Dedicated C-Fiber Vagal Sensory Afferent Pathways to the Paraventricular Nucleus of the Hypothalamus

Fawley, Jessica A., Hegarty, Deborah M., Aicher, Sue A., Beaumont, Eric, Andresen, Michael C.

15 October 2021

The nucleus of the solitary tract (NTS) receives viscerosensory information from the vagus nerve to regulate diverse homeostatic reflex functions. The NTS projects to a wide network of other brain regions, including the paraventricular nucleus of the hypothalamus (PVN). Here we examined the synaptic characteristics of primary afferent pathways to PVN-projecting NTS neurons in rat brainstem slices. Expression of the Transient Receptor Potential Vanilloid receptor (TRPV1+ ) distinguishes C-fiber afferents within the solitary tract (ST) from A-fibers (TRPV1-). We used resiniferatoxin (RTX), a TRPV1 agonist, to differentiate the two. The variability in the latency (jitter) of evoked excitatory postsynaptic currents (ST-EPSCs) distinguished monosynaptic from polysynaptic ST-EPSCs. Rhodamine injected into PVN was retrogradely transported to identify PVN-projecting NTS neurons within brainstem slices. Graded shocks to the ST elicited all-or-none EPSCs in rhodamine-positive NTS neurons with latencies that had either low jitter (<200 µs – monosynaptic), high jitter (>200 µs - polysynaptic inputs) or both. RTX blocked ST-evoked TRPV1 + EPSCs whether mono- or polysynaptic. Most PVN-projecting NTS neurons (17/21 neurons) had at least one input polysynaptically connected to the ST. Compared to unlabeled NTS neurons, PVN-projecting NTS neurons were more likely to receive indirect inputs and be higher order. Surprisingly, sEPSC rates for PVN-projecting neurons were double that of unlabeled NTS neurons. The ST synaptic responses for PVN-projecting NTS neurons were either all TRPV1+ or all TRPV1-, including neurons that received both direct and indirect inputs. Overall, PVN-projecting NTS neurons received direct and indirect vagal afferent information with strict segregation regarding TRPV1 expression.

hypothalamus

paraventricular nucleus

solitary tract nucleus

TRPV1

vagal afferent

Biomedical Sciences

Cross Talk Between TRPA1 and TRPV1 Ion-Channels: Role of Nitric Oxide

Sinharoy, Pritam

14 July 2016

No description available.

Cellular Biology

Biomedical Research

TRPing up the Balance of Oxidative Stress - Transient Receptor Potential Vanilloid 1’s Role in Diabetic Microvascular Disease

DelloStritto, Daniel Justin

January 2016

No description available.

Biology

Physiology

Rôle et localisation intraspinale du récepteur B1 des kinines dans la douleur neuropathique

Chahmi, Emna

12 1900

Le récepteur B1 des kinines (RB1) joue un rôle important dans l'inflammation et la nociception. Les sites de liaison du RB1 sont augmentés dans la moelle épinière et le ganglion de la racine dorsale (GRD) chez le rat après la ligature partielle du nerf sciatique (LPNS). Dans ce modèle classique de douleur neuropathique, le traitement aigu avec des antagonistes sélectifs du RB1 renverse l'hyperalgésie thermique mais non pas l’allodynie. Cette étude vise à définir dans ce modèle de LPNS: 1- les effets de traitements aigu et chronique avec des antagonistes du RB1 sur l’hyperalgésie thermique et les allodynies tactile et au froid; 2- la contribution du TRPV1 et du stress oxydatif dans la composante de la douleur neuropathique associée au RB1; 3- l’expression du RB1 au niveau de la moelle épinière lombaire, le GRD et le nerf sciatique par RT-PCR quantitatif (Reverse transcriptase-polymerase chain reaction); 4- la localisation cellulaire du RB1 dans la moelle épinière lombaire par microscopie confocale. L’hyperalgésie thermique et les allodynies tactile et au froid ont été mesurées par le réflexe de retrait de la patte arrière après l’application à la surface plantaire d’une source radiante de chaleur (méthode Hargreaves), de filaments de Von Frey et d’une goutte d’acétone qui produit une sensation de froid par évaporation. Nous avons montré, dans un premier temps, que l'hyperalgésie thermique et les allodynies tactile et au froid sont renversées par un traitement chronique avec l’antagoniste du RB1, SSR240612, administré par gavage à raison de 10 mg /kg/jr entre le 15 e et le 20 e jour après la ligature du nerf sciatique et par un traitement antioxydant, la N-acétyl-L-cystéine, administrée par gavage à la dose de 1g/kg/jr, 4jours précédant la ligature et pendant les 2 semaines après la ligature. Un traitement aigu avec le ii SSR240612 (10 mg/kg) ou avec un antagoniste du RB1 qui ne traverse pas la barrière hémato-encéphalique, le R-954 (2mg/kg, s.c.), n’a bloqué que l’hyperalgésie thermique. Dans un second temps, l’antagoniste du TRPV1, le SB366791, administré à raison de 1 mg/kg/jr par voie sous-cutanée du j-1 au j-14 a renversé l’allodynie tactile et l’hyperalgésie thermique. De plus, nous avons noté deux semaines après la LPNS, des augmentations significatives des niveaux d'ARNm du RB1 dans la moelle épinière lombaire, le nerf sciatique et le GRD du côté ipsilatéral à la ligature. Ces augmentations ont été renversées par le traitement avec la N-acétyl-L-cystéine et l’antagoniste du TRPV1. Le RB1 a été localisé au niveau des fibres de type C avec le marquage au CGRP (Calcitonin Gene-Related Peptide) et au niveau de la microglie utilisant le marquage au Iba-1 dans la moelle épinière lombaire des rats ayant subi une LPNS, 2 semaines plus tôt. Au terme de cette étude, nous avons suggéré que la surexpression du RB1 sur les fibres de type C contribuerait à l’hyperalgésie thermique alors que le RB1 sur la microglie dans la moelle épinière contribuerait aux allodynies tactile et au froid dans le modèle LPNS chez le rat. Le stress oxydatif pourrait être impliqué dans l’induction du RB1. Bien que le rôle du TRPV1 semble plutôt limité à la douleur thermique, il pourrait cependant agir via le RB1 sur les fibres de type C. / The kinin B1 receptor (B1R) plays an important role in inflammation and nociception. B1R binding sites are increased in the spinal cord and dorsal root ganglion (DRG) in rats after partial sciatic nerve ligation (PSNL). In this classic model of neuropathic pain, acute treatment with selective B1R antagonists reversed thermal hyperalgesia but not allodynia. This study aims at determining in this model of PSNL: 1- the acute and chronic effects of B1R antagonists on thermal hyperalgesia and tactile and cold allodynia; 2- the contribution of TRPV1 and the oxidative stress in the component of neuropathic pain associated to B1R; 3 - the expression of B1R in the lumbar spinal cord, the DRG and the sciatic nerve by quantitative RT-PCR (Reverse transcriptase-polymerase chain reaction); 4 - the cellular localization of B1R in the lumbar spinal cord by confocal microscopy. Thermal hyperalgesia and tactile and cold allodynia were measured by the reflex withdrawal of the hindpaw after application to the plantar surface of a radiant heat source (Hargreaves method), Von Frey filaments and a drop of acetone that produces a sensation of cold by evaporation. We have shown, firstly, that the thermal hyperalgesia and tactile and cold allodynia are reversed by chronic treatment with the B1R antagonist, SSR240612, administered by gavage at a dose of 10 mg/ kg / day from day 15 to day 20 after sciatic nerve ligation and with antioxidant treatment, N-acetyl-L-cysteine, administered by gavage at a dose of 1g /kg/ day, four days before ligation and for two weeks after ligation. Acute treatment with SSR240612 (10 mg/kg) or with the B1R antagonist R-954 (2 mg/kg, s.c.) which does not pass the blood-brain barrier blocked thermal hyperalgesia only.

allodynie

Douleur neuropathique

RB1

Hyperalgésie thermique

Kinines

Ligature partielle du nerf sciatique

Moelle épinière

Microglie

Stress oxydatif

TRPV1

Allodynia

Kinin

Migroglia

Neuropathic pain

Oxidative stress

Partial sciatic nerve ligation

Spinal cord

Thermal hyperalgesia

TRPV1

RB1

Le rôle du récepteur B1 des kinines dans l'insulite et dans les complications du diabète de type 1 dans un modèle de choc spectique

Tidjane, Nejla

04 1900

Les kinines sont des peptides vasoactifs et des neuromédiateurs centraux impliqués dans le contrôle cardiovasculaire, la douleur et l’inflammation. Leurs actions sont relayées par deux types de récepteurs couplés aux protéines G : le récepteur B2 (RB2), constitutif, et le récepteur B1 (RB1), inductible en présence de lésions tissulaires, de cytokines pro-inflammatoires, d’endotoxines bactériennes et dans certaines pathologies tel que le diabète. Le diabète sucré augmente à l’échelle mondiale et son étiologie est complexe; il aggrave les infections sévères et augmente la mortalité par hyperbactériémie résistante à un contrôle thérapeutique et une prise en charge en soins intensifs. Les décès surviennent dans la grande majorité des cas à la suite de l'apparition d'une coagulation intra- vasculaire disséminée (CIVD). Ce projet a pour but d’étudier le rôle du RB1 dans la CIVD dans un modèle de diabète de type 1 induit par la streptozotocine (STZ) (Article 1) et dans l’insulite (Article 2). La CIVD est produite par l’injection de lipopolysaccharide (LPS, 2 mg/kg, i.p.), 4 jours après le traitement à la STZ (65 mg/kg, i.p.). Dans le premier article, nous avons montré une augmentation significative de l'œdème et de la perméabilité vasculaire par le bleu d’Évans dans le rein, le poumon, le coeur et le foie chez les rats traités au LPS et/ou à la STZ, une situation qui favorise une hémoconcentration et le développement d'un état d'hypercoagulabilité. Nous avons aussi montré la présence d'indices de thrombus et de lésions tissulaires dans l'étude histologique ainsi qu’une augmentation de l'expression du RB1 dans le coeur, le rein et les plaquettes sanguines. Un traitement avec l’antagoniste du RB1, le SSR240612, a corrigé l’apparition de ces anomalies et a rendu normale la glycémie chez les rats STZ et l’hyperthermie induite par le LPS. De même, le SSR240612 a nettement amélioré la survie des animaux. Les bénéfices du SSR240612 ont été reproduits par l’inhibition de la iNOS avec le 1400W et de la COX-2 avec l’acide niflumique, suggérant que les médiateurs de ces enzymes pro-inflammatoires agissent en aval du RB1.Dans le deuxième article, le rat STZ est traité du jour 4 au jour 7 avec le SSR240612 (10 mg/kg/jr per os). Cet antagoniste du RB1 bloque l’infiltration du pancréas par les macrophages et les lymphocytes TCD4+ qui sont porteurs du RB1. L’antagoniste prévient aussi l’augmentation de l’expression de la iNOS, du TNF-α, du RB1 et du TRPV1 dans le pancréas des rats diabétiques. Le traitement avec l’antagoniste du RB1 a limité la perte des cellules β des îlots de Langerhans et a corrigé l’hypoinsulinémie et l’hyperglycémie. Ces deux études mettent en lumière un rôle important du RB1 dans la létalité associée au choc septique, à la thrombose et à l’insulite. Par conséquent, le RB1 représente une cible thérapeutique prometteuse dans le traitement du diabète et de ses complications. / Kinins are vasoactive peptides and central neuromediators involved in cardiovascular control, pain and inflammation. Their effects are mediated by two G protein-coupled receptors: the constitutive B2 receptor (B2R) and the inducible B1 receptor (B1R) that is upregulated during tissue injury, in the presence of proinflammatory cytokines, bacterial endotoxins and diabetes. Diabetes has reached epidemic level and its etiology is complex. Diabetes mellitus worsens severe infections and increases mortality caused by hyperbacteremia resistant to therapeutic control and management in intensive care units. Mortality is largely secondary to the occurrence of disseminated intravascular coagulation (DIC). This project examines the role of B1R in DIC in a model of type 1 diabetes induced by streptozotocin (STZ) (Article 1) and insulitis (Article 2). DIC was induced by injection of lipopolysaccharide (LPS, 2 mg/kg i.p.) four days after treatment with STZ (65 mg/kg, i.p.). In the first article, we have shown a significant increase in edema and vascular permeability (Evans blue) in kidney, lung, heart and liver in rats treated with LPS and/or STZ, increasing the haemoconcentration and the development of hypercoagulability state. Also, we showed the presence of thrombus formation and tissue damage by histological studies, and increased expression of B1R in the heart, kidney and platelets. Treatment with the B1R antagonist, SSR240612, alleviated all those abnormalities, in addition to reducing hyperglycemia in STZ rats, LPS-induced hyperthermia and improving survival. The beneficial effects of SSR240612 were reproduced by the inhibition of iNOS with 1400W and of COX-2 with niflumic acid, suggesting that the mediators of these proinflammatory enzymes act downstream to B1R. In the second article, STZ rats were treated with SSR240612 (10 mg/kg/d, per os) from day 4 to day 7. This B1R antagonist blocked the infiltration of the pancreas by macrophages andTCD4+ lymphocytes which express B1R. The antagonist also prevented the increased expression of iNOS, TNF-α, B1R and TRPV1 in the pancreas of STZ-diabetic rats. The treatment with the B1R antagonist limited the loss of Langerhans β cells, which improved plasma insulin and normalized hyperglycemia. These studies highlight a primary role for B1R in lethality associated with septic shock, thrombosis and insulitis. Therefore, kinin B1R is a promising therapeutic target in the treatment of diabetes and its complications.

diabète

Lipopolysaccharide

Choc septique

TRPV1

lymphocyte TCD4+

TRPV1

Assaut immun

Récepteur B1 des kinines

Streptozotocine

Hyperglycémie

Diabetes

Immune assault

Kinin B1 receptor

Streptozotocin

hyperglycemia

Macrophage

Mecanismos envolvidos no perfil antipsicótico do canabidiol / Mechanisms involved in cannabidiol antipsychotic profile

Pedrazzi, João Francisco Cordeiro

05 October 2018

A esquizofrenia é uma desordem altamente incapacitante que atinge cerca de 1% da população, envolvendo desequilíbrio da neurotransmissão dopaminérgica e uma hipofunção glutamatérgica. Portadores dessa doença apresentam deficiência do processamento de informações caracterizada por prejuízo no teste de inibição pré-pulso (prepulse inhibition - PPI). Essa condição pode ser reproduzida em modelos experimentais, pelo tratamento com psicoestimulantes, como a anfetamina (ANF) e atenuado/revertido pelo tratamento com antipsicóticos. O canabidiol (CBD) é o principal componente não psicotomimético da Cannabis sativa. Estudos clínicos e pré-clínicos sugerem que o CBD apresenta perfil antipsicótico, com baixa indução de efeitos adversos. Contudo, até o momento poucos estudos foram realizados com o objetivo de investigar os mecanismos farmacológicos e/ou moleculares envolvidos nesse perfil. Os prováveis mecanismos envolvidos com as propriedades antipsicóticas do CBD parecem envolver a ativação de receptores TRPV1 e o aumento da sinalização do endocanabinoide anandamida. No presente estudo, demonstramos que os receptores TRPV1 e o aumento da disponibilidade de anandamida parecem participar do perfil antipsicótico do CBD. Nessas investigações, não observamos participação dos receptores 5-HT1A. A microinjeção de CBD no córtex pré-frontal (CPF), estrutura envolvida com a fisiopatologia da esquizofrenia e um provável sítio para ação de antipsicóticos, não atenuou o prejuízo induzido por ANF no PPI. Recentemente, mecanismos epigenéticos, como a metilação do DNA, têm sido associados à fisiopatologia da esquizofrenia. Nesse sentido, avaliamos o envolvimento da metilação do DNA em estruturas envolvidas com a neurobiologia da esquizofrenia regulada por CBD, sobre as respostas comportamentais induzidas por drogas psicotomiméticas. Verificamos que a ANF causa um aumento da metilação global no estriado ventral, efeito bloqueado pelo pré-tratamento com CBD e de forma semelhante com o antipsicótico clozapina (CLZ). Não observamos alterações na metilação global no CPF. O tratamento com MK-801 não alterou a metilação global nas duas estruturas anteriormente citadas. Protocolo experimental semelhante foi utilizado em mais duas abordagens: (i) a expressão do fator neurotrófico do cérebro (BDNF), relacionado com a manutenção, crescimento e diferenciação dos neurônios está aumentada no hipocampo dos animais tratados com a associação CBD e ANF, padrão semelhante foi observado com a associação CLZ e ANF. (ii) a expressão de fosfo-histona acetilada, um marcador que indica alterações na cromatina, intimamente ligada com as alterações da expressão gênica está aumentada no núcleo acumbens e CPF dos animais tratados com a associação CBD e ANF. Os dados aqui apresentados sugerem que os receptores TRPV1 e o endocanabinoide anandamida parecem estar envolvidos com o perfil antipsicótico do CBD. Pela primeira vez foi demonstrado que tanto o pré-tratamento com CBD ou CLZ podem alterar o aumento da metilação global de DNA induzido por ANF. Além disso, a expressão de BDNF no hipocampo e a expressão de fosfo-histona acetilada podem ser outros mecanismos que merecem atenção em relação ao perfil antipsicótico do CBD. / Schizophrenia is a highly disabling disorder that affects about 1% of the population and involves impaired dopaminergic neurotransmission and glutamatergic hypofunction. Patients with this disorder have a deficiency in information processing characterized by disruption in the prepulse inhibition (PPI) test. This condition can be reproduced in experimental models by treatment with psychostimulants such as amphetamine and attenuated / reversed by treatment with antipsychotics. Cannabidiol (CBD) is the main non-psychotomimetic component of Cannabis sativa. Clinical and preclinical studies suggest that CBD has an antipsychotic profile, with low induction of adverse effects. However, to date, few studies have been carried out to investigate the pharmacological and / or molecular mechanisms involved in this outcome. The likely mechanisms involved with the antipsychotic properties of CBD appear to involve activation of TRPV1 receptors and increased endocannabinoid anandamide signaling. In the present study, we demonstrated that TRPV1 receptors and the increased availability of anandamide appear to participate in the CBD antipsychotic profile. In these investigations, we did not observe participation of 5-HT1A receptors. Microinjection of CBD in the prefrontal cortex, structure involved in the pathophysiology of schizophrenia and a probable site of antipsychotic action, did not attenuate the amphetamine-induced disruption in PPI. Recently, epigenetic mechanisms, such as DNA methylation, have been associated with the pathophysiology of schizophrenia. In this sense, we also evaluated the involvement of DNA methylation in structures involved with the neurobiology of CBD-regulated schizophrenia on behavioral responses induced by psychotomimetic drugs. We found that amphetamine causes increased global methylation in the ventral striatum, an effect blocked by pre-treatment with CBD and similarly with the antipsychotic clozapine. We did not observe changes in the global methylation in prefrontal cortex. Treatment with MK-801 did not alter the global methylation in the two aforementioned structures. Similar experimental protocol was used in two other approaches: (i) brain neurotrophic factor (BDNF) expression, related to the maintenance, growth and differentiation of neurons is increased in the hippocampus of animals treated with CBD and amphetamine; a similar pattern was observed with the association clozapine and amphetamine. (ii) the expression of acetylated phospho-histone, a marker indicating changes in chromatin, closely linked to changes in gene expression is increased in the nucleus acumbens and CPF in animals treated with the CBD and amphetamine combination. The data presented here suggest TRPV1 receptors and the endocannabinoid anandamide seem to be involved with the antipsychotic profile of CBD. For the first time it has been shown that both pre-treatment with CBD or clozapine may alter the increase in overall DNA methylation induced by amphetamine. In addition, the expression of BDNF in the hippocampus and the expression of acetylated phospho-histone may be different mechanisms that deserve attention in relation to the antipsychotic profile of CBD.

Anandamida

Anandamide

BDNF

BDNF

Canabidiol

Cannabidiol

Córtex pré-frontal

DNA methylation

Estriado ventral

Fosfohistona acetilada

Hipocampo

Hippocampus

Information processing

Metilação do DNA

Phosphoacetylated histone

Prefrontal cortex

Processamento de informações

TRPV1

TRPV1

Ventral striatum

Active and Passive Biomechanical Measurements for Characterization and Stimulation of Biological Cells

Gyger, Markus

26 September 2013

From a physical perspective biological cells consist of active soft matter that exist in a thermodynamic state far from equilibrium. Not only in muscles but also during cell proliferation, wound healing, embryonic development, and many other physiological tasks, generation of forces on the scale of whole cells is required. To date, cellular contractions have been ascribed to adhesion dependent processes such as myosin driven stress fiber formation and the development of focal adhesion complexes. In this thesis it is shown for the first time that contractions can occur independently of focal adhesions in single suspended cells. To measure mechanical properties of suspended cells the Optical Stretcher – a dualbeam laser trap – was used with phase contrast video microscopy which allowed to extract the deformation of the cell for every single frame. For fluorescence imaging confocal laser scanning microscopy was employed. The ratio of the fluorescence of a temperature sensitive and a temperature insensitive rhodamine dye was utilized to determine the temperatures inside the optical trap during and after Optical Stretching. The rise in temperature at a measuring power of 0.7W turned out to be enough to open a temperature sensitive ion channel transfected into an epithelial cell line. In this way a massive Ca2+ influx was triggered during the Optical Stretcher experiment. A new setup combining Optical Stretching and confocal laser scanning microscopy allowed fluorescence imaging of these Ca2+ signals while the cells were deformed by optically induced surface forces, showing that the Ca2+ influx could be manipulated with adequate drugs. This model system was then employed to investigate the influence of Ca2+ on the observed contractions, revealing that they are partially triggered by Ca2+. A phenomenological mathematical model based on the fundamental constitutive equation for linear viscoelastic materials extended by a term accounting for active contractions allowed to quantify the activity of the measured cells. The skewness and the median of the strain distributions were shown to depend on the activity of the cells. The introduced model reveals that even in measurements, that seemingly are describable by passive viscoelasticity, active contractililty might be superimposed. Ignoring this effect will lead to erroneous material properties and misinterpretation of the data. Taken together, the findings presented in this thesis demonstrate that active processes are an essential part of cellular mechanics and cells can contract even independently of adhesions. The results provide a method that allows to quantify active contractions of suspended cells. As the proposed model is not based on specific assumptions on force generating processes, it paves the way for a thorough investigation of different influences, such as cytoskeletal structures and intra-cellular signaling processes, to cellular contractions. The results present an important contribution for better mechanical classification of cells in future research with possible implications for medical diagnosis and therapy.

Aktive weiche Materie

Calcium

Optical Stretcher

Zellrheologie

Calcium Imaging

TRPV1

HEK293

fundamentale Materialgleichung

Zellkontraktionen

Epithelzellen

active soft matter

calcium

Optical Stretcher

cell rheology

calcium imaging

TRPV1

HEK293

fundamental constitutive equation

cellular contraction

epithelial cells

ddc:530

ddc:570

Rôle et localisation intraspinale du récepteur B1 des kinines dans la douleur neuropathique

Chahmi, Emna

12 1900

Le récepteur B1 des kinines (RB1) joue un rôle important dans l'inflammation et la nociception. Les sites de liaison du RB1 sont augmentés dans la moelle épinière et le ganglion de la racine dorsale (GRD) chez le rat après la ligature partielle du nerf sciatique (LPNS). Dans ce modèle classique de douleur neuropathique, le traitement aigu avec des antagonistes sélectifs du RB1 renverse l'hyperalgésie thermique mais non pas l’allodynie. Cette étude vise à définir dans ce modèle de LPNS: 1- les effets de traitements aigu et chronique avec des antagonistes du RB1 sur l’hyperalgésie thermique et les allodynies tactile et au froid; 2- la contribution du TRPV1 et du stress oxydatif dans la composante de la douleur neuropathique associée au RB1; 3- l’expression du RB1 au niveau de la moelle épinière lombaire, le GRD et le nerf sciatique par RT-PCR quantitatif (Reverse transcriptase-polymerase chain reaction); 4- la localisation cellulaire du RB1 dans la moelle épinière lombaire par microscopie confocale. L’hyperalgésie thermique et les allodynies tactile et au froid ont été mesurées par le réflexe de retrait de la patte arrière après l’application à la surface plantaire d’une source radiante de chaleur (méthode Hargreaves), de filaments de Von Frey et d’une goutte d’acétone qui produit une sensation de froid par évaporation. Nous avons montré, dans un premier temps, que l'hyperalgésie thermique et les allodynies tactile et au froid sont renversées par un traitement chronique avec l’antagoniste du RB1, SSR240612, administré par gavage à raison de 10 mg /kg/jr entre le 15 e et le 20 e jour après la ligature du nerf sciatique et par un traitement antioxydant, la N-acétyl-L-cystéine, administrée par gavage à la dose de 1g/kg/jr, 4jours précédant la ligature et pendant les 2 semaines après la ligature. Un traitement aigu avec le ii SSR240612 (10 mg/kg) ou avec un antagoniste du RB1 qui ne traverse pas la barrière hémato-encéphalique, le R-954 (2mg/kg, s.c.), n’a bloqué que l’hyperalgésie thermique. Dans un second temps, l’antagoniste du TRPV1, le SB366791, administré à raison de 1 mg/kg/jr par voie sous-cutanée du j-1 au j-14 a renversé l’allodynie tactile et l’hyperalgésie thermique. De plus, nous avons noté deux semaines après la LPNS, des augmentations significatives des niveaux d'ARNm du RB1 dans la moelle épinière lombaire, le nerf sciatique et le GRD du côté ipsilatéral à la ligature. Ces augmentations ont été renversées par le traitement avec la N-acétyl-L-cystéine et l’antagoniste du TRPV1. Le RB1 a été localisé au niveau des fibres de type C avec le marquage au CGRP (Calcitonin Gene-Related Peptide) et au niveau de la microglie utilisant le marquage au Iba-1 dans la moelle épinière lombaire des rats ayant subi une LPNS, 2 semaines plus tôt. Au terme de cette étude, nous avons suggéré que la surexpression du RB1 sur les fibres de type C contribuerait à l’hyperalgésie thermique alors que le RB1 sur la microglie dans la moelle épinière contribuerait aux allodynies tactile et au froid dans le modèle LPNS chez le rat. Le stress oxydatif pourrait être impliqué dans l’induction du RB1. Bien que le rôle du TRPV1 semble plutôt limité à la douleur thermique, il pourrait cependant agir via le RB1 sur les fibres de type C. / The kinin B1 receptor (B1R) plays an important role in inflammation and nociception. B1R binding sites are increased in the spinal cord and dorsal root ganglion (DRG) in rats after partial sciatic nerve ligation (PSNL). In this classic model of neuropathic pain, acute treatment with selective B1R antagonists reversed thermal hyperalgesia but not allodynia. This study aims at determining in this model of PSNL: 1- the acute and chronic effects of B1R antagonists on thermal hyperalgesia and tactile and cold allodynia; 2- the contribution of TRPV1 and the oxidative stress in the component of neuropathic pain associated to B1R; 3 - the expression of B1R in the lumbar spinal cord, the DRG and the sciatic nerve by quantitative RT-PCR (Reverse transcriptase-polymerase chain reaction); 4 - the cellular localization of B1R in the lumbar spinal cord by confocal microscopy. Thermal hyperalgesia and tactile and cold allodynia were measured by the reflex withdrawal of the hindpaw after application to the plantar surface of a radiant heat source (Hargreaves method), Von Frey filaments and a drop of acetone that produces a sensation of cold by evaporation. We have shown, firstly, that the thermal hyperalgesia and tactile and cold allodynia are reversed by chronic treatment with the B1R antagonist, SSR240612, administered by gavage at a dose of 10 mg/ kg / day from day 15 to day 20 after sciatic nerve ligation and with antioxidant treatment, N-acetyl-L-cysteine, administered by gavage at a dose of 1g /kg/ day, four days before ligation and for two weeks after ligation. Acute treatment with SSR240612 (10 mg/kg) or with the B1R antagonist R-954 (2 mg/kg, s.c.) which does not pass the blood-brain barrier blocked thermal hyperalgesia only.

allodynie

Douleur neuropathique

RB1

Hyperalgésie thermique

Kinines

Ligature partielle du nerf sciatique

Moelle épinière

Microglie

Stress oxydatif

TRPV1

Allodynia

Kinin

Migroglia

Neuropathic pain

Oxidative stress

Partial sciatic nerve ligation

Spinal cord

Thermal hyperalgesia

TRPV1

RB1

Efeito do S-nitroso-N-acetilpenicilamina sobre receptores vaniloide de potencial transitório 1 em córnea de camundongos / Effect of S-nitroso-N-acetylpenicillamine on transient receptors potencial vanilloid type 1 in córnea of mice

Larissa Domenegueti Ferreira

10 June 2016

Introdução: Receptores TRPV1 são canais catiônicos nociceptivos não seletivos. Eles desempenham um papel na sensação de dor na córnea. No presente trabalho, descreveremos a resposta do TRPV1 na córnea de camundongos e TRPV1 -/- a estímulos químicos e o efeito do SNAP sobre este receptor. Métodos: camundongos C57BL/6 e TRPV1 -/- foram comparados. As observações incluíram o influxo de cálcio na cultura, observação direta e o comportamento de limpeza do olho após o desafio na córnea com 1µM da capsaicina (CAP) com ou sem 1mM do colírio SNAP. Resultados: As características da superfície ocular não eram diferentes entre ambos os genótipos, exceto que a sensibilidade para CAP é inferior em TRPV1 -/- (p = 0,0019 e 0,0095, respectivamente). A imunocoloração revelou que TRPV1 é expresso na camada basal do epitélio da córnea, apenas nos camundongos C57BL/6. CAP estimula o influxo de cálcio em cultura de células epiteliais e a sensibilidade corneana em C57BL/6 in vivo foi reduzida na presença do SNAP (p = 0,0329 e 0,01, respectivamente). Conclusão: A ausência dos receptores TRPV1 no epitélio da córnea não afeta o fenótipo da superfície ocular de camundongos. A resposta para tirar colírios revelou que ela poderia funcionar como uma terapia analgésica devido ao seu antagonismo com o TRPV1. / TRPV-1 receptors are non-selective nocioceptive cation channels. They play a role in cornea sensation. In the present work we describe the response of corneas of TRPV1-/- and mice to chemical stimuli and the effect of SNAP on this receptor. TRPV1-/- and C57BL/6 mice were compared. The observations included the calcium influx in culture, direct observation and the behavior of eye wipe after corneal challenge with 1?M Capsaicin (CAP) with or not 1mM SNAP eye drops. Ocular surface characteristics were not different between both genotypes, except that the sensitivity to CAP is lower in TRPV1-/- (p=0.0019 and 0.0095, respectively). Immunostaining revealed that TRPV 1 is expressed in the basal layer of the cornea epithelia, only in the C57 mice. CAP stimulated calcium influx in epithelial cells in culture and cornea sensitivity in C57 mice in vivo was reduced in the presence of SNAP (p=0.0329 and 0.01, respectively). The absence of TRPV-1 receptors in the cornea epithelia did not affect the ocular surface phenotype in mice. The response to SNAP eye drops revealed that it could work as an analgesic therapy due to its antagonism to the TRPV1.

Camundongo

Córnea

SNAP

TRPV1

Cornea

Mouse

SNAP

Transient receptor potential vanilloid

TRPV-1

Efeito do S-nitroso-N-acetilpenicilamina sobre receptores vaniloide de potencial transitório 1 em córnea de camundongos / Effect of S-nitroso-N-acetylpenicillamine on transient receptors potencial vanilloid type 1 in córnea of mice

Ferreira, Larissa Domenegueti

10 June 2016

Introdução: Receptores TRPV1 são canais catiônicos nociceptivos não seletivos. Eles desempenham um papel na sensação de dor na córnea. No presente trabalho, descreveremos a resposta do TRPV1 na córnea de camundongos e TRPV1 -/- a estímulos químicos e o efeito do SNAP sobre este receptor. Métodos: camundongos C57BL/6 e TRPV1 -/- foram comparados. As observações incluíram o influxo de cálcio na cultura, observação direta e o comportamento de limpeza do olho após o desafio na córnea com 1µM da capsaicina (CAP) com ou sem 1mM do colírio SNAP. Resultados: As características da superfície ocular não eram diferentes entre ambos os genótipos, exceto que a sensibilidade para CAP é inferior em TRPV1 -/- (p = 0,0019 e 0,0095, respectivamente). A imunocoloração revelou que TRPV1 é expresso na camada basal do epitélio da córnea, apenas nos camundongos C57BL/6. CAP estimula o influxo de cálcio em cultura de células epiteliais e a sensibilidade corneana em C57BL/6 in vivo foi reduzida na presença do SNAP (p = 0,0329 e 0,01, respectivamente). Conclusão: A ausência dos receptores TRPV1 no epitélio da córnea não afeta o fenótipo da superfície ocular de camundongos. A resposta para tirar colírios revelou que ela poderia funcionar como uma terapia analgésica devido ao seu antagonismo com o TRPV1. / TRPV-1 receptors are non-selective nocioceptive cation channels. They play a role in cornea sensation. In the present work we describe the response of corneas of TRPV1-/- and mice to chemical stimuli and the effect of SNAP on this receptor. TRPV1-/- and C57BL/6 mice were compared. The observations included the calcium influx in culture, direct observation and the behavior of eye wipe after corneal challenge with 1?M Capsaicin (CAP) with or not 1mM SNAP eye drops. Ocular surface characteristics were not different between both genotypes, except that the sensitivity to CAP is lower in TRPV1-/- (p=0.0019 and 0.0095, respectively). Immunostaining revealed that TRPV 1 is expressed in the basal layer of the cornea epithelia, only in the C57 mice. CAP stimulated calcium influx in epithelial cells in culture and cornea sensitivity in C57 mice in vivo was reduced in the presence of SNAP (p=0.0329 and 0.01, respectively). The absence of TRPV-1 receptors in the cornea epithelia did not affect the ocular surface phenotype in mice. The response to SNAP eye drops revealed that it could work as an analgesic therapy due to its antagonism to the TRPV1.

Camundongo

Cornea

Córnea

Mouse

SNAP

SNAP

Transient receptor potential vanilloid

TRPV-1

TRPV1