PUBLICATION
Respirometry and cutaneous oxygen flux measurements reveal a negligible aerobic cost of ion regulation in larval zebrafish (Danio rerio)
- Authors
- Parker, J.J., Zimmer, A.M., Perry, S.F.
- ID
- ZDB-PUB-200728-17
- Date
- 2020
- Source
- The Journal of experimental biology 223(Pt 18): (Journal)
- Registered Authors
- Parker, Julian, Perry, Steve F.
- Keywords
- Foxi3a, H+-ATPase-rich (HR) cell, Ionocyte, Low pH, Morpholino knockdown, Na+ uptake, Scanning micro-optrode technique (SMOT)
- MeSH Terms
-
- Animals
- Ions
- Larva
- Oxygen
- Zebrafish*
- Zebrafish Proteins*
- PubMed
- 32709624 Full text @ J. Exp. Biol.
Citation
Parker, J.J., Zimmer, A.M., Perry, S.F. (2020) Respirometry and cutaneous oxygen flux measurements reveal a negligible aerobic cost of ion regulation in larval zebrafish (Danio rerio). The Journal of experimental biology. 223(Pt 18):.
Abstract
Fishes living in fresh water counter the passive loss of salts by actively absorbing ions through specialized cells termed ionocytes. Ionocytes contain ATP-dependent transporters, are enriched with mitochondria, and therefore ionic regulation is an energy-consuming process. The purpose of this study was to assess the aerobic costs of ion transport in larval zebrafish (Danio rerio). We hypothesized that changes in rates of Na+ uptake evoked by acidic or low Na+ rearing conditions would result in corresponding changes in whole-body oxygen consumption (ṀO2) and/or cutaneous oxygen flux (JO2), measured at the ionocyte-expressing yolk sac epithelium using the scanning micro-optrode technique (SMOT). Larvae at 4 days post-fertilisation (dpf) that were reared under low pH (pH 4) exhibited a higher rate of Na+ uptake compared to fish reared under control conditions (pH 7.6) yet displayed a lower ṀO2 and no difference in cutaneous JO2 Despite a higher Na+ uptake capacity in larvae reared under low Na+ conditions, there were no differences in ṀO2 -and JO2 at 4 dpf. Furthermore, although Na+ uptake was nearly abolished in 2 dpf larvae lacking ionocytes after morpholino knockdown of the ionocyte proliferation regulating transcription factor foxi3a, ṀO2 -and JO2 were unaffected. Finally, laser ablation of ionocytes did not affect cutaneous JO2 Thus, we conclude that the aerobic costs of ion uptake by ionocytes in larval zebrafish, at least in the case of Na+, are below detection using whole-body respirometry or cutaneous SMOT scans, providing evidence that ion regulation in zebrafish larvae incurs a low aerobic cost.
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