induced malformation of organogenic embryos exposed to ethanol. © 2017 Wiley Periodicals, Inc. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_1040452X_v84_n10_p1086_Coll
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic apoptosis
mouse embryo organogenesis
nitrosylation
oxidative stress
perigestational alcohol
3 nitrotyrosine
alcohol
caspase 3
catalase
drinking water
glutathione
nitrite
superoxide dismutase
thiobarbituric acid reactive substance
alcohol
antioxidant
adult
alcohol consumption
animal tissue
apoptosis
Article
caloric intake
cardiac muscle
cell adhesion
cell damage
controlled study
ectoderm
embryo
endocardium
enzyme activity
female
fetus development
fetus growth
immunohistochemistry
immunoreactivity
ingestion
lipid peroxidation
macromolecule
mesoderm
mouse
neural tube
nonhuman
organogenesis
oxidative stress
priority journal
tissue injury
TUNEL assay
Western blotting
animal
DNA damage
drinking behavior
drug effect
embryo development
genetics
mammalian embryo
metabolism
outbred strain
oxidative stress
pathology
pregnancy
prenatal exposure
Alcohol Drinking
Animals
Animals, Outbred Strains
Antioxidants
Apoptosis
DNA Damage
Embryo, Mammalian
Embryonic Development
Ethanol
Female
Mice
Organogenesis
Oxidative Stress
Pregnancy
Prenatal Exposure Delayed Effects
spellingShingle apoptosis
mouse embryo organogenesis
nitrosylation
oxidative stress
perigestational alcohol
3 nitrotyrosine
alcohol
caspase 3
catalase
drinking water
glutathione
nitrite
superoxide dismutase
thiobarbituric acid reactive substance
alcohol
antioxidant
adult
alcohol consumption
animal tissue
apoptosis
Article
caloric intake
cardiac muscle
cell adhesion
cell damage
controlled study
ectoderm
embryo
endocardium
enzyme activity
female
fetus development
fetus growth
immunohistochemistry
immunoreactivity
ingestion
lipid peroxidation
macromolecule
mesoderm
mouse
neural tube
nonhuman
organogenesis
oxidative stress
priority journal
tissue injury
TUNEL assay
Western blotting
animal
DNA damage
drinking behavior
drug effect
embryo development
genetics
mammalian embryo
metabolism
outbred strain
oxidative stress
pathology
pregnancy
prenatal exposure
Alcohol Drinking
Animals
Animals, Outbred Strains
Antioxidants
Apoptosis
DNA Damage
Embryo, Mammalian
Embryonic Development
Ethanol
Female
Mice
Organogenesis
Oxidative Stress
Pregnancy
Prenatal Exposure Delayed Effects
Coll, T.A.
Chaufan, G.
Pérez-Tito, L.
Ventureira, M.R.
Sobarzo, C.M.A.
Ríos de Molina, M.D.C.
Cebral, E.
Oxidative stress and cellular and tissue damage in organogenic outbred mouse embryos after moderate perigestational alcohol intake
topic_facet apoptosis
mouse embryo organogenesis
nitrosylation
oxidative stress
perigestational alcohol
3 nitrotyrosine
alcohol
caspase 3
catalase
drinking water
glutathione
nitrite
superoxide dismutase
thiobarbituric acid reactive substance
alcohol
antioxidant
adult
alcohol consumption
animal tissue
apoptosis
Article
caloric intake
cardiac muscle
cell adhesion
cell damage
controlled study
ectoderm
embryo
endocardium
enzyme activity
female
fetus development
fetus growth
immunohistochemistry
immunoreactivity
ingestion
lipid peroxidation
macromolecule
mesoderm
mouse
neural tube
nonhuman
organogenesis
oxidative stress
priority journal
tissue injury
TUNEL assay
Western blotting
animal
DNA damage
drinking behavior
drug effect
embryo development
genetics
mammalian embryo
metabolism
outbred strain
oxidative stress
pathology
pregnancy
prenatal exposure
Alcohol Drinking
Animals
Animals, Outbred Strains
Antioxidants
Apoptosis
DNA Damage
Embryo, Mammalian
Embryonic Development
Ethanol
Female
Mice
Organogenesis
Oxidative Stress
Pregnancy
Prenatal Exposure Delayed Effects
description Perigestational alcohol consumption by CF-1 mouse, from before mating up to the period of embryo organogenesis, leads to retarded early embryo development and neural tube defects. Here, we addressed if perigestational alcohol ingestion up to Day 10 of pregnancy induces oxidative stress and changes in macromolecules and organ tissues of early organogenic embryos. Adult CF-1 female mice were administered 10% ethanol in their drinking water for 17 days prior to mating and until Day 10 of gestation, whereas control females were administered ethanol-free water. Our results demonstrated significantly reduced Catalase abundance and activity and increased glutathione content in the embryos of ethanol-treated females. The nitrite level was significantly reduced, but TBARS (thiobarbituric acid reactive substances) content, an index of lipid peroxidation, did not change. Embryos derived from ethanol-treated females also showed higher abundance of 3-nitrotyrosine (3-NT)-containing proteins in all tissues, compared to the control group. Apoptosis was significantly increased in the ectoderm and mesoderm, but not in the heart—although this organ did contain more cleaved Caspase-3-positive cardiomyocytes per area of ventricular myocardium than controls. In sum, moderate perigestational alcohol ingestion up to Day 10 of gestation in mice induces oxidative stress by altering radical nitrogen species and antioxidant enzymatic and non-enzymatic mechanisms in embryos. Further, generalized protein nitration, due to unbalanced nitric oxide levels associated with tissue-specific apoptosis, was detected in embryos, suggesting that oxidative mechanisms may play an important role in the perigestational alcohol-induced malformation of organogenic embryos exposed to ethanol. © 2017 Wiley Periodicals, Inc.
format JOUR
author Coll, T.A.
Chaufan, G.
Pérez-Tito, L.
Ventureira, M.R.
Sobarzo, C.M.A.
Ríos de Molina, M.D.C.
Cebral, E.
author_facet Coll, T.A.
Chaufan, G.
Pérez-Tito, L.
Ventureira, M.R.
Sobarzo, C.M.A.
Ríos de Molina, M.D.C.
Cebral, E.
author_sort Coll, T.A.
title Oxidative stress and cellular and tissue damage in organogenic outbred mouse embryos after moderate perigestational alcohol intake
title_short Oxidative stress and cellular and tissue damage in organogenic outbred mouse embryos after moderate perigestational alcohol intake
title_full Oxidative stress and cellular and tissue damage in organogenic outbred mouse embryos after moderate perigestational alcohol intake
title_fullStr Oxidative stress and cellular and tissue damage in organogenic outbred mouse embryos after moderate perigestational alcohol intake
title_full_unstemmed Oxidative stress and cellular and tissue damage in organogenic outbred mouse embryos after moderate perigestational alcohol intake
title_sort oxidative stress and cellular and tissue damage in organogenic outbred mouse embryos after moderate perigestational alcohol intake
url http://hdl.handle.net/20.500.12110/paper_1040452X_v84_n10_p1086_Coll
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