Direct effect of vitamins at the time of palatal fusion

Gestational folate deficiency alters embryonic gene expression and cell function

Folic acid is a nutrient essential for embryonic development. Folate deficiency can cause embryonic lethality or neural tube defects and orofacial anomalies. Folate receptor 1 (Folr1) is a folate binding protein that facilitates the cellular uptake of dietary folate. To better understand the biological processes affected by folate deficiency, gene expression profiles of gestational day 9.5 (gd9.5) Folr1^-/- embryos were compared to those of gd9.5 Folr1^+/+ embryos. The expression of 837 genes/ESTs was found to be differentially altered in Folr1^-/- embryos, relative to those observed in wild-type embryos. The 837 differentially expressed genes were subjected to Ingenuity Pathway Analysis. Among the major biological functions affected in Folr1^-/- mice were those related to 'digestive system development/function', 'cardiovascular system development/function', 'tissue development', 'cellular development', and 'cell growth and differentiation', while the major canonical pathways affected were those associated with blood coagulation, embryonic stem cell transcription and cardiomyocyte differentiation (via BMP receptors). Cellular proliferation, apoptosis and migration were all significantly affected in the Folr1^-/- embryos. Cranial neural crest cells (NCCs) and neural tube explants, grown under folate-deficient conditions, exhibited marked reduction in directed migration that can be attributed, in part, to an altered cytoskeleton caused by perturbations in F-actin formation and/or assembly. The present study revealed that several developmentally relevant biological processes were compromised in Folr1^-/- embryos.

New molecular aspects in the mechanism of oromaxillofacial cleft prevention by B-vitamins

Clinical and experimental studies show a clear positive effect of B-vitamins in the prevention of oromaxillofacial clefts, especially cleft lip and palate (CL/P). Hereby the local effect of thiamin (B1) in the amniotic fluid is very important for the embryonic facial development as seen in palatal organ models stimulated by topical B-vitamin application (Scheller et al., 2013a). Moreover a low B1 concentration in the serum and amniotic fluid was found in pregnant mice with clefts in their offspring (Scheller et al., 2013b). Immunochemical analyses of midface sections (ThTr-1 transporter) and the placenta (ThTr-2 transporter) of cleft fetuses with orofacial clefts showed an atypical cytoplasmatic localization (Scheller et al., 2017). mRNA nalyses of different B-vitamin transporters (B1, B2, B5, B7, B9) were performed and showed ThTr2 transporter in a short splice variant in all cleft fetuses. This splice variant may cause a functional loss of the transport capacity through the placenta barrier and result in a low amniotic fluid concentration of vitamin B1. All other analyzed transport proteins showed no functional change. These findings confirm the hypothesis that cleft prevention by high vitamin B1 substitution fails in genetically determined cleft mice, caused by an insufficient B1 uptake and missing local effect.

Oral vitamin B1-substitution does not decrease genetically determined cleft rate in mice (A/WySn)

PURPOSE

Cleft lip and palate (CL/P) are one of the most common human birth defects. Animal experiments and clinical investigations show a clear reduction of teratogenic clefts by a high-dose vitamin B supplementation during early pregnancy, especially in families at risk (reduction of recurrence). The aim of this work was to examine the influence of thiamine (vitamin B1) on CL/P appearance in genetically determined A/WySn mice within different supplementation starting points.

MATERIALS AND METHODS

A total of 24 A/WySn female mice were orally supplemented with high doses (80 mg/kg) of thiamine at different times of pregnancy (5 groups, n = 90). The influence of thiamine on the abortion rate and CL/P appearance in the offspring was analyzed with respect to the concentration of thiamine in the serum and amniotic fluid (HPLC-chromatography). Immunochemical analyses of the ThTr-1 und ThTr-2 receptor-status were performed in midface sections of A/WySn-fetuses and the corresponding placenta, with and without CL/P.

RESULTS

High doses of orally supplemented thiamine did not reduce the CL/P appearance in A/WySn mice. However, the different starting points of vitamin B1 substitution had some influence. Additionally, an obvious decrease in aborted fetuses was noticed in all supplemented groups. The oral substitution caused a clear increase of the serum concentration in all mothers, but showed no increase of the amniotic fluid concentration. Then immunohistochemistry detected an overexpression of ThTr-1 in the midface and an irregular localization of ThTr-2 in the placenta of fetuses with clefts.

CONCLUSION

Our results suggest a time-dependent influence of thiamine on CL/P appearance in female mice. The prophylactic/periconceptional, but not the therapeutic supplementation, starting point can be proposed as a crucial step for regular facial and palatal fusion in embryonic development. The absolute rate of CL/P was not reduced, and the concentration of the water-soluble thiamine could not increase in the amniotic fluid. Thus the proposed local effect of thiamine failed in the development of genetically determined mice.

Sex distribution is a factor in teratogenically induced clefts and in the anti-teratogenic effect of thiamine in mice, but not in genetically determined cleft appearance

PURPOSE

Cleft lip and/or palate (CL/P) shows a gender-related distribution in human beings. The reason is unknown. This study analyzed the gender-related cleft appearance with respect to teratogenically and genetically determined cleft appearance and the response to thiamine (vitamin B1) supplementation.

MATERIAL AND METHODS

Cyclophosphamide (CPA; 0.6 mg) and dexamethasone (0.25 mg) were injected intraperitoneally to A/B-Jena mice on different days of pregnancy. The abortion and malformation rate in the A/B-Jena and A/WySn mice with genetically determined clefting was documented to be gender-specific. Vitamin B1 was given to A/B-Jena dams at different times during pregnancy before, simultaneously and after the teratogenic agent was given to the pregnant mothers. A/WySn mice received oral supplementation at different times during embryonic/fetal development.

RESULTS

There were significantly more living female fetuses when mothers were treated with teratogens, and the embryo lethality and malformation affected more male individuals. However, the survival and malformation rate in A/WySn mice was not gender-specific. Especially in male fetuses, vitamin B1 decreased the teratogenic cleft rate (CPA: p < 0.001, dexamethasone: p = 0.6), whereas there was no effect in the A/WySn mice.

CONCLUSION

There was a strong anti-teratogenic effect of vitamin B1, especially in the male fetuses. Genetically determined cleft appearance was not positively influenced. These findings confirm observations about cleft appearance in human beings.

A New, Atypical Case of Cobalamin F Disorder Diagnosed by Whole Exome Sequencing

Cobalamin F (cblF) disorder, caused by homozygous or compound heterozygous mutations in the LMBRD1 gene, is a recognised cause of developmental delay, pancytopaenia and failure to thrive which may present in the neonatal period. A handful of cases have been reported in the medical literature. We report a new case, diagnosed at the age of 6 years through whole exome sequencing, with atypical features including prominent metopic suture, cleft palate, unilateral renal agenesis and liver abnormalities, which broaden the phenotypic spectrum.

Lower concentrations of B-vitamin subgroups in the serum and amniotic fluid correlate to cleft lip and palate appearance in the offspring of A/WySn mice

PURPOSE

The pathogenesis and prevention of cleft lip and palate (CL/P) have been studied mainly in clinical and animal experiments. A prophylactic poly-B-vitamin substitution during the first months of pregnancy has provided the most encouraging results for the prevention of CL/P recurrence in families at risk. In vitro studies of the palatal organ in an A/WySn mouse model have confirmed the positive influence of B-vitamins on palatal development. The present animal study was performed to analyze different B-vitamin concentrations in the serum and amniotic fluid of A/WySn mice according to the appearance of CL/P in their offspring.

MATERIAL AND METHODS

Concentrations of different B-vitamins (B1, B2, B3, B5, B6, and folic acid) in serum and amniotic fluid were analyzed by high-performance liquid chromatographic detection. Immunohistochemical staining against thiamin-1 receptor was performed on histologic midface sections of A/WySn fetuses with (n = 12) and without (n = 14) CL/P.

RESULTS

Vitamin B5 (P < .001) and folic acid (P < .004) concentrations in the amniotic fluid of dams with CL/P were significantly lower than in dams without CL/P. Serum concentrations of folic acid (P = .5) and B5 (P = .4) showed no difference between the 2 groups. Dams with CL/P had significantly lower thiamine concentrations in serum (P = .01) and amniotic fluid (P < .001). Histologic midface sections presented high thiamin-1 receptor expression in the palatal shelf of fetuses with CL/P.

CONCLUSION

A decreased use or uptake of some B-vitamin subgroups (B1, B5, and folic acid) in amniotic fluid and serum (vitamin B1) was correlated to an increased cleft appearance in A/WySn mice. The high thiamin-1 receptor expression in the palatal tissue of mouse fetuses with CL/P may be caused by a decreased availability of vitamin B1.

Vitamin B-complex application promotes secondary palate development in a palate organ model of the A/WySnJ mouse

PURPOSE

This study analyzed the direct influence of vitamin B-complex supplements (Polybion N, Merck Pharma GmbH, Germany) in medium on secondary palatal development in palatal organ cultures of A/WySnJ mice. Because of positive clinical experiences with prophylactic vitamin B substitution in mothers of cleft-related families, the direct influence of the vitamin B-complex on palatal tissue was analyzed.

MATERIALS AND METHODS

The inbred A/WySnJ mouse strain shows a highly spontaneous, genetically determined clefting rate of 20% to 44%. One hundred seventy-seven A/WySnJ fetuses were microdissected on gestational day 14.3 before the occurrence of palatal fusion. Palatal organ cultures were prepared and incubated in chemically defined serum-free medium with different concentrations (0.1% and 1.0%) of the vitamin B-complex Polybion N for 72 hours. Palatal development was analyzed microscopically according to the 6-step visual scale that describes the approximation of palatal shelves during development.

RESULTS

At the beginning of the experiment (gestational day 14.3), the palatal development of all specimens used for in vitro organ culture showed a clear approach of the palatal shelves at stage II (2.25±0.78). Seventy-two hours after in vitro cultivation, the palatal shelves of the organ cultures supplemented with the vitamin B-complex showed significant growth (0.1%, P=.00017; 1.0%, P=.00078), whereas the untreated control group remained at initial developmental stage II (P=.291).

CONCLUSIONS

The results of this in vitro study suggest a significant positive influence of vitamin B supplementation on palatal shelf development in organ culture. Further studies will focus on the vitamin B concentration in the amniotic fluid of dams with or without cleft in their offspring.

Nested case-control study of one-carbon metabolites in mid-pregnancy and risks of cleft lip with and without cleft palate

Evidence exists for an association between use of vitamin supplements with folic acid in early pregnancy and reduced risk for offspring with cleft lip with/without cleft palate (CLP). A few observations have been made about nutrients related to one-carbon metabolism other than folate. Our prospective study attempted to extend information on nutrition and CLP by measuring nutrient analytes in mid-pregnancy sera. This study included data from a repository of women's mid-pregnancy serum specimens collected in California from 2003-04. Each woman's specimen was linked with delivery information to determine whether her fetus had CLP or another structural malformation, or was nonmalformed. We identified 89 CLP cases. We randomly selected 409 specimens as controls. Specimens were tested for homocysteine, methylmalonic acid, folate, vitamin B12, pyridoxal phosphate, pyridoxal, pyridoxic acid, riboflavin, choline, betaine, methionine, methionine sulfoxide, cysteine, cystathionine, arginine, and asymmetric and symmetric dimethylarginine. We observed three analytes with odds ratios unlikely to be explained by random variation, i.e., elevated CLP risks were observed for low levels and for high levels of pyridoxal phosphate (vitamin B6), higher levels of choline, and low levels of symmetric dimethylarginine. These data did not show meaningful differences between cases and controls for any other analytes.

Maternal nutrient intakes and risk of orofacial clefts

BACKGROUND

Information about nutritional factors as potential risks of orofacial clefts is limited.

METHODS

In this population-based case-control study, we investigated whether periconceptional intakes of supplemental folic acid, dietary folate, and several other nutrients were associated with orofacial clefts. We included data on deliveries from 1997 through 2000 in the National Birth Defects Prevention Study. Orofacial cleft cases were infants or fetuses born with cleft palate (CP) or with cleft lip with or without cleft palate (CLP). Infants without malformations were eligible as controls. Interview participation was 71% among case mothers and 68% among control mothers. Interviews were completed for 704 CLP cases, 404 CP cases, and 2594 controls.

RESULTS

The odds ratio (OR) for CLP associated with use of vitamin supplements containing folic acid was 0.88 (95% confidence interval = 0.73-1.07) and for CP was 1.09 (0.84-1.40). Adjusting for maternal race/ethnicity, age, and education produced an OR of 1.01 (0.82-1.24) for CLP and 1.02 (0.77-1.34) for CP. We found some evidence for decreased CLP risks (>or=30% reduction in risk) with increasing intakes of total protein, choline, and methionine. Decreased CP risk was associated with increased intake of cysteine. Intakes of only 2 micronutrients, iron and riboflavin, were found to reduce CLP risk when adjusted for other nutrients.

CONCLUSION

Our observations contribute to the limited body of evidence suggesting a woman's periconceptional diet may influence clefting risks in her offspring. Our finding of no reduction in clefting risk with periconceptional use of supplements containing folic acid is inconsistent with many previous observations but not all.

Gene–nutrient interactions: importance of folates and retinoids during early embryogenesis

The role that nutritional factors play in mammalian development has received renewed attention over the past two decades, as the scientific literature exploded with reports of retinoid compounds disrupting craniofacial development, and with other reports that folic acid supplementation in the periconceptional period can protect embryos from highly significant malformations. As was often the case, the situation became far more complicated, as the interaction between nutritional factors with selected genes was recognized. In this review, we attempt to summarize a complex clinical and experimental literature of nutritional factors, their biological transport mechanisms, and the impact that they have during early embryogenesis. Although not exhaustive, our goal was to provide an overview of important gene-nutrient interactions and a framework for their investigation.

B group vitamins and cleft lip and cleft palate

B group vitamins including folic acid supplementation during pregnancy have been shown to be effective in preventing cleft lip and palate (CLP) in humans. The clinical trials for the prevention of malformation have been mostly empirically based. The aim of the present study was directed toward the elucidation of the mechanisms underlying the preventive measures. The teratogenic potency of vitamin deficiency over the whole period of gestation (days 1-18) and of food restriction during the critical period of palatogenesis (days 12 and 13) were investigated in the genetically different strains of NMRI and A/WySn mice. Furthermore the potential benefit of vitamin B supplementation/treatment in the genetically susceptible CLP strain was demonstrated for comparison with former work on a teratogenetically induced cleft palate model. The results illustrate the higher susceptibility of the NMRI strain to the teratogenic action of deficiency (increase of the CP rate from 3.8% to 25%) in contrast to A/WySn mice, which actually have a high spontaneous but relative teratogenic-resistant clefting rate (28-44%). A deficiency of each of the individual B vitamins is teratogenic, however total B group deficiency has the strongest effect in the case of deficiency of all B vitamins. This produces up to 25% cleft palates in the NMRI strain. Alternatively, vitamin B group treatment in pregnant A/WySn mice did not substantially influence the clefting rate in contrast to our former experience in Halle:AB mice. The results may help to elucidate the interplay of genetic conditions and exogenous (nutritional) factors in both the aetiology and prevention of CLP. This may further clarify the role of the B vitamins in empiric preventive clinical trials.