The Effect of High Cervical Spinal Cord Stimulation on the Expression of SP, Nk-1 and TRPV1 mRNAs During Cardiac Ischemia in Rat

Ding, Xiao Hui, Mountain, Deidra J.Hopkins, Subramanian, Venkateswaran, Singh, Krishna, Williams, Carole Ann

07 September 2007

Spinal cord stimulation (SCS) is used to reduce angina that accompanies cardiac ischemia, but little is known about the molecular mechanisms mediating this effect. We studied the expression of SP, neurokinin-1 (NK-1) receptor, and transient receptor potential vanilloid type 1 (TRPV1) mRNA in the rat spinal cord at thoracic 4 (T4), cervical 2 (C2) and caudal brain stem by RT-PCR during intermittent occlusion of the left anterior descending coronary artery (CoAO), during sustained SCS by itself at the C2 spinal segment, and during sustained SCS plus intermittent CoAO. Only SP mRNA was increased significantly in T4 and brainstem during CoAO, while SCS decreased the mRNA levels of SP, NK-1 and TRPV1 significantly in T4 and the brainstem. SCS attenuated the increase of SP and TRPV1 mRNA levels at T4 level induced by intermittent CoAO when the stimulation was applied prior to the initiation of the cardiac ischemia. These results support the role for SP as a putative neurotransmitter for the myocardial ischemia-sensitive afferent neuron signal to the spinal level. They suggest that modification of the ischemic cardiac nociceptive afferent signal by SCS involves a change in SP and TRPV1 expression.

cardiac ischemia

NK-1 receptor

spinal cord stimulation (SCS)

Substance P (SP)

Biomedical Sciences

Substance P, récepteurs NK1 et neurones à sérotonine : relations anatomiques et fonctionnelles dans le noyau raphe dorsalis

Baptiste, Lacoste

06 1900

Nous avons étudié les relations anatomiques entre les systèmes de neurotransmission à substance P (SP) et à sérotonine (5-hydroxytryptamine, 5-HT) dans le noyau du raphé dorsal (NRD) du rongeur, afin de mieux comprendre les interactions entre ces systèmes durant la régulation de l’humeur. Le NRD reçoit une innervation SP provenant de l’habenula, et le blocage pharmacologique des récepteurs neurokinine-1 (rNK1) de la SP aurait des effets antidépresseurs. Chez le rongeur, le traitement par les antagonistes des rNK1 s’accompagne d’une désensibilisation des autorécepteurs 5-HT1A de la 5-HT et d’une hausse de l’activité des neurones 5-HT dans le NRD, suggérant des interactions locales entre ces deux systèmes. Dans un premier temps, nous avons démontré par doubles marquages immunocytochimiques en microscopies optique, confocale et électronique, la présence du rNK1 dans une sous-population de neurones 5-HT du NRD caudal. Lors de l’analyse en microscopie électronique, nous avons pu constater que les rNK1 étaient principalement cytoplasmiques dans les neurones 5-HT et membranaires sur les neurones non 5-HT du noyau. Grâce à d’autres doubles marquages, nous avons aussi pu identifier les neurones non-5-HT porteurs de rNK1 comme étant GABAergiques. Nous avons ensuite combiné l’immunomarquage de la SP avec celui du rNK1, dans le but d’examiner les relations entre les terminaisons (varicosités *) axonales SP et les neurones 5-HT (pourvus de rNK1 cytoplasmiques du NRD caudal. En simple marquage de la SP, nous avons pu estimer à 41% la fréquence avec laquelle les terminaisons SP font synapse. Dans le matériel doublement marqué pour la SP et son récepteur, les terminaisons SP ont été fréquemment retrouvées en contact direct ou à proximité des dendrites munies de rNK1 cytoplasmiques, mais toujours éloignées des dendrites à rNK1 membranaires. Pour tester l’hypothèse d’une internalisation soutenue des rNK1 par la SP dans les neurones 5-HT, nous avons ensuite examiné la localisation subcellulaire du récepteur chez le rat traité avec un antagoniste du rNK1, le RP67580. La densité du marquage des rNK1 a été mesurée dans le cytoplasme et sur la membrane des deux types de dendrites (5-HT: rNK1 cytoplasmiques; non 5-HT: rNK1 membranaires). Une heure après une injection unique de l’antagoniste, la distribution du rNK1 est apparue inchangée dans les deux types de neurones (5-HT et non 5-HT). Par contre, après un traitement quotidien de 7 ou 21 jours avec l’antagoniste, nous avons mesuré une augmentation significative des densités cytoplasmique et membranaire du rNK1 dans les neurones 5-HT, sans aucun changement dans les neurones non 5-HT. Ces traitements ont aussi augmenté l’expression du gène rNK1 dans le NRD. Enfin, nous avons mesuré une hausse de la densité membranaire du rNK1 dans les neurones 5-HT, sans hausse de densité cytoplasmique, par suite d’une lésion bilatérale de l’habenula. Ces résultats confortent l’hypothèse d’une activation et d’une internalisation soutenues des rNK1 par la SP dans les neurones 5-HT du NRD caudal. Ils suggèrent aussi que le trafic des rNK1 dans les neurones 5-HT du NRD représente un mécanisme cellulaire en contrôle de l’activation du système 5-HT par les afférences SP en provenance de l’habenula. / We have studied in detail the relationships between substance P (SP) and serotonin (5-hydroxytryptamine, 5-HT) neurotransmission systems in the dorsal raphe nucleus (DRN) of rodents, in order to further our understanding of their interaction during mood regulation. The DRN receives a SP innervation arising from the habenula and, in human, it is known that blockade of the neurokinin-1 receptor (NK1r) of SP by antagonists may have antidepressant effects. In rodents, treatment with NK1r antagonists is known to increase the firing of DRN 5-HT neurons and to induce a desensitization of their 5-HT1A autoreceptors, suggesting local interactions between the SP and 5-HT systems. In a first step, we were able to demonstrate by means of light, confocal, and electron microscopic immunocytochemistry, including double immunolabelings of NK1r and of the biosynthetic enzyme of 5-HT, tryptophane hydroxylase, the presence of NK1r in a subpopulation of 5-HT neurons in the caudal DRN of rat and mouse. After the dual immunolabelings for electron microscopy, we also found that NK1r was mostly cytoplasmic in 5-HT neurons while predominating on the plasma membrane of TPH negative (non 5-HT) neurons. Subsequently, in additionnal double labeling experiments, we were able to identify most if not all non 5-HT dendrites bearing membranous NK1r as GABAergic. In a second step, we combined the immunolabeling of SP with that of NK1r, in order to examine the relationships between SP axon terminals (varicosities *) and the two categories of DRN neurons (5-HT: cytoplasmic NK1r; non 5-HT: membranous NK1r). After single SP labeling, we could estimate the frequency with which SP terminals made synapse at 41%, at least. In the material doubly labeled for SP and NK1r, the SP terminals were often found in close contact or in the immediate proximity of dendrites endowed with cytoplasmic receptor, but never near non 5-HT dendrites bearing membrane bound receptors. To test the hypothesis of a sustained internalization of NK1r in 5-HT neurons, we then tested the effects of RP67580, a selective NK1r antagonist, on the subcellular localization of the receptor. One hour after administration of a single dose, the NK1r distribution was unchanged in both types of dendrites (5-HT and non 5-HT). However, after administration for 7 (subchronic) or 21 (chronic) days, the cytoplasmic and the membrane densities of NK1r were significantly increased in 5-HT dendrites, without any change in non 5-HT dendrites. These treatments also increased NK1r gene expression in the caudal DRN. Lastly, a significant increase in the membrane density of NK1r was measured in the 5-HT neurons, without any increase of the cytoplamic density, following bilateral electrolytic lesioning of the habenula. These results strenghtened the hypothesis of a sustained activation and internalization of NK1r by SP in 5-HT neurons of the caudal DRN. They also suggested that trafficking of NK1r in these cells might represent a cellular mechanism in control of the activation of the 5-HT system by SP afferents from the habebula.

substance P

récepteur NK1

NK1 receptor

sérotonine

serotonin

raphe dorsalis

neuroanatomie fonctionnelle

functional neuroanatomy

immunocytochimie

immunocytochemistry

hybridation in situ

in situ hybridization

habenula

humeur

mood

Estudo da substância P e do peptídeo relacionado ao gene da calcitonina em amostras do couro cabeludo e séricas de pacientes com líquen plano pilar e alopecia frontal fibrosante / Study of the neuropeptides substance P and calcitonin gene-related peptide in the scalp and serum samples from patients with lichen planopilaris and frontal fibrosing alopecia

Soares, Isabella Ibrahim Doche

02 February 2016

INTRODUÇÃO: Líquen plano pilar (LPP) e alopecia frontal fibrosante (AFF) são alopecias cicatriciais linfocíticas crônicas, caracterizadas pela destruição permanente da unidade pilossebácea. Neuropeptídeos como a substância P (SP) e o peptídeo relacionado ao gene da calcitonina (CGRP) têm sido implicados no metabolismo lipídico das glândulas sebáceas e na manutenção do estado inflamatório de diversas doenças. OBJETIVOS: 1. Quantificar e comparar a expressão dos neuropeptídeos SP e CGRP em amostras do couro cabeludo (áreas afetadas e aparentemente não afetadas) e séricas de pacientes com LPP e AFF, em relação a indivíduos sadios, utilizando a técnica de ELISA. 2. Analisar áreas afetadas e aparentemente não afetadas de pacientes com LPP e AFF através da imunofluorescência direta (IFD). MÉTODO: 20 pacientes (10 com LPP e 10 com AFF) e 11 indivíduos sadios foram submetidos a biópsias com punch de 4mm do couro cabeludo e coleta de amostras sanguíneas. Pacientes foram submetidos a biópsias das áreas afetadas e aparentemente não afetadas do couro cabeludo, as quais foram pareadas com amostras da região anterior e posterior do couro cabeludo dos indivíduos-controle. As amostras dos pacientes foram enviadas para análise histopatológica, IFD e teste de ELISA para SP e CGRP. As amostras dos controles foram submetidas à análise histopatológica e aos mesmos testes de ELISA. Sintomas (dor, prurido, queimação e formigamento) e sinais inflamatórios (eritema difuso, eritema peripilar e descamação peripilar) na região afetada dos pacientes também foram avaliados. Este estudo foi realizado nas Universidades de São Paulo (BRA) e de Minnesota (EUA), entre os anos de 2012 e 2014. RESULTADOS: A análise histopatológica evidenciou infiltrado perifolicular linfocítico típico em 70% das áreas aparentemente não afetadas do couro cabeludo de pacientes com LPP e AFF, além de fibrose e depósitos de mucina perifoliculares. Em relação à IFD, o resultado se mostrou positivo em 50% das amostras das áreas afetadas e em 40% das áreas aparentemente não afetadas dos pacientes com LPP, em comparação a 40% e 20% nos casos de AFF, respectivamente. No teste de ELISA, pacientes do grupo LPP e infiltrado histopatológico de moderado a intenso na área afetada, demonstraram maior expressão de SP na área afetada, em comparação àquela aparentemente não afetada (P=0,046). Já pacientes do grupo AFF com o mesmo grau histopatológico de inflamação, demonstraram maior expressão de SP na área aparentemente não afetada, em comparação à área afetada (P=0,050). No teste de ELISA para CGRP, pacientes com LPP e inflamação histopatológica de leve a ausente na área afetada, tiveram maior expressão deste neuropeptídeo na área aparentemente não afetada, em comparação à área afetada (P=0,048). Por outro lado, pacientes com AFF que tinham o mesmo grau de inflamação histopatológica, a expressão deste neuropeptídeo foi favorecida na área afetada, em relação àquela aparentemente não afetada (P=0,050). Todas as amostras séricas dos pacientes e controles e do couro cabeludo dos indivíduos-controle tiveram resultados indetectáveis para SP e CGRP no teste de ELISA. Nenhuma relação entre sinais e sintomas inflamatórios e expressão de SP e CGRP no teste de ELISA foi vista. CONCLUSÃO: O acometimento das áreas aparentemente não afetadas do couro cabeludo de pacientes com LPP e AFF ao exame histopatológico, sugere que ambas as doenças possam acometer de forma difusa esta região. Apesar da semelhança dos achados histopatológicos entre pacientes com LPP e AFF, resultados antagônicos dos neuropeptídeos encontrados no teste de ELISA apontam para mecanismos fisiopatogênicos distintos. A inflamação neurogênica poderia explicar a sintomatologia e contribuir para a patogênese destas doenças / INTRODUCTION: Lichen planopilaris (LPP) and frontal fibrosing alopecia (FFA) are primary lymphocytic cicatricial alopecias characterized by permanent destruction of the pilossebaceous unit. Neuropeptides such as substance P (SP) and calcitonin gene-related peptide (CGRP) are related to lipid metabolism in sebaceous glands and to the maintenance of many inflammatory chronic disorders. OBJECTIVES: 1. Quantify SP and CGRP expression in affected and in normal-appearing scalp areas and serum samples from patients with LPP and FFA, and compare to healthy controls using ELISA technique. 2. Compare affected and normal-appearing areas from patients with LPP and FFA, using direct immunofluoresce (DIF) technique. METHODS: Twenty patients (10 with LPP and 10 with FFA) and eleven healthy controls underwent 4mm-punch biopsies and blood extraction. Patients collected samples from affected and normal-appearing scalp areas, and controls collected from anterior and posterior scalp areas. Patients samples were sent to histopathologic examination, DIF and ELISA tests for SP and CGRP detection. Control samples were sent to histopathologic examination and to the same ELISA tests. Symptoms (pain, burning, itching and tingling) and signs of inflammation (diffuse erythema, perifollicular erythema and perifollicular scale) were also assessed. This study was done at the Universities of São Paulo (Brazil) and Minnesota (USA), between 2012 and 2014. RESULTS: Normal-appearing scalp areas from patients with LPP and FFA showed lymphocytic perifollicular typical inflammation in 70% of the cases, as well as perifollicular fibrosis and mucin deposits. DIF test was positive in 50% of the affected areas and in 40% of normalappearing areas from patients with LPP, comparing to 40% and 20% in the FFA group, respectively. In SP ELISA test, affected areas from patients with LPP that had histopathologic moderate or intense infiltrate showed more expression of SP in the affected scalp, comparing to normal-appearing areas (P=0,046). However, affected areas from patients with FFA that showed the same degree of histopathologic infiltrate had higher expression of SP in normalappearing scalp, comparing to affected scalp (P=0.050). In CGRP ELISA test, affected scalp from patients with LPP that had histopathologic mild or irrelevant infiltrate showed increased CGRP expression in normal-appearing scalp areas, comparing to affected scalp (P=0,048). Althought, affected areas with the same degree of histopathologic inflammation from patients with FFA had more CGRP, comparing to normal-appearing scalp (P=0,050). All serum samples and scalp samples from controls had undetectable results in SP and CGRP ELISA tests. No clinical relationship was found among symptoms, signs of inflammation, and neuropeptide expression. CONCLUSION: Normal-appearing scalp areas can show histopathologic inflammation suggesting that both LPP and FFA can be more generalized processes affecting the scalp. Although both diseases share similar histopathologic findings, the opposite results in the ELISA test point that these diseases may have diverse pathogenic mechanisms. Neurogenic inflammation possibly play an important role in the pathogenesis of both LPP and FFA and may explain the symptomatic scalp some patients refer

Alopecia

Alopecia

Ensaio de imunoadsorção enzimática

Enzyme-linked immunosorbent assay

Inflamação neurogênica

Neurogenic inflammation

Neuropeptídeos

Neuropeptides

Substance P

Substância P

Avaliação da radiação LASER AsGa 904nm sobre o processo álgico no modelo de dor neuropática em ratos. / Evaluation of 904nm AsGa LASER radiation on the pain process in the neuropathic pain model in rats.

Silva, Mara Evany de Oliveira

09 December 2014

A técnica de laserterapia é um método não-invasivo que demonstra clinicamente ser eficaz na redução da sensibilidade à dor. O presente estudo visou examinar os efeitos da aplicação do LASER sobre a sensibilidade dolorosa induzida pela constrição crônica do nervo isquiático (CCI) de ratos. Os animais foram submetidos a ensaios comportamentais e a dez sessões de laserterapia. Observamos melhora para os testes comportamentais o que corrobora com os ensaios de imunoblotting no gânglio da raiz dorsal, onde observamos uma diminuição de Substância P no grupo de animais tratados com LASER. Com relação aos ensaios imunoenzimático de ELISA, observamos diminuição de citocinas pró-inflamatória e uma tendência ao aumento de citocina anti-inflamatória. Não observamos diferença estatística na análise dos receptores opióides MOR , DOR e KOR . Podemos concluir que o LASER é eficaz e age na modulação da dor neuropática. / The technique of laser therapy is a not invasive method that demonstrates clinically to be effective in reducing sensitivity to pain. This study aimed to examine the effects of application of LASER on pain sensitivity induced by chronic constriction of the sciatic nerve (CCI) in rats. The animals were subjected to behavioral tests and the ten sessions of laser therapy. We observed and improvement for behavioral tests which corroborates with immunoblotting assays in the dorsal root ganglion, where we observes a decrease of substance P in the group of animals treated with LASER. Regarding immunoenzymatic ELISA assay, we observed a decrease of pro-inflammatory cytokines and a possible increase in anti-inflammatory cytokine. No statistical difference in the analysis of opioid receptor MOR, DOR and KOR.

Dor neuropática

Fractalcina

Fractalkine

Hiperalgesia

Hyperalgesia

Interleucina 1

Interleucina 1b

Interleukin 1

Interleukin 1b

LASER de baixa intensidade

Low level Laser therapy

Neuropathic pain

Opioid receptors

Receptores opioides

Substance P

Substância P

Participação dos receptores NK-1 dos núcleos basolateral e central da amígdala no comportamento defensivo de ratos / Involvement of NK-1 receptors of the basolateral and central nuclei of the amygdala in the defensive behavior of rats

Bassi, Gabriel Shimizu

29 June 2012

Estudos realizados na última década mostram que a substância P (SP) é um neuromediador importante de estados emocionais e afetivos. A SP tem ação pró-aversiva quando microinjetada na substância cinzenta periaquedutal dorsal (SCPd) através da ativação de receptores neurocininérgicos do tipo NK-1, uma vez que o comportamento defensivo é bloqueado por antagonistas desses receptores. A ativação de receptores NK-1 na SCPd também produz antinocicepção, a qual é considerada parte da reação de defesa. Na sequência desses estudos, este projeto visa investigar o envolvimento dos receptores neurocininérgicos no núcleo central (CeA) e basolateral (BLA) da amígdala na mediação dos estados aversivos gerados e elaborados nessa estrutura prosencefálica que, junto com a SCPd, faz parte do sistema encefálico aversivo. O presente estudo mostrou que a SP e o agonista NK-1 (Sar-Met-SP) promoveram efeitos pró-aversivos no labirinto em cruz elevado somente no CeA, mas não no BLA. Ao contrário da SCPd, não obtivemos qualquer alteração no limiar nociceptivo com a microinjeção de antagonista de receptores NK-1 (Spantide) em ambos os núcleos. O Spantide sozinho não alterou os indicadores de nocicepção e ansiedade. Nenhum tipo de vocalização (audível ou ultrassônica) foi detectado no presente trabalho após a microinjeção de SP ou Sar-Met-SP em ambos núcleos amigdalóides, apesar de relatos de vocalizações ultrassônicas (VUS) após o mesmo tipo de tratamento na SCPd. Os resultados obtidos no presente estudo mostraram que o CeA, mas não o BLA, modula a expressão de comportamentos relacionados ao medo inato através de receptores neurocininérgicos do tipo NK-1. VUS e antinocicepção não parecem participar da reação de defesa elaborada no CeA. A ausência da emissão de VUS nesses núcleos pode indicar que somente estruturas mais antigas do neuroeixo (mesencéfalo e hipotálamo) são responsáveis pela produção de VUS. / A substantial body of evidence obtained in the last decade demonstrated that the Substance P (SP) is an important mediator of the affective and emotional behaviors. SP is a pro-aversive compound when microinjected within the dorsal periaqueductal gray (dPAG). These effects are mediated by the type 1 neurokininergic receptors (NK-1), since the defensive behavior was inhibited by antagonists of these receptors. The activation of NK-1 receptors in the dPAG also produced antinociception and ultrasonic vocalizations (USV). In the sequence of these studies, this study investigated the involvement of neurokinin receptors of the central (CeA) and basolateral (BLA) nuclei of the amygdala in the mediation of the defense reaction. The amigdala together with the dPAG and the medial hypothalamus comprise the encephalic aversive system. The results showed that SP and the NK-1 agonist (Sar-Met-SP) promoted pro-aversive effects in the elevated plus maze test only when microinjected into the CeA, without effect in the BLA. Although SP and the activation of NK-1 receptors induce antinociception in the dPAG, we did not observe any alteration of the nociceptive threshold in the tail-flick test with the NK-1 antagonist (Spantide) injected into both nuclei and any changes of the anxiety parameters in the EPM. No vocalizations (audible or ultrasonic) were detected after treatment with SP or Sar-Met-SP in both amygdaloid nuclei. The lack of emissions of USVs after activation of these nuclei could indicate that only older structures (PAG and hypothalamus) of the neuroaxis are responsible for the production of USVs. The results obtained in the present study show that NK-1 receptors within CeA, but not BLA, modulate the expression of defensive behaviors related to the innate fear. Apparentely USVs and antinociception are not involved in the defensive reactions indiced by activation of NK-1 mechanisms in the CeA.

Basolateral amydaoild nucleus

central amygdaloid nucleus

Elevated Plus Maze

Labirinto em cruz elevado

NK-1 receptors

Nocicepção

Nociception

Nucleo basolateral da amígdala

Núcleo central da amígdala

Receptores NK-1

Substance P

Substância P

Ultrasonic vocalization

Vocalização ultrassônica

KIR Channels in CO2 Central Chemoreception: Analysis with a Functional Genomics Approach

Rojas, Asheebo

06 August 2007

The process of respiration is a pattern of spontaneity and automatic motor control that originate in the brainstem. The mechanism by which the brainstem detects CO2 is termed central CO2 chemoreception (CCR). Since the early 1960’s there have been tremendous efforts placed on identification of central CO2 chemoreceptors (molecules that detect CO2). Even with these efforts, what a central CO2 chemoreceptor looks like remain unknown. To test the hypothesis that inward rectifier K+ (Kir) channels are CO2 sensing molecules in CCR, a series of experiments were carried out. 1) The first question asked was whether the Kir4.1-Kir5.1 channel is expressed in brainstem chemosensitive nuclei. Immunocytochemistry was performed on transverse medullary and pontine sections using antibodies raised against Kir4.1 and Kir5.1. Positive immunoassays for both Kir4.1 and Kir5.1 subunits were found in CO2 chemosensitive neurons. In the LC the Kir4.1 and Kir5.1 were co-expressed with the neurokinin-1 receptor that is the natural receptor for substance P. 2) The second question asked was whether the Kir4.1-Kir5.1 channel is subject to modulation by neurotransmitters critical for respiratory control. My studies demonstrated that indeed the Kir4.1-Kir5.1 channel is subject to modulation by substance P, serotonin and thyrotropin releasing hormone. 3) I performed studies to demonstrate the intracellular signaling system underlying the Kir4.1-Kir5.1 channel modulation by these neurotransmitters. The modulation by all three neurotransmitters was dependent upon the activation of protein kinase C (PKC). The Kir4.1-Kir5.1 but not the Kir4.1 channel was modulated by PKC. Both the Kir4.1 and Kir5.1 subunits can be phosphorylated by PKC in vitro. However, systematic mutational analysis failed to reveal the phosphorylation site. 4) The fourth question asked was whether Kir channels share a common pH gating mechanism that can be identified. Experiments were performed to understand the gating of the Kir6.2+SUR1 channel as specific sites for ligand binding and gating have been demonstrated. I identified a functional gate that was shared by multiple ligands that is Phe168 in the Kir6.2. Other Kir channels appear to share a similar gating mechanism. Taken together, these studies demonstrate the modulation of Kir channels in central CO2 chemoreception.

pH sensing

Kir channels

Central CO2 chemoreception

phosphorylation GPCR

thyrotropin releasing Hormone

Locus coeruleus

brainstem

Kir4.1-Kir5.1

multiple electrode arrays

immunocytochemistry

Substance P

Serotonin

gating

Ion channels

Biology, general

Substance P, récepteurs NK1 et neurones à sérotonine : relations anatomiques et fonctionnelles dans le noyau raphe dorsalis

Baptiste, Lacoste

06 1900

Nous avons étudié les relations anatomiques entre les systèmes de neurotransmission à substance P (SP) et à sérotonine (5-hydroxytryptamine, 5-HT) dans le noyau du raphé dorsal (NRD) du rongeur, afin de mieux comprendre les interactions entre ces systèmes durant la régulation de l’humeur. Le NRD reçoit une innervation SP provenant de l’habenula, et le blocage pharmacologique des récepteurs neurokinine-1 (rNK1) de la SP aurait des effets antidépresseurs. Chez le rongeur, le traitement par les antagonistes des rNK1 s’accompagne d’une désensibilisation des autorécepteurs 5-HT1A de la 5-HT et d’une hausse de l’activité des neurones 5-HT dans le NRD, suggérant des interactions locales entre ces deux systèmes. Dans un premier temps, nous avons démontré par doubles marquages immunocytochimiques en microscopies optique, confocale et électronique, la présence du rNK1 dans une sous-population de neurones 5-HT du NRD caudal. Lors de l’analyse en microscopie électronique, nous avons pu constater que les rNK1 étaient principalement cytoplasmiques dans les neurones 5-HT et membranaires sur les neurones non 5-HT du noyau. Grâce à d’autres doubles marquages, nous avons aussi pu identifier les neurones non-5-HT porteurs de rNK1 comme étant GABAergiques. Nous avons ensuite combiné l’immunomarquage de la SP avec celui du rNK1, dans le but d’examiner les relations entre les terminaisons (varicosités *) axonales SP et les neurones 5-HT (pourvus de rNK1 cytoplasmiques du NRD caudal. En simple marquage de la SP, nous avons pu estimer à 41% la fréquence avec laquelle les terminaisons SP font synapse. Dans le matériel doublement marqué pour la SP et son récepteur, les terminaisons SP ont été fréquemment retrouvées en contact direct ou à proximité des dendrites munies de rNK1 cytoplasmiques, mais toujours éloignées des dendrites à rNK1 membranaires. Pour tester l’hypothèse d’une internalisation soutenue des rNK1 par la SP dans les neurones 5-HT, nous avons ensuite examiné la localisation subcellulaire du récepteur chez le rat traité avec un antagoniste du rNK1, le RP67580. La densité du marquage des rNK1 a été mesurée dans le cytoplasme et sur la membrane des deux types de dendrites (5-HT: rNK1 cytoplasmiques; non 5-HT: rNK1 membranaires). Une heure après une injection unique de l’antagoniste, la distribution du rNK1 est apparue inchangée dans les deux types de neurones (5-HT et non 5-HT). Par contre, après un traitement quotidien de 7 ou 21 jours avec l’antagoniste, nous avons mesuré une augmentation significative des densités cytoplasmique et membranaire du rNK1 dans les neurones 5-HT, sans aucun changement dans les neurones non 5-HT. Ces traitements ont aussi augmenté l’expression du gène rNK1 dans le NRD. Enfin, nous avons mesuré une hausse de la densité membranaire du rNK1 dans les neurones 5-HT, sans hausse de densité cytoplasmique, par suite d’une lésion bilatérale de l’habenula. Ces résultats confortent l’hypothèse d’une activation et d’une internalisation soutenues des rNK1 par la SP dans les neurones 5-HT du NRD caudal. Ils suggèrent aussi que le trafic des rNK1 dans les neurones 5-HT du NRD représente un mécanisme cellulaire en contrôle de l’activation du système 5-HT par les afférences SP en provenance de l’habenula. / We have studied in detail the relationships between substance P (SP) and serotonin (5-hydroxytryptamine, 5-HT) neurotransmission systems in the dorsal raphe nucleus (DRN) of rodents, in order to further our understanding of their interaction during mood regulation. The DRN receives a SP innervation arising from the habenula and, in human, it is known that blockade of the neurokinin-1 receptor (NK1r) of SP by antagonists may have antidepressant effects. In rodents, treatment with NK1r antagonists is known to increase the firing of DRN 5-HT neurons and to induce a desensitization of their 5-HT1A autoreceptors, suggesting local interactions between the SP and 5-HT systems. In a first step, we were able to demonstrate by means of light, confocal, and electron microscopic immunocytochemistry, including double immunolabelings of NK1r and of the biosynthetic enzyme of 5-HT, tryptophane hydroxylase, the presence of NK1r in a subpopulation of 5-HT neurons in the caudal DRN of rat and mouse. After the dual immunolabelings for electron microscopy, we also found that NK1r was mostly cytoplasmic in 5-HT neurons while predominating on the plasma membrane of TPH negative (non 5-HT) neurons. Subsequently, in additionnal double labeling experiments, we were able to identify most if not all non 5-HT dendrites bearing membranous NK1r as GABAergic. In a second step, we combined the immunolabeling of SP with that of NK1r, in order to examine the relationships between SP axon terminals (varicosities *) and the two categories of DRN neurons (5-HT: cytoplasmic NK1r; non 5-HT: membranous NK1r). After single SP labeling, we could estimate the frequency with which SP terminals made synapse at 41%, at least. In the material doubly labeled for SP and NK1r, the SP terminals were often found in close contact or in the immediate proximity of dendrites endowed with cytoplasmic receptor, but never near non 5-HT dendrites bearing membrane bound receptors. To test the hypothesis of a sustained internalization of NK1r in 5-HT neurons, we then tested the effects of RP67580, a selective NK1r antagonist, on the subcellular localization of the receptor. One hour after administration of a single dose, the NK1r distribution was unchanged in both types of dendrites (5-HT and non 5-HT). However, after administration for 7 (subchronic) or 21 (chronic) days, the cytoplasmic and the membrane densities of NK1r were significantly increased in 5-HT dendrites, without any change in non 5-HT dendrites. These treatments also increased NK1r gene expression in the caudal DRN. Lastly, a significant increase in the membrane density of NK1r was measured in the 5-HT neurons, without any increase of the cytoplamic density, following bilateral electrolytic lesioning of the habenula. These results strenghtened the hypothesis of a sustained activation and internalization of NK1r by SP in 5-HT neurons of the caudal DRN. They also suggested that trafficking of NK1r in these cells might represent a cellular mechanism in control of the activation of the 5-HT system by SP afferents from the habebula.

substance P

récepteur NK1

NK1 receptor

sérotonine

serotonin

raphe dorsalis

neuroanatomie fonctionnelle

functional neuroanatomy

immunocytochimie

immunocytochemistry

hybridation in situ

in situ hybridization

habenula

humeur

mood

Modulation of Voltage-Gated N-Type Calcium Channels by G Protein-Coupled Receptors Involves Lipids and Proteins: A Dissertation

Mitra Ganguli, Tora

15 October 2008

Pain signaling involves transmission of nociceptive stimuli in the spinal cord where a critical balance between excitatory and inhibitory inputs determines the response to noxious stimuli. The neuropeptide, substance P (SP), mediates transmission of pain in part by binding to the tachykinin receptor (NK-1R) in the dorsal horn (DH) of the spinal cord. One of SP’s downstream effects is to modulate N-type Ca2+(N-) channels. While phospholipid breakdown is a part of the inflammatory process that accompanies tissue damage, the role of this metabolic pathway has not been completely described with respect to N-channel modulation during pain signaling. Despite the incomplete understanding of this modulation, pharmacological antagonists of both NK-1R and N-channels have been used to treat pain. In Chapter II, using whole-cell patch clamp recording techniques, the SP signaling cascade that mediates inhibition of recombinant N-channel activity was characterized. By adopting a pharmacological approach, I show that this pathway resembles the slow pathway that was earlier described for modulation of N-current by the M1 muscarinic receptor (M1R). M1R couples to Gq to stimulate phospholipid breakdown. Together with previous observations, the data presented in this chapter provide evidence for involvement of the extracellular receptor kinase (ERK1/2), phospholipase A2 and release of phospholipid metabolites in the modulation of N-current by SP. Overall, this chapter shows that phospholipid metabolism involved in modulation of N-currents is not specific to M1Rs but that other Gq-coupled receptors may also modulate N-currents via the same signal transduction pathway. In Chapter III, enhancement of N-current by SP was studied as part of a collaborative project to understand current enhancement that occurs when a palmitoylated accessory CaVβ2a subunit is co-expressed with the pore-forming subunit CaV2.2 and the accessory subunit α2δ-1. When CaVβ3 is present, SP inhibits N-current as described in Chapter II. However, when palmitoylated CaVβ2a is co-expressed with CaV2.2 (and α2δ-1), current enhancement is observed at negative test potentials, demonstrating that both M1Rs and NK-1Rs exhibit the same profile of N-current modulation. This change in modulation by muscarinic agonists is not observed in the presence of a depalmitoylated CaVβ2a. However a chimeric CaVβ2aβ1b subunit that contains the palmitoylated N-terminus from CaVβ2a confers enhancement. Normally expression of the β1b subunit resulted in current inhibition. These findings indicated that the palmitoylated CaVβ2a participates in enhancement of current. Our data support a model where inhibition dominates over enhancement; when inhibition is blocked, enhancement may be observed. Lastly, we show that N-current inhibition by SP is minimized when exogenous palmitic acid is applied to cells co-expressing CaVβ3 subunits with N-channels. These results indicate that the presence of palmitic acid can prevent N-current inhibition when SP is applied most likely by interacting with CaV2.2. We propose a model where palmitic acid occupies the inhibitory site and serves to antagonize inhibition by a lipid metabolite, which is most likely arachidonic acid. The CaVβ2a protein seems to have a role in positioning the palmitoyl groups near CaV2.2. This chapter provides a new role for protein palmitoylation where the palmitoyl groups of CaVβ2a are both necessary and sufficient to block inhibition of another protein: CaV2.2. In Chapter IV, I probe the role of the relative orientation of CaVβ2a and the pore-forming subunit of the N-channel in N-current modulation. Evidence is presented that shows that not just the presence of a palmitoylated CaVβ2a is necessary, but the relative orientation of CaVβ2a to CaV2.2 is critical for blocking inhibition. Using N-channel mutants that cause a change in the orientation of CaVβ2a relative to CaV2.2, I show that the block of inhibition is disrupted; inhibition by the slow pathway is rescued. These findings further support my model that the palmitoyl groups of CaVβ2a normally reside in a specific location that overlaps with the slow pathway inhibitory site on CaV2.2. Lastly I present data showing that the enhancement of N-current, observed when palmitoylated CaVβ2a is present, occurs via the slow pathway. In Chapter V the effect of CaVβ’s orientation on N-channel modulation by the dopamine D2 receptor is tested. In this form of modulation, inhibition is rapid and voltage-dependent. The signaling pathway is membrane-delimited since Gβγ, released after receptor stimulation, directly interacts with the N-channel at a site that overlaps with a high affinity binding site for CaVβs. While N-currents are modulated by this pathway, the deletion mutants show aberrant membrane-delimited modulation. The findings in this chapter further underscore the importance of proper positioning of CaVβ to CaV2.2 for eliciting proper N-current modulation after GPCR stimulation. Overall, the data presented in this dissertation provides a mechanistic approach into examining modulation of N-current by different GPCRs via two different signaling pathways as well as the role CaVβ subunits serve in each modulatory pathway.

Pain

Calcium Channels

N-Type

Nociceptors

Signal Tranduction

Substance P

Amino Acids, Peptides, and Proteins

Biological Factors

Life Sciences

Medicine and Health Sciences

Psychological Phenomena and Processes

Plasticidade induzida por treinamento locomotor na medula espinal intacta em ratos: correlatos morfol?gicos

Nunes, Ana Carla Lima

02 July 2009

Made available in DSpace on 2014-12-17T15:16:04Z (GMT). No. of bitstreams: 1 AnaCLN.pdf: 1365991 bytes, checksum: a91aa932e949e0fb6e624f6ad5057083 (MD5) Previous issue date: 2009-07-02 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior / The locomotion is one of the most important capabilities developed by the animals, whose improvement is dependent on several neural centers, including the spinal cord. This activity promotes a lot of spinal modifications that enable it to adapt and improve their connections. This study aimed to observe the morphological changes occurring in the spinal cord after locomotor training in intact rats. For that we used male Wistar rats, which were submitted to locomotor training in wheel activity in protocols 1, 3 and 7 days (30min/day), and the results were compared to a control group not subjected to exercise. Coronal sections of 40 μm of the lumbosacral spinal cord were subjected to immunohistochemical techniques anti-Egr1, anti-NMDA and anti-SP, to characterize the spinal plasticity related to these substances. Egr1-immunoreactive cells were increased in all laminas, essentially in those more intensely activated by locomotion, laminas IV-X levels L4-S3. All observed sections expressed NMDA-immunoreactivity. Analysis of SP in the spinal dorsal horn resulted no significant variations of this neuropeptide related to locomotion. The results suggest that locomotor training provides synaptic plasticity similar to LTP in all laminas of the lumbosacral spinal cord, in different intensities. However, the SP appears do not participate of this process in the spinal dorsal horn. This work will contribute for consolidating and characterization of synaptic plasticity in the spinal cord / A locomo??o ? uma das mais importantes capacidades desenvolvidas pelos animais, cujo aperfei?oamento ? dependente de v?rios centros neurais, incluindo a medula espinal. Esta atividade promove v?rias modifica??es espinais que a possibilita se adaptar e aperfei?oar suas conex?es. Este trabalho teve por objetivo observar as altera??es morfol?gicas ocorridas na medula espinal ap?s o treinamento locomotor de ratos intactos. Para isso foram utilizados ratos Wistar machos, os quais foram submetidos ao treinamento locomotor na roda de atividade em protocolos de 1, 3 e 7 dias (30min/dia), e os resultados foram comparados aos de um grupo controle, n?o submetido ao exerc?cio. Cortes coronais de 40 μm da medula espinal lombossacral foram submetidos a t?cnicas imunohistoquimicas anti-Egr1, anti-NMDA e anti-SP, para caracterizarmos a plasticidade espinal quanto a essas subst?ncias. C?lulas imunorreativas a Egr1 estavam aumentadas em todas as l?minas, intensamente nas regi?es mais ativadas pela locomo??o, l?minas IV-X dos n?veis L4-S3. Todas as sec??es observadas expressaram imunorreatividade a NMDA. A an?lise da SP no corno dorsal espinal resultou em aus?ncia de varia??es significantes deste neuropept?deo relacionadas com a locomo??o. Diante dos resultados, sugerimos que o treinamento locomotor proporciona plasticidade sin?ptica semelhante a LTP em todas as l?minas da medula espinal, em intensidades diferenciadas. No entanto, esse processo parece n?o ter a participa??o da SP no corno dorsal espinal. Este trabalho vem contribuir para a consolida??o e caracteriza??o da plasticidade sin?ptica na medula espinal

Medula espinal

Plasticidade sin?ptica

Treinamento locomotor

Egr1

LTP

Subst?ncia P

NMDA

Spinal cord

Synaptic plasticity

Locomotor training

Egr1

LTP

Substance P

NMDA

Avaliação da radiação LASER AsGa 904nm sobre o processo álgico no modelo de dor neuropática em ratos. / Evaluation of 904nm AsGa LASER radiation on the pain process in the neuropathic pain model in rats.

Mara Evany de Oliveira Silva

09 December 2014

A técnica de laserterapia é um método não-invasivo que demonstra clinicamente ser eficaz na redução da sensibilidade à dor. O presente estudo visou examinar os efeitos da aplicação do LASER sobre a sensibilidade dolorosa induzida pela constrição crônica do nervo isquiático (CCI) de ratos. Os animais foram submetidos a ensaios comportamentais e a dez sessões de laserterapia. Observamos melhora para os testes comportamentais o que corrobora com os ensaios de imunoblotting no gânglio da raiz dorsal, onde observamos uma diminuição de Substância P no grupo de animais tratados com LASER. Com relação aos ensaios imunoenzimático de ELISA, observamos diminuição de citocinas pró-inflamatória e uma tendência ao aumento de citocina anti-inflamatória. Não observamos diferença estatística na análise dos receptores opióides MOR , DOR e KOR . Podemos concluir que o LASER é eficaz e age na modulação da dor neuropática. / The technique of laser therapy is a not invasive method that demonstrates clinically to be effective in reducing sensitivity to pain. This study aimed to examine the effects of application of LASER on pain sensitivity induced by chronic constriction of the sciatic nerve (CCI) in rats. The animals were subjected to behavioral tests and the ten sessions of laser therapy. We observed and improvement for behavioral tests which corroborates with immunoblotting assays in the dorsal root ganglion, where we observes a decrease of substance P in the group of animals treated with LASER. Regarding immunoenzymatic ELISA assay, we observed a decrease of pro-inflammatory cytokines and a possible increase in anti-inflammatory cytokine. No statistical difference in the analysis of opioid receptor MOR, DOR and KOR.

Dor neuropática

Fractalcina

Hiperalgesia

Interleucina 1

Interleucina 1b

LASER de baixa intensidade

Receptores opioides

Substância P

Fractalkine

Hyperalgesia

Interleukin 1

Interleukin 1b

Low level Laser therapy

Neuropathic pain

Opioid receptors

Substance P