Abstract | OBJECTIVE:
Tetrahydrobiopterin (BH(4)) deficiency is a cause of dystonia at birth. We hypothesized that BH(4) is a developmental factor determining vulnerability of the immature fetal brain to hypoxic-ischemic injury and subsequent motor deficits in newborns. METHODS: Pregnant rabbits were subjected to 40-minute uterine ischemia, and fetal brains were investigated for global and focal changes in BH(4). Newborn kits were assessed by neurobehavioral tests following vehicle and sepiapterin (BH(4) analog) treatment of dams. RESULTS: Naive fetal brains at 70% gestation (E22) were severely deficient for BH(4) compared with maternal and other fetal tissues. BH(4) concentration rapidly increased normally in the perinatal period, with the highest concentrations found in the thalamus compared with basal ganglia, frontal, occipital, hippocampus, and parietal cortex. Global sustained 40-minute hypoxia- ischemia depleted BH(4) in E22 thalamus and to a lesser extent in basal ganglia, but not in the frontal, occipital, and parietal regions. Maternal supplementation prior to hypoxia- ischemia with sepiapterin increased BH(4) in all brain regions and especially in the thalamus, but did not increase the intermediary metabolite, 7,8-BH(2). Sepiapterin treatment also reduced incidence of severe motor deficits and perinatal death following E22 hypoxia- ischemia. INTERPRETATION: We conclude that early developmental BH(4) deficiency plays a critical role in hypoxic-ischemic brain injury. Increasing brain BH(4) via maternal supplementation may be an effective strategy in preventing motor deficits from antenatal hypoxia- ischemia.
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Authors | Jeannette Vásquez-Vivar, Jennifer Whitsett, Matthew Derrick, Xinhai Ji, Lei Yu, Sidhartha Tan |
Journal | Annals of neurology
(Ann Neurol)
Vol. 66
Issue 3
Pg. 323-31
(Sep 2009)
ISSN: 1531-8249 [Electronic] United States |
PMID | 19798726
(Publication Type: Journal Article, Research Support, N.I.H., Extramural)
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Chemical References |
- Pterins
- Biopterin
- sepiapterin
- Nitric Oxide Synthase
- sapropterin
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Topics |
- Animals
- Animals, Newborn
- Biopterin
(analogs & derivatives, analysis, deficiency, therapeutic use)
- Brain
(embryology, metabolism)
- Brain Chemistry
(drug effects)
- Disease Models, Animal
- Dystonia
(prevention & control)
- Female
- Fetal Development
(drug effects, physiology)
- Fetal Hypoxia
(drug therapy, metabolism)
- Gestational Age
- Humans
- Hypoxia-Ischemia, Brain
(drug therapy, metabolism)
- Maternal-Fetal Exchange
(drug effects)
- Muscle Hypertonia
(prevention & control)
- Nitric Oxide Synthase
(analysis, deficiency, therapeutic use)
- Pregnancy
- Pterins
(pharmacology, therapeutic use)
- Rabbits
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