Alisa Ray scite author profile

Hypoxia is necessary for fetal development; however, excess hypoxia is detrimental. Hypoxia has been extensively studied in the near-term fetus, but less is known about earlier fetal effects. The purpose of this study was to determine the window of vulnerability to severe hypoxia, what organ system(s) is most sensitive, and why hypoxic fetuses die. We induced hypoxia by reducing maternal-inspired O2 from 21% to 8%, which decreased fetal tissue oxygenation assessed by pimonidazole binding. The mouse fetus was most vulnerable in midgestation: 24 h of hypoxia killed 89% of embryonic day 13.5 (E13.5) fetuses, but only 5% of E11.5 and 51% of E17.5 fetuses. Sublethal hypoxia at E12.5 caused growth restriction, reducing fetal weight by 26% and protein by 45%. Hypoxia induced HIF-1 target genes, including vascular endothelial growth factor (Vegf), erythropoietin, glucose transporter-1 and insulin-like growth factor binding protein-1 (Igfbp-1), which has been implicated in human intrauterine growth restriction (IUGR). Hypoxia severely compromised the cardiovascular system. Signs of heart failure, including loss of yolk sac circulation, hemorrhage, and edema, were caused by 18-24 h of hypoxia. Hypoxia induced ventricular dilation and myocardial hypoplasia, decreasing ventricular tissue by 50% and proliferation by 21% in vivo and by 40% in isolated cultured hearts. Epicardial detachment was the first sign of hypoxic damage in the heart, although expression of epicardially derived mitogens, such as FGF2, FGF9, and Wnt9b was not reduced. We propose that hypoxia compromises the fetus through myocardial hypoplasia and reduced heart rate.

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β<sub>1</sub>-Adrenergic Receptors Maintain Fetal Heart Rate and Survival

Chandra

Portbury

Ray

et al. 2006

Neonatology

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β-Adrenergic receptor (βAR) activation has been shown to maintain heart rate during hypoxia and to rescue the fetus from the fetal lethality that occurs in the absence of norepinephrine. This study examines whether the same subtype of βAR is responsible for survival and heart rate regulation. It also investigates which βARs are located on the early fetal heart and whether they can be directly activated during hypoxia. Cultured E12.5 mouse fetuses were treated with subtype-specific βAR antagonists to pharmacologically block βARs during a hypoxic insult. Hypoxia alone reduced heart rate by 35–40% compared to prehypoxic levels. During hypoxia, heart rate was further reduced by 31% in the presence of a β₁AR antagonist, CGP20712A, at 100 nM, but not with a β₂ (ICI118551)- or a β₃ (SR59230A)-specific antagonist at 100 nM. Survival in utero was also mediated by β₁ARs. A β₁ partial agonist, xamoterol, rescued 74% of catecholamine-deficient (tyrosine-hydroxylase-null) pups to birth, a survival rate equivalent to that with a nonspecific βAR agonist, isoproterenol (87%). Receptor autoradiography showed that β₁ARs were only found on the mouse heart at E12.5, while β₂ARs were localized to the liver and vasculature. To determine if the response to hypoxia was intrinsic to the heart, isolated fetal hearts were incubated under hypoxic conditions in the presence of a βAR agonist. Heart rate was reduced to 25–30% by hypoxia alone, but was restored to 63% of prehypoxic levels with 100 nM isoproterenol. Restoration was completely prevented if β₁ARs were blocked with CGP20712A at 300 nM, a concentration that blocks β₁ARs, but not β₂- or β₃ARs. Our results demonstrate that β₁ARs are located on the heart of early fetal mice and that β₁AR stimulation maintains fetal heart rate during hypoxia and mediates survival in vivo.

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Caffeine Consumption in Patients With Eating Disorders

Krahn

Hasse

Ray

et al. 1991

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Alisa Ray

Early fetal hypoxia leads to growth restriction and myocardial thinning

β<sub>1</sub>-Adrenergic Receptors Maintain Fetal Heart Rate and Survival

Caffeine Consumption in Patients With Eating Disorders

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