Making in vitro conditions more realistic of in vivo conditions for research on the teleost fish gastrointestinal tract
Making in vitro conditions more realistic of in vivo conditions for research on the teleost fish gastrointestinal tract
To date, the majority of in vitro or ex vivo fish gastrointestinal research has been conducted under unrealistic conditions. In a living fish, ionic conditions, as well as levels of ammonia, pH, HCO3− and PCO2 differ considerably between the different regions of the gastrointestinal tract. These factors also differ from those of the saline often used in gut research. Furthermore, the oxygen gradient from the serosa to the gut lumen is rarely considered: in contrast to the serosa, the lumen is a hypoxic/anoxic environment. In addition, the gut microbiome plays a significant role in gut physiology, increasing the complexity of the in vivo gut, but replicating the microbial community for in vitro studies is exceptionally difficult. However, there are ways in which we can begin to overcome these challenges. Firstly, the luminal chemistry and PO2 in each gut compartment must be carefully considered. Secondly, although microbiological culture techniques are improving, we must learn how to maintain the microbiome diversity seen in vivo. Finally, for ex vivo studies, developing mucosal (luminal) solutions that more closely mimic the in vivo conditions will better replicate physiological processes. Within the field of mammalian gut physiology, great advances in ‘gut-on-chip’ devices are providing the tools to better replicate in vivo conditions; adopting and adapting this technology may assist in fish gut research initiatives. This Commentary aims to make fish gut physiologists aware of the various issues in replicating the in vivo conditions and identifies solutions as well as those areas that require further improvement.
Chyme, Stomach, Intestine, Gut microbiome, Mucosal chemistry
Bucking, Carol
f89ae221-e303-4ce5-a49a-69cce11fe0d1
Bury, Nic R.
696daba0-5cc9-444c-be9a-c678808712c6
Sundh, Henrik
1bee043a-632b-4118-8710-97f79369c011
Wood, Chris M.
b132fa73-6d90-4d49-88f7-74a67ee937f9
11 October 2024
Bucking, Carol
f89ae221-e303-4ce5-a49a-69cce11fe0d1
Bury, Nic R.
696daba0-5cc9-444c-be9a-c678808712c6
Sundh, Henrik
1bee043a-632b-4118-8710-97f79369c011
Wood, Chris M.
b132fa73-6d90-4d49-88f7-74a67ee937f9
Bucking, Carol, Bury, Nic R., Sundh, Henrik and Wood, Chris M.
(2024)
Making in vitro conditions more realistic of in vivo conditions for research on the teleost fish gastrointestinal tract.
Journal of Experimental Biology, 227 (19), [jeb246440].
(doi:10.1242/jeb.246440).
Abstract
To date, the majority of in vitro or ex vivo fish gastrointestinal research has been conducted under unrealistic conditions. In a living fish, ionic conditions, as well as levels of ammonia, pH, HCO3− and PCO2 differ considerably between the different regions of the gastrointestinal tract. These factors also differ from those of the saline often used in gut research. Furthermore, the oxygen gradient from the serosa to the gut lumen is rarely considered: in contrast to the serosa, the lumen is a hypoxic/anoxic environment. In addition, the gut microbiome plays a significant role in gut physiology, increasing the complexity of the in vivo gut, but replicating the microbial community for in vitro studies is exceptionally difficult. However, there are ways in which we can begin to overcome these challenges. Firstly, the luminal chemistry and PO2 in each gut compartment must be carefully considered. Secondly, although microbiological culture techniques are improving, we must learn how to maintain the microbiome diversity seen in vivo. Finally, for ex vivo studies, developing mucosal (luminal) solutions that more closely mimic the in vivo conditions will better replicate physiological processes. Within the field of mammalian gut physiology, great advances in ‘gut-on-chip’ devices are providing the tools to better replicate in vivo conditions; adopting and adapting this technology may assist in fish gut research initiatives. This Commentary aims to make fish gut physiologists aware of the various issues in replicating the in vivo conditions and identifies solutions as well as those areas that require further improvement.
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JEXBIO246440v2_tracked (NB)
- Accepted Manuscript
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jeb246440
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Accepted/In Press date: 2 September 2024
Published date: 11 October 2024
Keywords:
Chyme, Stomach, Intestine, Gut microbiome, Mucosal chemistry
Identifiers
Local EPrints ID: 495766
URI: http://eprints.soton.ac.uk/id/eprint/495766
ISSN: 0022-0949
PURE UUID: 9df0b3a1-9ea7-4dc7-8df9-f5503eb835a2
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Date deposited: 21 Nov 2024 17:54
Last modified: 22 Nov 2024 03:05
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Contributors
Author:
Carol Bucking
Author:
Nic R. Bury
Author:
Henrik Sundh
Author:
Chris M. Wood
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