Developmental effects of two different copper oxide nanomaterials in sea urchin ( Lytechinus pictus ) embryos

Copper oxide nanomaterials (nano-CuOs) are widely used and can be inadvertently introduced into estuarine and marine environments. We analyzed the effects of different nano-CuOs (a synthesized and a less-pure commercial form), as well as ionic copper (CuSO 4 ) on embryo development in the white sea...

Full description

Bibliographic Details
Main Authors: Torres-Duarte, Cristina, Adeyemi S. Adeleye, Pokhrel, Suman, Mädler, Lutz, Keller, Arturo A., Cherr, Gary N.
Format: Article in Journal/Newspaper
Language:unknown
Published: Figshare 2016
Subjects:
Space Science
59999 Environmental Sciences not elsewhere classified
FOS Earth and related environmental sciences
39999 Chemical Sciences not elsewhere classified
FOS Chemical sciences
Ecology
FOS Biological sciences
69999 Biological Sciences not elsewhere classified
Developmental Biology
Inorganic Chemistry
White Sea
Online Access:https://dx.doi.org/10.6084/m9.figshare.c.3248935.v1
https://figshare.com/collections/Developmental_effects_of_two_different_copper_oxide_nanomaterials_in_sea_urchin_i_Lytechinus_pictus_i_embryos/3248935/1
Description
Summary:Copper oxide nanomaterials (nano-CuOs) are widely used and can be inadvertently introduced into estuarine and marine environments. We analyzed the effects of different nano-CuOs (a synthesized and a less-pure commercial form), as well as ionic copper (CuSO 4 ) on embryo development in the white sea urchin, a well-known marine model. After 96 h of development with both nano-CuO exposures, we did not detect significant oxidative damage to proteins but did detect decreases in total antioxidant capacity. We show that the physicochemical characteristics of the two nano-CuOs play an essential role in their toxicities. Both nano-CuOs were internalized by embryos and their differential dissolution was the most important toxicological parameter. The synthesized nano-CuO showed greater toxicity (EC 50 = 450 ppb of copper) and had increased dissolution (2.5% by weight over 96 h) as compared with the less-pure commercial nano-CuO (EC 50 = 5395 ppb of copper, 0.73% dissolution by weight over 96 h). Copper caused specific developmental abnormalities in sea urchin embryos including disruption of the aboral-oral axis as a result in changes to the redox environment caused by dissolution of internalized nano-CuO. Abnormal skeleton formation also occurred.

Similar Items