Embryonic vascular disruption adverse outcomes: Linking high throughput signaling signatures with functional consequences

Embryonic vascular disruption is an important adverse outcome pathway (AOP) as chemical disruption of cardiovascular development induces broad prenatal defects. High-throughput screening (HTS) assays aid AOP development although linking in vitro data to in vivo apical endpoints remains challenging....

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Veröffentlicht in:	Reproductive toxicology (Elmsford, N.Y.) N.Y.), 2017-08, Vol.71, p.16-31
Hauptverfasser:	Ellis-Hutchings, Robert G, Settivari, Raja S, McCoy, Alene T, Kleinstreuer, Nicole, Franzosa, Jill, Knudsen, Thomas B, Carney, Edward W
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container_title	Reproductive toxicology (Elmsford, N.Y.)
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creator	Ellis-Hutchings, Robert G Settivari, Raja S McCoy, Alene T Kleinstreuer, Nicole Franzosa, Jill Knudsen, Thomas B Carney, Edward W
description	Embryonic vascular disruption is an important adverse outcome pathway (AOP) as chemical disruption of cardiovascular development induces broad prenatal defects. High-throughput screening (HTS) assays aid AOP development although linking in vitro data to in vivo apical endpoints remains challenging. This study evaluated two anti-angiogenic agents, 5HPP-33 and TNP-470, across the ToxCastDB HTS assay platform and anchored the results to complex in vitro functional assays: the rat aortic explant assay (AEA), rat whole embryo culture (WEC), and the zebrafish embryotoxicity (ZET) assay. Both were identified as putative vascular disruptive compounds (pVDCs) in ToxCastDB and disrupted angiogenesis and embryogenesis in the functional assays. Differences were observed in potency and adverse effects: 5HPP-33 was embryolethal (WEC and ZET); TNP-470 produced caudal defects at lower concentrations. This study demonstrates how a tiered approach using HTS signatures and complex functional in vitro assays might be used to prioritize further in vivo developmental toxicity testing.
doi_str_mv	10.1016/j.reprotox.2017.04.003
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title	Embryonic vascular disruption adverse outcomes: Linking high throughput signaling signatures with functional consequences
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