Screening of endocrine activity of compounds migrating from plastic baby bottles using a multi-receptor panel of in vitro bioassays

Coraline Simon; Matthias Onghena; Adrian Covaci; Els Van Hoeck; Joris Van Loco; Tara Vandermarken; Kersten Van Langenhove; Heidi Demaegdt; Birgit Mertens; Karine Vandermeiren; Mi Scippo; Marc Elskens

doi:10.1016/j.tiv.2016.09.008

Screening of endocrine activity of compounds migrating from plastic baby bottles using a multi-receptor panel of in vitro bioassays

Coraline Simon, Matthias Onghena, Adrian Covaci, Els Van Hoeck, Joris Van Loco, Tara Vandermarken, Kersten Van Langenhove, Heidi Demaegdt, Birgit Mertens, Karine Vandermeiren, Mi Scippo, Marc Elskens

Onderzoeksoutput: Article › peer review

24 Citaten (Scopus)

Samenvatting

Endocrine activity of 65compounds migrating from polycarbonate replacement plasticbabybottles was assessed using in vitro cell based assays (reporter gene assays) involving 7 nuclear receptors, i.e. human steroid hormones receptors (oestrogen, androgen, progesterone and glucocorticoid receptors), human thyroid beta and peroxi-some proliferator-activated gamma receptors, and the mouse aryl hydrocarbon receptor. The chemicals were tested at 4 concentrations ranging from 0.001 mM to 1 mM. Only twelve chemicals did not show any activity towards any of the nuclear receptors, while fifty three compounds showed a possible endocrine activity. Most of the agonistic activities were observed towards the oestrogen receptor while the PPARγ
was the target for most of the recorded antagonistic activities. Agonistic activities were recorded for several phthalates, benzophenones, aromatic hydrocarbons and phenols, while compounds such as benzaldehydes, ketones and esters of fatty acid showed antagonistic activities. Thirty five chemicals were able of agonistic activities on 1 to 4 receptors and antagonistic activities were recorded for 35 compounds as well, towards 1 to 7 receptors. Sixteen compounds were able of both agonistic and antagonistic activities, but not on the same receptors, except in 2 cases for the oestrogen receptor and 4 cases for the PPARγ.

Originele taal-2	English
Pagina's (van-tot)	121-133
Aantal pagina's	13
Tijdschrift	Toxicology in Vitro
Volume	37
Vroegere onlinedatum	12 sep. 2016
DOI's	https://doi.org/10.1016/j.tiv.2016.09.008
Status	Published - 17 okt. 2016

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10.1016/j.tiv.2016.09.008

Document onder embargo

Simon et al. 2016 - Acc. - Screening of endocrine activity of compounds migrating from plastic baby bottles using a multi-receptor panel of in-vitro bioassays
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FVO46: Studie van de eventuele migratierisico's van materialen die in contact komen met levensmiddelen voor kinderen jonger dan 3 jaar (ALTPOLYCARB)
Elskens, M., Van Langenhove, K. & Vandermarken, T.
1/11/12 → 31/10/15
Project: Fundamenteel
SRP2: Tracers van verleden en heden global changes
Claeys, P., Elskens, M., Huybrechts, P., Gao, Y., Kervyn De Meerendre, M., Claeys, P., Baeyens, W. & Dehairs, F.
1/11/12 → 31/10/24
Project: Fundamenteel

24 Citaties
2 Unpublished abstract
2 Poster
2 Article
1 Conference paper

Evaluation of the potential health risks of substances migrating from polycarbonate replacement baby bottles
Mertens, B., Van Hoeck, E., Blaude, M-N., Simon, C., Onghena, M., Vandermarken, T., Van Langenhove, K., Demaegdt, H., Vandermeiren, K., Covaci, A., Scippo, M-L., Elskens, M. & Van Loco, J., 9 sep. 2016, In: Food and Chemical Toxicology. 97, blz. 108-119 12 blz.
Onderzoeksoutput: Article › peer review
20 Citaten (Scopus)
Evaluation of the potential migration risks of baby bottles used as substitutes for polycarbonate
Van Hoeck, E., Mertens, B., Bolle, F., Verschaeve, L., Onghena, M., Covaci, A., Simon, C., Scippo, M., Demaegdt, H., Vandermeiren, K., Vandermarken, T., Van Langenhove, K., Elskens, M. & Van Loco, J., 18 nov. 2016.
Onderzoeksoutput: Unpublished abstract
Evaluation of the potential migration risks of baby bottles used as substitutes for polycarbonate - Poster @ ILSI Europe 2016: Poster S1-63-B
Van Hoeck, E., Mertens, B., Bolle, F., Verschaeve, L., Onghena, M., Covaci, A., Simon, C., Scippo, M., Demaegdt, H., Vandermeiren, K., Vandermarken, T., Van Langenhove, K., Elskens, M. & Van Loco, J., 18 nov. 2016.
Onderzoeksoutput: Poster

Chemometec NucleoCounter
Marc Elskens (Manager)
Archeologie, Milieuveranderingen, en Geo-Chemie
Uitrusting/faciliteit: no e-resource/single sited
Leybold Lyovac GT2 Lyophilizer & freeze dryer
Marc Elskens (Manager)
Archeologie, Milieuveranderingen, en Geo-Chemie
Uitrusting/faciliteit: no e-resource/single sited
Promega 96 microplate reader
Marc Elskens (Manager)
Archeologie, Milieuveranderingen, en Geo-Chemie
Uitrusting/faciliteit: no e-resource/single sited

Citeer dit

Simon, C., Onghena, M., Covaci, A., Van Hoeck, E., Van Loco, J., Vandermarken, T., Van Langenhove, K., Demaegdt, H., Mertens, B., Vandermeiren, K., Scippo, M., & Elskens, M. (2016). Screening of endocrine activity of compounds migrating from plastic baby bottles using a multi-receptor panel of in vitro bioassays. Toxicology in Vitro, 37, 121-133. https://doi.org/10.1016/j.tiv.2016.09.008

@article{8fbed0ceea6e4a5ebae8adac178200a9,

title = "Screening of endocrine activity of compounds migrating from plastic baby bottles using a multi-receptor panel of in vitro bioassays",

abstract = "Endocrine activity of 65compounds migrating from polycarbonate replacement plasticbabybottles was assessed using in vitro cell based assays (reporter gene assays) involving 7 nuclear receptors, i.e. human steroid hormones receptors (oestrogen, androgen, progesterone and glucocorticoid receptors), human thyroid beta and peroxi-some proliferator-activated gamma receptors, and the mouse aryl hydrocarbon receptor. The chemicals were tested at 4 concentrations ranging from 0.001 mM to 1 mM. Only twelve chemicals did not show any activity towards any of the nuclear receptors, while fifty three compounds showed a possible endocrine activity. Most of the agonistic activities were observed towards the oestrogen receptor while the PPARγwas the target for most of the recorded antagonistic activities. Agonistic activities were recorded for several phthalates, benzophenones, aromatic hydrocarbons and phenols, while compounds such as benzaldehydes, ketones and esters of fatty acid showed antagonistic activities. Thirty five chemicals were able of agonistic activities on 1 to 4 receptors and antagonistic activities were recorded for 35 compounds as well, towards 1 to 7 receptors. Sixteen compounds were able of both agonistic and antagonistic activities, but not on the same receptors, except in 2 cases for the oestrogen receptor and 4 cases for the PPARγ.",

keywords = "Food contact material, Endocrine disruptor, Endocrine active substances, Reporter gene assay, Nuclear receptors",

author = "Coraline Simon and Matthias Onghena and Adrian Covaci and {Van Hoeck}, Els and {Van Loco}, Joris and Tara Vandermarken and {Van Langenhove}, Kersten and Heidi Demaegdt and Birgit Mertens and Karine Vandermeiren and Mi Scippo and Marc Elskens",

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Simon, C, Onghena, M, Covaci, A, Van Hoeck, E, Van Loco, J, Vandermarken, T, Van Langenhove, K, Demaegdt, H, Mertens, B, Vandermeiren, K, Scippo, M & Elskens, M 2016, 'Screening of endocrine activity of compounds migrating from plastic baby bottles using a multi-receptor panel of in vitro bioassays', Toxicology in Vitro, vol. 37, blz. 121-133. https://doi.org/10.1016/j.tiv.2016.09.008

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T1 - Screening of endocrine activity of compounds migrating from plastic baby bottles using a multi-receptor panel of in vitro bioassays

AU - Simon, Coraline

AU - Onghena, Matthias

AU - Covaci, Adrian

AU - Van Hoeck, Els

AU - Van Loco, Joris

AU - Vandermarken, Tara

AU - Van Langenhove, Kersten

AU - Demaegdt, Heidi

AU - Mertens, Birgit

AU - Vandermeiren, Karine

AU - Scippo, Mi

AU - Elskens, Marc

PY - 2016/10/17

Y1 - 2016/10/17

N2 - Endocrine activity of 65compounds migrating from polycarbonate replacement plasticbabybottles was assessed using in vitro cell based assays (reporter gene assays) involving 7 nuclear receptors, i.e. human steroid hormones receptors (oestrogen, androgen, progesterone and glucocorticoid receptors), human thyroid beta and peroxi-some proliferator-activated gamma receptors, and the mouse aryl hydrocarbon receptor. The chemicals were tested at 4 concentrations ranging from 0.001 mM to 1 mM. Only twelve chemicals did not show any activity towards any of the nuclear receptors, while fifty three compounds showed a possible endocrine activity. Most of the agonistic activities were observed towards the oestrogen receptor while the PPARγwas the target for most of the recorded antagonistic activities. Agonistic activities were recorded for several phthalates, benzophenones, aromatic hydrocarbons and phenols, while compounds such as benzaldehydes, ketones and esters of fatty acid showed antagonistic activities. Thirty five chemicals were able of agonistic activities on 1 to 4 receptors and antagonistic activities were recorded for 35 compounds as well, towards 1 to 7 receptors. Sixteen compounds were able of both agonistic and antagonistic activities, but not on the same receptors, except in 2 cases for the oestrogen receptor and 4 cases for the PPARγ.

AB - Endocrine activity of 65compounds migrating from polycarbonate replacement plasticbabybottles was assessed using in vitro cell based assays (reporter gene assays) involving 7 nuclear receptors, i.e. human steroid hormones receptors (oestrogen, androgen, progesterone and glucocorticoid receptors), human thyroid beta and peroxi-some proliferator-activated gamma receptors, and the mouse aryl hydrocarbon receptor. The chemicals were tested at 4 concentrations ranging from 0.001 mM to 1 mM. Only twelve chemicals did not show any activity towards any of the nuclear receptors, while fifty three compounds showed a possible endocrine activity. Most of the agonistic activities were observed towards the oestrogen receptor while the PPARγwas the target for most of the recorded antagonistic activities. Agonistic activities were recorded for several phthalates, benzophenones, aromatic hydrocarbons and phenols, while compounds such as benzaldehydes, ketones and esters of fatty acid showed antagonistic activities. Thirty five chemicals were able of agonistic activities on 1 to 4 receptors and antagonistic activities were recorded for 35 compounds as well, towards 1 to 7 receptors. Sixteen compounds were able of both agonistic and antagonistic activities, but not on the same receptors, except in 2 cases for the oestrogen receptor and 4 cases for the PPARγ.

KW - Food contact material

KW - Endocrine disruptor

KW - Endocrine active substances

KW - Reporter gene assay

KW - Nuclear receptors

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DO - 10.1016/j.tiv.2016.09.008

M3 - Article

SN - 0887-2333

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EP - 133

JO - Toxicology in Vitro

JF - Toxicology in Vitro

ER -

Screening of endocrine activity of compounds migrating from plastic baby bottles using a multi-receptor panel of in vitro bioassays

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