myenteric plexus
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Author(s):  
Ines Hecking ◽  
Lennart Norman Stegemann ◽  
Sarah Stahlke ◽  
Verena Theis ◽  
Matthias Vorgerd ◽  
...  

AbstractThe close interaction between the enteric nervous system, microbiome, and brain in vertebrates is an emerging topic of recent studies. Different species such as rat, mouse, and human are currently being used for this purpose, among others. The transferability of protocols for tissue isolation and sample collection is not always straightforward. Thus, the present work presents a new protocol for isolation and sample collection of rat myenteric plexus cells for in vivo as well as in vitro studies. With the methods and chemicals described in detail, a wide variety of investigations can be performed with regard to normal physiological as well as pathological processes in the postnatal developing enteric nervous system. The fast and efficient preparation of the intestine as the first step is particularly important. We have developed and described a LIENS chamber to obtain optimal tissue quality during intestinal freezing. Cryosections of the flat, snap-frozen intestine can then be prepared for histological examination of the various wall layers of the intestine, e.g. by immunohistochemistry. In addition, these cryosections are suitable for the preparation of defined regions, as shown here using the ganglia of the mesenteric plexus. This specific tissue was obtained by laser microdissection, making the presented methodology also suitable for subsequent analyses that require high quality (specificity) of the samples. Furthermore, we present here a fully modernized protocol for the cultivation of myenteric neurons from the rat intestine, which is suitable for a variety of in vitro studies.


Author(s):  
Paola Brun ◽  
Jessica Conti ◽  
Veronica Zatta ◽  
Venera Russo ◽  
Melania Scarpa ◽  
...  

Behind the central nervous system, neurotropic viruses can reach and persist even in the enteric nervous system (ENS), the neuronal network embedded in the gut wall. We recently reported that immediately following orogastric (OG) administration, Herpes simplex virus (HSV)-1 infects murine enteric neurons and recruits mononuclear cells in the myenteric plexus. In the current work, we took those findings a step forward by investigating the persistence of HSV-1 in the ENS and the local adaptive immune responses against HSV-1 that might contribute to neuronal damage in an animal model. Our study demonstrated specific viral RNA transcripts and proteins in the longitudinal muscle layer containing the myenteric plexus (LMMP) up to 10 weeks post HSV-1 infection. CD3+CD8+INFγ+ lymphocytes skewed towards HSV-1 antigens infiltrated the myenteric ganglia starting from the 6th week of infection and persist up to 10 weeks post-OG HSV-1 inoculation. CD3+CD8+ cells isolated from the LMMP of the infected mice recognized HSV-1 antigens expressed by infected enteric neurons. In vivo, infiltrating activated lymphocytes were involved in controlling viral replication and intestinal neuromuscular dysfunction. Indeed, by depleting the CD8+ cells by administering specific monoclonal antibody we observed a partial amelioration of intestinal dysmotility in HSV-1 infected mice but increased expression of viral genes. Our findings demonstrate that HSV-1 persistently infects enteric neurons that in turn express viral antigens, leading them to recruit activated CD3+CD8+ lymphocytes. The T-cell responses toward HSV-1 antigens persistently expressed in enteric neurons can alter the integrity of the ENS predisposing to neuromuscular dysfunction.


2021 ◽  
Vol 15 (Supplement_1) ◽  
pp. S167-S168
Author(s):  
J J Wiese ◽  
A Fascì ◽  
A A Kühl ◽  
B Siegmund ◽  
M S Prüß ◽  
...  

Abstract Background IBD frequently causes chronic abdominal pain and visceral hypersensitivity. To understand development of pain in IBD in more detail, we analyzed the inflammatory infiltration of the enteric nervous system (ENS). A crucial signaling point for pain transmission is the myenteric plexus situated in the smooth muscle layer of the colon wall. We investigated (i) the immune cell infiltration within the myenteric plexus, (ii) neuronal cell survival and (iii) expression of neurotransmitters by immunostaining in surgical colonic samples from patients with Crohn′s disease (CD) or ulcerative colitis (UC). Methods FFPE material from surgeries (ileocecal resections and colectomies) was collected from 12 UC, nine CD and 11 patients that received surgeries for non-inflammatory reasons (controls). Immune cell composition, neurotransmitter expression and cell survival were analyzed by quantifying immune cell infiltration of the myenteric ganglia in immunohistochemistry sections. Immune cells within the myenteric plexus were defined as intraganglionar cells. The neurotransmitters CGRP and substance P as well as annexin V as a cell death marker were quantified based on their expression within the myenteric ganglia. Results CD3+CD4+ intraganglionar T-cells (216 ± 44 cells/mm²) were found to be increased for CD myenteric plexus compared to controls (79 ± 35 cells/mm²) (p=0.04) (see Fig. 1). For CD and UC, the cell counts of CD3+CD8+ lymphocytes infiltrating the myenteric plexus were significantly increased (controls: 39 ± 18 cells/mm², CD: 281 ± 105 cells/mm² (p=0.0004), UC: 177 ± 59 cells/mm² (p=0.04), Intraganglionar Foxp3+ T-cells were not significantly changed. Intraganglionar CD163+ and CD68+ monocytes were increased in CD (CD68+ monocytes: control: 377 ± 50 cells/mm², CD: 1278 ± 264 cells/mm², p=0.002 and CD163+ monocytes: control: 501 ± 97 cells/mm², CD: 963 ± 236 cells/mm², p=0.04). Expression levels of the neurotransmitter CGRP were found to be increased for UC myenteric plexus (control: 1.8 ± 0.2 units of intensity, UC: 2.8 ± 0.2 units of intensity, p=0.005). Substance P was found to be reduced in the myenteric plexus of CD patients if compared to controls (control: 2.1 ± 0.1 units of intensity, CD: 1.5 ± 0.2 units of intensity, p=0.007). UC myenteric plexus showed more annexin V-positive cells than control patients. Conclusion The intraganglionar immune cell composition of myenteric plexus in IBD comprises CD3+CD4+, CD3+CD8 T-cells in UC and CD3+CD4+, CD3+CD8+ and CD3+Foxp3+ T-cells as well as CD68+ and CD163+ monocytes in CD. In UC myenteric ganglia levels of the neurotransmitter CGRP are increased whereas substance P expression is reduced in CD. UC-affected myenteric plexus show increased levels of apoptosis in comparison to controls.


Biomedicines ◽  
2021 ◽  
Vol 9 (5) ◽  
pp. 465
Author(s):  
Silvia Cerantola ◽  
Valentina Caputi ◽  
Gabriella Contarini ◽  
Maddalena Mereu ◽  
Antonella Bertazzo ◽  
...  

Antidopaminergic gastrointestinal prokinetics are indeed commonly used to treat gastrointestinal motility disorders, although the precise role of dopaminergic transmission in the gut is still unclear. Since dopamine transporter (DAT) is involved in several brain disorders by modulating extracellular dopamine in the central nervous system, this study evaluated the impact of DAT genetic reduction on the morpho-functional integrity of mouse small intestine enteric nervous system (ENS). In DAT heterozygous (DAT+/−) and wild-type (DAT+/+) mice (14 ± 2 weeks) alterations in small intestinal contractility were evaluated by isometrical assessment of neuromuscular responses to receptor and non-receptor-mediated stimuli. Changes in ENS integrity were studied by real-time PCR and confocal immunofluorescence microscopy in longitudinal muscle-myenteric plexus whole-mount preparations (). DAT genetic reduction resulted in a significant increase in dopamine-mediated effects, primarily via D1 receptor activation, as well as in reduced cholinergic response, sustained by tachykininergic and glutamatergic neurotransmission via NMDA receptors. These functional anomalies were associated to architectural changes in the neurochemical coding and S100β immunoreactivity in small intestine myenteric plexus. Our study provides evidence that genetic-driven DAT defective activity determines anomalies in ENS architecture and neurochemical coding together with ileal dysmotility, highlighting the involvement of dopaminergic system in gut disorders, often associated to neurological conditions.


PLoS ONE ◽  
2021 ◽  
Vol 16 (2) ◽  
pp. e0246692
Author(s):  
José Rodrigues do Carmo Neto ◽  
Marcos Vinicius da Silva ◽  
Yarlla Loyane Lira Braga ◽  
Arthur Wilson Florencio da Costa ◽  
Simone Gonçalves Fonseca ◽  
...  

Megacolon is one of the main late complications of Chagas disease, affecting approximately 10% of symptomatic patients. However, studies are needed to understand the mechanisms involved in the progression of this condition. During infection by Trypanosoma cruzi (T. cruzi), an inflammatory profile sets in that is involved in neural death, and this destruction is known to be essential for megacolon progression. One of the proteins related to the maintenance of intestinal neurons is the type 2 bone morphogenetic protein (BMP2). Intestinal BMP2 homeostasis is directly involved in the maintenance of organ function. Thus, the aim of this study was to correlate the production of intestinal BMP2 with immunopathological changes in C57Bl/6 mice infected with the T. cruzi Y strain in the acute and chronic phases. The mice were infected with 1000 blood trypomastigote forms. After euthanasia, the colon was collected, divided into two fragments, and a half was used for histological analysis and the other half for BMP2, IFNγ, TNF-α, and IL-10 quantification. The infection induced increased intestinal IFNγ and BMP2 production during the acute phase as well as an increase in the inflammatory infiltrate. In contrast, a decreased number of neurons in the myenteric plexus were observed during this phase. Collagen deposition increased gradually throughout the infection, as demonstrated in the chronic phase. Additionally, a BMP2 increase during the acute phase was positively correlated with intestinal IFNγ. In the same analyzed period, BMP2 and IFNγ showed negative correlations with the number of neurons in the myenteric plexus. As the first report of BMP2 alteration after infection by T. cruzi, we suggest that this imbalance is not only related to neuronal damage but may also represent a new route for maintaining the intestinal proinflammatory profile during the acute phase.


Author(s):  
Tiantian Guo ◽  
Shivam P Patel ◽  
Dhruv Shah ◽  
Ling Chi ◽  
Sharareh Emadi ◽  
...  

Colorectal hypersensitivity and sensitization of both mechanosensitive and mechanically insensitive afferents develop after intracolonic instillation of 2,4,6-trinitrobenzenesulfonic acid (TNBS) in the mouse, a model of post-infectious irritable bowel syndrome. In mice in which ~80% of extrinsic colorectal afferents were labeled genetically using the promotor for vesicular glutamate transporter type 2 (VGLUT2), we systematically quantified the morphology of VGLUT2-positive axons in mouse colorectum 7-28 days following intracolonic TNBS treatment. After removal, the colorectum was distended (20 mmHg), fixed with paraformaldehyde, and optically cleared to image VGLUT2-positive axons throughout the colorectal wall thickness. We conducted vector path tracing of individual axons to allow systematic quantification of nerve fiber density and shape. Abundant VGLUT2-positive nerve fibers were present in most layers of the colorectum, except the serosal and longitudinal muscular layers. A small percentage of VGLUT2-positive myenteric plexus neurons was also detected. Intracolonic TNBS treatment significantly reduced the number of VGLUT2-positive nerve fibers in submucosal, myenteric plexus, and mucosal layers at day 7 post TNBS, which mostly recovered by day 28. We also found that almost all fibers in the submucosa were meandering and curvy, with ~10% showing pronounced curviness (quantified by the linearity index). TNBS treatment resulted in a significant reduction of the proportions of pronounced curvy fibers in the rectal region at 28 days post TNBS. Altogether, the present morphological study reveals profound changes in the distribution of VGLUT2-positive fibers in mouse colorectum undergoing TNBS-induced colitis, and draw attention to curvy fibers in the submucosa with potential roles in visceral nociception.


2021 ◽  
Vol 26 (2) ◽  
pp. 365-365
Author(s):  
Wei-Li Kuan ◽  
Katherine Stott ◽  
Xiaoling He ◽  
Tobias C. Wood ◽  
Sujeong Yang ◽  
...  

Author(s):  
R Chiocchetti ◽  
T Hitrec ◽  
F Giancola ◽  
J Sadeghinezhad ◽  
F Squarcio ◽  
...  

AbstractTau protein is of primary importance for neuronal homeostasis and when hyperphosphorylated (PP-Tau), it tends to aggregate in neurofibrillary tangles, as is the case with tauopathies, a class of neurodegenerative disorders. Reversible PP-Tau accumulation occurs in the brain of hibernating rodents and it was recently observed in rats (a non-hibernator) during synthetic torpor (ST), a pharmacological-induced torpor-like condition. To date, the expression of PP-Tau in the rat enteric nervous system (ENS) is still unknown. The present study immunohistochemically investigates the PP-Tau expression in the myenteric plexus of the ileum and colon of normothermic rats (CTRL) and during ST, focusing on the two major subclasses of enteric neurons, i.e., cholinergic and nitrergic.Results showed that both groups of rats expressed PP-Tau, with a significantly increased percentage of PP-Tau immunoreactive (IR) neurons in ST vs. CTRL. In all rats, the majority of PP-Tau-IR neurons were cholinergic. In ST rats, the percentage of PP-Tau-IR neurons expressing a nitrergic phenotype increased, although with no significant differences between groups. In addition, the ileum of ST rats showed a significant decrease in the percentage of nitrergic neurons. In conclusion, our findings suggest an adaptive response of ENS to very low core body temperatures, with changes involving PP-tau expression in enteric neurons, especially the ileal nitrergic subpopulation. In addition, the high presence of PP-Tau in cholinergic neurons, specifically, is very interesting and deserves further investigation. Altogether, these data strengthen the hypothesis of a common cellular mechanism triggered by ST, natural hibernation and tauopathies occurring in ENS neurons.


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