Mechanistic insights into the effect of nanoparticles on zebrafish hatch

Kimberly Jessica Ong; Xinxin Zhao; Maria E. Thistle; Tyson J. Maccormack; Rhett J. Clark; Guibin Ma; Yadienka Martinez-Rubi; Benoit Simard; Joachim Say Chye Loo; Jonathan G.C. Veinot; Greg G. Goss

doi:10.3109/17435390.2013.778345

Mechanistic insights into the effect of nanoparticles on zebrafish hatch

Kimberly Jessica Ong^*, Xinxin Zhao, Maria E. Thistle, Tyson J. Maccormack, Rhett J. Clark, Guibin Ma, Yadienka Martinez-Rubi, Benoit Simard, Joachim Say Chye Loo, Jonathan G.C. Veinot, Greg G. Goss

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

93 Citations (Scopus)

Abstract

Aquatic organisms are susceptible to waterborne nanoparticles (NP) and there is only limited understanding of the mechanisms by which these emerging contaminants may affect biological processes. This study used silicon (nSi), cadmium selenide (nCdSe), silver (nAg) and zinc NPs (nZnO) as well as single-walled carbon nanotubes (SWCNT) to assess NP effects on zebrafish (Danio rerio) hatch. Exposure of 10 mg/L nAg and nCdSe delayed zebrafish hatch and 100 mg/L of nCdSe as well as 10 and 100 mg/L of uncoated nZnO completely inhibited hatch and the embryos died within the chorion. Both the morphology and the movement of the embryos were not affected, and it was determined that the main mechanism of hatch inhibition by NPs is likely through the interaction of NPs with the zebrafish hatching enzyme. Furthermore, it was concluded that the observed effects arose from the NPs themselves and not their dissolved metal components.

Original language	English
Pages (from-to)	295-304
Number of pages	10
Journal	Nanotoxicology
Volume	8
Issue number	3
DOIs	https://doi.org/10.3109/17435390.2013.778345
Publication status	Published - May 2014
Externally published	Yes

ASJC Scopus Subject Areas

Biomedical Engineering
Toxicology

Keywords

Hatch
Hatching enzyme
Nanoparticle
Protein interaction
ZHE1

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abstract = "Aquatic organisms are susceptible to waterborne nanoparticles (NP) and there is only limited understanding of the mechanisms by which these emerging contaminants may affect biological processes. This study used silicon (nSi), cadmium selenide (nCdSe), silver (nAg) and zinc NPs (nZnO) as well as single-walled carbon nanotubes (SWCNT) to assess NP effects on zebrafish (Danio rerio) hatch. Exposure of 10 mg/L nAg and nCdSe delayed zebrafish hatch and 100 mg/L of nCdSe as well as 10 and 100 mg/L of uncoated nZnO completely inhibited hatch and the embryos died within the chorion. Both the morphology and the movement of the embryos were not affected, and it was determined that the main mechanism of hatch inhibition by NPs is likely through the interaction of NPs with the zebrafish hatching enzyme. Furthermore, it was concluded that the observed effects arose from the NPs themselves and not their dissolved metal components.",

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AU - Clark, Rhett J.

AU - Ma, Guibin

AU - Martinez-Rubi, Yadienka

AU - Simard, Benoit

AU - Loo, Joachim Say Chye

AU - Veinot, Jonathan G.C.

AU - Goss, Greg G.

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N2 - Aquatic organisms are susceptible to waterborne nanoparticles (NP) and there is only limited understanding of the mechanisms by which these emerging contaminants may affect biological processes. This study used silicon (nSi), cadmium selenide (nCdSe), silver (nAg) and zinc NPs (nZnO) as well as single-walled carbon nanotubes (SWCNT) to assess NP effects on zebrafish (Danio rerio) hatch. Exposure of 10 mg/L nAg and nCdSe delayed zebrafish hatch and 100 mg/L of nCdSe as well as 10 and 100 mg/L of uncoated nZnO completely inhibited hatch and the embryos died within the chorion. Both the morphology and the movement of the embryos were not affected, and it was determined that the main mechanism of hatch inhibition by NPs is likely through the interaction of NPs with the zebrafish hatching enzyme. Furthermore, it was concluded that the observed effects arose from the NPs themselves and not their dissolved metal components.

AB - Aquatic organisms are susceptible to waterborne nanoparticles (NP) and there is only limited understanding of the mechanisms by which these emerging contaminants may affect biological processes. This study used silicon (nSi), cadmium selenide (nCdSe), silver (nAg) and zinc NPs (nZnO) as well as single-walled carbon nanotubes (SWCNT) to assess NP effects on zebrafish (Danio rerio) hatch. Exposure of 10 mg/L nAg and nCdSe delayed zebrafish hatch and 100 mg/L of nCdSe as well as 10 and 100 mg/L of uncoated nZnO completely inhibited hatch and the embryos died within the chorion. Both the morphology and the movement of the embryos were not affected, and it was determined that the main mechanism of hatch inhibition by NPs is likely through the interaction of NPs with the zebrafish hatching enzyme. Furthermore, it was concluded that the observed effects arose from the NPs themselves and not their dissolved metal components.

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Mechanistic insights into the effect of nanoparticles on zebrafish hatch

Abstract

ASJC Scopus Subject Areas

Keywords

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