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Fluid shear stress affects the metabolic and toxicological response of the rainbow trout gill cell line RTgill-W1

Fluid shear stress affects the metabolic and toxicological response of the rainbow trout gill cell line RTgill-W1
Fluid shear stress affects the metabolic and toxicological response of the rainbow trout gill cell line RTgill-W1
The Rainbow trout gill cell-line (RTgill-W1) has been accepted by the Organisation for Economic Co-operation and Development (OECD TG249) as a replacement for fish in acute toxicity tests. In these tests cells are exposed under static conditions. In contrast, in vivo, water moves over fish gills generating fluid shear stress (FSS) that alters cell physiology and response to toxicants. The current study uses a specialised 3D printed chamber designed to house inserts and allows for the flow (0.2 dynes cm2) of water over the cells. This system was used to assess RTgill-W1 cell responses to FSS in the absence and presence of copper (Cu) over 24 h. FSS caused increased gene expression of mechanosensitive channel peizo1 and the Cu-transporter atp7a, elevated reactive oxygen species generation and increased expression of superoxidase dismutase. Cell metabolism was unaffected by Cu (0.163 μM to 2.6 μM Cu) under static conditions but significantly reduced by FSS + Cu above 1.3 μM. Differential expression of metallothionein (mt) a and b was observed with increased expression of mta under static conditions and mtb under FSS on exposure to Cu. These findings highlight toxicologically relevant mechanosensory responses by RTgill-W1 to FSS that may influence toxicological responses.
Copper toxicity, Fluid shear stress, Gills, Mechanosensory, RTgill-W1
0887-2333
Fenton, Penelope Caroline
73b5445b-b5b4-4f7c-a946-a9b614ebb639
Turner, Christopher J.
7945b506-e28c-42dd-9b30-aabded5e1f12
Hogstrand, Christer
52d52bd4-3688-4151-aad3-64d0847c106a
Bury, Nicholas R.
696daba0-5cc9-444c-be9a-c678808712c6
Fenton, Penelope Caroline
73b5445b-b5b4-4f7c-a946-a9b614ebb639
Turner, Christopher J.
7945b506-e28c-42dd-9b30-aabded5e1f12
Hogstrand, Christer
52d52bd4-3688-4151-aad3-64d0847c106a
Bury, Nicholas R.
696daba0-5cc9-444c-be9a-c678808712c6

Fenton, Penelope Caroline, Turner, Christopher J., Hogstrand, Christer and Bury, Nicholas R. (2023) Fluid shear stress affects the metabolic and toxicological response of the rainbow trout gill cell line RTgill-W1. Toxicology in Vitro, 90, [105590]. (doi:10.1016/j.tiv.2023.105590).

Record type: Article

Abstract

The Rainbow trout gill cell-line (RTgill-W1) has been accepted by the Organisation for Economic Co-operation and Development (OECD TG249) as a replacement for fish in acute toxicity tests. In these tests cells are exposed under static conditions. In contrast, in vivo, water moves over fish gills generating fluid shear stress (FSS) that alters cell physiology and response to toxicants. The current study uses a specialised 3D printed chamber designed to house inserts and allows for the flow (0.2 dynes cm2) of water over the cells. This system was used to assess RTgill-W1 cell responses to FSS in the absence and presence of copper (Cu) over 24 h. FSS caused increased gene expression of mechanosensitive channel peizo1 and the Cu-transporter atp7a, elevated reactive oxygen species generation and increased expression of superoxidase dismutase. Cell metabolism was unaffected by Cu (0.163 μM to 2.6 μM Cu) under static conditions but significantly reduced by FSS + Cu above 1.3 μM. Differential expression of metallothionein (mt) a and b was observed with increased expression of mta under static conditions and mtb under FSS on exposure to Cu. These findings highlight toxicologically relevant mechanosensory responses by RTgill-W1 to FSS that may influence toxicological responses.

Text
Revised - Fenton 201223 CLEAN - Accepted Manuscript
Available under License Creative Commons Attribution Non-commercial No Derivatives.
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Accepted/In Press date: 23 March 2023
e-pub ahead of print date: 28 March 2023
Published date: August 2023
Additional Information: Publisher Copyright: © 2023 Elsevier Ltd
Keywords: Copper toxicity, Fluid shear stress, Gills, Mechanosensory, RTgill-W1
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Identifiers

Local EPrints ID: 477711
URI: http://eprints.soton.ac.uk/id/eprint/477711
DOI: doi:10.1016/j.tiv.2023.105590
ISSN: 0887-2333
PURE UUID: be1b45b1-e030-4da3-bb24-2db1d74e4a7a
ORCID for Nicholas R. Bury: ORCID iD orcid.org/0000-0001-6048-6338

Catalogue record

Date deposited: 13 Jun 2023 17:11
Last modified: 25 Oct 2024 04:01

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Contributors

Author: Penelope Caroline Fenton
Author: Christopher J. Turner
Author: Christer Hogstrand
Author: Nicholas R. Bury ORCID iD

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