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Cardiovascular, Utero- and Fetoplacental Function in Mice during Normal Pregnancy and in the Absence of Endothelial Nitric Oxide Synthase (eNOS)Kulandavelu, Shathiyah 18 January 2012 (has links)
In pregnancy, the maternal cardiovascular and placental circulation undergoes structural and functional changes to accommodate the growing fetus, but the mechanisms involved are not fully understood. Nitric oxide (NO) increases in normal pregnancy and lack of NO has been implicated in pregnancy related complications, preeclampsia and fetal growth restriction. Thus, the objective of the thesis was to determine if cardiovascular, uteroplacental and fetoplacental changes observed in human pregnancy also occur in mice and to assess the obligatory role of eNOS in mediating these changes.
I showed that like humans, mice exhibit increases in maternal cardiac output, stroke volume, plasma volume, and uterine arterial blood flow, and a transient decrease in arterial pressure during pregnancy. Importantly, I showed that endothelial nitric oxide synthase (eNOS) plays an important role in promoting the progressive increase in maternal cardiac chamber dimensions and output and the enlargement of the aorta during pregnancy in mice. Another novel finding was that eNOS plays an important role in remodeling of the uterine and umbilical vasculatures during pregnancy. The remodeling of the uterine vasculatures, including the uterine and spiral arteries, were blunted in the eNOS KO mice with ko fetuses (KO(ko)) and this likely contributed to elevated vascular resistance and reduced perfusion of the uterine circulation during pregnancy. Impaired spiral artery remodeling may be caused by a deficiency in decidual uterine natural killer cells. Fetal placental vascularization was also impaired in eNOS KO(ko) mice, which likely increased vascular resistance and thereby reduced fetoplacental perfusion. Reduced vascularization may be due to decreased VEGF mRNA and protein expression in KO(ko) placentas. Decreased perfusion in both the uterine and umbilical circulations most likely contributed to elevated placental and fetal hypoxia in the eNOS KO(ko) mice. Interestingly, despite placental hypoxia, eNOS KO(ko) mice do not show the classical signs of preeclampsia including hypertension and proteinuria nor are maternal plasma sFlt1 levels elevated. Nevertheless, eNOS KO(ko) pups are growth restricted at term, and this is mainly due to the fetal genotype. These findings suggest that eNOS plays an essential role during pregnancy in remodeling of the maternal heart, aorta, and uterine and umbilical vasculatures thereby augmenting blood flow to the maternal and fetal sides of the placenta and thereby promoting fetal growth in mice.
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Cardiovascular, Utero- and Fetoplacental Function in Mice during Normal Pregnancy and in the Absence of Endothelial Nitric Oxide Synthase (eNOS)Kulandavelu, Shathiyah 18 January 2012 (has links)
In pregnancy, the maternal cardiovascular and placental circulation undergoes structural and functional changes to accommodate the growing fetus, but the mechanisms involved are not fully understood. Nitric oxide (NO) increases in normal pregnancy and lack of NO has been implicated in pregnancy related complications, preeclampsia and fetal growth restriction. Thus, the objective of the thesis was to determine if cardiovascular, uteroplacental and fetoplacental changes observed in human pregnancy also occur in mice and to assess the obligatory role of eNOS in mediating these changes.
I showed that like humans, mice exhibit increases in maternal cardiac output, stroke volume, plasma volume, and uterine arterial blood flow, and a transient decrease in arterial pressure during pregnancy. Importantly, I showed that endothelial nitric oxide synthase (eNOS) plays an important role in promoting the progressive increase in maternal cardiac chamber dimensions and output and the enlargement of the aorta during pregnancy in mice. Another novel finding was that eNOS plays an important role in remodeling of the uterine and umbilical vasculatures during pregnancy. The remodeling of the uterine vasculatures, including the uterine and spiral arteries, were blunted in the eNOS KO mice with ko fetuses (KO(ko)) and this likely contributed to elevated vascular resistance and reduced perfusion of the uterine circulation during pregnancy. Impaired spiral artery remodeling may be caused by a deficiency in decidual uterine natural killer cells. Fetal placental vascularization was also impaired in eNOS KO(ko) mice, which likely increased vascular resistance and thereby reduced fetoplacental perfusion. Reduced vascularization may be due to decreased VEGF mRNA and protein expression in KO(ko) placentas. Decreased perfusion in both the uterine and umbilical circulations most likely contributed to elevated placental and fetal hypoxia in the eNOS KO(ko) mice. Interestingly, despite placental hypoxia, eNOS KO(ko) mice do not show the classical signs of preeclampsia including hypertension and proteinuria nor are maternal plasma sFlt1 levels elevated. Nevertheless, eNOS KO(ko) pups are growth restricted at term, and this is mainly due to the fetal genotype. These findings suggest that eNOS plays an essential role during pregnancy in remodeling of the maternal heart, aorta, and uterine and umbilical vasculatures thereby augmenting blood flow to the maternal and fetal sides of the placenta and thereby promoting fetal growth in mice.
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