Use of high‐frequency ultrasound to study the prenatal development of cranial neural tube defects and hydrocephalus in Gldc‐deficient mice
MC Autuori, YJ Pai, DJ Stuckey, D Savery… - Prenatal …, 2017 - Wiley Online Library
Prenatal diagnosis, 2017•Wiley Online Library
Objective We used non‐invasive high‐frequency ultrasound (HFUS) imaging to investigate
embryonic brain development in a mouse model for neural tube defects (NTDs) and non‐
ketotic hyperglycinemia (NKH). Method Using HFUS, we imaged embryos carrying loss of
function alleles of Gldc encoding glycine decarboxylase, a component of the glycine
cleavage system in mitochondrial folate metabolism, which is known to be associated with
cranial NTDs and NKH in humans. We serially examined the same litter during the second …
embryonic brain development in a mouse model for neural tube defects (NTDs) and non‐
ketotic hyperglycinemia (NKH). Method Using HFUS, we imaged embryos carrying loss of
function alleles of Gldc encoding glycine decarboxylase, a component of the glycine
cleavage system in mitochondrial folate metabolism, which is known to be associated with
cranial NTDs and NKH in humans. We serially examined the same litter during the second …
Objective
We used non‐invasive high‐frequency ultrasound (HFUS) imaging to investigate embryonic brain development in a mouse model for neural tube defects (NTDs) and non‐ketotic hyperglycinemia (NKH).
Method
Using HFUS, we imaged embryos carrying loss of function alleles of Gldc encoding glycine decarboxylase, a component of the glycine cleavage system in mitochondrial folate metabolism, which is known to be associated with cranial NTDs and NKH in humans. We serially examined the same litter during the second half of embryonic development and quantified cerebral structures. Genotype was confirmed using PCR. Histology was used to confirm ultrasound findings.
Results
High‐frequency ultrasound allowed in utero detection of two major brain abnormalities in Gldc‐deficient mouse embryos, cranial NTDs (exencephaly) and ventriculomegaly (corresponding with the previous finding of post‐natal hydrocephalus). Serial ultrasound allowed individual embryos to be analysed at successive gestational time points. From embryonic day 16.5 to 18.5, the lateral ventricle volume reduced in wild‐type and heterozygous embryos but increased in homozygous Gldc‐deficient embryos.
Conclusion
Exencephaly and ventriculomegaly were detectable by HFUS in homozygous Gldc‐deficient mouse embryos indicating this to be an effective tool to study CNS development. Longitudinal analysis of the same embryo allowed the prenatal onset and progression of ventricle enlargement in Gldc‐deficient mice to be determined. © 2017 The Authors. Prenatal Diagnosis published by John Wiley & Sons, Ltd.
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