Morphoquantitative Study of Rattus norvegicus Submucosal Plexus by Different Neuronal Evidentiation Histochemical Techniques

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Abstract

Enteric nervous plexuses have been the object of several studies, specially the myenteric plexus whose studies describe its organization, functions and alterations. On the other hand, the submucosal plexus has been less studied and still needs descriptive studies. To analyze morphologically and quantitatively submucosal neurons of the jejunum of 90-day-old healthy rats using different techniques for neuronal staining as a way to provide normality data to compare with future experimental studies. Whole mount preparations of the jejunum were submitted to Giemsa, NADH-diaphorase and NADPH-diaphorase techniques to stain the total neuronal population, more metabolically active subpopulation and subpopulation of nitrergic neurons, respectively. Neurons of the submucosal plexus of adult rats are mainly organized in ganglia with varied sized and shapes. Giemsa technique stained 243.93 ± 7.68 neurons per mm2. Regarding the total population stained by Giemsa, NADH- diaphorase positive (139.09 ± 11.14/mm2) neurons represented 57 % and NADPH-diaphorase positive (18.17 ± 0.28/mm2) represented 7.5 %. The area of the cell body was bigger in nitrergic neurons (412.29 ± 150.22) than in the ones stained by Giemsa (254.71 ± 63.32) and NADH-diaphorase positive (243.98 ± 123.82).

Translated abstract

El plexo nervioso entérico ha sido objeto de varios estudios, especialmente el plexo mientérico, cuyos estudios consisten en describir su organización, funciones y alteraciones. Por otro lado, el plexo submucoso ha sido menos investigado y todavía necesita estudios descriptivos. Para analizar morfológica y cuantitativamente las neuronas de la submucosa del yeyuno de ratas de 90 días de edad, se realizaron diferentes técnicas de tinción neuronales, en animales sanos, como una forma de proporcionar datos de normalidad y compararlo con futuros estudios experimentales. Se realizaron montajes con preparados enteros del yeyuno que fueron sometidos a las técnicas de Giemsa, de NADPH-diaforasa y NADH-diaforasa para teñir la población total neuronal, subpoblación más activa metabólicamente y subpoblación de neuronas nitrérgicas, respectivamente. Las neuronas del plexo submucoso de ratas adultas se organizan principalmente en los ganglios con variaciones de tamaño y formas. Con la técnica de Giemsa se tiñeron 243.93±7.68 neuronas por mm2. Con respecto a la población total teñida con Giemsa, fueron positivas para NADH- diaforasa en 139.09 ±11.14 / mm2 neuronas, representando el 57% y fueron positivas para NADPH-diaforasa en 18,17 ± 0,28 / mm2 neuronas, lo que representó el 7,5%. El área del cuerpo celular fue mayor en neuronas nitrérgicas (412,29 ± 150.22) que en las teñidas con Giemsa (254,71 ± 63,32) y NADH-diaforasa positivas (243,98 ± 123,82).

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Most cited references 47

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Cell death: critical control points.

Nika Danial, Stanley Korsmeyer (2004)

Programmed cell death is a distinct genetic and biochemical pathway essential to metazoans. An intact death pathway is required for successful embryonic development and the maintenance of normal tissue homeostasis. Apoptosis has proven to be tightly interwoven with other essential cell pathways. The identification of critical control points in the cell death pathway has yielded fundamental insights for basic biology, as well as provided rational targets for new therapeutics.

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Types of neurons in the enteric nervous system.

J.B. Furness (2000)

This paper, written for the symposium in honour of more than 40 years' contribution to autonomic research by Professor Geoffrey Burnstock, highlights the progress made in understanding the organisation of the enteric nervous system over this time. Forty years ago, the prevailing view was that the neurons within the gut wall were post-ganglionic neurons of parasympathetic pathways. This view was replaced as evidence accrued that the neurons are part of the enteric nervous system and are involved in reflex and integrative activities that can occur even in the absence of neuronal influence from extrinsic sources. Work in Burnstock's laboratory led to the discovery of intrinsic inhibitory neurons with then novel pharmacology of transmission, and precipitated investigation of neuron types in the enteric nervous system. All the types of neurons in the enteric nervous system of the small intestine of the guinea-pig have now been identified in terms of their morphologies, projections, primary neurotransmitters and physiological identification. In this region there are 14 functionally defined neuron types, each with a characteristic combination of morphological, neurochemical and biophysical properties. The nerve circuits underlying effects on motility, blood flow and secretion that are mediated through the enteric nervous system are constructed from these neurons. The circuits for simple motility reflexes are now known, and progress has been made in analysing those involved in local control of blood flow and transmucosal fluid movement in the small intestine.

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Enteric glia regulate intestinal barrier function and inflammation via release of S-nitrosoglutathione.

Arnaud Bourreille, Anne Rühl, M V Sofroniew … (2007)

Barrier functions across epithelia and endothelia are essential for homeostatic tissue regulation. Astroglia interact with cerebral endothelia to maintain the blood-brain barrier. Whether similar interactions between astrocyte-like enteric glia and epithelia regulate intestinal barrier function is not known. Fluorescent permeability markers were used to measure intestinal barrier function in vivo after conditional ablation of enteric glia in transgenic mice. Enteric glial cell regulation of epithelial barrier integrity then was modeled in vitro using coculture. Glial-derived barrier-inducing factors were characterized using size-exclusion chromatography and mass spectrometry. Epithelial barrier integrity was assessed by transepithelial resistance readings and by quantitative measurement of tight-junction-associated protein expression by quantitative polymerase chain reaction and Western blot. We show that ablation of enteric glial cells in transgenic mice causes intestinal mucosal barrier dysfunction, resulting in inflammation. Glial-derived s-nitrosoglutathione (GSNO) was identified as a potent inducer of mucosal barrier function in vitro and in vivo and of attenuated tissue inflammation after ablation of enteric glia in transgenic mice. GSNO regulation of mucosal barrier function was associated directly with an increased expression of perijunctional F-actin and tight-junction-associated proteins zonula occludens-1 and occludin. GSNO also significantly restored mucosal barrier function in colonic biopsy specimens from patients with Crohn's disease, a well-described inflammatory permeability disorder associated with enteric glial-cell disruption. Enteric glia therefore share the ability of astrocytes to regulate tight-junction integrity, and cellular interactions comparable with those maintaining blood-brain barrier function also regulate epithelial permeability at mucosal surfaces.

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Author and article information

Contributors

Marcelo Biondaro Góis: Role: ND

Catchia Hermes-Uliana: Role: ND

Alessandra Paltanin: Role: ND

Willian Pontes: Role: ND

Eduardo José De Almeida Araújo: Role: ND

Marcilio Hubner Miranda Neto: Role: ND

Débora Mello Gonçales Sant'Ana: Role: ND

Journal

Journal ID (publisher-id): ijmorphol

Title: International Journal of Morphology

Abbreviated Title: Int. J. Morphol.

Publisher: Sociedad Chilena de Anatomía (Temuco, , Chile )

ISSN (Electronic): 0717-9502

Publication date (Print and electronic): December 2016

Volume: 34

Issue: 4

Pages: 1487-1493

Affiliations

[02] Coxim MS orgnameUniversidade Federal de Mato Grosso do Sul Brasil

[04] Londrina Paraná orgnameUniversidade Estadual de Londrina orgdiv1Departamento de Histologia orgdiv2Centro de Ciências Biológicas Brazil

[01] Maringá PR orgnameUniversidade Estadual de Maringá Brasil

[03] Umuarama PR orgnameUniversidade Paranaense Brasil

Article

Publisher ID: S0717-95022016000400050

DOI: 10.4067/S0717-95022016000400050

SO-VID: 824267c4-3184-4735-b1a7-aa6178b3851c

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This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

History

Date accepted : 20 September 2016

Date received : 16 October 2015

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Figures: 0, Tables: 0, Equations: 0, References: 48, Pages: 7

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SciELO Chile

Keywords: Sistema nervioso entérico,Plexo de Meissner,Giemsa,NADH-diaforasa,NADPH-diaforasa,Enteric nervous system,Meissner's plexus,NADH-diaphorase,NADPH-diaphorase

Data availability:

Keywords: Sistema nervioso entérico, Plexo de Meissner, Giemsa, NADH-diaforasa, NADPH-diaforasa, Enteric nervous system, Meissner's plexus, NADH-diaphorase, NADPH-diaphorase

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SciELO Chile

Most cited references 47

Cell death: critical control points.

Types of neurons in the enteric nervous system.

Enteric glia regulate intestinal barrier function and inflammation via release of S-nitrosoglutathione.

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