Jill M. Hoffman scite author profile

Serotonin (5-HT) has been recognized for decades as an important signaling molecule in the gut, but it is still revealing its secrets. We continue to discover novel gastrointestinal (GI) functions of 5-HT, as well as actions of gut-derived 5-HT outside of the gut, and we are learning how 5-HT signaling is altered in GI disorders. Furthermore, new therapeutic targets related to 5-HT signaling are being identified that can hopefully be exploited to alleviate the symptoms of functional GI disorders. Conventional functions of 5-HT in the gut involving intrinsic reflexes include stimulation of propulsive and segmentation motility patterns, epithelial secretion, and vasodilation. Activation of extrinsic vagal and spinal afferent fibers results in slowed gastric emptying, pancreatic secretion, satiation, pain and discomfort, as well as nausea and vomiting. Within the gut, 5-HT also exerts non-conventional actions that include serving as a pro-inflammatory signaling molecule and as a trophic factor to promote the development and maintenance of neurons and interstitial cells of Cajal. Platelet 5-HT, which comes from the gut, can promote hemostasis, influence bone development, and contribute to allergic airway inflammation. 5-HT3 receptor antagonists and 5-HT4 receptor agonists have been used to treat functional disorders with diarrhea or constipation, respectively. More recently, the synthetic enzyme, tryptophan hydroxylase has been targeted, and there are recent findings suggesting that epithelial 5-HT4 receptors could be targeted to provide a safe and effective treatment for constipation. Here we provide an overview of these serotonergic actions and treatment strategies.

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Activation of Colonic Mucosal 5-HT4 Receptors Accelerates Propulsive Motility and Inhibits Visceral Hypersensitivity

Hoffman

et al. 2012

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BACKGROUND & AIMS 5-hydroxytryptamine receptor (5-HT4R) agonists promote gastrointestinal motility and attenuate visceral pain, but concerns about adverse reactions have restricted their availability. We tested the hypotheses that 5-HT4 receptors are expressed in the colonic epithelium and that 5-HT4R agonists can act intraluminally to increase motility and reduce visceral hypersensitivity. METHODS Mucosal expression of the 5-HT4R was evaluated by reverse-transcriptase polymerase chain reaction and immunohistochemical analysis of tissues from 5-HT4R(BAC)-enhanced green fluorescent protein mice. Amperometry, histology, and short-circuit current measurements were used to study 5-HT, mucus, and Cl− secretion, respectively. Propulsive motility was measured in guinea pig distal colon, and visceromotor responses were recorded in a rat model of colonic hypersensitivity. 5-HT4R compounds included cisapride, tegaserod, naronapride, SB204070, and GR113808. RESULTS Mucosal 5-HT4 receptors were present in the small and large intestines. In the distal colon, 5-HT4 receptors were expressed by most epithelial cells, including enterochromaffin and goblet cells. Stimulation of 5-HT4Rs evoked mucosal 5-HT release, goblet cell degranulation, and Cl− secretion. Luminal administration of 5-HT4R agonists accelerated propulsive motility; a 5-HT4R antagonist blocked this effect. Bath application of 5-HT4R agonists did not affect motility. Oral or intracolonic administration of 5-HT4R agonists attenuated visceral hypersensitivity. Intracolonic administration was more potent than oral administration, and was inhibited by a 5-HT4R antagonist. CONCLUSIONS Mucosal 5-HT4 receptor activation can mediate the prokinetic and antinociceptive actions of 5-HT4R agonists. Colon-targeted, intraluminal delivery of 5-HT4R agonists might be used to promote motility and alleviate visceral pain, while restricting systemic bioavailability and resulting adverse side effects.

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Purinergic neuromuscular transmission is selectively attenuated in ulcerated regions of inflamed guinea pig distal colon

Strong

Cornbrooks

Roberts

et al. 2010

The Journal of Physiology

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This study was undertaken to investigate neuromuscular transmission in regions of the inflamed colon in which motility is disrupted. Propulsive motility was evaluated in segments of control guinea pigs and those treated 6 days previously with trinitrobenzene sulfonic acid. Intracellular recordings were then obtained from circular muscle cells to examine excitatory and inhibitory junction potentials (EJPs and IJPs). In inflamed preparations, propulsion of fecal pellets was temporarily halted or obstructed at sites of mucosal damage, whereas the propulsive motility was linear in control colons. The amplitudes of evoked and spontaneous IJPs were significantly reduced in ulcerated regions of inflamed preparations, but EJPs were comparable to controls. Pharmacological dissection of the IJP revealed that the purinergic component was reduced, while the nitrergic IJP was slightly increased. Furthermore, the reduction in the purinergic IJP in inflamed preparations persisted in the presence of hexamethonium, suggesting that the deficit involved the inhibitory motor neuron and/or smooth muscle. Nerve fibre density was not altered in the circular muscle, and pre-contracted rings of inflamed colon relaxed normally to ATP, suggesting that the deficit involves altered ATP release and/or degradation. The P2Y 1 receptor antagonist MRS2179 slowed propulsive motility indicating that decreased purinergic neuromuscular transmission could contribute to the inflammation-induced motor deficit. We conclude that purinergic inhibitory neuronal input to the circular muscle is selectively reduced in regions of the colon in experimental colitis where the mucosa is damaged, and this is likely to contribute to altered motility in colitis by diminishing downstream relaxation during the peristaltic reflex.

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Diminished Expression of Corticotropin-Releasing Hormone Receptor 2 in Human Colon Cancer Promotes Tumor Growth and Epithelial-to-Mesenchymal Transition via Persistent Interleukin-6/Stat3 Signaling

Rodríguez

Huerta-Yépez

Law

et al. 2015

Cellular and Molecular Gastroenterology and Hepatology

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Background & Aims Chronic inflammation promotes development and progression of colorectal cancer (CRC). We explored the distribution of Corticotropin-Releasing-Hormone (CRH)-family of receptors and ligands in CRC and their contribution in tumor growth and oncogenic EMT. Methods mRNA expression of CRH-family members was analyzed in CRC (N=56) and control (N=46) samples, 7 CRC cell lines and normal NCM460 cells. Immunohistochemical detection of CRHR2 was performed in 20 CRC and 5 normal tissues. Cell proliferation, migration and invasion were compared between Urocortin-2 (Ucn2)-stimulated parental and CRHR2-overexpressing (CRHR2+) cells in absence or presence of IL-6. CRHR2/Ucn2-targeted effects on tumor growth and EMT were validated in SW620-xenograft mouse models. Results CRC tissues and cell lines showed decreased mRNA and protein CRHR2 expression compared to controls and NCM460, respectively. The opposite trend was shown for Ucn2. CRHR2/Ucn2 signaling inhibited cell proliferation, migration, invasion and colony formation in CRC-CRHR2+ cells. In vivo, SW620-CRHR2+ xenografts showed decreased growth, reduced expression of EMT-inducers and elevated levels of EMT-suppressors. IL-1b, IL-6 and IL-6R mRNAs where diminished in CRC-CRHR2+ cells, while CRHR2/Ucn2 signaling inhibited IL-6-mediated Stat3 activation, invasion, migration and expression of downstream targets acting as cell cycle- and EMT-inducers. Expression of cell cycle- and EMT-suppressors was augmented in IL-6/Ucn2-stimulated CRHR2+ cells. In patients, CRHR2 mRNA expression was inversely correlated with IL-6R and vimentin levels and metastasis occurrence, while positively associated with E-cadherin expression and overall survival. Conclusions CRHR2 downregulation in CRC supports tumor expansion and spread through maintaining persistent inflammation and constitutive Stat3 activation. CRHR2low CRC phenotypes are associated with higher risk for distant metastases and poor clinical outcomes.

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Inhibition of Serotonergic Neurons in the Nucleus Paragigantocellularis Lateralis Fragments Sleep and Decreases Rapid Eye Movement Sleep in the Piglet: Implications for Sudden Infant Death Syndrome

Darnall¹,

Harris²,

Gill³

et al. 2005

J. Neurosci.

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Serotonergic receptor binding is altered in the medullary serotonergic nuclei, including the paragigantocellularis lateralis (PGCL), in many infants who die of sudden infant death syndrome (SIDS). The PGCL receives inputs from many sites in the caudal brainstem and projects to the spinal cord and to more rostral areas important for arousal and vigilance. We have shown previously that local unilateral nonspecific neuronal inhibition in this region with GABA A agonists disrupts sleep architecture. We hypothesized that specifically inhibiting serotonergic activity in the PGCL would result in less sleep and heightened vigilance. We analyzed sleep before and after unilaterally dialyzing the 5-HT 1A agonist (

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Jill M. Hoffman

Serotonin signalling in the gut—functions, dysfunctions and therapeutic targets

Activation of Colonic Mucosal 5-HT4 Receptors Accelerates Propulsive Motility and Inhibits Visceral Hypersensitivity

Purinergic neuromuscular transmission is selectively attenuated in ulcerated regions of inflamed guinea pig distal colon

Diminished Expression of Corticotropin-Releasing Hormone Receptor 2 in Human Colon Cancer Promotes Tumor Growth and Epithelial-to-Mesenchymal Transition via Persistent Interleukin-6/Stat3 Signaling

Inhibition of Serotonergic Neurons in the Nucleus Paragigantocellularis Lateralis Fragments Sleep and Decreases Rapid Eye Movement Sleep in the Piglet: Implications for Sudden Infant Death Syndrome

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