Associations of folate and choline metabolism gene polymorphisms with orofacial clefts.

BACKGROUND: Non-syndromic isolated cleft lip with or without cleft palate (NCL/P) is a common congenital anomaly in humans, the aetiology of which is complex and associated with both genetic and environmental factors. It has been reported that maternal nutritional factors are likely to play a major role in development of NCL/P in the embryo. OBJECTIVE: As the mechanism by which folic acid and choline supplementation prevents NCL/P is poorly understood, the relationship between 16 polymorphic variants of 12 genes encoding enzymes involved in the metabolism of these two nutrients and the risk of facial clefts was investigated. RESULTS: It was found that individuals with the AA genotype of the BHMT rs3733890 polymorphism have a significantly lower risk of orofacial clefts (OR 0.1450, 95% CI 0.0420 to 0.4995; p=0.0005; p(corr)=0.008). It was also demonstrated that the rs7639752 polymorphism of the PCYT1A gene increases the risk of NCL/P nearly twofold in the Polish population (OR 1.891, 95% CI 1.151 to 3.107; p=0.011), but this association would not withstand correction for multiple testing (p(corr)=0.176). The genetic variations in CBS, MTHFD1, MTHFR, MTR, MTRR, TCN2, BHMT2, CHDH, CHKA, and PEMT were not separately correlated with NCL/P risk. However, the Multifactor Dimensionality Reduction (MDR) analysis showed a significant epistatic interaction between MTHFR (rs1801133), MTR (rs1805087), and PEMT (rs4646406) in NCL/P susceptibility. CONCLUSION: This study demonstrates that choline metabolism may play an important role in the aetiology of NCL/P. Polymorphic variants of BHMT and PCYT1A and interactions between genes of choline and folate metabolism might influence the risk of NCL/P in the Polish population.

Low sulfide levels and a high degree of cystathionine ß-synthase (CBS) activation by S-adenosylmethionine (SAM) in the long-lived naked mole-rat.

Hydrogen sulfide (H2S) is a gaseous signalling molecule involved in many physiological and pathological processes. There is increasing evidence that H2S is implicated in aging and lifespan control in the diet-induced longevity models. However, blood sulfide concentration of naturally long-lived species is not known. Here we measured blood sulfide in the long-lived naked mole-rat and five other mammalian species considerably differing in lifespan and found a negative correlation between blood sulfide and maximum longevity residual. In addition, we show that the naked mole-rat cystathionine ß-synthase (CBS), an enzyme whose activity in the liver significantly contributes to systemic sulfide levels, has lower activity in the liver and is activated to a higher degree by S-adenosylmethionine compared to other species. These results add complexity to the understanding of the role of H2S in aging and call for detailed research on naked mole-rat transsulfuration.