Identification of neurons that express 5-hydroxytryptamine4 receptors in intestine

Poole, Daniel P.; Xu, Bo; Koh, Shir Lin; Hunne, Billie; Coupar, Ian M.; Irving, Helen Ruth; Shinjo, Keiko; Furness, John B.

doi:10.1007/s00441-006-0181-9

Cited by 59 publications

(61 citation statements)

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“…While 5-HT 3 receptors have been confirmed in the myenteric plexus, the role and location of 5-HT 4 receptors are subjects of debate in the literature (21,22,27,31,38). The presence of 5-HT 4 receptors has been confirmed on submucosal and myenteric ISNs projecting to the mucosa in guinea pig small intestine (33) and may be involved in the regulation of motility (32). Li et al (25) observed decreased motility in tryptophan hydroxylase (TPH) type 2 (TPH2) knockout mice, which lack the neuronal isoform of TPH2, the rate-limiting enzyme in 5-HT biosynthesis; however, TPH1 knockout mice lacking the nonneuronal isoform expressed in EC cells did not show altered motility.…”

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confidence: 95%

Serotonin and cholecystokinin mediate nutrient-induced segmentation in guinea pig small intestine

Ellis

Chambers

Gwynne

et al. 2013

American Journal of Physiology-Gastrointestinal and Liver Physi

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Ellis M, Chambers JD, Gwynne RM, Bornstein JC. Serotonin and cholecystokinin mediate nutrient-induced segmentation in guinea pig small intestine. Am J Physiol Gastrointest Liver Physiol 304: G749 -G761, 2013. First published February 7, 2013 doi:10.1152/ajpgi.00358.2012.-Segmentation is an important process in nutrient mixing and absorption; however, the mechanisms underlying this motility pattern are poorly understood. Segmentation can be induced by luminal perfusion of fatty acid in guinea pig small intestine in vitro and mimicked by the serotonin (5-HT) reuptake inhibitor fluoxetine (300 nM) and by cholecystokinin (CCK). Serotonergic and CCK-related mechanisms underlying nutrient-induced segmentation were investigated using selective 5-HT and CCK receptor antagonists on isolated segments of small intestine luminally perfused with 1 mM decanoic acid. Motility patterns were analyzed using video imaging and spatiotemporal maps. Segmenting activity mediated by decanoic acid was depressed following luminal application of the 5-HT receptor antagonists granisetron (5-HT3, 1 M) and SB-207266 (5-HT 4, 10 nM) and the CCK receptor antagonists devazepide (CCK-1, 300 nM) and L-365260 (CCK-2, 300 nM), but these antagonists did not further depress segmentation when combined. The P2 receptor antagonist pyridoxal phosphate-6-azophenyl-2=,4=-disulfonate (10 M) had no effect on activity. Serosal application of 5-HT antagonists had little effect on segmentation in the duodenum but reduced activity in the jejunum when granisetron and SB-207266 were applied together. These results reveal that 5-HT3 and 5-HT4 receptors, as well as CCK-1 and CCK-2 receptors, are critical in regulating decanoic acid-induced segmentation. Computational simulation indicated that these data are consistent with decanoic acid activating two pathways in the mucosa that converge within the enteric neural circuitry, while contraction-induced release of 5-HT from the mucosa provides feedback into the neural circuit to set the time course of the overall contractile activity. intestinal motility; decanoic acid; segmentation; serotonin; 5-HT3 receptors; 5-HT4 receptors; CCK-1 receptors; CCK-2 receptors DIGESTION AND MIXING of intestinal contents are accomplished through a complex, yet poorly understood, pattern of motility, called segmentation (11). Segmentation is a major feature of the small intestine in the "fed state" after a meal and comprises rhythmic local constrictions in the intestinal smooth muscle that are stationary or propagate only a short distance and occur as isolated bursts of motor activity. Despite its importance, the mechanisms controlling segmentation are yet to be determined.Fed-state motor activity consists of a mixture of propulsive and segmenting contractions, with the predominant type of contraction being determined, in part, by the nutrient composition of the meal. For example, nonnutritive meals produce predominantly propulsive contractile activity (propagating contractions, which propel content along the intestine) in the duodenum a...

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confidence: 95%

Serotonin and cholecystokinin mediate nutrient-induced segmentation in guinea pig small intestine

Ellis

Chambers

Gwynne

et al. 2013

American Journal of Physiology-Gastrointestinal and Liver Physi

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“…They exhibit slow EPSPs in response to trains of stimuli [10] and express immunoreactivity for NK 1 [73], 5-HT 4 [100], GluR1 [69] and CRF1 receptors [71] (Table 1). Some excitatory input comes from myenteric AH/Dogiel type II neurons [42], which express tachykinins [16], suggesting that the slow EPSPs are mediated via NK 1 receptors.…”

Section: Secretomotor Pathwaysmentioning

confidence: 99%

Synaptic Transmission at Functionally Identified Synapses in the Enteric Nervous System: Roles for Both Ionotropic and Metabotropic Receptors

Gwynne

Bornstein²

2007

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Digestion and absorption of nutrients and the secretion and reabsorption of fluid in the gastrointestinal tract are regulated by neurons of the enteric nervous system (ENS), the extensive peripheral nerve network contained within the intestinal wall. The ENS is an important physiological model for the study of neural networks since it is both complex and accessible. At least 20 different neurochemically and functionally distinct classes of enteric neurons have been identified in the guinea pig ileum. These neurons express a wide range of ionotropic and metabotropic receptors. Synaptic potentials mediated by ionotropic receptors such as the nicotinic acetylcholine receptor, P2X purinoceptors and 5-HT 3 receptors are seen in many enteric neurons. However, prominent synaptic potentials mediated by metabotropic receptors, like the P2Y 1 receptor and the NK 1 receptor, are also seen in these neurons. Studies of synaptic transmission between the different neuron classes within the enteric neural pathways have shown that both ionotropic and metabotropic synaptic potentials play major roles at distinct synapses within simple reflex pathways. However, there are still functional synapses at which no known transmitter or receptor has been identified. This review describes the identified roles for both ionotropic and metabotropic neurotransmission at functionally defined synapses within the guinea pig ileum ENS. It is concluded that metabotropic synaptic potentials act as primary transmitters at some synapses. It is suggested identification of the interactions between different synaptic potentials in the production of complex behaviours will require the use of well validated computer models of the enteric neural circuitry.

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“…11 Of the 7 classes of 5-HT receptors, 5-HT 1 , 5-HT 2 , 5-HT 3 , 5-HT 4 , and 5-HT 7 receptors are known to be expressed in the gastrointestinal tract and to affect gastrointestinal motor function. [12][13][14][15][16][17][18][19][20] The role of 5-HT in regulating gastrointestinal motility by mediating the transduction of luminal signals across the mucosa and by participating in enteric neurotransmission is well established. 21,22 There is however significant evidence, mostly from outside the gastrointestinal tract but also in studies on enteric nervous system development, that shows that 5-HT can also regulate cell survival and proliferation.…”

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confidence: 99%

Exogenous Serotonin Regulates Proliferation of Interstitial Cells of Cajal in Mouse Jejunum Through 5-HT2B Receptors

et al. 2007

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Identification of neurons that express 5-hydroxytryptamine4 receptors in intestine

Cited by 59 publications

References 50 publications

Serotonin and cholecystokinin mediate nutrient-induced segmentation in guinea pig small intestine

Serotonin and cholecystokinin mediate nutrient-induced segmentation in guinea pig small intestine

Synaptic Transmission at Functionally Identified Synapses in the Enteric Nervous System: Roles for Both Ionotropic and Metabotropic Receptors

Exogenous Serotonin Regulates Proliferation of Interstitial Cells of Cajal in Mouse Jejunum Through 5-HT2B Receptors

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