Glutamate cycling may drive organic anion transport on the basal membrane of human placental syncytiotrophoblast
Glutamate cycling may drive organic anion transport on the basal membrane of human placental syncytiotrophoblast
The organic anion transporter OAT4 (SLC22A11) and organic anion transporting polypeptide OATP2B1 (SLCO2B1) are expressed in the basal membrane of the placental syncytiotrophoblast. These transporters mediate exchange whereby uptake of one organic anion is coupled to efflux of a counter-ion. In placenta, these exchangers mediate placental uptake of substrates for oestrogen synthesis as well as clearing waste products and xenobiotics from the fetal circulation. However, the identity of the counter-ion driving this transport in the placenta, and in other tissues, is unclear. While glutamate is not a known OAT4 or OATP2B1 substrate, we propose that its high intracellular concentration has the potential to drive accumulation of substrates from the fetal circulation. In the isolated perfused placenta, glutamate exchange was observed between the placenta and the fetal circulation. This exchange could not be explained by known glutamate exchangers. However, glutamate efflux was trans-stimulated by an OAT4 and OATP2B1 substrate (bromosulphothalein). Exchange of glutamate for bromosulphothalein was only observed when glutamate reuptake was inhibited (by addition of aspartate). To determine if OAT4 and/or OATP2B1 mediate glutamate exchange, uptake and efflux of glutamate were investigated in Xenopus laevis oocytes. Our data demonstrate that in Xenopus oocytes expressing either OAT4 or OATP2B1 efflux of intracellular [14C]glutamate could be stimulated by conditions including extracellular glutamate (OAT4), estrone-sulphate and bromosulphothalein (both OAT4 and OATP2B1) or pravastatin (OATP2B1). Cycling of glutamate across the placenta involving efflux via OAT4 and OATP2B1 and subsequent reuptake will drive placental uptake of organic anions from the fetal circulation.
4549-4559
Lofthouse, Emma
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Brooks, S.
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Cleal, J.
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Hanson, M.
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Poore, K.
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O'Kelly, Ita
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Lewis, R.
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15 October 2015
Lofthouse, Emma
c4004ff1-2ed3-4b80-9ade-583c742de59c
Brooks, S.
4b0ecd34-a592-46b3-a21f-f83bdda46c7b
Cleal, J.
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Hanson, M.
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Poore, K.
b9529ba3-6432-4935-b8fd-6e382f11f0ad
O'Kelly, Ita
e640f28a-42f0-48a6-9ce2-cb5a85d08c66
Lewis, R.
caaeb97d-ea69-4f7b-8adb-5fa25e2d3502
Lofthouse, Emma, Brooks, S., Cleal, J., Hanson, M., Poore, K., O'Kelly, Ita and Lewis, R.
(2015)
Glutamate cycling may drive organic anion transport on the basal membrane of human placental syncytiotrophoblast.
The Journal of Physiology, 593 (20), .
(doi:10.1113/JP270743).
(PMID:26277985)
Abstract
The organic anion transporter OAT4 (SLC22A11) and organic anion transporting polypeptide OATP2B1 (SLCO2B1) are expressed in the basal membrane of the placental syncytiotrophoblast. These transporters mediate exchange whereby uptake of one organic anion is coupled to efflux of a counter-ion. In placenta, these exchangers mediate placental uptake of substrates for oestrogen synthesis as well as clearing waste products and xenobiotics from the fetal circulation. However, the identity of the counter-ion driving this transport in the placenta, and in other tissues, is unclear. While glutamate is not a known OAT4 or OATP2B1 substrate, we propose that its high intracellular concentration has the potential to drive accumulation of substrates from the fetal circulation. In the isolated perfused placenta, glutamate exchange was observed between the placenta and the fetal circulation. This exchange could not be explained by known glutamate exchangers. However, glutamate efflux was trans-stimulated by an OAT4 and OATP2B1 substrate (bromosulphothalein). Exchange of glutamate for bromosulphothalein was only observed when glutamate reuptake was inhibited (by addition of aspartate). To determine if OAT4 and/or OATP2B1 mediate glutamate exchange, uptake and efflux of glutamate were investigated in Xenopus laevis oocytes. Our data demonstrate that in Xenopus oocytes expressing either OAT4 or OATP2B1 efflux of intracellular [14C]glutamate could be stimulated by conditions including extracellular glutamate (OAT4), estrone-sulphate and bromosulphothalein (both OAT4 and OATP2B1) or pravastatin (OATP2B1). Cycling of glutamate across the placenta involving efflux via OAT4 and OATP2B1 and subsequent reuptake will drive placental uptake of organic anions from the fetal circulation.
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Accepted/In Press date: 4 August 2015
e-pub ahead of print date: 9 September 2015
Published date: 15 October 2015
Organisations:
Human Development & Health
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Local EPrints ID: 382983
URI: http://eprints.soton.ac.uk/id/eprint/382983
ISSN: 0022-3751
PURE UUID: 9e24438e-34fe-4def-a789-f2064cd0f892
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Date deposited: 04 Nov 2015 14:06
Last modified: 15 Mar 2024 03:45
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Author:
Emma Lofthouse
Author:
S. Brooks
Author:
Ita O'Kelly
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