Complex conotruncal cardiac anomalies consecutively in three siblings from a consanguineous family possibly associated with maternal hyperhomocysteinemia

Skin disorders in women with poor obstetric history: MTHFR polymorphisms and importance of preconceptional counseling

OBJECTIVES

This study focused on the link between skin disorders and Methylenetetrahydrofolate reductase (MTHFR) polymorphisms.

METHODS

Study cases were taken from a pre-conceptional care program where patients with poor obstetric history were evaluated in terms of systemic disorders including skin diseases. This retrospective cohort (n = 472) consisted of 110 (23.3%) and 362 (76.7%) women with or without skin disorders, respectively. For ease of analysis, the history of skin diseases was classified into seven categories: (1) acne/rosacea/other acneiform disorders; (2) fungal disease; (3) pruritis/xerosis; (4) psoriasis vulgaris; (5) acrochordons and other benign skin growths; (6) urticaria/dermatitis; and (7) viral diseases.

RESULTS

In this retrospective cohort of 472 women, we explored the impact of MTHFR A1298C and C677T polymorphisms on skin disorders. Despite similar allelic frequencies, our findings revealed a statistically significant association between the presence of MTHFR polymorphisms and skin disorders (p = .027). Subgroup analysis indicated significantly higher rates of MTHFR polymorphisms in patients with psoriasis vulgaris (p = .033) and acrochordons (p = .030), highlighting their potential relevance in specific skin disorder subtypes.

CONCLUSIONS

The increased prevalence of psoriasis and acrochordons among women with MTHFR deficiency underscores the complex relationship between genetic factors and dermatological health. Our findings emphasized the critical role of MTHFR polymorphisms not only in poor obstetric history but also as significant contributors to skin disorders. This dual association highlights the importance of comprehensive preconception counseling, especially customized for women affected by skin disorders.

Metabolic infrastructure of pregnant women with methylenetetrahydrofolate reductase polymorphisms: A metabolomic analysis

The aim of this study was to demonstrate the altered metabolic infrastructure of pregnant women with methylenetetrahydrofolate reductase (MTHFR) polymorphisms at first trimester and during delivery. Eight singleton pregnant women with MTHFR polymorphisms were compared with 10 normal pregnant women. Maternal blood samples were obtained twice during their pregnancy period (between the 11th and 14th gestational weeks and during delivery). Metabolomic analysis was performed using GC-MS. The GC-MS based metabolomic profile helped identify 95 metabolites in the plasma samples. In the MTHFR group, the levels of 1-monohexadecanoylglycerol, pyrophosphate, benzoin, and linoleic acid significantly decreased (P ˂ 0.05 for all), whereas the levels of glyceric acid, l-tryptophan, l-alanine, l-proline, norvaline, l-threonine, and myo-inositol significantly increased (P ˂ 0.01 for the first two metabolites, P ˂ 0.05 for the others) at 11-14 gestational weeks. Conversely, the levels of benzoin, 1-monohexadecanoylglycerol, pyruvic acid, l-proline, phosphoric acid, epsilon-caprolactam, and pipecolic acid significantly decreased in the MTHFR group, whereas metabolites such as hexadecanoic acid and 2-hydroxybutyric acid increased significantly in the study group during delivery. An impaired energy metabolism pathway, vitamin B complex disorders, tendency for metabolic acidosis (oxidative stress), and the need for cell/tissue support seem prevalent in pregnancies with MTHFR polymorphisms.

Are Congenital Urinary Tract Abnormalities Linked to Maternal Methylenetetrahydrofolate Reductase Polymorphisms in Fetuses of Intentionally Terminated Pregnancies with Oligo- or Anhydramnios ?

OBJECTIVE

We aimed to evaluate fetuses of terminated pregnancies with oligo-or anhydramnios (OAH) to further investigate the association between maternal methylenetetrahydrofolate reductase (MTHFR) polymorphisms and fetal urinary tract malformations.

MATERIALS AND METHODS

This retrospective study included 16 pregnancies with OAH (with normal fetal karyotype) that were intentionally terminated before 22nd gestational week. Fetal autopsy was performed in all cases. We evaluated cases for presence of DNA methylation pathway-related gene polymorphisms.

RESULTS

We demonstrated that renal abnormalities and disorders exist in 75% of the cases. Pulmonary system anomalies and single umbilical artery were the most frequently observed associated abnormalities. Polymorphisms with known reduced MTHFR activity were found in 81.8% (9/11) of the cases.Association between urinary system abnormalities and polymorphisms with known reduced MTHFR activity was observed in 88.8% (8/9) of the cases.

CONCLUSION

Physicians should keep in mind that polymorphisms with known reduced MTHFR activity may be associated with urinary tract abnormalities and OAH.

Folate protection from congenital heart defects linked with canonical Wnt signaling and epigenetics

PURPOSE OF REVIEW

Environmental factors, such as drugs, chemicals, or abnormal concentrations of natural metabolites, induce birth defects. Environmental effects on cardiogenesis have been little studied in contrast to neurogenesis. This review presents evidence on three environmental factors: alcohol, the drug lithium, and the metabolite homocysteine, impacting the Wnt/β-catenin pathway during cardiac development and folate protection.

RECENT FINDINGS

Animal and epidemiological studies have shown that folate protects the embryo from birth defects. New animal studies demonstrate that folate prevents cardiovascular defects induced by the drug lithium, homocysteine, or alcohol, but protection occurs at a higher concentration than currently used in vitamin supplements. The data indicate that folate in combination with myo-inositol may further reduce the risk of birth defects. Discussion is presented of the cell specification stages that are impacted resulting in cardiac defects, how Wnt/β-catenin signaling is involved, and how folate and myo-inositol additively may protect embryonic pathways. The possible epigenetic role of folate in Wnt/β-catenin signaling is described.

SUMMARY

This review will enable better counseling of women by defining, during early pregnancy, a susceptible window of embryonic exposure leading to a high risk of cardiac defects, and provides a therapeutic means and the necessary timing for prevention of environmentally induced birth defects.

Zinc antagonizes homocysteine-induced fetal heart defects in rats

It has been suggested that zinc may have a protective role against heart defects during fetal development. We investigated the effects of zinc on the development of fetal cardiac malformations induced by homocysteine. Pregnant Sprague-Dawley rats were randomized into one of five groups: control (C), homocysteine (H), homocysteine + zinc (Z), homocysteine + folic acid (F), or homocysteine + zinc + folic acid (ZF) (each n = 8). Homocysteine (8 nmol/day) was administered intraperitoneally in the H, Z, F, and ZF groups on gestation days (GD) 8, 9, and 10. Zinc (30 mg/kg day), folic acid (30 mg/kg day), or both (30 mg/kg day each) were administered intragastrically daily in the Z, F, and ZF groups, respectively, throughout the pregnancy. In each group, two fetuses were removed on GD 13, 15, 17, and 19 and examined for cardiac malformations; maternal copper/zinc-containing-superoxide dismutase (Cu/Zn-SOD) activity and metallothionein type I (MT-1) mRNA expression were measured simultaneously. The prevalence of cardiac malformations was significantly higher in group H than in group C, and significantly lower in group Z than in group H at the studied time points. Cu/Zn-SOD activity and MT-1 mRNA levels were significantly lower in group H than in group C, and significantly higher in group Z than in group H. Our data suggest that zinc antagonizes homocysteine-induced teratogenic effects on the fetal heart, possibly via the inhibition of excessive peroxidation.