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Proteomic analysis of cardiac response to thermal acclimation in the eurythermal goby fish Gillichthys mirabilis.

Publication ,  Journal Article
Jayasundara, N; Tomanek, L; Dowd, WW; Somero, GN
Published in: The Journal of experimental biology
May 2015

Cardiac function is thought to play a central role in determining thermal optima and tolerance limits in teleost fishes. Investigating proteomic responses to temperature in cardiac tissues may provide insights into mechanisms supporting the thermal plasticity of cardiac function. Here, we utilized a global proteomic analysis to investigate changes in cardiac protein abundance in response to temperature acclimation (transfer from 13°C to 9, 19 and 26°C) in a eurythermal goby, Gillichthys mirabilis. Proteomic data revealed 122 differentially expressed proteins across acclimation groups, 37 of which were identified using tandem mass-spectrometry. These 37 proteins are involved in energy metabolism, mitochondrial regulation, iron homeostasis, cytoprotection against hypoxia, and cytoskeletal organization. Compared with the 9 and 26°C groups, proteins involved in energy metabolism increased in 19°C-acclimated fish, indicating an overall increase in the capacity for ATP production. Creatine kinase abundance increased in 9°C-acclimated fish, suggesting an important role for the phosphocreatine energy shuttle in cold-acclimated hearts. Both 9 and 26°C fish also increased abundance of hexosaminidase, a protein directly involved in post-hypoxia stress cytoprotection of cardiac tissues. Cytoskeletal restructuring appears to occur in all acclimation groups; however, the most prominent effect was detected in 26°C-acclimated fish, which exhibited significantly increased actin levels. Overall, proteomic analysis of cardiac tissue suggests that the capacity to adjust ATP-generating processes is crucial to the thermal plasticity of cardiac function. Furthermore, G. mirabilis may optimize cellular functions at temperatures near 19°C, which lies within the species' preferred temperature range.

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Published In

The Journal of experimental biology

DOI

EISSN

1477-9145

ISSN

0022-0949

Publication Date

May 2015

Volume

218

Issue

Pt 9

Start / End Page

1359 / 1372

Related Subject Headings

  • Temperature
  • Proteome
  • Physiology
  • Perciformes
  • Myocardium
  • Fish Proteins
  • California
  • Animals
  • Acclimatization
  • 31 Biological sciences
 

Citation

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Jayasundara, N., Tomanek, L., Dowd, W. W., & Somero, G. N. (2015). Proteomic analysis of cardiac response to thermal acclimation in the eurythermal goby fish Gillichthys mirabilis. The Journal of Experimental Biology, 218(Pt 9), 1359–1372. https://doi.org/10.1242/jeb.118760
Jayasundara, Nishad, Lars Tomanek, W Wesley Dowd, and George N. Somero. “Proteomic analysis of cardiac response to thermal acclimation in the eurythermal goby fish Gillichthys mirabilis.The Journal of Experimental Biology 218, no. Pt 9 (May 2015): 1359–72. https://doi.org/10.1242/jeb.118760.
Jayasundara N, Tomanek L, Dowd WW, Somero GN. Proteomic analysis of cardiac response to thermal acclimation in the eurythermal goby fish Gillichthys mirabilis. The Journal of experimental biology. 2015 May;218(Pt 9):1359–72.
Jayasundara, Nishad, et al. “Proteomic analysis of cardiac response to thermal acclimation in the eurythermal goby fish Gillichthys mirabilis.The Journal of Experimental Biology, vol. 218, no. Pt 9, May 2015, pp. 1359–72. Epmc, doi:10.1242/jeb.118760.
Jayasundara N, Tomanek L, Dowd WW, Somero GN. Proteomic analysis of cardiac response to thermal acclimation in the eurythermal goby fish Gillichthys mirabilis. The Journal of experimental biology. 2015 May;218(Pt 9):1359–1372.
Journal cover image

Published In

The Journal of experimental biology

DOI

EISSN

1477-9145

ISSN

0022-0949

Publication Date

May 2015

Volume

218

Issue

Pt 9

Start / End Page

1359 / 1372

Related Subject Headings

  • Temperature
  • Proteome
  • Physiology
  • Perciformes
  • Myocardium
  • Fish Proteins
  • California
  • Animals
  • Acclimatization
  • 31 Biological sciences