Viewing teratogens through the lens of nicotinamide adenine dinucleotide (<scp>NAD</scp>+)

Mark, Paul R.; Dunwoodie, Sally L.

doi:10.1002/bdr2.2089

Cited by 5 publications

(3 citation statements)

References 74 publications

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“…We hypothesize that diabetes may act as an environmental factor influencing the phenotypic expression in patients with the VACTERL association spectrum. A possible explanation of this association is the known relationship between diabetes and dysregulation of NAD metabolism (Allegri et al, 2003; Fan et al, 2020; Mark & Dunwoodie, 2022). Diabetes may also increase the risk of vascular disruption which has been proposed as a mechanism in VACTERL (Stevenson & Hunter, 2013).…”

Section: Discussionmentioning

confidence: 99%

Ear anomalies and hearing loss in patients with VACTERL association and the effect of maternal diabetes

Galarreta,

Hoyt,

Forero

et al. 2023

American J of Med Genetics Pt A

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VACTERL association is typically defined as the presence of three components among these birth defects: vertebral anomalies, anal atresia, cardiac anomalies, esophageal atresia/tracheoesophageal fistula (EA/TEF), renal anomalies, and limb defects. There is increasing recognition that VACTERL and other recurrent constellations of embryonic development often overlap clinically and might share pathogenesis. We conducted a comprehensive chart review of a large patient population with VACTERL association from two tertiary care centers in California. We included patients with incomplete VACTERL expression, which we denoted as “partial VACTERL” (pVACTERL). We assessed the occurrence of craniofacial (CF) findings in these two groups and the combined cohort. We collected data on potential risk factors and demographic information such as sex, Hispanic ancestry, pregnancy complications, and maternal age. The study included 409 participants, of whom 263 had VACTERL and 146 pVACTERL. CF abnormalities were found in 17.3% of VACTERL patients and 9.4% of pVACTERL patients. In the VACTERL group, ear anomalies were found in 10.2%, microtia in 5.9%, hearing loss (HL) in 13.90%, and orofacial clefts in 3.1%. In the pVACTERL group, ear anomalies were found in 7.2%, microtia in 5.0%, HL in 9.3%, and orofacial cleft in 2.2%. Maternal diabetes significantly increased the risk for HL in VACTERL (odds ratio [OR]: 3.71, 95% confidence interval [CI]: 1.5–7.3) and pVACTERL patients (OR: 6.7, 95% CI: 1.70–23.4). Poorly controlled maternal diabetes significantly increased the risk for all the outcomes in VACTERL patients including CF anomalies (OR: 4.2, 95% CI: 1.9–9.6), ear anomalies (OR: 4.7, 95% CI: 1.8–11.8), microtia (OR: 5.4, 95% CI: 1.7–16.6), and HL (OR: 8.1, 95% CI: 3.4–19.4). Twin status was significantly associated with the occurrence of microtia (p = 0.038) in VACTERL patients. Occurrence of CF features, particularly ear anomalies, microtia, and HL, might be considered as part of phenotypic diversity of VACTERL association. Diabetes and twinning might appear to play a role in increasing the risk for this phenotype in VACTERL association.

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Section: Discussionmentioning

confidence: 99%

Ear anomalies and hearing loss in patients with VACTERL association and the effect of maternal diabetes

Galarreta,

Hoyt,

Forero

et al. 2023

American J of Med Genetics Pt A

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“…NAD levels in pregnancy are dependent on intake of Niacin, and diets low in Niacin were linked to a higher prevalence of birth defects ( Palawaththa et al, 2022 ). Mice with mutations that reduce NAD availability exhibit developmental defects ( Cuny et al, 2020 ; Cuny et al, 2023 ) and suggest that low NAD levels could be involved in teratogenesis upon exposure to various agents ( Mark et al, 2022 ). Our finding of predicted increased activity of NAD metabolism in diabetes-exposed embryos could be indicative of a compensatory response.…”

Section: Discussionmentioning

confidence: 99%

Differential responses to maternal diabetes in embryo and visceral yolk sac

Salbaum,

Stone,

Kruger

et al. 2023

Front. Cell Dev. Biol.

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Introduction: Maternal diabetes during pregnancy is well known to be associated with a higher risk for structural birth defects in the offspring. Recent searches for underlying mechanisms have largely focused on aberrant processes in the embryo itself, although prior research in rodent models implicated dysfunction also of the visceral yolk sac. The objective of our research was to investigate both tissues within the conceptus simultaneously.Methods: We conducted unbiased transcriptome profiling by RNA sequencing on pairs of individual yolk sacs and their cognate embryos, using the non-obese diabetic (NOD) mouse model. The analysis was performed at gestational day 8.5 on morphologically normal specimen to circumvent confounding by defective development.Results: Even with large sample numbers (n = 33 in each group), we observed considerable variability of gene expression, primarily driven by exposure to maternal diabetes, and secondarily by developmental stage of the embryo. Only a moderate number of genes changed expression in the yolk sac, while in the embryo, the exposure distinctly influenced the relationship of gene expression levels to developmental progression, revealing a possible role for altered cell cycle regulation in the response. Also affected in embryos under diabetic conditions were genes involved in cholesterol biosynthesis and NAD metabolism pathways.Discussion: Exposure to maternal diabetes during gastrulation changes transcriptomic profiles in embryos to a substantially greater effect than in the corresponding yolk sacs, indicating that despite yolk sac being of embryonic origin, different mechanisms control transcriptional activity in these tissues. The effects of maternal diabetes on expression of many genes that are correlated with developmental progression (i.e. somite stage) highlight the importance of considering developmental maturity in the interpretation of transcriptomic data. Our analyses identified cholesterol biosynthesis and NAD metabolism as novel pathways not previously implicated in diabetic pregnancies. Both NAD and cholesterol availability affect a wide variety of cellular signaling processes, and can be modulated by diet, implying that prevention of adverse outcomes from diabetic pregnancies may require broad interventions, particularly in the early stages of pregnancy.

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“…Restriction of maternal intake of NAD + precursors leads to embryonic loss and multiple congenital malformations in wild-type mice. Therefore, there is an elevated risk of NAD + deficiency during pregnancy, when an adequate supply of NAD + is required to ensure normal embryonic development [ 71 ]. Birth defects resulting from insufficient NAD + synthesis during embryogenesis are called congenital NAD + deficiency and most commonly affect the heart, kidneys, vertebrae and limbs [ 72 ].…”

Section: Effects Of Nad + and Its Precursors On Re...mentioning

confidence: 99%

Supplementation with NAD+ and its precursors: A rescue of female reproductive diseases

Li,

Zhou,

Liu

et al. 2024

Biochemistry and Biophysics Reports

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Viewing teratogens through the lens of nicotinamide adenine dinucleotide (NAD+)

Cited by 5 publications

References 74 publications

Ear anomalies and hearing loss in patients with VACTERL association and the effect of maternal diabetes

Ear anomalies and hearing loss in patients with VACTERL association and the effect of maternal diabetes

Differential responses to maternal diabetes in embryo and visceral yolk sac

Supplementation with NAD+ and its precursors: A rescue of female reproductive diseases

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