Interactions between CNS regulation and serotonergic modulation of crayfish hindgut motility
Spandan Pathak, Norma Peña-Flores, Phillip Alvarez, Jenna Feeley, Reza Ghodssi, Wolfgang Losert, Jens Herberholz

TL;DR
This study explores how the central nervous system and serotonin affect gut movement in crayfish, revealing how these factors influence motility patterns.
Contribution
The paper introduces a multiscale analysis framework to study CNS and neurochemical interactions in GI motility using crayfish as a model.
Findings
CNS denervation reduced contraction magnitude and synchrony but preserved wave frequency and direction.
Exogenous serotonin increased motility in denervated preparations but disrupted coordination.
TTX had minimal impact, suggesting myogenic mechanisms dominate in crayfish hindgut motility.
Abstract
Motility is a critical function of the gastrointestinal (GI) system governed by neurogenic and myogenic processes. Due to its major role in maintaining homeostasis, overlapping mechanisms have evolved for its adaptive operation including modulation by the central nervous system (CNS), enteric nervous system (ENS) and intrinsic pacemaker cells. Our understanding of the modulatory mechanisms that underlie intestinal motility remains incomplete. Crayfish provide a tractable ex vivo model to study the interplay between CNS and neurochemical regulation of GI motor patterns. Our study investigated the effects of CNS denervation and exogenously applied serotonin (5-HT) on crayfish hindgut motility. Multiscale spatial measurements showed stable motility parameters throughout 90 min of control conditions. Denervation, i.e. separating the gut from the CNS, resulted in a significant decrease in…
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Taxonomy
TopicsInfant Health and Development · Cephalopods and Marine Biology · Neuroendocrine regulation and behavior
