TY - JOUR
T1 - Modeling placental transport
T2 - Correlation of in vitro BeWo cell permeability and ex vivo human placental perfusion
AU - Poulsen, Marie Sønnegaard
AU - Rytting, Erik
AU - Mose, Tina
AU - Knudsen, Lisbeth E.
PY - 2009/10
Y1 - 2009/10
N2 - The placental passage of three compounds with different physicochemical properties was recently investigated in ex vivo human placental perfusion experiments (caffeine, benzoic acid, and glyphosate) [Mose, T., Kjaerstad, M.B., Mathiesen, L., Nielsen, J.B., Edelfors, S., Knudsen, L.E., 2008. Placental passage of benzoic acid, caffeine, and glyphosate in an ex vivo human perfusion system. J. Toxicol. Environ. Health, Part A 71, 984-991]. In this work, the transport of these same three compounds, plus the reference compound antipyrine, was investigated using BeWo (b30) cell monolayers. Transport across the BeWo cells was observed in the rank order of caffeine > antipyrine > benzoic acid > glyphosate in terms of both the apparent permeability coefficient and the initial slope, defined as the linear rate of substance transferred to the fetal compartment as percent per time, a parameter used to compare the two experimental models. The results from the in vitro studies were in excellent agreement with the ex vivo results (caffeine ≈ antipyrine > benzoic acid > glyphosate). However the transfer rate was much slower in the BeWo cells compared to the perfusion system. The advantages and limitations of each model are discussed in order to assist in the preparation, prediction, and performance of future studies of maternal-fetal transfer.
AB - The placental passage of three compounds with different physicochemical properties was recently investigated in ex vivo human placental perfusion experiments (caffeine, benzoic acid, and glyphosate) [Mose, T., Kjaerstad, M.B., Mathiesen, L., Nielsen, J.B., Edelfors, S., Knudsen, L.E., 2008. Placental passage of benzoic acid, caffeine, and glyphosate in an ex vivo human perfusion system. J. Toxicol. Environ. Health, Part A 71, 984-991]. In this work, the transport of these same three compounds, plus the reference compound antipyrine, was investigated using BeWo (b30) cell monolayers. Transport across the BeWo cells was observed in the rank order of caffeine > antipyrine > benzoic acid > glyphosate in terms of both the apparent permeability coefficient and the initial slope, defined as the linear rate of substance transferred to the fetal compartment as percent per time, a parameter used to compare the two experimental models. The results from the in vitro studies were in excellent agreement with the ex vivo results (caffeine ≈ antipyrine > benzoic acid > glyphosate). However the transfer rate was much slower in the BeWo cells compared to the perfusion system. The advantages and limitations of each model are discussed in order to assist in the preparation, prediction, and performance of future studies of maternal-fetal transfer.
KW - BeWo cells
KW - Benzoic acid
KW - Caffeine
KW - Glyphosate
KW - Modelling
KW - Placental transport
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U2 - 10.1016/j.tiv.2009.07.028
DO - 10.1016/j.tiv.2009.07.028
M3 - Article
C2 - 19647068
AN - SCOPUS:70349396585
SN - 0887-2333
VL - 23
SP - 1380
EP - 1386
JO - Toxicology in Vitro
JF - Toxicology in Vitro
IS - 7
ER -