Efeito da estimulação elétrica do córtex motor sobre neurotransmissores na substância cinzenta periaquedutal / Role of the motor cortex stimulation on neurotransmitter in the periaqueductal gray area

Andrade, Emerson Magno Fernandes de

13 July 2018

Introdução. A estimulação do córtex motor (ECM) tem sido utilizada para o tratamento de pacientes com síndromes neuropáticas dolorosas crônicas e resistentes a tratamentos farmacológicos convencionais. O córtex motor primário pode ser a estrutura mais rostral do neuroeixo relacionada ao sistema de modulação da dor, e a ECM provoca ativação neuronal na substância cinzenta periaquedutal (PAG). A PAG é um dos principais centros do sistema descendente supressor de dor e recebe aferências de diferentes regiões do encéfalo. Esse estudo investiga o efeito da estimulação do córtex motor sobre a liberação de neurotransmissores na PAG em modelo de dor neuropática, com o objetivo de investigar os mecanismos neuroquímicos responsáveis pelo feito terapêutico. Métodos. No primeiro experimento, ratos Wistar machos foram aleatoriamente divididos em três grupos. No primeiro grupo, os animais foram submetidos à indução de dor neuropática através da constrição crônica do nervo ciático, no segundo grupo, os animais foram submetidos apenas à exposição do nervo ciático e no terceiro grupo, nenhuma intervenção para indução de dor neuropática foi realizada. Todos os animais foram submetidos a implante unilateral epidural de eletródios de estimulação sobre a área do córtex motor correspondente a pata posterior e implante de cânula guia direcionada à PAG utilizando coordenadas estereotáxicas. Os animais foram avaliados no teste de hiperalgesia mecânica e uma sonda de microdiálise foi introduzida em direção a PAG. As amotras de microdiálise foram coletadas e a análise dos neurotransmissores foi feita em um sistema de cromatografia líquida de alta eficiência (HPLC). No segundo experimento, ratos Wistar machos com dor neuropática induzida na pata posterior foram submetidos a implante estereotáxico de cânula guia direcionada à PAG, e foi realizada micro-injeção de antagonista de glicina e/ou GABA na PAG, previamente a ECM, para avaliar a influência desses antagonistas no efeito analgésico induzido pela estimulação cortical. Resultados. Animais submetidos à indução de dor neuropática apresentaram reversão da hiperalgesia mecânica após ECM. A estimulação cortical induziu um aumento significativo nos níveis de glicina durante (aumento de 153%) e após MCS (134%). A concentração de GABA aumentou 145% durante a estimulação epidural. Os níveis de glutamato não mostraram alteração no microdialisado da PAG após ECM. Houve uma correlação estatisticamente significativa entre o posicionamento da sonda de microdiálise nas colunas lateral e dorsolateral da PAG e o aumento na liberação do neurotransmissor glicina nos animais do grupo CCI. A administração de antagonista de glicina na PAG reverteu o efeito antinociceptivo da estimulação cortical. A micro-injeção de antagonista de GABA na PAG reverteu parcialmente o efeito da ECM. Conclusões. Nossos resultados sugerem que os neutransmissores glicina e GABA, liberados na PAG durante ECM, contribuem para o efeito antinociceptivo da via analgésica descendente. Os resultados desse projeto poderão contribuir para a elucidação dos mecanismos do efeito antinociceptivo da ECM / Introduction. Motor cortex stimulation (MCS) has been used for the treatment of patients with chronic neuropathic pain syndromes that are resistant to conventional pharmacological treatment. The motor cortex may be the most rostral structure in the neuroaxis responsible for pain modulation, and MCS increase the neuronal activation of periaqueductal gray (PAG). The PAG is one of the main subcortical centers of the descending pain suppressor system, and receives inputs from several brain areas. This study investigates the effects of MCS on the release of neurotransmitters in the PAG in neuropathic pain model, in order to investigate the possible neurochemical mechanisms responsible for this effect. Methods. In the first experiment, Wistar male rats were randomly subdivided into three surgical groups. In the first group, induction of neuropathic pain was performed through chronic constriction injury of the right sciatic nerve, in the second group, the animals were submitted just to exposure of the sciatic nerve and in the third group, no intervention for induction of neuropathic pain was performed. All the rats underwent implantation of unilateral epidural electrodes on the motor area corresponding to the right hind paw. The animals were evaluated for mechanical hyperalgesia test and a microdialysis guide cannula was stereotaxically implanted into the PAG. The microdialysate samples were collected and the neurotransmitters analysis was performed by a high- performance (HPLC). In the second experiment, animals with induced neuropathic pain in the hind paw were submitted to a stereotaxic implantation of a guidewire directed to PAG, and a microinjection of glycine and/or GABA antagonist in the PAG before the ECM was performed, to evaluate the influence of these antagonists on the analgesic effect induced by the cortical stimulation. Results. Animals subjected to induction of neuropathic pain showed reversal of mechanical hyperalgesia after motor cortex stimulation. Cortical stimulation induced a significant increase in glycine levels during (153 % increase) and after MCS (134%). The GABA concentration increases 145 % during transdural stimulation. Glutamate levels showed no change in PAG microdialysate after MCS. There was a statistically significant correlation between the positioning of the microdialysis probe in the lateral and dorsolateral columns of the PAG and the increase in the release of the neurotransmitter glycine in the animals of the CCI group. Administration of glycine antagonist in PAG reversed the antinociceptive effect of cortical stimulation. Microinjection of GABA antagonist in PAG partially reversed the effect of MCS. Conclusions. Our results suggest that the neurotransmitters glycine and GABA, released in PAG during MCS, contribute to descending antinociceptive actions. The results of this project will contribute for the elucidation of the mechanisms of the antinociceptive effect of MCS, a phenomenon that has not been fully understood currently

Córtex motor/fisiologia

Dor

Electrical stimulation

Estimulação elétrica

Microdiálise

Microdialysis

Modelos animais

Models animal

Motor cortex/physiology

Neurotransmissores

Neurotransmitter agents

Pain

Periaqueductal gray

Substância cinzenta periaquedutal

Doença periodontal grave em pacientes com e sem queixa de dor crônica crânio-facial: correlação dos aspectos clínicos com a análise quantitativa da substância P e do óxido nítrico do tecido gengival inflamado / Severe Periodontal Disease in patients with and without chronic complaint of craniofacial pain: correlation with clinical aspects with the quantitative analysis of substance P and nitric oxide of inflamed gingival tissue

Fabri, Gisele Maria Campos

13 December 2007

Objetivos: Avaliar a implicação da doença periodontal (DP) avançada, e da expressão da NOS e sP dos tecidos gengivais inflamados, na intensidade de dor e na qualidade de vida de pacientes com dor crônica crânio-facial. Casuística e Métodos: foram avaliados e tratados 20 pacientes com queixas de dores crônicas crânio-faciais e DP (Grupo de Estudo), comparativamente com 20 pacientes que tinham somente DP (Grupo Controle). Todos os pacientes receberam tratamento cirúrgico periodontal. A avaliação foi realizada pré e pós-tratamento periodontal (7, 30 e 180 dias). Instrumentos de avaliação: ficha clínica EDOF-HC, Escala Visual Analógica (EVA), questionário de dor McGill, Índices de Placa (IP), Sangramento (IS), Profundidade Clínica de Sondagem (PCS) e de Inserção (PCI); questionário de qualidade de vida WHOQOL-bref e análise imunohistoquímica para a expressão da óxido nítrico sintase (NOS) e da substância P do tecido gengival inflamado. A avaliação da dor foi realizada por investigador independente. Resultados: Os grupos apresentaram evolução clínica semelhante pelos parâmetros da DP: IP (p=0,0934), IS (p=0,8657), PCS (p=0,1728) e PCI (p=0,7406) nos três momentos avaliados. Houve redução da EVA no Grupo de Estudo aos 30 dias (p<0,05) e 180 dias (p<0,05), comparativamente ao pré-operatório. Aos 180 dias houve melhora significativa das queixas iniciais (p=0,005 para o Grupo de Estudo e p = 0,027 para o Grupo Controle), comparativamente ao pré-operatório, entretanto, houve diferença significativa entre os dois grupos nos três momentos da avaliação, seja para o percentual de melhora (p<0,001), seja para os descritores de melhora Edof-HC (p=0,004 aos 30 dias e p=0,001 aos 180 dias). No Grupo de Estudo, houve redução significativa dos descritores afetivos de dor (questionário de dor McGill) aos 180 dias (p = 0,014). Os escores de qualidade de vida do Grupo de Estudo foram inferiores aos do Grupo Controle nos domínios psicológico e físico (p<0,001 e p=0,007, respectivamente). As expressões da nNOS e da iNOS foram maiores nas gengivas inflamadas do Grupo de Estudo (p<0,001 e p= 0,003, respectivamente) e a expressão da sP foi semelhante nos dois grupos (p=0,363). Conclusões: Houve redução da intensidade da dor crônica crânio-facial dos pacientes que receberam tratamento para doença periodontal avançada. A expressão da substância P foi semelhante nos tecidos gengivais inflamados dos dois grupos, mas a expressão da nNOS e iNOS foi superior na gengiva inflamada dos pacientes com dor crônica crânio-facial. Pelos dados deste estudo a Doença Periodontal avançada pode ter implicação nas queixas de dor dos pacientes com dor crônica crânio-facial. / Aims: To assess the implications of advanced periodontal disease (PD), and the expression of NOS and sP of inflamed gingival tissue, in the intensity of pain and the quality of life in patients with chronic craniofacial pain. Casuistic and Methods: Were evaluated and treated 20 patients with complaints of chronic craniofacial pain and DP (Study Group), compared with 20 patients who had only DP (Control Group). All patients received surgical periodontal treatment. The evaluation was performed at pre-operative and post-operative periodontal treatment (7, 30 and 180 days). Tools for evaluation: clinical record EDOF-HC, Visual Analogic Scale (VAS), McGill Pain Questionnaire, Scores of Plaque (IP), Bleeding (IS), Clinical Probing Depth (CPD) and Insertion (CPI), the quality of life questionnaire WHOQOL-Bref and immunohistochemical analysis for the expression of nitric oxide synthase (NOS) and substance P from inflamed gingival tissue. The assessment of pain was conducted by independent researcher Results: The groups had similar clinical evolution by parameters of the PD: IP (p=0.0934), IS (p=0.8657), PCS (p=0.1728) and PCI (p=0.7406) in the three moments evaluated. There was reduction in the VAS of Study Group at 30 days (p<0.05) and 180 days (p<0.05), compared to preoperative. At 180 days there was significant improvement of the initial complaints (p=0.005 for the Study Group and p=0.027 for the Control Group), compared to preoperative, but there was significant difference between the two groups in the three moments of assessment, for the percentage of improvement (p<0.001), and either for the improvement descriptors Edof-HC (p=0.004 at 30 days and p=0.001 for 180 days). In Study Group, there was significant reduction of pain affective descriptors (McGill Pain Questionnaire) to 180 days (p=0.014). The scores of quality of life of the Study Group were lower than the Control Group in the psychological and physical (p<0.001 and p=0.007, respectively). The nNOS and iNOS expressions were higher in inflamed gingival Study Group (p<0.001 and p=0.003, respectively) and the expression of sP was similar in the two groups (p=0.363). Conclusions: There was reduction in the intensity of chronic craniofacial pain of patients receiving treatment for advanced periodontal disease. The expression of substance P was similar in inflamed gingival tissue of the two groups, but the expression of iNOS and nNOS was higher in inflamed gingival of patients with chronic craniofacial pain. The data of this study show that advanced periodontal disease can have involvement in complaints of pain in patients with chronic craniofacial pain.

Doenças periodontais

Dor facial

Facial pain

Neurotransmissores

Neurotransmitter agents

Nitric oxide

Óxido nítrico

Periodontal diseases

Periodontite

Periodontitis

Qualidade de vida

Quality of life

Substance P 7

Substância P 7

Doença periodontal grave em pacientes com e sem queixa de dor crônica crânio-facial: correlação dos aspectos clínicos com a análise quantitativa da substância P e do óxido nítrico do tecido gengival inflamado / Severe Periodontal Disease in patients with and without chronic complaint of craniofacial pain: correlation with clinical aspects with the quantitative analysis of substance P and nitric oxide of inflamed gingival tissue

Gisele Maria Campos Fabri

13 December 2007

Objetivos: Avaliar a implicação da doença periodontal (DP) avançada, e da expressão da NOS e sP dos tecidos gengivais inflamados, na intensidade de dor e na qualidade de vida de pacientes com dor crônica crânio-facial. Casuística e Métodos: foram avaliados e tratados 20 pacientes com queixas de dores crônicas crânio-faciais e DP (Grupo de Estudo), comparativamente com 20 pacientes que tinham somente DP (Grupo Controle). Todos os pacientes receberam tratamento cirúrgico periodontal. A avaliação foi realizada pré e pós-tratamento periodontal (7, 30 e 180 dias). Instrumentos de avaliação: ficha clínica EDOF-HC, Escala Visual Analógica (EVA), questionário de dor McGill, Índices de Placa (IP), Sangramento (IS), Profundidade Clínica de Sondagem (PCS) e de Inserção (PCI); questionário de qualidade de vida WHOQOL-bref e análise imunohistoquímica para a expressão da óxido nítrico sintase (NOS) e da substância P do tecido gengival inflamado. A avaliação da dor foi realizada por investigador independente. Resultados: Os grupos apresentaram evolução clínica semelhante pelos parâmetros da DP: IP (p=0,0934), IS (p=0,8657), PCS (p=0,1728) e PCI (p=0,7406) nos três momentos avaliados. Houve redução da EVA no Grupo de Estudo aos 30 dias (p<0,05) e 180 dias (p<0,05), comparativamente ao pré-operatório. Aos 180 dias houve melhora significativa das queixas iniciais (p=0,005 para o Grupo de Estudo e p = 0,027 para o Grupo Controle), comparativamente ao pré-operatório, entretanto, houve diferença significativa entre os dois grupos nos três momentos da avaliação, seja para o percentual de melhora (p<0,001), seja para os descritores de melhora Edof-HC (p=0,004 aos 30 dias e p=0,001 aos 180 dias). No Grupo de Estudo, houve redução significativa dos descritores afetivos de dor (questionário de dor McGill) aos 180 dias (p = 0,014). Os escores de qualidade de vida do Grupo de Estudo foram inferiores aos do Grupo Controle nos domínios psicológico e físico (p<0,001 e p=0,007, respectivamente). As expressões da nNOS e da iNOS foram maiores nas gengivas inflamadas do Grupo de Estudo (p<0,001 e p= 0,003, respectivamente) e a expressão da sP foi semelhante nos dois grupos (p=0,363). Conclusões: Houve redução da intensidade da dor crônica crânio-facial dos pacientes que receberam tratamento para doença periodontal avançada. A expressão da substância P foi semelhante nos tecidos gengivais inflamados dos dois grupos, mas a expressão da nNOS e iNOS foi superior na gengiva inflamada dos pacientes com dor crônica crânio-facial. Pelos dados deste estudo a Doença Periodontal avançada pode ter implicação nas queixas de dor dos pacientes com dor crônica crânio-facial. / Aims: To assess the implications of advanced periodontal disease (PD), and the expression of NOS and sP of inflamed gingival tissue, in the intensity of pain and the quality of life in patients with chronic craniofacial pain. Casuistic and Methods: Were evaluated and treated 20 patients with complaints of chronic craniofacial pain and DP (Study Group), compared with 20 patients who had only DP (Control Group). All patients received surgical periodontal treatment. The evaluation was performed at pre-operative and post-operative periodontal treatment (7, 30 and 180 days). Tools for evaluation: clinical record EDOF-HC, Visual Analogic Scale (VAS), McGill Pain Questionnaire, Scores of Plaque (IP), Bleeding (IS), Clinical Probing Depth (CPD) and Insertion (CPI), the quality of life questionnaire WHOQOL-Bref and immunohistochemical analysis for the expression of nitric oxide synthase (NOS) and substance P from inflamed gingival tissue. The assessment of pain was conducted by independent researcher Results: The groups had similar clinical evolution by parameters of the PD: IP (p=0.0934), IS (p=0.8657), PCS (p=0.1728) and PCI (p=0.7406) in the three moments evaluated. There was reduction in the VAS of Study Group at 30 days (p<0.05) and 180 days (p<0.05), compared to preoperative. At 180 days there was significant improvement of the initial complaints (p=0.005 for the Study Group and p=0.027 for the Control Group), compared to preoperative, but there was significant difference between the two groups in the three moments of assessment, for the percentage of improvement (p<0.001), and either for the improvement descriptors Edof-HC (p=0.004 at 30 days and p=0.001 for 180 days). In Study Group, there was significant reduction of pain affective descriptors (McGill Pain Questionnaire) to 180 days (p=0.014). The scores of quality of life of the Study Group were lower than the Control Group in the psychological and physical (p<0.001 and p=0.007, respectively). The nNOS and iNOS expressions were higher in inflamed gingival Study Group (p<0.001 and p=0.003, respectively) and the expression of sP was similar in the two groups (p=0.363). Conclusions: There was reduction in the intensity of chronic craniofacial pain of patients receiving treatment for advanced periodontal disease. The expression of substance P was similar in inflamed gingival tissue of the two groups, but the expression of iNOS and nNOS was higher in inflamed gingival of patients with chronic craniofacial pain. The data of this study show that advanced periodontal disease can have involvement in complaints of pain in patients with chronic craniofacial pain.

Doenças periodontais

Dor facial

Neurotransmissores

Óxido nítrico

Periodontite

Qualidade de vida

Substância P 7

Facial pain

Neurotransmitter agents

Nitric oxide

Periodontal diseases

Periodontitis

Quality of life

Substance P 7

Efeito da estimulação elétrica do córtex motor sobre neurotransmissores na substância cinzenta periaquedutal / Role of the motor cortex stimulation on neurotransmitter in the periaqueductal gray area

Emerson Magno Fernandes de Andrade

13 July 2018

Introdução. A estimulação do córtex motor (ECM) tem sido utilizada para o tratamento de pacientes com síndromes neuropáticas dolorosas crônicas e resistentes a tratamentos farmacológicos convencionais. O córtex motor primário pode ser a estrutura mais rostral do neuroeixo relacionada ao sistema de modulação da dor, e a ECM provoca ativação neuronal na substância cinzenta periaquedutal (PAG). A PAG é um dos principais centros do sistema descendente supressor de dor e recebe aferências de diferentes regiões do encéfalo. Esse estudo investiga o efeito da estimulação do córtex motor sobre a liberação de neurotransmissores na PAG em modelo de dor neuropática, com o objetivo de investigar os mecanismos neuroquímicos responsáveis pelo feito terapêutico. Métodos. No primeiro experimento, ratos Wistar machos foram aleatoriamente divididos em três grupos. No primeiro grupo, os animais foram submetidos à indução de dor neuropática através da constrição crônica do nervo ciático, no segundo grupo, os animais foram submetidos apenas à exposição do nervo ciático e no terceiro grupo, nenhuma intervenção para indução de dor neuropática foi realizada. Todos os animais foram submetidos a implante unilateral epidural de eletródios de estimulação sobre a área do córtex motor correspondente a pata posterior e implante de cânula guia direcionada à PAG utilizando coordenadas estereotáxicas. Os animais foram avaliados no teste de hiperalgesia mecânica e uma sonda de microdiálise foi introduzida em direção a PAG. As amotras de microdiálise foram coletadas e a análise dos neurotransmissores foi feita em um sistema de cromatografia líquida de alta eficiência (HPLC). No segundo experimento, ratos Wistar machos com dor neuropática induzida na pata posterior foram submetidos a implante estereotáxico de cânula guia direcionada à PAG, e foi realizada micro-injeção de antagonista de glicina e/ou GABA na PAG, previamente a ECM, para avaliar a influência desses antagonistas no efeito analgésico induzido pela estimulação cortical. Resultados. Animais submetidos à indução de dor neuropática apresentaram reversão da hiperalgesia mecânica após ECM. A estimulação cortical induziu um aumento significativo nos níveis de glicina durante (aumento de 153%) e após MCS (134%). A concentração de GABA aumentou 145% durante a estimulação epidural. Os níveis de glutamato não mostraram alteração no microdialisado da PAG após ECM. Houve uma correlação estatisticamente significativa entre o posicionamento da sonda de microdiálise nas colunas lateral e dorsolateral da PAG e o aumento na liberação do neurotransmissor glicina nos animais do grupo CCI. A administração de antagonista de glicina na PAG reverteu o efeito antinociceptivo da estimulação cortical. A micro-injeção de antagonista de GABA na PAG reverteu parcialmente o efeito da ECM. Conclusões. Nossos resultados sugerem que os neutransmissores glicina e GABA, liberados na PAG durante ECM, contribuem para o efeito antinociceptivo da via analgésica descendente. Os resultados desse projeto poderão contribuir para a elucidação dos mecanismos do efeito antinociceptivo da ECM / Introduction. Motor cortex stimulation (MCS) has been used for the treatment of patients with chronic neuropathic pain syndromes that are resistant to conventional pharmacological treatment. The motor cortex may be the most rostral structure in the neuroaxis responsible for pain modulation, and MCS increase the neuronal activation of periaqueductal gray (PAG). The PAG is one of the main subcortical centers of the descending pain suppressor system, and receives inputs from several brain areas. This study investigates the effects of MCS on the release of neurotransmitters in the PAG in neuropathic pain model, in order to investigate the possible neurochemical mechanisms responsible for this effect. Methods. In the first experiment, Wistar male rats were randomly subdivided into three surgical groups. In the first group, induction of neuropathic pain was performed through chronic constriction injury of the right sciatic nerve, in the second group, the animals were submitted just to exposure of the sciatic nerve and in the third group, no intervention for induction of neuropathic pain was performed. All the rats underwent implantation of unilateral epidural electrodes on the motor area corresponding to the right hind paw. The animals were evaluated for mechanical hyperalgesia test and a microdialysis guide cannula was stereotaxically implanted into the PAG. The microdialysate samples were collected and the neurotransmitters analysis was performed by a high- performance (HPLC). In the second experiment, animals with induced neuropathic pain in the hind paw were submitted to a stereotaxic implantation of a guidewire directed to PAG, and a microinjection of glycine and/or GABA antagonist in the PAG before the ECM was performed, to evaluate the influence of these antagonists on the analgesic effect induced by the cortical stimulation. Results. Animals subjected to induction of neuropathic pain showed reversal of mechanical hyperalgesia after motor cortex stimulation. Cortical stimulation induced a significant increase in glycine levels during (153 % increase) and after MCS (134%). The GABA concentration increases 145 % during transdural stimulation. Glutamate levels showed no change in PAG microdialysate after MCS. There was a statistically significant correlation between the positioning of the microdialysis probe in the lateral and dorsolateral columns of the PAG and the increase in the release of the neurotransmitter glycine in the animals of the CCI group. Administration of glycine antagonist in PAG reversed the antinociceptive effect of cortical stimulation. Microinjection of GABA antagonist in PAG partially reversed the effect of MCS. Conclusions. Our results suggest that the neurotransmitters glycine and GABA, released in PAG during MCS, contribute to descending antinociceptive actions. The results of this project will contribute for the elucidation of the mechanisms of the antinociceptive effect of MCS, a phenomenon that has not been fully understood currently

Córtex motor/fisiologia

Dor

Estimulação elétrica

Microdiálise

Modelos animais

Neurotransmissores

Substância cinzenta periaquedutal

Electrical stimulation

Microdialysis

Models animal

Motor cortex/physiology

Neurotransmitter agents

Pain

Periaqueductal gray

The Role of Medial Habenula-Interpeduncular Nucleus Pathway in Anxiety: A Dissertation

Pang, Xueyan

22 June 2015

Recently, the medial habenula-interpeduncular (MHb-IPN) axis has been hypothesized to modulate anxiety although neuronal populations and molecular mechanisms regulating affective behaviors in this circuit are unknown. Here we show that MHb cholinergic neuron activity directly regulates anxiety-like behavior. Optogenetic silencing of MHb cholinergic IPN inputs reduced anxiety-like behavior in mice. MHb cholinergic neurons are unique in that they robustly express neuronal nicotinic acetylcholine receptors (nAChRs), although their role as autoreceptors in these neurons has not been described. nAChRs are ligand-gated cation channels that are activated by the excitatory neurotransmitter, acetylcholine (ACh), as well as nicotine, the addictive component of tobacco smoke. We expressed novel nAChR subunits that render nAChRs hypersensitive to ACh, ACh detectors, selectively in MHb cholinergic neurons of adult mice. Mice expressing these ACh detectors exhibited increased baseline anxiety-like behavior that was alleviated by blocking the mutant receptors. Under stressful conditions, such as during nicotine withdrawal, nAChRs were functionally upregulated in MHb cholinergic neurons mediating an increase in anxiety-like behavior. Together, these data indicate that MHb cholinergic neurons regulate anxiety via signaling through nicotinic autoreceptors and point toward nAChRs in MHb as molecular targets for novel anxiolytic therapeutics.

Acetylcholine

Anxiety

Autoreceptors

Cholinergic Neurons

Habenula

Neurotransmitter Agents

Nicotine

Nicotinic Receptors

Signal Transduction

Tobacco

Dissertations, UMMS

Receptors, Nicotinic

Behavioral Neurobiology

Molecular and Cellular Neuroscience

The Role of Ion Channels in Coordinating Neural Circuit Activity in Caenorhabditis elegans: A Dissertation

Pirri, Jennifer K.

28 March 2013

Despite the current understanding that sensorimotor circuits function through the action of transmitters and modulators, we have a limited understanding of how the nervous system directs the flow of information necessary to orchestrate complex behaviors. In this dissertation, I aimed to uncover how the nervous system coordinates these behaviors using the escape response of the soil nematode, Caenorhabditis elegans, as a paradigm. C. elegans exhibits a robust escape behavior in response to touch. The worm typically moves forward in a sinusoidal pattern, which is accompanied by exploratory head movements. During escape, the worm quickly retreats by moving backward from the point of stimulus while suppressing its head movements. It was previously shown that the biogenic amine tyramine played an important role in modulating the suppression of these head movmemetns in response to touch. We identified a novel tyramine-gated chloride channel, LGC-55, whose activation by tyramine coordinates motor programs essential for escape. Furthermore, we found that changing the electrical nature of a synapse within the neural circuit for escape behavior can reverse its behavioral output, indicating that the C. elegans connectome is established independent of the nature of synaptic activity or behavioral output. Finally, we characterized a unique mutant, zf35 , which is hyperactive in reversal behavior. This mutant was identified as a gain of function allele of the C. elegans P/Q/N-type voltage-gated calcium channel, UNC-2. Taken together, this work defines tyramine as a genuine neurotransmitter and completes the neural circuit that controls the initial phases of the C. elegans escape response. Additionally, this research further advances the understanding of how the interactions between transmitters and ion channels can precisely regulate neural circuit activity in the execution of a complex behavior.

Caenorhabditis elegans

ion channels

transmitters

escape behavior

Dissertations, UMMS

Ion Channels

Neurotransmitter Agents

Tyramine

Escape Reaction

Behavioral Neurobiology

Molecular and Cellular Neuroscience

M₁ Muscarinic Modulation of N-Type Calcium Channels: A Dissertation

Heneghan, John F.

06 November 2006

The influx of calcium through N-type calcium channels (N-current) affects a myriad of neuronal functions. These include the triggering of synaptic release of neurotransmitter, adjustment of membrane potential and changes in gene transcription. N-channels are highly modulated proteins, so that N-current is attenuated or potentiated in response to environmental changes. In turn, the modulation of N-current has a direct effect on the downstream events, making the N-channel a focal point in neural signaling, and its modulation a mechanism for short term plasticity. The modulation of N-current by M1 muscarinic receptors (M1Rs) is of particular interest for several reasons. The M1R is instrumental in both cognition and memory formation as indicated by studies using either pharmacological agents aimed at M1Rs or knockout animals lacking M1Rs. Clinically, the M1R is an important target in the treatment of Alzheimer’s disease. Thus, like the N-channel, the M1R is an important element of neural signaling. Moreover, the stimulation of M1Rs affects N-current by through signaling pathways which despite being studied for decades, are not completely understood. For my dissertation I have investigated of M1R signaling on N-current using electrophysiological recordings of N-current from freshly dissociated neurons and from HEK cells expressing N-channels and M1Rs. Asking how one receptor affects one type of calcium channel would seem to be a simple question. However, the answer has many facets. Since M1Rs have multiple downstream effects and N-channels are highly modulated proteins, stimulation of M1Rs initiates several different pathways which modulate N-current. This thesis aims to unravel some of the complexities of the interactions of two vital components of neuronal signaling. Here I present the results of studies elucidating three different actions of M1signaling of N-current modulation. The first study I present here examines the effect of N-channel subunit composition on modulation of N-current. The stimulation of M1Rs in superior cervical ganglion (SCG) neurons elicits a distinct pattern of modulation; inhibiting N-current elicited by strong depolarizations and enhancing current elicited by lesser depolarizations. Thus M1Rs cause two simultaneous modulatory effects on N-current; increasing voltage sensitivity and decreasing overall conductance. I found the expression of the N-channel’s β subunit (CaVβ) determines the observed effect. Specifically when the isoform CaVβ2a is expressed M1 stimulation elicits enhancement without inhibition. Conversely, when CaVβ1b, CaVβ3, or CaVβ4 are expressed M1 stimulation elicits inhibition with out enhancement. These results fit a model in which both the enhancing and inhibiting effects of M1stimulation occur in all channels, but typically inhibition dominates. CaVβ2a blocks inhibition unmasking latent enhancement. Moreover, using mutants and chimeras I found palmitoylation of CaVβ2a at the N-terminus plays a key role in blocking inhibition. My findings predict the expression and localization of different CaVβ isoforms would dramatically alter modulation of N-current and thus may represent a previously unrecognized form of plasticity. The inhibition of N-current by M1Rs is controversial. It has been proposed recently that inhibition is directly attributable to the depletion of phosphatidylinositol-4,5-bisphosphate [PtdIns(4,5)P2] during M1 stimulation. However, in our lab, we have found arachidonic acid (AA) release, which occurs subsequent to PtdIns(4,5)P2 hydrolysis, is both necessary and sufficient to elicit inhibition. Therefore, in a second study, I tested the effect of CaVβ expression on N-current during exogenous AA application and found a pattern of modulation identical to M1R stimulation. Furthermore, I took part in a collaborative project identifying the AA producing enzyme, diacylglycerol lipase (DAGL), to be a necessary component of the inhibitory pathway elicited by M1Rs. These findings provide increased evidence for AA release being a key factor in the M1R stimulated pathway of inhibition. Moreover, these discoveries identify the expression of CaVβ2a and use of specific DAGL inhibitors as a molecular and pharmacological strategy to block inhibition of N-current, respectively. These tools allow the dissection of downstream effects of M1R stimulation, so that other modulatory effects may be observed. The phosphorylation of N-channels by protein kinase C (PKC) blocks inhibition of current brought on by G-protein β and γ subunits (Gβγ) binding directly to the channel. Relief of Gβγ inhibition by other means has been identified as a mechanism of short term plasticity. M1Rs are known to simulate PKC, but a connection between M1Rs and PKC phosphorylation of Nchannels had not been demonstrated. I hypothesized that PKC stimulation may be occluded by other downstream effects of M1Rs. Therefore in a third study, I used a pharmacological approach on SCG neurons to dissect the PKC activating pathway from the other downstream effects of M1 stimulation. I observed modulation of N-current indicating a loss of Gβγ&#; inhibition, thus consistent with PKC phosphorylation of channels. This conclusion reveals another aspect of M1 modulation, which can function as a means of short term plasticity.

Calcium Channels

N-Type

Receptor

Muscarinic M1

Neurotransmitter Agents

Signal Transduction

Amino Acids, Peptides, and Proteins

Biological Factors

Cells

Enzymes and Coenzymes

Inorganic Chemicals

Investigative Techniques