生物
宫内生长受限
胎盘
内分泌学
子痫前期
内科学
怀孕
胎儿
遗传学
医学
作者
Katie A. O’Brien,Wanjun Gu,Julie A. Houck,Lorenz M.W. Holzner,Hong Wa Yung,Jenna L. Armstrong,Alice P. Sowton,R.C. Baxter,Peter Darwin,Lilian Toledo-Jaldin,Litzi Lazo-Vega,Any Moreno-Aramayo,Valquiria Miranda-Garrido,Jonathan Shortt,Christopher Matarazzo,Hussna Yasini,Graham J. Burton,Lorna G. Moore,Tatum S. Simonson,Andrew J. Murray,Colleen G. Julian
出处
期刊:Hypertension
[Ovid Technologies (Wolters Kluwer)]
日期:2024-02-01
卷期号:81 (2): 319-329
被引量:1
标识
DOI:10.1161/hypertensionaha.123.21748
摘要
BACKGROUND: The chronic hypoxia of high-altitude residence poses challenges for tissue oxygen supply and metabolism. Exposure to high altitude during pregnancy increases the incidence of hypertensive disorders of pregnancy and fetal growth restriction and alters placental metabolism. High-altitude ancestry protects against altitude-associated fetal growth restriction, indicating hypoxia tolerance that is genetic in nature. Yet, not all babies are protected and placental pathologies associated with fetal growth restriction occur in some Andean highlanders. METHODS: We examined placental metabolic function in 79 Andeans (18–45 years; 39 preeclamptic and 40 normotensive) living in La Paz, Bolivia (3600–4100 m) delivered by unlabored Cesarean section. Using a selection-nominated approach, we examined links between putatively adaptive genetic variation and phenotypes related to oxygen delivery or placental metabolism. RESULTS: Mitochondrial oxidative capacity was associated with fetal oxygen delivery in normotensive but not preeclamptic placenta and was also suppressed in term preeclamptic pregnancy. Maternal haplotypes in or within 200 kb of selection-nominated genes were associated with lower placental mitochondrial respiratory capacity ( PTPRD [protein tyrosine phosphatase receptor-δ]), lower maternal plasma erythropoietin ( CPT2 [carnitine palmitoyl transferase 2], proopiomelanocortin, and DNMT3 [DNA methyltransferase 3]), and lower VEGF (vascular endothelial growth factor) in umbilical venous plasma ( TBX5 [T-box transcription factor 5]). A fetal haplotype within 200 kb of CPT2 was associated with increased placental mitochondrial complex II capacity, placental nitrotyrosine, and GLUT4 (glucose transporter type 4) protein expression. CONCLUSIONS: Our findings reveal novel associations between putatively adaptive gene regions and phenotypes linked to oxygen delivery and placental metabolic function in highland Andeans, suggesting that such effects may be of genetic origin. Our findings also demonstrate maladaptive metabolic mechanisms in the context of preeclampsia, including dysregulation of placental oxygen consumption.
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