Comparison of Erythrocyte Antioxidant Enzyme Activities and Embryologie Level of Neural Tube Defects

Graf, Wilhelm; Oe, Oleinik; Ce, Pippenger; Dn, Eder; Ta, Glauser; Db, Shurtleff

doi:10.1055/s-2008-1066253

Cited by 15 publications

(15 citation statements)

References 2 publications

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“…Only a few articles describing abnormal FRSE activities in infants with MM have been published (6,7,8,10). Previous studies measured FRSE activities, especially GSH-related reported a similar observation.…”

Section: Discussionsupporting

confidence: 56%

“…There was significantly lower GPX activity in children with MM (7). The studies of Graf et al (7,10,21) indicated that deficiencies of GPX are directly linked to neural tube defects. More recently, Graf and colleagues have demonstrated that GPX can be depressed in valporoic acid-treated patients (8).…”

Section: Discussionmentioning

confidence: 99%

“…Oxygen-derived FRs are important factors in the pathogenesis of many pediatric neurological diseases (6,7,10,24). Numerous studies have shown the relationship between FRs and neural tube defects (7, 8, 9, 10, 20, 29).…”

Section: Discussionmentioning

confidence: 99%

“…These enzymes play an active role in the detoxification of H 2 O 2 for the protection of cell against oxidative stress. The impaired responsiveness of the FRSE system plays a crucial role in oxygen-induced embryopathy and might result in MM (7,8,9,10,12,15,21). Erythrocyte FRSE are the most important enzymes in prevention of FRmediated neurological disease (6).…”

Section: Discussionmentioning

confidence: 99%

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Relationship of antioxidant enzyme activities with myelomeningocele

Arslan

Melek²,

Demır³

et al. 2011

Turkish Neurosurgery

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AIm:To investigate the role of erythrocyte free radical scavenging enzyme activities (FRSE), carbonic anhydrase (CA) activity and malondialdehyde (MDA) in infants with myelomeningocele (MM). mAteRIAl and methods:We compared antioxidant enzyme activities and MDA level in 40 individuals (10 infants with MM, 10 healthy infants; and mothers of these two groups) with age-matched subjects. Erythrocyte FRSE included catalase (CAT), superoxide dismutase (SOD), glutathione peroxidase (GPX) and glutathione-S-transferase (GST).Results: CA, CAT, SOD, GPX and GST concentrations were lower in all of the infants with MM compared to healthy infants. The mothers of infants with MM also had lower CA, CAT, SOD, GPX and GST activities than healthy mothers. It was also found out that the MDA level as a marker of oxidative damage was higher in infants with MM and their mothers than in healthy infants and their mothers. ConClusIon:Lower FRSE activities indicate an increased frequency of MM. Free radicals (FRs) such as MDA may play a significant role in the etiology of MM.

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Section: Discussionsupporting

confidence: 56%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

See 2 more Smart Citations

Relationship of antioxidant enzyme activities with myelomeningocele

Arslan

Melek²,

Demır³

et al. 2011

Turkish Neurosurgery

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“…Many drugs that cause neural tube, and other, defects, including thalidomide [56], phenytoin [56,57], environmental aryl hydrocarbons such as 2,3,7,8-tetrachlorodibenzo-p-dioxin [58], and ionizing radiation [59] induce oxidative stress. Myelomeningocele has been linked with reduced glutathione peroxidase activity apparently resulting from a genetic polymorphism [60]. Finally, maternal obesity, which could increase embryo oxidant exposure due to maternal glucose intolerance, has been found to increase the relative risk for NTD [61,62].…”

Section: Discussionmentioning

confidence: 99%

Oxidant regulation of gene expression and neural tube development: Insights gained from diabetic pregnancy on molecular causes of neural tube defects

et al. 2003

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Aims/hypothesis. Maternal diabetes increases oxidative stress in embryos. Maternal diabetes also inhibits expression of embryonic genes, most notably, Pax-3, which is required for neural tube closure. Here we tested the hypothesis that oxidative stress inhibits expression of Pax-3, thereby providing a molecular basis for neural tube defects induced by diabetic pregnancy. Methods. Maternal diabetes-induced oxidative stress was blocked with α-tocopherol (vitamin E), and oxidative stress was induced with the complex III electron transport inhibitor, antimycin A, using pregnant diabetic or non-diabetic mice, primary cultures of neurulating mouse embryo tissues, or differentiating P19 embryonal carcinoma cells. Pax-3 expression was assayed by quantitative RT-PCR, and neural tube defects were scored by visual inspection. Oxidation-induced DNA fragmentation in P19 cells was assayed by electrophoretic analysis.Results. Maternal diabetes inhibited Pax-3 expression and increased neural tube defects, and α-tocopherol blocked these effects. In addition, induction of oxidative stress with antimycin A inhibited Pax-3 expression and increased neural tube defects. In cultured embryo tissues, high glucose-inhibited Pax-3 expression, and this effect was blocked by α-tocopherol and GSHethyl ester, and Pax-3 expression was inhibited by culture with antimycin A. In differentiating P19 cells, antimycin A inhibited Pax-3 induction but did not induce DNA strand breaks. Conclusion/interpretation. Oxidative stress inhibits expression of Pax-3, a gene that is essential for neural tube closure. Impaired expression of essential developmental control genes could be the central mechanism by which neural tube defects occur during diabetic pregnancy, as well as other sources of oxidative stress. [Diabetologia (2003) 46:538-545]

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Advances in Understanding the Molecular Causes of Diabetes-Induced Birth Defects

Loeken

2006

Journal of the Society for Gynecologic Investigation

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Excess glucose metabolism by embryos resulting from maternal hyperglycemia disturbs a complex network of biochemical pathways, leading to oxidative stress. Oxidative stress inhibits expression of genes, such as Pax3, which control essential developmental processes. Pax3 protein is required during neural tube development to suppress p53-dependent cell death and consequent abortion of neural tube closure, but is not required to control expression of genes that direct neural tube closure. Impaired embryo gene expression resulting from oxidative stress, and consequent apoptosis or disturbed organogenesis, may be a general mechanism to explain diabetic embryopathy.

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Comparison of Erythrocyte Antioxidant Enzyme Activities and Embryologie Level of Neural Tube Defects

Cited by 15 publications

References 2 publications

Relationship of antioxidant enzyme activities with myelomeningocele

Relationship of antioxidant enzyme activities with myelomeningocele

Oxidant regulation of gene expression and neural tube development: Insights gained from diabetic pregnancy on molecular causes of neural tube defects

Advances in Understanding the Molecular Causes of Diabetes-Induced Birth Defects

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