Global ETD Search

211	Cellular Mechanisms Mediating the Actions of Nerve Growth Factor in Sensory Neurons Park, Kellie Adrienne 08 August 2007 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Nerve growth factor (NGF) is a neurotrophin upregulated with injury and inflammation. Peripheral administration of NGF causes hyperalgesia and allodynia in animals. Blocking NGF signaling reverses these effects. At the cellular level, chronic exposure of sensory neurons to NGF enhances expression the neurotransmitter, calcitonin gene-related peptide (CGRP). Acute exposure to NGF increases capsaicin-evoked CGRP release from sensory neurons in culture. Thus, NGF increases peptide release from neurons by: (1) increasing expression of peptides, and/or (2) altering their sensitivity. The increase in peptide outflow by either mechanism could contribute to development of hyperalgesia and allodynia. The signaling cascades mediating the actions of NGF in sensory neurons are unclear. Therefore, experiments were designed to determine which pathways regulate changes in iCGRP content and evoked release from primary sensory neurons in culture. The Ras/MEK/ERK cascade was identified as a possible regulator of iCGRP expression in response to NGF. To test this pathway, it was manipulated in neurons by (1) expression of dominant negative or constitutively active isoforms of Ras, (2) farnesyltransferase inhibition, (3) manipulation of the RasGAP, synGAP, and (4) blocking MEK activity. When the pathway was blocked, the NGF-induced increase in iCGRP expression was attenuated. When the Ras pathway was activated, iCGRP expression increased. These data indicate that Ras, and downstream signaling kinases, MEK and ERK, regulate the NGF-induced increases in CGRP in sensory neurons. To determine which pathway(s) regulate the increase in capsaicin-evoked iCGRP release upon brief exposure to NGF, the Ras/MEK/ERK pathway was manipulated as described above, and pharmacological inhibitors of the PI3 kinase, PLC, and Src kinase pathways were used. There were no differences observed in NGF-sensitization when the Ras and PI3 kinase pathways were inhibited, suggesting these two pathways were not involved. However, when the Src kinase inhibitor PP2 was used, the NGF-induced increase in release was completely blocked. Furthermore, the PKC inhibitor, BIM, also inhibited the sensitization by NGF. This data indicate Src and PKC regulate of sensitivity of sensory neurons in response to brief exposure to NGF. Thus, there is differential regulation of iCGRP content and evoked release from sensory neurons in response to NGF. sensory neurons dorsal root ganglion neurons nerve growth factor (NGF) sensitization calcitonin gene-related peptide (CGRP) pain Sensory neurons Nerve growth factor Calcitonin gene-related peptide Neuropeptides
212	Eludicating triggers and neurochemical circuits underlying hot flashes in an ovariectomy model of menopause Federici, Lauren Michele 26 February 2016 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Menopausal symptoms, primarily hot flashes, are a pressing clinical problem for both naturally menopausal women and breast and ovarian cancer patients, with a high societal and personal cost. Hot flashes are poorly understood, and animal modeling has been scarce, which has substantially hindered the development of non-hormonal treatments. An emerging factor in the hot flash experience is the role of anxiety and stress-related stimuli, which have repeatedly been shown to influence the bother, frequency, and severity of hot flashes. Causal relationships are difficult to determine in a clinical setting, and the use of animal models offers the ability to elucidate causality and mechanisms. The first part of this work details the development and validation of novel animal models of hot flashes using clinically relevant triggers (i.e., compounds or stimuli that cause hot flashes in clinical settings), which also increase anxiety symptoms. These studies revealed that these triggers elicited strong (7-9 Â°C) and rapid hot flash-associated increases in tail skin temperature in rats. In a surgical ovariectomy rat model of menopause, which typically exhibit anxiety-like behavior, hot flash provocation revealed an ovariectomy-dependent vulnerability, which was attenuated by estrogen replacement in tested models. An examination of the neural circuitry in response to the most robust flushing compound revealed increased cellular activity in key thermoregulatory and emotionally relevant areas. The orexin neuropeptide system was hyperactive and presented as a novel target; pretreatment with selective and dual orexin receptor antagonists significantly diminished or eliminated, respectively, the response to a hot flash provocation in ovariectomized rats. The insertion/deletion polymorphism of the serotonin transporter has been linked to increased anxiety-associated traits in humans, and subsequent studies prolonged hot flashes in SERT+/- rats, which also caused hot flashes in highly symptomatic women. These studies indicate the orexin system may be a novel non-hormonal treatment target, and future studies will determine the therapeutic importance of orexin receptor antagonists for menopausal symptoms. Anxiety Menopause Orexin Animal model Hot flash Menopause Menopause -- Complications Neuropeptides Ovariectomy Ovaries -- Diseases Breast -- Cancer Menopause -- Hormone therapy Middle-aged women -- Health
213	Der Stellenwert von Biomarkern zur Prognoseabschätzung bei diastolischer Dysfunktion und HFpEF / The prognostic value of neuropeptides in diastolic dysfunction and HFpEF Gonschior, Stefan 20 March 2017 (has links) No description available. 610 prognostic value HFpEF neuropeptides diastolic dysfunction NTproBNP MRproADM MRproANP NTproANP hsCRP PIIINP CTproET-1 CTproAVP aldosterone renin hazard ratio diastolic heart failure prognose mortality
214	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 (has links) 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
215	Microscale Tools for Sample Preparation, Separation and Detection of Neuropeptides / Mikroskaliga verktyg för provpreparering, separation och detektion av neuropeptider Dahlin, Andreas January 2005 (has links) <p>The analysis of low abundant biological molecules is often challenging due to their chemical properties, low concentration and limited sample volumes. Neuropeptides are one group of molecules that fits these criteria. Neuropeptides also play an important role in biological functions, which makes them extra interesting to analyze. A classic chemical analysis involves sampling, sample preparation, separation and detection. In this thesis, an enhanced solid supported microdialysis method was developed and used as a combined sampling- and preparation technique. In general, significantly increased extraction efficiency was obtained for all studied peptides. To be able to control the small sample volumes and to minimize the loss of neuropeptides because of unwanted adsorption onto surfaces, the subsequent analysis steps were miniaturized to a micro total analysis system (µ-TAS), which allowed sample pre-treatment, injection, separation, manipulation and detection. </p><p>In order to incorporate these analysis functions to a microchip, a novel microfabrication protocol was developed. This method facilitated three-dimensional structures to be fabricated without the need of clean room facilities. </p><p>The sample pre-treatment step was carried out by solid phase extraction from beads packed in the microchip. Femtomole levels of neuropeptides were detected from samples possessing the same properties as microdialysates. The developed injection system made it possible to conduct injections from a liquid chromatographic separation into a capillary electrophoresis channel, which facilitated for advanced multidimensional separations. An electrochemical sample manipulation system was also developed. In the last part, different electrospray emitter tip designs made directly from the edge of the microchip substrate were developed and evaluated. The emitters were proven to be comparable with conventional, capillary based emitters in stability, durability and dynamic flow range. Although additional developments remain, the analysis steps described in this thesis open a door to an integrated, on-line µ-TAS for neuropeptides analysis in complex biological samples.</p> Analytical chemistry Neuropeptides Microchip Enhanced microdialysis Poly(dimethylsiloxane) (PDMS) Electrospray ionization (ESI) Multidimensional separation Electrochemical manipulation Mass spectrometry (MS) Capillary electrophoresis (CE) Microdevice Microfabrication Micro total analysis system (μ-TAS) Analytisk kemi Analytical chemistry Analytisk kemi
216	Microscale Tools for Sample Preparation, Separation and Detection of Neuropeptides / Mikroskaliga verktyg för provpreparering, separation och detektion av neuropeptider Dahlin, Andreas January 2005 (has links) The analysis of low abundant biological molecules is often challenging due to their chemical properties, low concentration and limited sample volumes. Neuropeptides are one group of molecules that fits these criteria. Neuropeptides also play an important role in biological functions, which makes them extra interesting to analyze. A classic chemical analysis involves sampling, sample preparation, separation and detection. In this thesis, an enhanced solid supported microdialysis method was developed and used as a combined sampling- and preparation technique. In general, significantly increased extraction efficiency was obtained for all studied peptides. To be able to control the small sample volumes and to minimize the loss of neuropeptides because of unwanted adsorption onto surfaces, the subsequent analysis steps were miniaturized to a micro total analysis system (µ-TAS), which allowed sample pre-treatment, injection, separation, manipulation and detection. In order to incorporate these analysis functions to a microchip, a novel microfabrication protocol was developed. This method facilitated three-dimensional structures to be fabricated without the need of clean room facilities. The sample pre-treatment step was carried out by solid phase extraction from beads packed in the microchip. Femtomole levels of neuropeptides were detected from samples possessing the same properties as microdialysates. The developed injection system made it possible to conduct injections from a liquid chromatographic separation into a capillary electrophoresis channel, which facilitated for advanced multidimensional separations. An electrochemical sample manipulation system was also developed. In the last part, different electrospray emitter tip designs made directly from the edge of the microchip substrate were developed and evaluated. The emitters were proven to be comparable with conventional, capillary based emitters in stability, durability and dynamic flow range. Although additional developments remain, the analysis steps described in this thesis open a door to an integrated, on-line µ-TAS for neuropeptides analysis in complex biological samples. Analytical chemistry Neuropeptides Microchip Enhanced microdialysis Poly(dimethylsiloxane) (PDMS) Electrospray ionization (ESI) Multidimensional separation Electrochemical manipulation Mass spectrometry (MS) Capillary electrophoresis (CE) Microdevice Microfabrication Micro total analysis system (μ-TAS) Analytisk kemi Analytical chemistry Analytisk kemi
217	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 Isabella Ibrahim Doche Soares 02 February 2016 (has links) 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 Ensaio de imunoadsorção enzimática Inflamação neurogênica Neuropeptídeos Substância P Alopecia Enzyme-linked immunosorbent assay Neurogenic inflammation Neuropeptides Substance P
218	Neuroendocrine Modulation of Complex Behavior and Physiology in C. elegans Florman, Jeremy T. 30 September 2020 (has links) To survive, animals must adapt to a complex and challenging world in a way that is flexible and responsive, while maintaining internal homeostasis. Neuromodulators provide a means to systemically alter behavioral or physiological state based on intrinsic or extrinsic cues, however dysregulated neuroendocrine signaling has negative consequences for fitness and survival. Here I examine neuroendocrine function and dysfunction using the escape response in Caenorhabditis elegans. The RFamide neuropeptide FLP-18 is a co-transmitter with the monoamine tyramine and functions both synergistically and antagonistically to tyramine in coordinating escape behavior. Using behavioral analysis and calcium imaging, I show that FLP-18 functions primarily through the G-protein coupled receptor (GPCR) NPR-5 to increase calcium levels in muscle, enhancing locomotion rate, bending and reversal behavior during the escape response. Furthermore, I examine the relationship between persistent acute stress and resilience using repeated activation of the escape response as a model of neuroendocrine dysregulation. Repeated activation of the escape response shortens lifespan and renders animals more susceptible to thermal, oxidative, and nutritional stress. Tyramine release is necessary and sufficient for this effect and activity of the tyraminergic RIM neurons is differentially regulated by acute versus long-term stressors. Impaired stress resistance requires both the GPCR TYRA-3 in the intestine and intestinal neuropeptide release. Activation of the insulin receptor DAF-2 is downstream of TYRA-3 and inhibits the transcription factors DAF-16/FOXO, SKN-1/Nrf2 and HSF-1, linking monoamine signaling in acute stress to the insulin signaling pathway and impaired resilience to long-term stressors. neuropeptides neuromodulation C. elegans co-transmission biogenic amines fight or flight response behavior neuropeptide receptors arousal G-protein signaling stress insulin signaling daf-16/FOXO longevity neural circuits compound motor sequence calcium Behavioral Neurobiology Endocrinology
219	Immunohistochemical Analysis of the Mouse Celiac Ganglion: An Integrative Relay Station of the Peripheral Nervous System Kaestner, Charlotte L., Smith, Elizabeth H., Peirce, Stanley G., Hoover, Donald B. 01 November 2019 (has links) Celiac ganglia are important sites of signal integration and transduction. Their complex neurochemical anatomy has been studied extensively in guinea pigs but not in mice. The goal of this study was to provide detailed neurochemical characterization of mouse celiac ganglia and noradrenergic nerves in two target tissues, spleen and stomach. A vast majority of mouse celiac neurons express a noradrenergic phenotype, which includes tyrosine hydroxylase (TH), vesicular monoamine transporter 2, and the norepinephrine transporter. Over 80% of these neuron also express neuropeptide Y (NPY), and this coexpression is maintained by dissociated neurons in culture. Likewise, TH and NPY were colocalized in noradrenergic nerves throughout the spleen and in stomach blood vessels. Somatostatin was not detected in principal neurons but did occur in small, TH-negative cells presumed to be interneurons and in a few varicose nerve fibers. Cholinergic nerves provided the most abundant input to the ganglia, and small percentages of these also contained nitric oxide synthase or vasoactive intestinal polypeptide. A low-to-moderate density of nerves also stained separately for the latter markers. Additionally, nerve bundles and varicose nerve fibers containing the sensory neuropeptides, calcitonin gene-related polypeptide, and substance P, occurred at variable density throughout the ganglia. Collectively, these findings demonstrate that principal neurons of mouse celiac ganglia have less neurochemical diversity than reported for guinea pig and other species but receive input from nerves expressing an array of neurochemical markers. This profile suggests celiac neurons integrate input from many sources to influence target tissues by releasing primarily norepinephrine and NPY. cell culture cholinergic neuropeptides nitrergic noradrenergic RRID: AB_1658411 RRID: AB_2307354 RRID: AB_2572270 RRID: AB_2617184 RRID: AB_2619826 RRID: AB_2713981 RRID: AB_300614 RRID: AB_300798 RRID: AB_572264 RRID: AB_572266 RRID: AB_725807 RRID: AB_90755 RRID: IMSR_JAX:007902 RRID:SCR_002526 RRID:SCR_013673 RRID:SCR_016238 spleen Biomedical Sciences
220	The role of high mobility group box 1 and toll like receptor 4 in a rodent model of neuropathic pain Feldman, Polina 20 November 2013 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Neuropathic pain is a serious health problem that greatly impairs quality of life. The International Association for the Study of Pain (IASP) defines neuropathic pain as ‘pain arising as a direct consequence of a lesion or disease affecting the nervous system’. It is important to note that with neuropathy the chronic pain is not a symptom of injury, but rather the pain is itself a disease process. Novel interactions between the nervous system and elements of the immune system may be key facets to a chronic disease state. One of particular note is the recent finding supporting an interaction between an immune response protein high mobility group box 1 (HMGB1) and Toll like receptor 4 (TLR4). HMGB1 is an endogenous ligand for TLR4 that influences the induction of cytokines in many non-neuronal cells. After tissue damage or injury, HMGB1 may function as a neuromodulatory cytokine and influence the production of pro-nociceptive mediators altering the state of sensory neurons. Very little is known about the HMGB1-TLR4 interaction in sensory neurons and whether chronic changes in endogenous HMGB1 signaling influence the establishment of neuropathic pain. This thesis aims to determine whether a physiologically relevant neuroimmune interaction involving endogenous HMGB1 and TLR4 in the dorsal root ganglia is altered following a tibial nerve injury model of neuropathic pain. I hypothesized that sensitization of sensory neurons following a peripheral nerve injury is dependent on endogenous HMGB1 and TLR4. The studies presented here demonstrate that HMGB1 undergoes subcellular redistribution from the nucleus to the cytoplasm in primary afferent neurons following peripheral nerve injury. Further, the presence of extracellular HMGB1 may directly contribute to peripheral sensitization and injury-induced tactile hyperalgesia. Though thought to be important as a pivotal receptor for HMGB1 activation, neuronal protein expression of TLR4 does not appear to influence the effects of HMGB1-dependent behavioral changes following peripheral nerve injury. Taken together, these findings suggest that extracellular HMGB1 may serve as an important endogenous cytokine that contributes to ongoing pain hypersensitivity in a rodent model of neuropathic pain. HMGB1 TLR4 Neuropathic Pain Immune system -- Research Chronic diseases -- Research Neuralgia -- Research Neuropeptides Neurotransmitters Cell receptors Cellular immunity Cellular signal transduction Cytokines Nerves, Peripheral

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