Assessing cell line models for species differences in 6PPD-quinone sensitivity
May 1, 2023
Coho salmon have been shown to be highly sensitive to the tire transformation chemical 6PPD-quinone, with concentrations contained in stormwater sufficient to induce mortality in up to 90% of the entire fall coho run. Other salmonid species (chinook, sockeye, chum) are much less sensitive to 6PPD-quinone induced mortality. This data examines the varying species sensitivities across salmoids using in vivo exposures in juvenile fish. We then used established cell lines forom these species to assess their suitability for in vitro studies concerning species differences in toxicokinetics using fluorescence and absorbance-based plate assays.
Citation Information
| Publication Year | 2023 |
|---|---|
| Title | Assessing cell line models for species differences in 6PPD-quinone sensitivity |
| DOI | 10.5066/P98HOI3I |
| Authors | Justin B Greer, Ellie M. Dalsky, Rachael F Lane, John D Hansen |
| Product Type | Data Release |
| Record Source | USGS Asset Identifier Service (AIS) |
| USGS Organization | Western Fisheries Research Center (WFRC) |
| Rights | This work is marked with CC0 1.0 Universal |
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Establishing an in vitro model to assess the toxicity of 6PPD-quinone and other tire wear transformation products
The tire wear transformation product 6PPD-quinone (6PPDQ) has been implicated as the causative factor for broad scale mortality events for coho salmon in the Pacific Northwest. Highly variable sensitivity to 6PPDQ in closely related salmonids complicates efforts to evaluate the broader toxicological impacts to aquatic ecosystems. Our goals were to (1) validate the large range of in vivo species se
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Establishing an in vitro model to assess the toxicity of 6PPD-quinone and other tire wear transformation products
The tire wear transformation product 6PPD-quinone (6PPDQ) has been implicated as the causative factor for broad scale mortality events for coho salmon in the Pacific Northwest. Highly variable sensitivity to 6PPDQ in closely related salmonids complicates efforts to evaluate the broader toxicological impacts to aquatic ecosystems. Our goals were to (1) validate the large range of in vivo species se
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Justin Blaine Greer, Ellie Maureen Dalsky, Rachael F. Lane, John Hansen