We absolutely agree that 5-HT has multiple roles and that gut-derived 5-HT is an important hormone. However, this CrossTalk is about whether 5-HT is necessary for the colonic motor patterns usually called ‘peristalsis’.
Drs Smith and Gershon’s rebuttal states that we ‘highlight common misunderstandings about peristaltic reflexes’. CMMCs are commonly studied in mice, where they occur spontaneously. Peristalsis is often studied using propulsion of pellets in guinea pig colon. Both CMMCs and peristalsis persist after the removal of the mucosa. Thus, it is hard to argue that anything produced or released from mucosal cells, including serotonin from enterochromaffin cells, is necessary for CMMCs or peristalsis.
Drs Smith and Gershon state that ‘mucosal pressure/distortion or chemical stimuli release 5-HT from EC cells and evoke peristaltic reflexes’ citing Bülbring & Lin (1958) and Bertrand et al. (2008). In fact, Bülbring & Lin only suggested that mucosal pressure was the stimulus for peristalsis. They could not distinguish effects on mucosal cells from distension of the entire wall. The latter would, of course, activate mechanosensitive enteric neurons, thereby triggering peristalsis. Bertrand et al. (2008) only measured the ability of mucosal distortion to release serotonin from the mucosa, not its role in peristalsis.
Probably the best way to test if enterochromaffin cell 5-HT is essential for CMMCs would be to genetically ablate enterochromaffin cell 5-HT and test if CMMCs are abolished. The Smith lab did exactly this and showed that CMMCs remain in the absence of enterochromaffin cell 5-HT (Heredia et al. 2013). Furthermore, the Gershon lab demonstrated no decrease in transit time in conscious TPH1–/– mice (Li et al. 2011). That these authors still support their original hypothesis, in the face of their own contradictory data, is surprising.
The second issue is whether serotonin in enteric neurons is necessary for peristalsis. Drs Smith and Gershon raise the thorny issue of terminology, i.e. the difference between ‘peristalsis’ and the ‘peristaltic reflex’. Whether peristalsis is a reflex or a more complex behaviour, it still involves enteric neuronal circuits. The subject of this CrossTalk is whether enteric neural pathways that generate neural peristalsis require 5HT as a neurotransmitter. There is simply no direct evidence to support a role of colonic neuronal 5-HT acting as a neurotransmitter that regulates motility. TPH2–/– mice, lacking neuronal 5-HT, have major gut development problems. Therefore, changes in transit in TPH2–/– mice provide no evidence that endogenous neuronal 5-HT modulates motility.
Call for comments
Readers are invited to give their views on this and the accompanying CrossTalk articles in this issue by submitting a brief (250 word) comment. Comments may be submitted up to 6 weeks after publication of the article, at which point the discussion will close and the CrossTalk authors will be invited to submit a ‘Last Word’. Please email your comment, including a title and a declaration of interest to jphysiol@physoc.org. Comments will be moderated and accepted comments will be published online only as ‘supporting information’ to the original debate articles once discussion has closed.
Additional information
Competing interests
None declared.
References
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