Heat stress delays detoxification of phenanthrene in the springtail Folsomia candida

Wencai Dai; Martin Holmstrup; Stine Slotsbo; Ruben Bakker; Christian Damgaard; Cornelis A.M. van Gestel

doi:10.1016/j.chemosphere.2022.137119

Heat stress delays detoxification of phenanthrene in the springtail Folsomia candida

Wencai Dai^*, Martin Holmstrup, Stine Slotsbo, Ruben Bakker, Christian Damgaard, Cornelis A.M. van Gestel

^*Corresponding author for this work

Ecology & Evolution

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Abstract

Climate change has intensified the occurrence of heat waves, resulting in organisms being exposed to thermal and chemical stress at the same time. The effects of mild heat shock combined with sublethal concentrations of phenanthrene (PHE) on defense mechanisms in springtails Folsomia candida were investigated. The transcription of Heat Shock Protein 70 (HSP70) was significantly upregulated by heat shock but tended to reach the control levels after 42 h of recovery. The transcription of cytochrome P450 3A13 (CYP3A13) was upregulated 3–13 fold by PHE but suppressed by heat shock. The suppression by heat shock might contribute to the reduced detoxification of PHE during high-temperature exposure. In line with this, we found that the internal PHE concentration was approximately 70% higher in heat-shocked springtails than in animals kept at control temperature. In general, the transcription of genes encoding enzymes of detoxification phase Ⅱ (glutathione S-transferase 3) and phase Ⅲ (ABC transporter 1) and the activity of antioxidant defense enzymes (superoxide dismutase and catalase) were less influenced than genes encoding phase I detoxification mechanisms (CYP3A13). These results indicate that heat shock delays the detoxification of PHE in springtails.

Original language	English
Article number	137119
Pages (from-to)	1-8
Number of pages	8
Journal	Chemosphere
Volume	311
Issue number	Part 2
Early online date	2 Nov 2022
DOIs	https://doi.org/10.1016/j.chemosphere.2022.137119
Publication status	Published - Jan 2023

Bibliographical note

Funding Information:
W.D. was supported by the China Scholarship Council grant (grant no. 201806990032 ). M.H. was supported by the Carlsberg Foundation ( CF20-0627 ) and Independent Research Fund Denmark ( 1026-00055B ). R.B. was supported by the Dutch Research Council ( NWO ) domain Applied and Engineering Sciences ( TTW ) (project no. 15494 ). The authors thank J. Mariën and R. Vooijs for their technical assistance.

Publisher Copyright:
© 2022 Elsevier Ltd

Funding

W.D. was supported by the China Scholarship Council grant (grant no. 201806990032 ). M.H. was supported by the Carlsberg Foundation ( CF20-0627 ) and Independent Research Fund Denmark ( 1026-00055B ). R.B. was supported by the Dutch Research Council ( NWO ) domain Applied and Engineering Sciences ( TTW ) (project no. 15494 ). The authors thank J. Mariën and R. Vooijs for their technical assistance.

Keywords

Gene expression
Lipophilic compound
Soil invertebrate
Stress defense
Temperature

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10.1016/j.chemosphere.2022.137119

Heat stress delays detoxification of phenanthrene in the springtail Folsomia candidaFinal published version, 2.28 MBLicence: Article 25fa Dutch Copyright Act

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title = "Heat stress delays detoxification of phenanthrene in the springtail Folsomia candida",

abstract = "Climate change has intensified the occurrence of heat waves, resulting in organisms being exposed to thermal and chemical stress at the same time. The effects of mild heat shock combined with sublethal concentrations of phenanthrene (PHE) on defense mechanisms in springtails Folsomia candida were investigated. The transcription of Heat Shock Protein 70 (HSP70) was significantly upregulated by heat shock but tended to reach the control levels after 42 h of recovery. The transcription of cytochrome P450 3A13 (CYP3A13) was upregulated 3–13 fold by PHE but suppressed by heat shock. The suppression by heat shock might contribute to the reduced detoxification of PHE during high-temperature exposure. In line with this, we found that the internal PHE concentration was approximately 70% higher in heat-shocked springtails than in animals kept at control temperature. In general, the transcription of genes encoding enzymes of detoxification phase Ⅱ (glutathione S-transferase 3) and phase Ⅲ (ABC transporter 1) and the activity of antioxidant defense enzymes (superoxide dismutase and catalase) were less influenced than genes encoding phase I detoxification mechanisms (CYP3A13). These results indicate that heat shock delays the detoxification of PHE in springtails.",

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author = "Wencai Dai and Martin Holmstrup and Stine Slotsbo and Ruben Bakker and Christian Damgaard and {van Gestel}, {Cornelis A.M.}",

note = "Funding Information: W.D. was supported by the China Scholarship Council grant (grant no. 201806990032 ). M.H. was supported by the Carlsberg Foundation ( CF20-0627 ) and Independent Research Fund Denmark ( 1026-00055B ). R.B. was supported by the Dutch Research Council ( NWO ) domain Applied and Engineering Sciences ( TTW ) (project no. 15494 ). The authors thank J. Mari{\"e}n and R. Vooijs for their technical assistance. Publisher Copyright: {\textcopyright} 2022 Elsevier Ltd",

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AU - Damgaard, Christian

AU - van Gestel, Cornelis A.M.

N1 - Funding Information: W.D. was supported by the China Scholarship Council grant (grant no. 201806990032 ). M.H. was supported by the Carlsberg Foundation ( CF20-0627 ) and Independent Research Fund Denmark ( 1026-00055B ). R.B. was supported by the Dutch Research Council ( NWO ) domain Applied and Engineering Sciences ( TTW ) (project no. 15494 ). The authors thank J. Mariën and R. Vooijs for their technical assistance. Publisher Copyright: © 2022 Elsevier Ltd

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N2 - Climate change has intensified the occurrence of heat waves, resulting in organisms being exposed to thermal and chemical stress at the same time. The effects of mild heat shock combined with sublethal concentrations of phenanthrene (PHE) on defense mechanisms in springtails Folsomia candida were investigated. The transcription of Heat Shock Protein 70 (HSP70) was significantly upregulated by heat shock but tended to reach the control levels after 42 h of recovery. The transcription of cytochrome P450 3A13 (CYP3A13) was upregulated 3–13 fold by PHE but suppressed by heat shock. The suppression by heat shock might contribute to the reduced detoxification of PHE during high-temperature exposure. In line with this, we found that the internal PHE concentration was approximately 70% higher in heat-shocked springtails than in animals kept at control temperature. In general, the transcription of genes encoding enzymes of detoxification phase Ⅱ (glutathione S-transferase 3) and phase Ⅲ (ABC transporter 1) and the activity of antioxidant defense enzymes (superoxide dismutase and catalase) were less influenced than genes encoding phase I detoxification mechanisms (CYP3A13). These results indicate that heat shock delays the detoxification of PHE in springtails.

AB - Climate change has intensified the occurrence of heat waves, resulting in organisms being exposed to thermal and chemical stress at the same time. The effects of mild heat shock combined with sublethal concentrations of phenanthrene (PHE) on defense mechanisms in springtails Folsomia candida were investigated. The transcription of Heat Shock Protein 70 (HSP70) was significantly upregulated by heat shock but tended to reach the control levels after 42 h of recovery. The transcription of cytochrome P450 3A13 (CYP3A13) was upregulated 3–13 fold by PHE but suppressed by heat shock. The suppression by heat shock might contribute to the reduced detoxification of PHE during high-temperature exposure. In line with this, we found that the internal PHE concentration was approximately 70% higher in heat-shocked springtails than in animals kept at control temperature. In general, the transcription of genes encoding enzymes of detoxification phase Ⅱ (glutathione S-transferase 3) and phase Ⅲ (ABC transporter 1) and the activity of antioxidant defense enzymes (superoxide dismutase and catalase) were less influenced than genes encoding phase I detoxification mechanisms (CYP3A13). These results indicate that heat shock delays the detoxification of PHE in springtails.

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Heat stress delays detoxification of phenanthrene in the springtail Folsomia candida

Abstract

Bibliographical note

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Keywords

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