Publications by authors named "Raine Lunde-Young"
Prenatal alcohol exposure (PAE) may result in Fetal Alcohol Spectrum Disorders (FASD). The hippocampus has been recognized as a vulnerable target to alcohol-induced developmental damage. However, the effect of prenatal exposure to alcohol on dendritic morphological adaptations throughout the hippocampal fields in the developing brain still remains largely unknown in the context of FASD.
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- Gestational alcohol exposure can lead to fetal alcohol spectrum disorders (FASD), impacting cognitive, behavioral, and physical development in offspring.
- The study involved pregnant rats given either alcohol or a control substance to observe the effects on fetal development and mTOR signaling in the brain.
- Results indicated that chronic binge alcohol exposure reduced fetal growth, altered mTOR signaling in the hippocampus, and changed the expression of specific proteins involved in this pathway, indicating potential mechanisms behind developmental impairments.
Article Synopsis
- Phosphatidylethanol (PEth) serves as a biomarker for detecting alcohol exposure during pregnancy, with studies identifying its presence in both maternal and fetal blood after binge drinking.
- Pregnant rats were administered alcohol or a control substance, and subsequent analysis showed that all three major PEth homologues were present in various tissues, including maternal and fetal blood and fetal brain regions.
- The results indicated differing levels of PEth homologues across tissues, with specific homologues appearing more abundant in maternal blood compared to fetal blood, and distinct concentration patterns in fetal brain regions.
Introduction: Prenatal alcohol exposure can contribute to fetal alcohol spectrum disorders (FASD), characterized by a myriad of developmental impairments affecting behavior and cognition. Studies show that many of these functional impairments are associated with the hippocampus, a structure exhibiting exquisite vulnerability to developmental alcohol exposure and critically implicated in learning and memory; however, mechanisms underlying alcohol-induced hippocampal deficits remain poorly understood. By utilizing a high-throughput RNA-sequencing (RNA-seq) approach to address the neurobiological and molecular basis of prenatal alcohol-induced hippocampal functional deficits, we hypothesized that chronic binge prenatal alcohol exposure alters gene expression and global molecular pathways in the fetal hippocampus.
View Article and Find Full Text PDFBackground: A cardinal feature of fetal alcohol syndrome is growth restriction. Maternal uterine artery adaptations to pregnancy correlate with birthweight and survival. We hypothesized that gestational binge alcohol exposure impairs maternal uterine vascular function, affecting endothelial nitric oxide (NO)-mediated vasodilation.
View Article and Find Full Text PDFThe fetal brain exhibits exquisite alcohol-induced regional neuronal vulnerability. A candidate mechanism for alcohol-mediated brain deficits is disruption of amino acid (AA) bioavailability. AAs are vitally important for proper neurodevelopment, as they comprise the most abundant neurotransmitters in the brain and act as neurotransmitter precursors, nitric oxide donors, antioxidants, and neurotrophic factors, which induce synaptogenesis, neuronal proliferation, and migration.
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