Your search keyword '"Enteric Nerves"' showing total 11 results

1. Age-dependent effects of acute stress on the behavior, blood parameters, immunity, and enteric nerves of mice.

Author

Huang, Yi-Chen, Ko, Pin-Hao, and Wu, Li-Ling

Subjects

*LIVER cells, *BLOOD cells, *MICE, *CELLULAR aging, *IMMOBILIZATION stress, *CD14 antigen

Abstract

The impact of stress on mental and digestive health has been extensively studied, with chronic stress being associated with various disorders. However, age-related differences in the response to acute stress, both behaviorally and physiologically, remain poorly understood. Therefore, this study aimed to develop a model to detect transient stress in mice of different ages. The stressor employed in our experiments was a restraint stress procedure, where mice were subjected to brief periods of immobilization to induce an acute stress response. Male C3H/HeN mice aged 3, 6, 12, and 30 weeks were subjected to acute restrain stress (ARS) by being placed in a 50 ml conical centrifuge tube for 15 min. Subsequently, their behavior, organ tissues, hematological parameters, cortisol concentration, and immune responses were assessed. Following ARS, the increased in time and entries into the center by the 12-week-old mice following stress. In comparison to mice of other ages, those aged 6 weeks demonstrated notable elevations in erythrocytes, platelets, hemoglobin, and hematocrit, all of which were influenced by the time-dependent changes and the recovery process of ARS. Blood corticosterone levels were substantially elevated in all age groups after ARS. Furthermore, ARS induced a notable increase in leukocytes, basophils, residential macrophages, and CD4+ T cells in all age groups except for 3-week-old mice. However, the number of monocyte-derived macrophages and CD8+ T cells did not change significantly. Additionally, mice aged 3 and 6 weeks demonstrated an increase in GFAP+ cells following ARS, whereas NeuN+ cells decreased across all ages. These results suggest that ARS has varying effects on the behavior, cortisol concentration, and quantity of blood cells as well as hepatic immune cells in mice of different ages. These age-dependent responses shed light on the complex interplay between stress and physiological systems and contribute to the broader understanding of stress-related diseases. [ABSTRACT FROM AUTHOR]

Published

2024

2. Inhibitory purinergic transmission in mouse caecum: Role for P2Y1 receptors as prejunctional modulators of ATP release

Author

Zizzo, M.G., Mulè, F., and Serio, R.

Subjects

*ETHANES, *AMINO acids, *NITRIC oxide, *NERVOUS system

Abstract

Using conventional microelectrode recording techniques, we investigated, in the circular muscle of the mouse caecum, the neurotransmitter(s) involved in the neurally-evoked inhibitory junction potentials (IJPs) and the existence of possible prejunctional mechanisms controlling neurotransmitter release. Electrical field stimulation with single pulses elicited IJPs, consisting only of a “fast” hyperpolarization, while using train stimuli (30–50 Hz) the initial fast hyperpolarization was followed by a slower hyperpolarization. The fast and the slow component were selectively antagonized by apamin, a blocker of calcium-activated potassium channels, and Nω-nitro-l-arginine methyl ester (l-NAME), a nitric oxide synthase inhibitor, respectively. Fast IJPs were antagonized also by P2 purinoceptor antagonists, suramin or 4-[[4-formyl-5-hydroxy-6-methyl-3-[(phosphonooxy)methyl]-2-pyridinyl]azo]-1,3-benzenedisulfonic acid tetrasodium salt (PPADS), P2Y purinoceptor desensitization by adenosine 5′-O-2-thiodiphosphate (ADPβS). 2′-Deoxy-N6-methyl ADP diammonium salt (MRS 2179), P2Y1 purinoceptor antagonist, at the concentration of 1 μM increased the amplitude of the fast IJP, while at the concentration of 10 μM induced a reduction. 8,8′-[Carbonylbis[imino-3,1-phenylenecarbonylimino (4-fluoro-3,1-phenylene) carbonylimino]] bis-1,3,5-naphthalenetrisulfonic acid hexasodium salt (NF 157) and 2,2-dimethyl-propionic acid 3-(2-chloro-6-methylaminopurin-9-yl)-2-(2,2-dimethyl-propionyl-oxymethyl)-propyl ester (MRS 2395), P2Y11 and P2Y12 purinoceptor antagonist, were without any effect. ATP-induced hyperpolarization was affected by apamin and by P2Y purinoceptor desensitization, but not by MRS 2179. 2-(Methylthio)ATP tetrasodium salt hydrate (2-MeSATP), P2Y1 purinoceptor agonist, at a concentration which did not cause changes in the membrane potential, reduced the amplitude of the fast IJPs. This effect was prevented by MRS 2179. Paired nerve stimulation, either using single pulses or train stimuli, did not cause any alteration of the second-evoked IJP. In conclusion, in the circular muscle of the mouse caecum, ATP is responsible for the fast IJP while nitric oxide is responsible for the slow IJP. ATP-mediated response is dependent on ADPβS-sensitive P2Y receptors, which are in part P2Y1, but not P2Y11 or P2Y12 receptor subtypes. In addition, the most substantial finding of this study is the functional demonstration that ATP released by nerve stimulation activates P2Y1 receptors, located prejunctionally, limiting its release by motoneurons. [Copyright &y& Elsevier]

Published

2007

3. Mast cells and nerves tickle in the tummy: Implications for inflammatory bowel disease and irritable bowel syndrome

Author

Rijnierse, Anneke, Nijkamp, Frans P., and Kraneveld, Aletta D.

Subjects

*MAST cells, *STOMACH, *NEURONS, *PATHOLOGICAL physiology

Abstract

Abstract: Mast cells are well known as versatile cells capable of releasing and producing a variety of inflammatory mediators upon activation and are often found in close proximity of neurons. In addition, inflammation leads to local activation of neurons resulting in the release neuropeptides, which also play an important immune modulatory role by stimulation of immune cells. In intestinal disorders like inflammatory bowel disease (IBD) and irritable bowel syndrome (IBS), the number of mast cells is known to be much higher than in the normal intestine. Moreover, both these disorders are also reported to be associated with alterations in neuropeptide content and in neural innervation. Mutual association between mast cells and enteric nerves has been demonstrated to be increased in pathophysiological conditions and contribute to spreading and amplification of the response in IBD and IBS. In this review the focus lies on studies appointed to the direct interaction between mast cells and nerves in IBD, IBS, and animal models for these disorders so far. [Copyright &y& Elsevier]

Published

2007

4. Megacolon in Chagas disease: a study of inflammatory cells, enteric nerves, and glial cells.

Author

da Silveira, Alexandre Barcelos Morais, Lemos, Elenice M., Adad, Sheila J., Correa-Oliveira, Rodrigo, Furness, John B., and D'Avila Reis, Débora

Subjects

MEGACOLON, CHAGAS' disease, NEUROGLIA, CELL physiology, PHYSIOLOGY

Abstract

Summary: After acute infestation with the Chagas disease parasite, Trypanosoma cruzi, some patients who are serologically positive develop chronic megacolon and megaesophagus, whereas others are symptom-free. Chagas disease with gastrointestinal involvement involves an inflammatory invasion of the enteric plexuses and degeneration of enteric neurons. It is known that glial cells can be involved in enteric inflammatory responses. The aims were to determine the nature of any difference in lymphocytic invasion, enteric neurons, and enteric glial cells in seropositive individuals with and without megacolon. We have compared colonic tissue from serologically positive individuals with and without symptoms and from seronegative controls. Subjects with megacolon had significantly more CD-57 natural killer cells and TIA-1 cytotoxic lymphocytes within enteric ganglia, but numbers of CD-3 and CD-20 immunoreactive cells were not significantly elevated. The innervation of the muscle was substantially reduced to about 20% in megacolon, but asymptomatic seropositive subjects were not different to seronegative controls. Glial cell loss occurred equally in symptomatic and unaffected seropositive subjects, although the proportion with glial fibrillary acidic protein was greater in seropositive, nonsymptomatic subjects. Development of megacolon after acute infection with T cruzi is associated with maintained invasion of enteric ganglia with cytotoxic T cells and loss of muscle innervation, but changes in glial cell numbers are not associated with progression of enteric neuropathy. [Copyright &y& Elsevier]

Published

2007

5. Differential responses of VIPergic and nitrergic neurons in paediatric patients with Crohn's disease

Author

Boyer, Lee, Sidpra, Dolar, Jevon, Gareth, Buchan, Alison M., and Jacobson, Kevan

Subjects

*NERVOUS system, *NEUROLOGY, *INTESTINAL diseases, *INFLAMMATION

Abstract

Abstract: Inflammatory bowel disease is a recurrent intestinal inflammatory disorder that in adults has been associated with changes in enteric nervous system neuropeptide expression. The aim of the present study was to determine whether similar changes were observed in paediatric Crohn''s disease. The distribution of vasoactive intestinal peptide (VIP) and neuronal nitric oxide synthase (nNOS) was determined in colonic tissues from children with ileo-colonic (n =4) and colonic (n =3) Crohn''s disease. The submucosal plexus of inflamed regions showed significant increase in density of VIP immunoreactive neurons (margin, 48% vs. inflamed tissue, 82% of HuC/D positive neurons). The density of submucosal plexus nNOS immunoreactive neurons was too low to be reliably quantified. Using the pan-neuronal marker HuC/D, no significant difference in numbers of HuC/D positive submucosal neurons was evident except where neurons were normalized to length of tissue (margins, 3.6±0.7 vs. inflamed tissue, 4.0±0.6 neurons/ganglia, p =0.33; margins, 2.7±0.4 vs. inflamed tissue, 5.7±1.2, neurons/mm, p =0.03). In the myenteric plexus, there was a significant increase in the percent of NOS neurons (38% vs. 82% of HuC/D positive neurons) while there was no significant difference in percent of VIP neurons (4% vs. 8%). No difference in number of HuC/D positive myenteric neurons among margin and inflamed tissues was observed (margin, 12.2±3.0 vs. inflamed tissue, 12.5±5.1 neurons/ganglia, p =0.50; margins 9.1±2.1 vs. inflamed tissue, 13.7±2.3 neurons/mm, p =0.11). These data demonstrate that inflammation is associated with a differential expression of VIP and nNOS neuronal subpopulations within the two major enteric plexi, likely due to phenotypic switch. Such changes might contribute to the pathogenesis of IBD and ongoing symptoms even in quiescent disease. [Copyright &y& Elsevier]

Published

2007

6. Autonomic nervous system and secretion across the intestinal mucosal surface

Author

Xue, Jianjing, Askwith, Candice, Javed, Najma H., and Cooke, Helen J.

Subjects

*AUTONOMIC nervous system, *INTESTINAL mucosa, *CHLORIDES, *SECRETION

Abstract

Abstract: Chloride secretion is important because it is the driving force for fluid movement into the intestinal lumen. The flow of accumulated fluid flushes out invading micro-organisms in defense of the host. Chloride secretion is regulated by neurons in the submucosal plexus of the enteric nervous system. Mechanosensitive enterochromaffin cells that release 5-hydroxytryptamine (5-HT) and activate intrinsic afferent neurons in the submucosal plexus and initiate chloride secretion. Mechanical stimulation by distention may also trigger reflexes by a direct action on intrinsic afferent neurons. Dysregulation of 5-HT release or altered activity of intrinsic afferents is likely to occur in states of inflammation and other disorders. [Copyright &y& Elsevier]

Published

2007

7. Myenteric plexus injury and apoptosis in experimental colitis

Author

Boyer, Lee, Ghoreishi, Mehran, Templeman, Valerie, Vallance, Bruce A., Buchan, Alison M., Jevon, Gareth, and Jacobson, Kevan

Subjects

*INTESTINES, *INFLAMMATORY bowel diseases, *INTESTINAL diseases, *CROHN'S disease

Abstract

Abstract: Intestinal inflammatory conditions are associated with structural and functional alterations of the enteric nervous system (ENS). While injury to the enteric nervous system is well described, the mechanisms of neuronal injury and neuronal cell loss remain unclear. The aim of the present study was to examine the neural consequences of distal colitis and to assess the role of neutrophil granulocytes in mediating these changes. Colitis was induced in C3H/HEN female mice with dinitrobenzene sulfonic acid. The mice were then sacrificed at 0.5, 1, 1.5, 2, 3, 4, 6, 12, 24, 120 h post instillation of dinitrobenzene sulfonic acid. The inflammatory response was assessed by macroscopic damage score, myeloperoxidase activity and histology. HuC/D and PGP 9.5 immunostaining was used to examine myenteric plexus density and structure, neural cell body numbers and distribution in cross-section and whole mount preparations. Apoptosis was investigated in whole mount preparations double stained with HuC/D and activated caspase-3 or cleaved poly (ADP-ribose) polymerase (PARP). Dinitrobenzene sulfonic acid-induced colitis was associated with a rapid and significant loss of HuC/D immunoreactive myenteric plexus neuronal cell bodies (42% decrease relative to control) that remained unchanged between 6 and 120 h. No change in myenteric plexus density was observed with PGP 9.5 immunostaining. Neuronal apoptosis was evident between 0.5 and 3 h. PARP immunoreactive neurons ranged between 1% and 2.5%. Colitis was associated with significant impairment in colonic propulsive function. Pre-treatment of mice with anti-neutrophil serum attenuated the inflammatory response and partially reduced the extent of myenteric plexus neuronal cell loss. Taken together, these data suggest that acute colitis is associated with loss of myenteric plexus neurons that is partly mediated by neutrophil granulocyte infiltration and is accompanied by impairment of colonic motility. [Copyright &y& Elsevier]

Published

2005

8. Interstitial cells of Cajal and purinergic signalling

Author

Burnstock, G. and Lavin, S.

Subjects

*PURINERGIC receptors, *GUINEA pigs

Abstract

Interstitial cells of Cajal (ICC) in the guinea pig intestine, identified by the tyrosine kinase receptor, c-Kit, have been shown with immunohistochemistry to express nucleotide P2X2 and P2X5 receptors. P2X5 receptors have also been demonstrated on interstitial cells in the mouse ileum. It is speculated that release of ATP from enteric nerves, enteric glial cells or from contracting smooth muscle may provide a feedback mechanism for pacemaker activity in the intestine. [Copyright &y& Elsevier]

Published

2002

9. Nerve Fiber Outgrowth Is Increased in the Intestinal Mucosa of Patients With Irritable Bowel Syndrome.

Author

Dothel, Giovanni, Barbaro, Maria Raffaella, Boudin, Hélène, Vasina, Valentina, Cremon, Cesare, Gargano, Luciana, Bellacosa, Lara, De Giorgio, Roberto, Le Berre-Scoul, Catherine, Aubert, Philippe, Neunlist, Michel, De Ponti, Fabrizio, Stanghellini, Vincenzo, and Barbara, Giovanni

Abstract

Background & Aims Mediators released by the intestinal mucosa of patients with irritable bowel syndrome (IBS) affect the function of enteric and extrinsic sensory nerves, which can contribute to the development of symptoms. Little is known about the effects of mucosal mediators on intestinal neuroplasticity. We investigated how these mediators affect the phenotypes of colonic mucosa nerve fibers, neuron differentiation, and fiber outgrowth. Methods We analyzed mucosal biopsy samples collected from 101 patients with IBS and 23 asymptomatic healthy individuals (controls). We measured levels of neuronal-specific enolase, growth-associated protein 43, nerve growth factor (NGF), and tyrosine kinase receptor A (NTRK1) by immunohistochemistry and enzyme-linked immunosorbent assay. Primary rat enteric neurons and human SH-SY5Y cells were incubated with supernatants from the mucosal biopsies and analyzed by morphometric and polymerase chain reaction analyses. Results Compared with mucosal tissues of controls, mucosa from patients with IBS had a significant increase in the area of lamina propria occupied by neuronal-specific enolase-positive (57.7% increase) and growth-associated protein 43−positive fibers (56.1% increase) and staining density of NGF (89.3% increase) ( P < .05 for all). Levels of NGF protein were also increased in tissues from patients with IBS vs controls (18% increase; P = .16) along with levels of NTRK1 (64% increase; P < .05). Mucosal supernatants from tissues of patients with IBS induced higher levels of neuritogenesis in primary culture of enteric neurons, compared with controls, and more NGF-dependent neuronal sprouting in SH-SY5Y cells. Conclusions Nerve fiber density and sprouting, as well as expression of NGF and NTRK1, are significantly increased in mucosal tissues of patients with IBS. Mucosal mediators participate to these neuroplastic changes. [ABSTRACT FROM AUTHOR]

Published

2015

10. Cellular Changes in Diabetic and Idiopathic Gastroparesis.

Author

Grover, Madhusudan, Farrugia, Gianrico, Lurken, Matthew S., Bernard, Cheryl E., Faussone–Pellegrini, Maria Simonetta, Smyrk, Thomas C., Parkman, Henry P., Abell, Thomas L., Snape, William J., Hasler, William L., Ünalp–Arida, Aynur, Nguyen, Linda, Koch, Kenneth L., Calles, Jorges, Lee, Linda, Tonascia, James, Hamilton, Frank A., and Pasricha, Pankaj J.

Subjects

GASTROINTESTINAL diseases, GASTRIC emptying, PARALYSIS, SMOOTH muscle, ENTERIC nervous system, NITRIC oxide, VASOACTIVE intestinal peptide, TRANSMISSION electron microscopy

Abstract

Background & Aims: Cellular changes associated with diabetic and idiopathic gastroparesis are not well described. The aim of this study was to describe histologic abnormalities in gastroparesis and compare findings in idiopathic versus diabetic gastroparesis. Methods: Full-thickness gastric body biopsy specimens were obtained from 40 patients with gastroparesis (20 diabetic) and matched controls. Sections were stained for H&E and trichrome and immunolabeled with antibodies against protein gene product (PGP) 9.5, neuronal nitric oxide synthase (nNOS), vasoactive intestinal peptide, substance P, and tyrosine hydroxylase to quantify nerves, S100β for glia, Kit for interstitial cells of Cajal (ICC), CD45 and CD68 for immune cells, and smoothelin for smooth muscle cells. Tissue was also examined by transmission electron microscopy. Results: Histologic abnormalities were found in 83% of patients. The most common defects were loss of ICC with remaining ICC showing injury, an abnormal immune infiltrate containing macrophages, and decreased nerve fibers. On light microscopy, no significant differences were found between diabetic and idiopathic gastroparesis with the exception of nNOS expression, which was decreased in more patients with idiopathic gastroparesis (40%) compared with diabetic patients (20%) by visual grading. On electron microscopy, a markedly increased connective tissue stroma was present in both disorders. Conclusions: This study suggests that on full-thickness biopsy specimens, cellular abnormalities are found in the majority of patients with gastroparesis. The most common findings were loss of Kit expression, suggesting loss of ICC, and an increase in CD45 and CD68 immunoreactivity. These findings suggest that examination of tissue can lead to valuable insights into the pathophysiology of these disorders and offer hope that new therapeutic targets can be found. [Copyright &y& Elsevier]

Published

2011

11. β-Nicotinamide Adenine Dinucleotide Is an Enteric Inhibitory Neurotransmitter in Human and Nonhuman Primate Colons.

Author

Hwang, Sung Jin, Durnin, Leonie, Dwyer, Laura, Rhee, Poong-Lyul, Ward, Sean M., Koh, Sang Don, Sanders, Kenton M., and Mutafova–Yambolieva, Violeta N.

Subjects

NAD (Coenzyme), NEUROTRANSMITTERS, ENTERIC nervous system, GASTROINTESTINAL motility, ADENOSINE diphosphate, HIGH performance liquid chromatography, TETRODOTOXIN, ADENOSINE triphosphate

Abstract

Background & Aims: An important component of enteric inhibitory neurotransmission is mediated by a purine neurotransmitter, such as adenosine 5′-triphosphate (ATP), binding to P2Y1 receptors and activating small conductance K+ channels. In murine colon β-nicotinamide adenine dinucleotide (β-NAD) is released with ATP and mimics the pharmacology of inhibitory neurotransmission better than ATP. Here β-NAD and ATP were compared as possible inhibitory neurotransmitters in human and monkey colons. Methods: A small-volume superfusion assay and high-pressure liquid chromatography with fluorescence detection were used to evaluate spontaneous and nerve-evoked overflow of β-NAD, ATP, and metabolites. Postjunctional responses to nerve stimulation, β-NAD and ATP were compared using intracellular membrane potential and force measurements. Effects of β-NAD on smooth muscle cells (SMCs) were recorded by patch clamp. P2Y receptor transcripts were assayed by reverse transcription polymerase chain reaction. Results: In contrast to ATP, overflow of β-NAD evoked by electrical field stimulation correlated with stimulation frequency and was diminished by the neurotoxins, tetrodotoxin, and ω-conotoxin GVIA. Inhibitory junction potentials and responses to exogenous β-NAD, but not ATP, were blocked by P2Y receptor antagonists suramin, pyridoxal-phosphate-6-azophenyl-2′,4′-disulfonate (PPADS), 2′-deoxy-N6-methyladenosine 3′,5′-bisphosphate (MRS 2179), and (1R,2S,4S,5S)-4-[2-Iodo-6-(methylamino)-9H-purin-9-yl]-2-(phosphonooxy)bicyclo[3.1.0]hexane-1-methanol dihydrogen phosphate ester tetraammonium salt (MRS 2500). β-NAD activated nonselective cation currents in SMCs, but failed to activate outward currents. Conclusions: β-NAD meets the criteria for a neurotransmitter better than ATP in human and monkey colons and therefore may contribute to neural regulation of colonic motility. SMCs are unlikely targets for inhibitory purine neurotransmitters because dominant responses of SMCs were activation of net inward, rather than outward, current. [Copyright &y& Elsevier]

Published

2011