Secretions from placenta, after hypoxia/reoxygenation, can damage developing neurones of brain under experimental conditions

Daniel J. Curtis; Aman Sood; Tom J. Phillips; Akihiro Nishiguchi; Veron H.L. Leinster; Christopher Coyle; Lizeth Lacharme-Lora; Oliver Beaumont; Helena Kemp; Roberta Goodall; Leila Cornes; Michele Giugliano; Rocco A. Barone; Michiya Matsusaki; Mitsuru Akashi; Hiroyoshi Y. Tanaka; Mitsunobu Kano; Jennifer McGarvey; Nagaraj D. Halemani; Katja Simon; Robert Keehan; William Ind; Tracey Masters; Simon Grant; Sharan Athwal; Gavin Collett; Dionne Tannetta; Ian L. Sargent; Emma Scull-Brown; Xun Liu; Kristian Aquilina; Nicki Cohen; Jon D. Lane; Marianne Thoresen; Jon Hanley; Andrew Randall; C. Patrick Case

doi:10.1016/j.expneurol.2014.05.003

Secretions from placenta, after hypoxia/reoxygenation, can damage developing neurones of brain under experimental conditions

Daniel J. Curtis, Aman Sood, Tom J. Phillips, Akihiro Nishiguchi, Veron H.L. Leinster, Christopher Coyle, Lizeth Lacharme-Lora, Oliver Beaumont, Helena Kemp, Roberta Goodall, Leila Cornes, Michele Giugliano, Rocco A. Barone, Michiya Matsusaki, Mitsuru Akashi, Hiroyoshi Y. Tanaka, Mitsunobu Kano, Jennifer McGarvey, Nagaraj D. Halemani, Katja SimonRobert Keehan, William Ind, Tracey Masters, Simon Grant, Sharan Athwal, Gavin Collett, Dionne Tannetta, Ian L. Sargent, Emma Scull-Brown, Xun Liu, Kristian Aquilina, Nicki Cohen, Jon D. Lane, Marianne Thoresen, Jon Hanley, Andrew Randall, C. Patrick Case

研究成果 › 査読

25 被引用数 (Scopus)

抄録

Some psychiatric diseases in children and young adults are thought to originate from adverse exposures during foetal life, including hypoxia and hypoxia/reoxygenation. The mechanism is not understood. Several authors have emphasised that the placenta is likely to play an important role as the key interface between mother and foetus. Here we have explored whether a first trimester human placenta or model barrier of primary human cytotrophoblasts might secrete factors, in response to hypoxia or hypoxia/reoxygenation, that could damage neurones. We find that the secretions in conditioned media caused an increase of [Ca²⁺]_i and mitochondrial free radicals and a decrease of dendritic lengths, branching complexity, spine density and synaptic activity in dissociated neurones from embryonic rat cerebral cortex. There was altered staining of glutamate and GABA receptors. We identify glutamate as an active factor within the conditioned media and demonstrate a specific release of glutamate from the placenta/cytotrophoblast barriers invitro after hypoxia or hypoxia/reoxygenation. Injection of conditioned media into developing brains of P4 rats reduced the numerical density of parvalbumin-containing neurones in cortex, hippocampus and reticular nucleus, reduced immunostaining of glutamate receptors and altered cellular turnover. These results show that the placenta is able to release factors, in response to altered oxygen, that can damage developing neurones under experimental conditions.

本文言語	English
ページ（範囲）	386-395
ページ数	10
ジャーナル	Experimental Neurology
巻	261
DOI	https://doi.org/10.1016/j.expneurol.2014.05.003
出版ステータス	Published - 11月 1 2014
外部発表	はい

ASJC Scopus subject areas

神経学
発達神経科学

UN SDG

この成果は、次の持続可能な開発目標に貢献しています

文献へのアクセス

10.1016/j.expneurol.2014.05.003

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引用スタイル

Curtis, D. J., Sood, A., Phillips, T. J., Nishiguchi, A., Leinster, V. H. L., Coyle, C., Lacharme-Lora, L., Beaumont, O., Kemp, H., Goodall, R., Cornes, L., Giugliano, M., Barone, R. A., Matsusaki, M., Akashi, M., Tanaka, H. Y., Kano, M., McGarvey, J., Halemani, N. D., ... Case, C. P. (2014). Secretions from placenta, after hypoxia/reoxygenation, can damage developing neurones of brain under experimental conditions. Experimental Neurology, 261, 386-395. https://doi.org/10.1016/j.expneurol.2014.05.003

Curtis, DJ, Sood, A, Phillips, TJ, Nishiguchi, A, Leinster, VHL, Coyle, C, Lacharme-Lora, L, Beaumont, O, Kemp, H, Goodall, R, Cornes, L, Giugliano, M, Barone, RA, Matsusaki, M, Akashi, M, Tanaka, HY , Kano, M, McGarvey, J, Halemani, ND, Simon, K, Keehan, R, Ind, W, Masters, T, Grant, S, Athwal, S, Collett, G, Tannetta, D, Sargent, IL, Scull-Brown, E, Liu, X, Aquilina, K, Cohen, N, Lane, JD, Thoresen, M, Hanley, J, Randall, A & Case, CP 2014, 'Secretions from placenta, after hypoxia/reoxygenation, can damage developing neurones of brain under experimental conditions', Experimental Neurology, vol. 261, pp. 386-395. https://doi.org/10.1016/j.expneurol.2014.05.003

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title = "Secretions from placenta, after hypoxia/reoxygenation, can damage developing neurones of brain under experimental conditions",

abstract = "Some psychiatric diseases in children and young adults are thought to originate from adverse exposures during foetal life, including hypoxia and hypoxia/reoxygenation. The mechanism is not understood. Several authors have emphasised that the placenta is likely to play an important role as the key interface between mother and foetus. Here we have explored whether a first trimester human placenta or model barrier of primary human cytotrophoblasts might secrete factors, in response to hypoxia or hypoxia/reoxygenation, that could damage neurones. We find that the secretions in conditioned media caused an increase of [Ca2+]i and mitochondrial free radicals and a decrease of dendritic lengths, branching complexity, spine density and synaptic activity in dissociated neurones from embryonic rat cerebral cortex. There was altered staining of glutamate and GABA receptors. We identify glutamate as an active factor within the conditioned media and demonstrate a specific release of glutamate from the placenta/cytotrophoblast barriers invitro after hypoxia or hypoxia/reoxygenation. Injection of conditioned media into developing brains of P4 rats reduced the numerical density of parvalbumin-containing neurones in cortex, hippocampus and reticular nucleus, reduced immunostaining of glutamate receptors and altered cellular turnover. These results show that the placenta is able to release factors, in response to altered oxygen, that can damage developing neurones under experimental conditions.",

keywords = "Cerebral cortex, Dendrite, Development, Hypoxia, Neurodevelopmental disorder, Neurone, Parvalbumin, Placenta, Reoxygenation, Schizophrenia",

author = "Curtis, {Daniel J.} and Aman Sood and Phillips, {Tom J.} and Akihiro Nishiguchi and Leinster, {Veron H.L.} and Christopher Coyle and Lizeth Lacharme-Lora and Oliver Beaumont and Helena Kemp and Roberta Goodall and Leila Cornes and Michele Giugliano and Barone, {Rocco A.} and Michiya Matsusaki and Mitsuru Akashi and Tanaka, {Hiroyoshi Y.} and Mitsunobu Kano and Jennifer McGarvey and Halemani, {Nagaraj D.} and Katja Simon and Robert Keehan and William Ind and Tracey Masters and Simon Grant and Sharan Athwal and Gavin Collett and Dionne Tannetta and Sargent, {Ian L.} and Emma Scull-Brown and Xun Liu and Kristian Aquilina and Nicki Cohen and Lane, {Jon D.} and Marianne Thoresen and Jon Hanley and Andrew Randall and Case, {C. Patrick}",

note = "Funding Information: The financial support of the Perivoli Trust is gratefully acknowledged. MG acknowledges financial support from the EC-FP7 (Marie Curie Network “NAMASEN” grant n. 264872 ), the Research Foundation Flanders (grant n. G.0888.12N ) and the Interuniversity Attraction Poles Program (IUAP) , initiated by the Belgian Science Policy Office .",

year = "2014",

month = nov,

day = "1",

doi = "10.1016/j.expneurol.2014.05.003",

language = "English",

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T1 - Secretions from placenta, after hypoxia/reoxygenation, can damage developing neurones of brain under experimental conditions

AU - Curtis, Daniel J.

AU - Sood, Aman

AU - Phillips, Tom J.

AU - Nishiguchi, Akihiro

AU - Leinster, Veron H.L.

AU - Coyle, Christopher

AU - Lacharme-Lora, Lizeth

AU - Beaumont, Oliver

AU - Kemp, Helena

AU - Goodall, Roberta

AU - Cornes, Leila

AU - Giugliano, Michele

AU - Barone, Rocco A.

AU - Matsusaki, Michiya

AU - Akashi, Mitsuru

AU - Tanaka, Hiroyoshi Y.

AU - Kano, Mitsunobu

AU - McGarvey, Jennifer

AU - Halemani, Nagaraj D.

AU - Simon, Katja

AU - Keehan, Robert

AU - Ind, William

AU - Masters, Tracey

AU - Grant, Simon

AU - Athwal, Sharan

AU - Collett, Gavin

AU - Tannetta, Dionne

AU - Sargent, Ian L.

AU - Scull-Brown, Emma

AU - Liu, Xun

AU - Aquilina, Kristian

AU - Cohen, Nicki

AU - Lane, Jon D.

AU - Thoresen, Marianne

AU - Hanley, Jon

AU - Randall, Andrew

AU - Case, C. Patrick

N1 - Funding Information: The financial support of the Perivoli Trust is gratefully acknowledged. MG acknowledges financial support from the EC-FP7 (Marie Curie Network “NAMASEN” grant n. 264872 ), the Research Foundation Flanders (grant n. G.0888.12N ) and the Interuniversity Attraction Poles Program (IUAP) , initiated by the Belgian Science Policy Office .

PY - 2014/11/1

Y1 - 2014/11/1

N2 - Some psychiatric diseases in children and young adults are thought to originate from adverse exposures during foetal life, including hypoxia and hypoxia/reoxygenation. The mechanism is not understood. Several authors have emphasised that the placenta is likely to play an important role as the key interface between mother and foetus. Here we have explored whether a first trimester human placenta or model barrier of primary human cytotrophoblasts might secrete factors, in response to hypoxia or hypoxia/reoxygenation, that could damage neurones. We find that the secretions in conditioned media caused an increase of [Ca2+]i and mitochondrial free radicals and a decrease of dendritic lengths, branching complexity, spine density and synaptic activity in dissociated neurones from embryonic rat cerebral cortex. There was altered staining of glutamate and GABA receptors. We identify glutamate as an active factor within the conditioned media and demonstrate a specific release of glutamate from the placenta/cytotrophoblast barriers invitro after hypoxia or hypoxia/reoxygenation. Injection of conditioned media into developing brains of P4 rats reduced the numerical density of parvalbumin-containing neurones in cortex, hippocampus and reticular nucleus, reduced immunostaining of glutamate receptors and altered cellular turnover. These results show that the placenta is able to release factors, in response to altered oxygen, that can damage developing neurones under experimental conditions.

AB - Some psychiatric diseases in children and young adults are thought to originate from adverse exposures during foetal life, including hypoxia and hypoxia/reoxygenation. The mechanism is not understood. Several authors have emphasised that the placenta is likely to play an important role as the key interface between mother and foetus. Here we have explored whether a first trimester human placenta or model barrier of primary human cytotrophoblasts might secrete factors, in response to hypoxia or hypoxia/reoxygenation, that could damage neurones. We find that the secretions in conditioned media caused an increase of [Ca2+]i and mitochondrial free radicals and a decrease of dendritic lengths, branching complexity, spine density and synaptic activity in dissociated neurones from embryonic rat cerebral cortex. There was altered staining of glutamate and GABA receptors. We identify glutamate as an active factor within the conditioned media and demonstrate a specific release of glutamate from the placenta/cytotrophoblast barriers invitro after hypoxia or hypoxia/reoxygenation. Injection of conditioned media into developing brains of P4 rats reduced the numerical density of parvalbumin-containing neurones in cortex, hippocampus and reticular nucleus, reduced immunostaining of glutamate receptors and altered cellular turnover. These results show that the placenta is able to release factors, in response to altered oxygen, that can damage developing neurones under experimental conditions.

KW - Cerebral cortex

KW - Dendrite

KW - Development

KW - Hypoxia

KW - Neurodevelopmental disorder

KW - Neurone

KW - Parvalbumin

KW - Placenta

KW - Reoxygenation

KW - Schizophrenia

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