Identification of intrinsic primary afferent neurons in mouse jejunum.

BACKGROUND: The gut is the only organ system with intrinsic neural reflexes. Intrinsic primary afferent neurons (IPANs) of the enteric nervous system initiate intrinsic reflexes, form gut-brain connections, and undergo considerable neuroplasticity to cause digestive diseases. They remain inaccessible to study in mice in the absence of a selective marker. Advillin is used as a marker for primary afferent neurons in dorsal root ganglia. The aim of this study was to test the hypothesis that advillin is expressed in IPANs of the mouse jejunum. METHODS: Advillin expression was assessed with immunohistochemistry and using transgenic mice expressing an inducible Cre recombinase under the advillin promoter were used to drive tdTomato and the genetically encoded calcium indicator GCaMP5. These mice were used to characterize the morphology and physiology of advillin-expressing enteric neurons using confocal microscopy, calcium imaging, and whole-cell patch-clamp electrophysiology. KEY RESULTS: Advillin is expressed in about 25% of myenteric neurons of the mouse jejunum, and these neurons demonstrate the requisite properties of IPANs. Functionally, they demonstrate calcium responses following mechanical stimuli of the mucosa and during antidromic action potentials. They have Dogiel type II morphology with neural processes that mostly remain within the myenteric plexus, but also project to the mucosa and express NeuN and calcitonin gene-related peptide (CGRP), but not nNOS. CONCLUSIONS AND INFERENCES: Advillin marks jejunal IPANs providing accessibility to this important neuronal population to study and model digestive disease.

Enteric innervation combined with proteomics for the evaluation of the effects of chronic fluoride exposure on the duodenum of rats.

Ingested fluoride (F) is absorbed mainly in the small intestine, which is controlled by the Enteric Nervous System (ENS). Although important intestinal symptomatology has been described after excessive F exposure, there have been no studies reporting the effects of F on the ENS. In this study, the effects of chronic F exposure were evaluated on the duodenums of rats through proteomic and morphological analyses. Concentrations of 0, 10, or 50 ppm of F were applied to the drinking water for 30 days. Immunofluorescence techniques were performed in the myenteric plexus of the duodenum to detect HuC/D, neuronal nitric oxide (nNOS), vasoactive intestinal peptide (VIP), calcitonin gene related peptide (CGRP), and substance P (SP). The 50 ppm F group presented a significant decrease in the density of nNOS-IR neurons. Significant morphological alterations were also observed in HUC/D-IR and nNOS-IR neurons; VIP-IR, CGRP-IR, and SP-IR varicosities for both groups (10 and 50 ppm F). Proteomic analysis of the duodenum demonstrated alterations in the expression of several proteins, especially those related to important biological processes, such as protein polymerization, which helps to explain the downregulation of many proteins upon exposure to 50 ppm of F.

Avaliação da inervação entérica e análise proteômica do intestino delgado de ratos expostos à dose aguda ou crônica de fluoreto / Evaluation of enteric innervation and proteomic analysis of the small intestine of rats exposed to acute or chronic fluoride dose

O trato gastrointestinal (TGI) é a principal rota de exposição ao fluoreto (F) e o seu mais importante sítio de absorção. Acredita-se que a toxicidade do F comprometa a fisiologia do intestino, devido à relevante sintomatologia gastrointestinal relatada em consequência da exposição excessiva ao F. A função intestinal é controlada por uma complexa rede neuronal interligada e incorporada à parede deste órgão, denominada Sistema Nervoso Entérico (SNE). Embora os efeitos tóxicos do F sobre o Sistema Nervoso Central sejam descritos na literatura, não há estudos relacionados à sua toxicidade sobre o SNE. Neste estudo realizado em ratos, foi avaliado o efeito da exposição aguda ou crônica ao F, sobre a população geral de neurônios entéricos e sobre as subpopulações que expressam os principais neurotransmissores entéricos: Acetilcolina (ACh), Óxido Nítrico (NO), Peptídeo Vasoativo Intestinal (VIP), Peptídeo Relacionado ao Gene da Calcitonina (CGRP) e Substância P (SP). Os animais foram divididos em 5 grupos: 3 destinados à exposição crônica (0 ppm, 10 ppm ou 50 ppm de F na água de beber) e 2 à exposição aguda (0 ou 25 mgF/Kg por gavagem gástrica). Foram coletados os 3 segmentos do intestino delgado (duodeno, jejuno e íleo) e processados para a detecção da HuC/D, ChAT, nNOS, VIP, CGRP e SP, através de técnicas de imunofluorescência, no plexo mioentérico. Foram obtidas imagens para a realização da análise quantitativa dos neurônios da população geral (HuC/D) e nitrérgicos (imunorreativos à nNOS); e morfométrica dos neurônios imunorreativos à HuC/D ou nNOS; e das varicosidades imunorreativas à ChAT, VIP, CGRP ou SP. Amostras dos 3 segmentos intestinais foram preparadas e coradas em Hematoxilina e Eosina para análise histológica da morfologia básica. O segmento intestinal considerado mais afetado na análise morfométrica da população geral de neurônios, o duodeno, foi selecionado para a realização da análise proteômica, com o objetivo de oferecer o seu perfil proteico...

The gastrointestinal tract (GIT) is the main route of fluoride (F) exposure, and the most important site of its absorption. It is believed that F toxicity compromises the intestine physiology, due to the relevant gastrointestinal symptomatology reported in consequence to excessive exposure. The intestinal function is controlled by a complex neuronal net, which is interconnected and embedded in the wall of this organ, named Enteric Nervous System (ENS). Although the toxic effects of F on the Central Nervous system are described in the literature, there are no studies related to its toxicity on the ENS. Therefore, in this study performed in rats, the effects of chronic and acute F exposure were evaluated, on the general population of enteric neurons and on the subpopulations that express the main enteric neurotransmitters: Acetylcholine (Ach), Nitric Oxide (NO), Vasoactive Intestinal Peptide (VIP), Calcitonin gene related peptide (CGRP), and Substance P (SP). The animals were divided into 5 groups: 3 designed to the chronic exposure (0 ppm, 10 ppm ou 50 ppm de F in the drinking water) and 2 to the acute exposure (0 ou 25 mgF/Kg - gastric gavage). Three intestinal segments were collected (duodenum, jejunum, and ileum) and processed for the immunofluorescence techniques to detect HuC/D, ChAT, nNOS, VIP, CGRP and SP, on the myenteric plexus. Images were obtained for the quantitative analysis of the general population of neurons (HuC/D immunoreactive) and the nitrergic neurons (nNOS immunoreactive), for the morphometric analysis of the general population and nitrergic neurons and also for the immunoreactive varicosities to ChAT, VIP, CGRP or SP. Samples of the 3 intestinal segments were prepared and stained with hematoxylin and eosin for histological analysis of the basic morphology. Duodenum, the intestinal segment considered the most affected in the morphological analysis of the general population of neurons, was selected for the proteomic analysis...

Avaliação da inervação entérica e análise proteômica do intestino delgado de ratos expostos à dose aguda ou crônica de fluoreto / Evaluation of enteric innervation and proteomic analysis of the small intestine of rats exposed to acute or chronic fluoride dose

O trato gastrointestinal (TGI) é a principal rota de exposição ao fluoreto (F) e o seu mais importante sítio de absorção. Acredita-se que a toxicidade do F comprometa a fisiologia do intestino, devido à relevante sintomatologia gastrointestinal relatada em consequência da exposição excessiva ao F. A função intestinal é controlada por uma complexa rede neuronal interligada e incorporada à parede deste órgão, denominada Sistema Nervoso Entérico (SNE). Embora os efeitos tóxicos do F sobre o Sistema Nervoso Central sejam descritos na literatura, não há estudos relacionados à sua toxicidade sobre o SNE. Neste estudo realizado em ratos, foi avaliado o efeito da exposição aguda ou crônica ao F, sobre a população geral de neurônios entéricos e sobre as subpopulações que expressam os principais neurotransmissores entéricos: Acetilcolina (ACh), Óxido Nítrico (NO), Peptídeo Vasoativo Intestinal (VIP), Peptídeo Relacionado ao Gene da Calcitonina (CGRP) e Substância P (SP). Os animais foram divididos em 5 grupos: 3 destinados à exposição crônica (0 ppm, 10 ppm ou 50 ppm de F na água de beber) e 2 à exposição aguda (0 ou 25 mgF/Kg por gavagem gástrica). Foram coletados os 3 segmentos do intestino delgado (duodeno, jejuno e íleo) e processados para a detecção da HuC/D, ChAT, nNOS, VIP, CGRP e SP, através de técnicas de imunofluorescência, no plexo mioentérico. Foram obtidas imagens para a realização da análise quantitativa dos neurônios da população geral (HuC/D) e nitrérgicos (imunorreativos à nNOS); e morfométrica dos neurônios imunorreativos à HuC/D ou nNOS; e das varicosidades imunorreativas à ChAT, VIP, CGRP ou SP. Amostras dos 3 segmentos intestinais foram preparadas e coradas em Hematoxilina e Eosina para análise histológica da morfologia básica. O segmento intestinal considerado mais afetado na análise morfométrica da população geral de neurônios, o duodeno, foi selecionado para a realização da análise proteômica, com o objetivo de oferecer o seu perfil proteico...

The gastrointestinal tract (GIT) is the main route of fluoride (F) exposure, and the most important site of its absorption. It is believed that F toxicity compromises the intestine physiology, due to the relevant gastrointestinal symptomatology reported in consequence to excessive exposure. The intestinal function is controlled by a complex neuronal net, which is interconnected and embedded in the wall of this organ, named Enteric Nervous System (ENS). Although the toxic effects of F on the Central Nervous system are described in the literature, there are no studies related to its toxicity on the ENS. Therefore, in this study performed in rats, the effects of chronic and acute F exposure were evaluated, on the general population of enteric neurons and on the subpopulations that express the main enteric neurotransmitters: Acetylcholine (Ach), Nitric Oxide (NO), Vasoactive Intestinal Peptide (VIP), Calcitonin gene related peptide (CGRP), and Substance P (SP). The animals were divided into 5 groups: 3 designed to the chronic exposure (0 ppm, 10 ppm ou 50 ppm de F in the drinking water) and 2 to the acute exposure (0 ou 25 mgF/Kg - gastric gavage). Three intestinal segments were collected (duodenum, jejunum, and ileum) and processed for the immunofluorescence techniques to detect HuC/D, ChAT, nNOS, VIP, CGRP and SP, on the myenteric plexus. Images were obtained for the quantitative analysis of the general population of neurons (HuC/D immunoreactive) and the nitrergic neurons (nNOS immunoreactive), for the morphometric analysis of the general population and nitrergic neurons and also for the immunoreactive varicosities to ChAT, VIP, CGRP or SP. Samples of the 3 intestinal segments were prepared and stained with hematoxylin and eosin for histological analysis of the basic morphology. Duodenum, the intestinal segment considered the most affected in the morphological analysis of the general population of neurons, was selected for the proteomic analysis...

Enxerto sintético e biológico, com e sem preenchimento de veia jugular externa, no reparo de nervo periférico em ratos / Syntetic and biological graft, filled with the external jugular vein in the repair of peripheral nerve in rats

Apesar do desenvolvimento da tecnologia envolvendo o campo da regeneração em nervos periféricos, ainda não existe uma técnica para recuperação do tecido nervoso que apresente resultados totalmente satisfatórios, fato que desperta o interesse de vários pesquisadores em todo mundo e representa um desafio para os cirurgiões que realizam procedimentos reconstrutivos e estéticos. Embora o enxerto autólogo de nervo seja a melhor alternativa para a recuperação de nervos periféricos lesados, as técnicas que envolvem o reparo tubular têm alcançado excelentes resultados através da utilização de materiais sintéticos e biológicos, sob a forma de tubos, no reparo de extensos segmentos nervosos. Hoje, através dos avanços da engenharia tecidual, novos materiais estão em desenvolvimento, com o objetivo de aliar características microscópicas às técnicas cirúrgicas existentes. O colágeno, que é sabidamente um elemento promotor da proliferação celular e do reparo tecidual, tem sido amplamente utilizado em estudos de regeneração nervosa. Da mesma maneira, o ácido poli-láctico-poli-glicólico (PLGA), um copolímero sintético, tem apresentado algumas características favoráveis ao processo de regeneração, como biocompatibilidade e propriedades mecânicas adequadas. Com o propósito de facilitar a regeneração nervosa quando ocorre perda tecidual, uma técnica já difundida pode ser destacada: o enxerto de veia invertida, em que a veia jugular externa é utilizada ao avesso, funcionando como um tubo, criando um microambiente para a regeneração nervosa, através da exposição de elementos fundamentais da camada mais externa do vaso (túnica adventícia). Neste trabalho, agregamos como diferencial a utilização de dois tipos de membranas, especialmente desenvolvidas para fins odontológicos, que visam neoformação óssea, em um estudo que visa à regeneração de um nervo periférico misto, o nervo isquiático. As membranas de colágeno e PLGA foram colocadas na região do enxerto, sob a forma de tubo...

Despite the development of technology involved in peripheral nerve regeneration, there is no technique that presents a recovery of the nervous tissue with completely satisfactory results. This fact arouses interest of several researchers around the word. Although the autologous nerve grafting is the current gold standard for the repair of large nerve gaps, over the past decades the development of artificial nerve conduits has therefore been of great interest due to the excellent results achieved. Through the advances in tissue engineering, new materials, synthetic and biological, have been used for construct nerve guides. The collagen is one of the oldest natural polymers used as a biomaterial, and it is known as a promoter of cell proliferation and of tissue repair. In the same way, the synthetic copolymer, poly lactic-co-glycolic acid (PLGA), have been used for nerve regeneration, and it have shown some favorable characteristics to nerve repair such as stability, biocompatibility, and mechanical properties. With the purpose of facilitating the regeneration in large nerve gaps, the inside-out vein graft is a widespread technique, where the vein works as a conduit, and it provides a good microenvironment for axon regeneration through the exposition of some primordial elements of its adventitial layer. In this work, we join as a differential the use of two materials, specially developed for dental purposes, which are normally used to facilitate the osteogenesis, in a nerve regeneration study. We performed the surgical procedures in the sciatic nerve, with two types of membranes (PLGA and collagen), which were used as tubes, in order to promote the regeneration of this nerve. The collagen and PLGA membranes were used with the objective of a recovery in a 10-mm sciatic nerve gap model. These tubular implants were filled with a 5 mm segment of the jugular vein in order to verify the effectiveness of some biological molecules of the adventitia...

Morphological study of myoneural interaction between the levator labii superioris muscle and its motor nerve in rats / Estudio morfológico de la interacción mioneural entre el músculo elevador del labio superior y su nervio motor en ratas

The progress of science in search of new techniques of the nerve regeneration and the functional repair in reinnervated muscle has been the target of many researchers around the world. Consequently, nerves and muscles in different body segments asked for more enlightenment of their morphology, their interrelation with other anatomic structures and their peculiarities. One of the most significant areas that need deeper studies is the region of the head and neck, since they are often affected by important pathologies. In order to offer the researcher's community a morphological myoneural interaction model, this study elected the levator labii superioris muscle and its motor nerve, the buccal branch of the facial nerve (VII pair) not only for its special characteristics, but also its value on the facial expression. The rat was chosen for this investigation for being easy to obtain, to keep, to manipulate and to compare this experiment with many others studies previously published. The techniques used were Mesoscopic (dissection), histoenzymologic and morphometric ones.In the results the muscle proved to have a predominance of fast twich fibers (FG and FOG) and superficial location, with a proximal bone and a distal cutaneous insertion. Its motor nerve, the buccal branch of the facial nerve (VII pair), breaks through the muscle belly into its deep face, and comprised a heterogeneous group of myelinic nerve fibers disposed in a regular form in all fascicle. Near the motor point, the nerve showed to be composed of two fascicles with different sizes. Due to the small nerve dimensions, the nerve fibers have a smaller diameter if compared to the motor nerve of pectineus muscle of the cat. Further studies with neural tracers have already had a start in order to provide more information about the distribution and the architecture of these fibers.

El progreso de la ciencia en busca de nuevas técnicas para la regeneración neural y la recuperación funcional de los músculos reinervados, ha atraído el interés de muchos investigadores en todo el mundo. En consecuencia, los músculos y los nervios merecen más aclaraciones sobre su morfología, relaciones anatómicas y particularidades. Entre las áreas que merecen estudios más profundos y detallados, está la región de cabeza y cuello, que es a menudo afectada por enfermedades graves. Con el propósito de ofrecer a la comunidad científica un modelo morfológico de interacción mioneural, se eligió el músculo elevador del labio superior y su nervio motor, la rama bucal del nervio facial (VII par craneal), por sus especiales características y su importancia en la expresión facial. En esta investigación se optó por la rata, por las facilidades de obtención, de manejo y para comparar los datos obtenidos con estudios previos. Se utilizaron técnicas mesoscópicas de disección, histoenzimológicas y morfométricas. Los resultados mostraron un músculo con predominio de fibras de contracción rápida (FG y FOG), ubicación superficial, inserción proximal ósea e inserción distal en la piel. Su nervio motor, la rama bucal del nervio facial, ingresa en el vientre muscular en la cara profunda, y está compuesto por un grupo heterogéneo de fibras nerviosas mielínicas dispuestas de forma regular por todo el fascículo nervioso cerca del punto motor. El nervio es formado por dos fascículos de diferentes tamaños. Debido a las pequeñas dimensiones en la rata, el diámetro de las fibras nerviosas presenta valores reducidos, en comparación con el nervio motor del músculo pectíneo en el gato, por ejemplo. Los datos aportados podrán ser usados como referencia en estudios de regeneración en nervios y músculos. Otros estudios con marcadores neuronales se iniciaron para aclarar la distribución y la estructura de las fibras mencionadas.