The effect of diclofenac sodium on neural tube development in the early stage of chick embryos.

BACKGROUND: Neural tube defects are congenital malformations of the central nervous system. Genetic predisposition and some environmental factors play an important role in the development of neural tube defects. This study aimed to investigate the effects of diclofenac sodium on the neural tube development in a chick embryo model that corresponds to the first month of vertebral deve- lopment in mammals. MATERIALS AND METHODS: Seventy-five fertile, specific pathogen-free eggs were incubated for 28 h and were divided into five groups of 15 eggs each. Diclofenac sodium was administered via the sub-blastodermic route at this stage. Incubation was continued till the end of the 48th h. All eggs were then opened and embryos were dissected from embryonic membranes and evaluated morphologically and histopathologically. RESULTS: It was determined that the use of increasing doses of diclofenac sodium led to defects of midline closure in early chicken embryos. There were statistically significant differences in neural tube positions (open or close) among the groups. In addition; crown-rump length, somite number were significantly decreased in high dose experimental groups compared with control group. CONCLUSIONS: This study showed that development of neurons is affected in chi- cken embryos after administration of diclofenac sodium. The exact teratogenic mechanism of diclofenac sodium is not clear; therefore it should be investigated.

Formate rescues neural tube defects caused by mutations in Slc25a32.

Periconceptional folic acid (FA) supplementation significantly reduces the prevalence of neural tube defects (NTDs). Unfortunately, some NTDs are FA resistant, and as such, NTDs remain a global public health concern. Previous studies have identified SLC25A32 as a mitochondrial folate transporter (MFT), which is capable of transferring tetrahydrofolate (THF) from cellular cytoplasm to the mitochondria in vitro. Herein, we show that gene trap inactivation of Slc25a32 (Mft) in mice induces NTDs that are folate (5-methyltetrahydrofolate, 5-mTHF) resistant yet are preventable by formate supplementation. Slc25a32gt/gt embryos die in utero with 100% penetrant cranial NTDs. 5-mTHF supplementation failed to promote normal neural tube closure (NTC) in mutant embryos, while formate supplementation enabled the majority (78%) of knockout embryos to complete NTC. A parallel genetic study in human subjects with NTDs identified biallelic loss of function SLC25A32 variants in a cranial NTD case. These data demonstrate that the loss of functional Slc25a32 results in cranial NTDs in mice and has also been observed in a human NTD patient.

Efectos del tratamiento con vitamina E en el tubo neural y médula espinal en embriones y fetos de ratones Mus musculus expuestos al uso de ácido valproico / Effects of treatment with vitamin E in the neural tube and spinal cord Mus musculus mouse embryos exposed to the use of valproic acid

El ácido valproico (VPA) es el principal anticonvulsivante utilizado contra la epilepsia durante la gestación. Sin embargo, en etapas iniciales del embarazo actúa como teratógeno y ocasiona malformaciones como fisura labio-palatina, alteraciones en el desarrollo genital y espina bífida, siendo esta última la más frecuente. Esto se produce debido al aumento de especies reactivas de oxígeno, pudiendo contrarrestarse administrando vitamina E. El objetivo fue determinar si la vitamina E disminuye el daño en tubo neural y médula espinal de embriones y fetos de ratonas expuestas a VPA. Se conformaron 8 grupos de animales. A los 8 días post-fecundación se les administró a los grupos 1 y 5 suero fisiológico 0,3 mL; grupos 2 y 6 VPA 600 mg/Kg; grupos 3 y 7 VPA 600 mg/Kg y vitamina E 200 UI/Kg; grupos 4 y 8 vitamina E 200 UI/kg. A los 12 días post-fecundación, se sacrificaron los grupos 1, 2, 3 y 4, y a los 17 días los restantes grupos. Los embriones fueron procesados y teñidos con cresil violeta, observándose cortes histológicos a nivel cervical, torácico y lumbar. Los grupos tratados con vitamina E presentaron menor cantidad de neuroblastos y motoneuronas, pero de tamaño mayor en comparación al grupo tratado con VPA (p<0,05), siendo similares a los grupos controles. Al comparar el tubo neural y médula espinal en los distintos niveles (cervical, torácico y lumbar), no hubo diferencias estadísticamente significativas. La administración prenatal de vitamina E disminuye los defectos en tubo neural y médula espinal de embriones de 12 y 17 días de gestación sometidos a VPA.

Valproic Acid (VPA) is the main anticonvulsant used for epilepsy throughout the gestation period. However, when used at early stages of pregnancy, it acts as a tetarogenic agent, causing congenital malformations such as cleft-lip and/or cleft palate, abnormal genital development and spina bifida, being the latter the most frequent. This is the result of the increase of reactive oxygen species, which can be countered with the supplementation of vitamin E. The aim was determine if vitamin E minimizes the damage to the neural tube and spinal cord of mice embryos and fetuses previously exposed to VPA. Eight groups of mice were constituted. Eight days post fertilization, groups 1 and 5 were administered 0,3 ml of saline solution; groups 2 and 6 600mg/Kg of VPA, groups 3 and 7 600mg/Kg of VPA and 200UI/Kg of Vitamin E; groups 4 and 8 200 UI/Kg of Vitamin E. 12 days after fertilization, groups 1, 2, 3 and 4 were euthanized, whereas in the case of the remaining groups, the same process was performed 17 days after fertilization. The embryos were stained with cresyl violet, thus enabling the observation of histological sections at cervical, thoracic and lumbar levels. Groups supplied with vitamin E presented a lower amount of neuroblasts and motoneurons. However, these elements were bigger in size compared to the group treated with VPA (p<0,05), being these results similar to those obtained with the control groups. When comparing the neural tube and spinal cord at different levels (cervical, thoracic and lumbar), no statistically significant differences were found. It was determined that prenatal administration of vitamin E lessens the damage to the neural tube and spinal cord of mice embryos of 12 and 17 days of gestation previously exposed to VPA.

Estudio sobre las concentraciones sèricas de vitamina B 12 y ácido fólico en el primer trimestrede embarazo en el Complejo Hospitalario de Jaén / Vitamin B 12 and folic acid levels in the first trimester of pregnancy in a hospital in Jaen (Spain)

Introducción. Durante el primer trimestre de embarazo es muy importante, para el correcto desarrollo del feto, unas concentraciones sèricas adecuados de vitamina B12 y ácido fólico. Un déficit de estas vitaminas produce, entre otros efectos, defectos del tubo neural del feto. Por tanto, durante el primer trimestre del embarazo, se suplementan porque aumentan las necesidades de estas vitaminas. Métodos. Según el Proceso Asistencial Integrado de embarazo, parto y puerperio del Servicio Andaluz de Salud se indica la quimioprofilaxis de 0,4 mg/día de ácido fólico hasta la semana 12 de gestación, para prevenir los defectos del tubo neural ¿Sería necesario aumentar los estudios para modificar esta dosis en la actualidad? ¿Influye la edad de la gestante en la dosis de ácido fólico a tomar? Por otro lado, el Complejo Hospitalario de Jaén determina, en la décima semana de gestación, el riesgo prenatal de síndrome de Down, entre otras cromosomopatías, mediante una analítica a todas las embarazadas de nuestro medio. ¿Conocemos cómo son las concentraciones sèricas de ácido fólico y vitamina B12 en las embarazadas recientes de nuestro medio? ¿Hay diferencias con respecto a la edad de las gestantes? Resultados. Según nuestros resultados, la mayoría de las gestantes de nuestro estudio tienen concentraciones sèricas de vitamina B12 y ácido fólico en sangre por debajo de lo recomendado, un 82 y un 70% respectivamente. Además no existen diferencias en cuanto a la edad de las gestantes (AU)

Introduction. Adequate levels of vitamin B12 and folic acid during the first trimester of pregnancy is very important for the proper development of the foetus. A deficiency of these vitamins causes neural tube defects in the foetus, as well as having other effects. Therefore, these vitamins are supplemented during the first trimester of pregnancy due to increasing needs. Methods. According to the Integrated Care Process of pregnancy and childbirth of Andalusian Health Service, chemoprophylaxis of 0.4 mg/day of folic acid is indicated until the 12th week of pregnancy to prevent neural tube defects. Are more studies needed to determine if this dose should now be modified? Does age of the mother have an effect on the dose of folate to take?. Furthermore, in the tenth week of pregnancy Jaen Hospital tests for the prenatal risk of Down's syndrome, including chromosomal abnormalities, on all pregnant women in its catchment area. Do we know how the levels of folate and B12 in early pregnancy in our area? Are there differences regarding the age of the pregnant woman?. Results. According to our results the majority of pregnant women in our study have vitamin B12 and folic acid levels in the blood below that recommended, 82 and 70%, respectively. There are no differences in the ages of the pregnant women (AU)

Effects of choline on sodium arsenite-induced neural tube defects in chick embryos.

Arsenic passes through the placenta and accumulates in the neuroepithelium of embryo, whereby inducing congenital malformations such as neural tube defects (NTDs) in animals. Choline (CHO), a methyl-rich nutrient, functions as a methyl donor to participate in methyl group metabolism. Arsenic methylation has been regarded as a detoxification process and choline (CHO) is the major source of methyl-groups. However, whether CHO intake reverses the abnormal embryo development induced by sodium arsenite (SA) and the relationship between CHO intake and arsenite-induced NTDs are still unclear. In this study, we used chick embryos as animal model to investigate the effects of SA and CHO supplementation on the early development of nervous system. Our results showed that the administration of SA led to reduction in embryo viability, embryo body weight and extraembryonic vascular area, accompanied by a significantly increased incidence of the failed closure of the caudal end of the neural tube. CHO, at low dose (25 µg/µL), reversed the decrease in embryo viability and the increase in the failed closure of the caudal end of the neural tube, which were induced by SA. In addition, CHO (25 µg/µL) inhibited not only the SA-induced cell apoptosis by up-regulating Bcl-2 level, but also the global DNA methylation by increasing the expressions of DNMT1 and DNMT3a. However, less significant difference was found between the embryos co-treated with SA and CHO (50 µg/µL) and the ones treated with SA alone. Taken together, these findings suggest that low dose CHO could protect chick embryos from arsenite-induced NTDs by a possible mechanism related to the methyl metabolism.

Hyperthermia induces upregulation of connexin43 in the golden hamster neural tube.

BACKGROUND: During early embryonic development, maternal exposure to hyperthermia induces neural tube defects (NTDs). Connexins are essential for the formation of gap junctions and Connexin43 (Cx43) is crucially involved in neural tube development. This study was designed to explore the potential role of Cx43 in NTDs induced by hyperthermia. METHODS: Using PCR, the Cx43 cDNA was screened from the cDNA library of the neural tube from golden hamsters treated with hyperthermia. By Northern blot, the expression of Cx43 in heat-treated and control groups of the golden hamsters at day 8.5 after mating was detected. Finally, by in situ hybridization and RT-PCR, the expression of Cx43 was examined in the neural tube at different time points after heat treatment. RESULTS: Cx43 was stably expressed in heat-treated and control groups of the golden hamsters, whereas the expression was evidently higher in the heat-treated group. Cx43 expression in the neural tube at different time points after heat treatment was significantly higher than in control groups (p < 0.01). Hyperthermia did not induce any mutations in Cx43 cDNA. CONCLUSIONS: Our data provide the first evidence that hyperthermia induces upregulation of Cx43 in the golden hamster neural tube. NTDs caused by hyperthermia may be intimately related with the overexpression of Cx43.

Cats, frogs, and snakes: early concepts of neural tube defects.

Disturbed neurulation fascinated scientists of all times. In Egypt, anencephalic infants were venerated as animal-headed gods. Roman law required them to be killed. The medieval world held the mother responsible, either because of assumed imagination or "miswatching," or because of suspected intercourse with animals or devils. Modern embryology and teratology began with the use of the microscope by Malpighi in 1672. Details of neural tube closure were described by Koelliker in 1861 and by His in 1874. From 1822, genetic disease and familial recurrence due to insufficient nutrition were discerned and lower social class identified as a risk factor. It took a century to define the malnutrition as insufficient folate intake. The mandatory supplementation of folate in staple foods successfully reduced the incidence of neural tube defects in the United States, Australia, Canada, and Chile, but it was not adopted by most European countries.

A new perspective on neural tube defects: folic acid and microRNA misexpression.

Neural tube defects (NTDs) are the second most common birth defects in the United States. It is well known that folic acid supplementation decreases about 70% of all NTDs, although the mechanism by which this occurs is still relatively unknown. The current theory is that folic acid deficiency ultimately leads to depletion of the methyl pool, leaving critical genes unmethylated, and, in turn, their improper expression leads to failure of normal neural tube development. Recently, new studies in human cell lines have shown that folic acid deficiency and DNA hypomethylation can lead to misexpression of microRNAs (miRNAs). Misexpression of critical miRNAs during neural development may lead to a subtle effect on neural gene regulation, causing the sometimes mild to severely debilitating range of phenotypes exhibited in NTDs. This review seeks to cohesively integrate current information regarding folic acid deficiency, methylation cycles, neural development, and miRNAs to propose a potential model of NTD formation. In addition, we have examined the relevant gene pathways and miRNAs that are predicted to affect them, and based on our investigation, we have devised a basic template of experiments for exploring the idea that miRNA misregulation may be linked to folic acid deficiency and NTDs.

Recent studies on neural tube defects in embryos of diabetic pregnancy: an overview.

Maternal diabetes develops in 2-6% of total pregnancies, depending on geographical and ethnic background. About 10% of fetuses from diabetic pregnancy display congenital malformations in various organ systems including cardiovascular, gastrointestinal, genitourinary and neurological systems, among which the neural tube defects (NTDs) such as anencephaly, holoprosencephaly and syntelencephaly were more frequently demonstrated. Recent studies by the Diabetes Control and Complications Trial Research Group show that tight glycemic control early in pregnancy decreases the progression of a number of diabetic complications. However, it appears that the pre-existing tissue damage cannot be reversed even after normoglycemic levels are achieved during pregnancy. In recent years, considerable efforts have been made to investigate the etiology of birth defects among infants of diabetic mothers. It has been shown that diabetes-induced fetal abnormalities are accompanied by some metabolic disturbances including elevated superoxide dismutase (SOD) activity, reduced levels of myoinositol and arachidonic acid and inhibition of the pentose phosphate shunt pathway. Moreover, the frequency of fetal malformations in diabetic pregnancy has been reported to be markedly reduced by dietary supplements of antioxidants such as vitamin E, vitamin C and butylated hy- droxytoluene, suggesting that oxidative stress is involved in the etiology of fetal dysmorphogenesis. Furthermore, several experimental studies have shown that NTDs in embryos of diabetic mice are associated with altered expression of genes, which control development of the neural tube. In this review, recent findings of possible molecular mechanisms which cause morphological changes during neural tube development in embryos of diabetic pregnancy are discussed.