Gestational diabetes mellitus(GDM)is a pregnancy-related complication characterized by abnormal glucose metabolism in pregnant women and has an important impact on fetal development.As a bridge between the mother and ...Gestational diabetes mellitus(GDM)is a pregnancy-related complication characterized by abnormal glucose metabolism in pregnant women and has an important impact on fetal development.As a bridge between the mother and the fetus,the placenta has nutrient transport functions,endocrine functions,etc.,and can regulate placental nutrient transport and fetal growth and development according to maternal metabolic status.Only by means of placental transmission can changes in maternal hyperglycemia affect the fetus.There are many reports on the placental pathophysiological changes associated with GDM,the impacts of GDM on the growth and development of offspring,and the prevalence of GDM in offspring after birth.Placental epigenetic changes in GDM are involved in the programming of fetal development and are involved in the pathogenesis of later chronic diseases.This paper summarizes the effects of changes in placental nutrient transport function and hormone secretion levels due to maternal hyperglycemia and hyperinsulinemia on the development of offspring as well as the participation of changes in placental epigenetic modifications due to maternal hyperglycemia in intrauterine fetal programming to promote a comprehensive understanding of the impacts of placental epigenetic modifications on the development of offspring from patients with GDM.展开更多
Background:Hypothyroxinemia is a subclinical thyroid hormone deficiency in which the mother has inadequate levels of T_(4) during pregnancy.The fetus relies entirely on the mother's T_(4) hormone level for early n...Background:Hypothyroxinemia is a subclinical thyroid hormone deficiency in which the mother has inadequate levels of T_(4) during pregnancy.The fetus relies entirely on the mother's T_(4) hormone level for early neurodevelopment.Isolated maternal hypothyroxinemia(IMH)in the first trimester of pregnancy can lead to lower intelligence,lower motor scores,and a higher risk of mental illness in descendants.Here,we focus on the autism-like behavior of IMH offspring.Methods:The animals were administered 1 ppm of propylthiouracil(PTU)for 9 weeks.Then,the concentrations of T_(3),T_(4),and thyroid-stimulating hormone(TSH)were detected using enzyme-linked immunosorbent assay(ELISA)to verify the developed animal model of IMH.We performed four behavioral experiments,including the marble burying test,open-field test,three-chamber sociability test,and Morris water maze,to explore the autistic-like behavior of 40-day-old offspring rats.Results:The ELISA test showed that the serum T_(3) and TSH concentrations in the model group were normal compared with the negative control group,whereas the T_(4) concentration decreased.In the behavioral experiments,the number of hidden marbles in the offspring of IMH increased significantly,the frequency of entering the central compartment decreased,and the social ratio decreased significantly.Conclusion:The animal model of IMH was developed by the administration of 1 ppm of PTU for 9 weeks,and there were autistic-like behavior changes such as anxiety,weakened social ability,and repeated stereotyping in the IMH offspring by 40 days.展开更多
The prevalence of obesity and type 2 diabetes mellitus(T2DM)has been increasing throughout the world over the past 20 years.Environmental chemicals known to regulate the endocrine system have been considered as a ri...The prevalence of obesity and type 2 diabetes mellitus(T2DM)has been increasing throughout the world over the past 20 years.Environmental chemicals known to regulate the endocrine system have been considered as a risk factor for the development of metabolic diseases.Several people are exposed to environmental chemicals during their lives.展开更多
文摘Gestational diabetes mellitus(GDM)is a pregnancy-related complication characterized by abnormal glucose metabolism in pregnant women and has an important impact on fetal development.As a bridge between the mother and the fetus,the placenta has nutrient transport functions,endocrine functions,etc.,and can regulate placental nutrient transport and fetal growth and development according to maternal metabolic status.Only by means of placental transmission can changes in maternal hyperglycemia affect the fetus.There are many reports on the placental pathophysiological changes associated with GDM,the impacts of GDM on the growth and development of offspring,and the prevalence of GDM in offspring after birth.Placental epigenetic changes in GDM are involved in the programming of fetal development and are involved in the pathogenesis of later chronic diseases.This paper summarizes the effects of changes in placental nutrient transport function and hormone secretion levels due to maternal hyperglycemia and hyperinsulinemia on the development of offspring as well as the participation of changes in placental epigenetic modifications due to maternal hyperglycemia in intrauterine fetal programming to promote a comprehensive understanding of the impacts of placental epigenetic modifications on the development of offspring from patients with GDM.
基金supported by the CAMS Innovation Fund for Medical Science (2021-I2M-1-034)the National Natural Science Foundation of China (grant number:81700697).
文摘Background:Hypothyroxinemia is a subclinical thyroid hormone deficiency in which the mother has inadequate levels of T_(4) during pregnancy.The fetus relies entirely on the mother's T_(4) hormone level for early neurodevelopment.Isolated maternal hypothyroxinemia(IMH)in the first trimester of pregnancy can lead to lower intelligence,lower motor scores,and a higher risk of mental illness in descendants.Here,we focus on the autism-like behavior of IMH offspring.Methods:The animals were administered 1 ppm of propylthiouracil(PTU)for 9 weeks.Then,the concentrations of T_(3),T_(4),and thyroid-stimulating hormone(TSH)were detected using enzyme-linked immunosorbent assay(ELISA)to verify the developed animal model of IMH.We performed four behavioral experiments,including the marble burying test,open-field test,three-chamber sociability test,and Morris water maze,to explore the autistic-like behavior of 40-day-old offspring rats.Results:The ELISA test showed that the serum T_(3) and TSH concentrations in the model group were normal compared with the negative control group,whereas the T_(4) concentration decreased.In the behavioral experiments,the number of hidden marbles in the offspring of IMH increased significantly,the frequency of entering the central compartment decreased,and the social ratio decreased significantly.Conclusion:The animal model of IMH was developed by the administration of 1 ppm of PTU for 9 weeks,and there were autistic-like behavior changes such as anxiety,weakened social ability,and repeated stereotyping in the IMH offspring by 40 days.
文摘The prevalence of obesity and type 2 diabetes mellitus(T2DM)has been increasing throughout the world over the past 20 years.Environmental chemicals known to regulate the endocrine system have been considered as a risk factor for the development of metabolic diseases.Several people are exposed to environmental chemicals during their lives.
