TY - JOUR
T1 - Adverse placental effect of formic acid on hCG secretion is mitigated by folic acid
AU - Hutson, J. R.
AU - Lubetsky, A.
AU - Eichhorst, J.
AU - Hackmon, R.
AU - Koren, G.
AU - Kapur, B. M.
N1 - Funding Information:
Funding — This study is supported by a grant from the Canadian Foundation for Fetal Alcohol Research (CFFAR) (grant no: 724 180 969). J.R.H. is supported by a CIHR Vanier Canada Graduate Scholarship.
PY - 2013/5
Y1 - 2013/5
N2 - Aims: Formic acid has recently been detected in maternal blood and umbilical cord blood of infants born to alcohol abusing mothers. This toxic metabolite of methanol requires folate for detoxification. We hypothesized that formic acid produced in the maternal circulation will transfer across the placenta and will be toxic to the placenta. Our objectives were, first, to determine whether formic acid transfers across the human placenta and whether it is toxic to the placenta and second, to determine whether folate can decrease transplacental transfer of formic acid and mitigate toxicity. Methods: Dual perfusion of a single placental lobule ex vivo was used to characterize the transfer of formic acid across the placenta. After a 1-h control period, formic acid (2 mM) was introduced into the maternal circulation with (n = 4) or without folate (1 μM) (n = 4) and was allowed to equilibrate for 3 h. Results: Formic acid transferred rapidly from the maternal to the fetal circulation, and transfer was not altered with the addition of folate. Compared with the control period, there was a significant decrease in hCG secretion (P = 0.03) after addition of formic acid. The addition of folic acid to the perfusate mitigated the decrease in hCG. Conclusions: Formic acid rapidly transfers across the placenta and thus has the potential to be toxic to the developing fetus. Formic acid decreases hCG secretion in the placenta, which may alter steroidogenesis and differentiation of the cytotrophoblasts, and this adverse effect can be mitigated by folate.
AB - Aims: Formic acid has recently been detected in maternal blood and umbilical cord blood of infants born to alcohol abusing mothers. This toxic metabolite of methanol requires folate for detoxification. We hypothesized that formic acid produced in the maternal circulation will transfer across the placenta and will be toxic to the placenta. Our objectives were, first, to determine whether formic acid transfers across the human placenta and whether it is toxic to the placenta and second, to determine whether folate can decrease transplacental transfer of formic acid and mitigate toxicity. Methods: Dual perfusion of a single placental lobule ex vivo was used to characterize the transfer of formic acid across the placenta. After a 1-h control period, formic acid (2 mM) was introduced into the maternal circulation with (n = 4) or without folate (1 μM) (n = 4) and was allowed to equilibrate for 3 h. Results: Formic acid transferred rapidly from the maternal to the fetal circulation, and transfer was not altered with the addition of folate. Compared with the control period, there was a significant decrease in hCG secretion (P = 0.03) after addition of formic acid. The addition of folic acid to the perfusate mitigated the decrease in hCG. Conclusions: Formic acid rapidly transfers across the placenta and thus has the potential to be toxic to the developing fetus. Formic acid decreases hCG secretion in the placenta, which may alter steroidogenesis and differentiation of the cytotrophoblasts, and this adverse effect can be mitigated by folate.
UR - http://www.scopus.com/inward/record.url?scp=84877136678&partnerID=8YFLogxK
U2 - 10.1093/alcalc/agt008
DO - 10.1093/alcalc/agt008
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C2 - 23408242
AN - SCOPUS:84877136678
SN - 0735-0414
VL - 48
SP - 283
EP - 287
JO - Alcohol and Alcoholism
JF - Alcohol and Alcoholism
IS - 3
M1 - agt008
ER -