Global ETD Search

1	Sex Differences of Neurotransporters Within the Nigrostriatal Dopaminergic System Ji, Jing 24 November 2008 (has links) No description available. Biomedical Research DAT DA VMAT-2 mice DA output DOPAC Reserpine
2	Avaliação do efeito de um extrato lipofílico de Hypericum caprifoliatum Cham.& Schltdl sobre os níveis cerebrais de dopamina e seus metabólitos através de microdiálise cerebral em ratos conscientes / Evaluation of the effect of Hypericum caprifoliatum Cham. & Schltdl lipophilic extract on the extracellular levels of dopamine and its metabolites by cerebral microdialysis in freely moving rats Munari, Leonardo Mattos January 2006 (has links) OBJETIVO: Desenvolver e validar a técnica de CLAE-DE para o doseamento de dopamina (DA), ácido diidrofenilacético (DOPAC), ácido homovanílico (HVA) e 3-metoxitiramina (3-MT); validar a técnica de microdiálise (MD) cerebral em animais conscientes e avaliar o efeito do tratamento agudo com um extrato lipofílico das partes aéreas de Hypericum caprifoliatum (HCP) sobre os níveis cerebrais de DA e seus metabólitos. MATERIAIS E MÉTODOS: A validação analítica foi realizada conforme o preconizado pela ANVISA, com análise dos parâmetros linearidade, precisão, exatidão, especificidade e limite inferior de quantificação. A técnica de microdiálise foi realizada de forma clássica: guias de sonda foram implantadas nas regiões cerebrais de interesse por cirurgia estereotáxica; os dialisados foram obtidos, 48 horas após a cirurgia, através da perfusão da sonda com líquido cérebroespinhal artificial (1 μL/min) e coleta durante três horas, em intervalos de 20 min; as três primeiras coletas foram utilizadas para determinação da linha de base e só então foram administrados os tratamentos. Para a validação da MD a sonda foi implantada no estriado (A: -0,3; L: + 3,2; P: - 4,5) e o tratamento foi sulfato de anfetamina (2 mg/kg, s.c.). Para a avaliação do efeito de HCP, a sonda foi implantada no núcleo acumbens (A: +2,2; L: -1,5; P: -5,8) e o tratamento foi uma dose de 270 mg/kg do extrato (v.o.). RESULTADOS E DISCUSSÃO: Os parâmetros avaliados para validar o método analítico ficaram dentro dos limites especificados pela ANVISA. O sulfato de anfetamina produziu um aumento nos níveis extracelulares de DA em 160% e uma redução de DOPAC e de HVA em 80% e 50%, respectivamente. O extrato HCP não alterou o conteúdo intersticial de DA, DOPAC e HVA no núcleo acumbens. Os valores basais encontrados estão de acordo com dados relatados na literatura. Não foi possível quantificar 3-MT. CONCLUSÃO: A metodologia analítica e as condições experimentais de microdiálise utilizadas permitiram a mensuração de mudanças induzidas por anfetamina nos níveis extracelulares de DA e seus principais metabólitos demonstrando que os fundamentos da técnica estão estabelecidos em nossas condições. O regime de tratamento empregado com HCP não foi suficiente para alterar os níveis de DA e seus principais metabólitos no núcleo acumbens de ratos. / OBJECTIVE: The objectives of this work were to validate the HLPC-ED technique for measuring dopamine (DA), dihydroxyphenylacetic acid (DOPAC), homovanillic acid (HVA) and 3- methoxytyramine (3-MT); to put into operation the brain microdialysis technique (MD) in freely moving rats; to evaluate, by using MD, the effect of a single treatment with lipophilic extract from aerial parts of Hypericum caprifoliatum (HCP) on DA, DOPAC, HVA and 3-MT brain levels. MATERIALS AND METHODS: In order to validate the analytical technique we followed the parameters established by ANVISA for bioanalytical samples. The parameters were: precision, accuracy, specificity and also the lower limit of quantitation. The microdialysis technique was carried out following classical procedures: male Wistar rats were submitted to stereotaxic surgery for the guide cannula implantation in the brain regions of interest; 48 hours later, the microdiaysis probe was inserted and perfused with cerebrospinal fluid (1 μL/min). After baseline samples collecting (1 h), the treatments were administrated and samples were collected every 20 min, during 2h. To accomplish MD technique validation the animals were treated with amphetamine sulfate (2 mg/kg, s.c.) and the extracellular levels of DA, DOPAC e HVA were measured in striatum (A: -0,3; L: + 3,2; P: - 4,5). The effect of HCP acute treatment (270 mg/kg, p.o.) was evaluated in nucleus accumbens (A: +2,2; L: -1,5; P: -5,8). RESULTS AND DISCUSSION: The analytical parameters values found were within the acceptable ranges for bio-analytical limits specified by ANVISA. As expected, amphetamine sulfate administration significantly increased DA (160%) extracellular levels and decreased DOPAC (80%) and HVA (50%) levels. The quantification of 3-MT was not possible. Acute HCP administration did not affected DA, DOPAC and HVA levels in the nucleus accumbens. CONCLUSION: The HPLC-ED methodology and microdialysis procedures employed allowed the detection of amphetamineinduced changes in extracellular levels of DA and its metabolites demonstrating that the technical starting point was acceptable. The acute administration of 270 mg/kg, p.o. of HCP to rats was not sufficient to modify the extracellular levels of DA, DOPAC and HVA in the nucleus accumbens. Hypericum caprifoliatum Dopamina Ácido homovanílico Microdialise Brain microdialysis Hypericum caprifoliatum Dopamine DOPAC HVA 3-MT
3	Avaliação do efeito de um extrato lipofílico de Hypericum caprifoliatum Cham.& Schltdl sobre os níveis cerebrais de dopamina e seus metabólitos através de microdiálise cerebral em ratos conscientes / Evaluation of the effect of Hypericum caprifoliatum Cham. & Schltdl lipophilic extract on the extracellular levels of dopamine and its metabolites by cerebral microdialysis in freely moving rats Munari, Leonardo Mattos January 2006 (has links) OBJETIVO: Desenvolver e validar a técnica de CLAE-DE para o doseamento de dopamina (DA), ácido diidrofenilacético (DOPAC), ácido homovanílico (HVA) e 3-metoxitiramina (3-MT); validar a técnica de microdiálise (MD) cerebral em animais conscientes e avaliar o efeito do tratamento agudo com um extrato lipofílico das partes aéreas de Hypericum caprifoliatum (HCP) sobre os níveis cerebrais de DA e seus metabólitos. MATERIAIS E MÉTODOS: A validação analítica foi realizada conforme o preconizado pela ANVISA, com análise dos parâmetros linearidade, precisão, exatidão, especificidade e limite inferior de quantificação. A técnica de microdiálise foi realizada de forma clássica: guias de sonda foram implantadas nas regiões cerebrais de interesse por cirurgia estereotáxica; os dialisados foram obtidos, 48 horas após a cirurgia, através da perfusão da sonda com líquido cérebroespinhal artificial (1 μL/min) e coleta durante três horas, em intervalos de 20 min; as três primeiras coletas foram utilizadas para determinação da linha de base e só então foram administrados os tratamentos. Para a validação da MD a sonda foi implantada no estriado (A: -0,3; L: + 3,2; P: - 4,5) e o tratamento foi sulfato de anfetamina (2 mg/kg, s.c.). Para a avaliação do efeito de HCP, a sonda foi implantada no núcleo acumbens (A: +2,2; L: -1,5; P: -5,8) e o tratamento foi uma dose de 270 mg/kg do extrato (v.o.). RESULTADOS E DISCUSSÃO: Os parâmetros avaliados para validar o método analítico ficaram dentro dos limites especificados pela ANVISA. O sulfato de anfetamina produziu um aumento nos níveis extracelulares de DA em 160% e uma redução de DOPAC e de HVA em 80% e 50%, respectivamente. O extrato HCP não alterou o conteúdo intersticial de DA, DOPAC e HVA no núcleo acumbens. Os valores basais encontrados estão de acordo com dados relatados na literatura. Não foi possível quantificar 3-MT. CONCLUSÃO: A metodologia analítica e as condições experimentais de microdiálise utilizadas permitiram a mensuração de mudanças induzidas por anfetamina nos níveis extracelulares de DA e seus principais metabólitos demonstrando que os fundamentos da técnica estão estabelecidos em nossas condições. O regime de tratamento empregado com HCP não foi suficiente para alterar os níveis de DA e seus principais metabólitos no núcleo acumbens de ratos. / OBJECTIVE: The objectives of this work were to validate the HLPC-ED technique for measuring dopamine (DA), dihydroxyphenylacetic acid (DOPAC), homovanillic acid (HVA) and 3- methoxytyramine (3-MT); to put into operation the brain microdialysis technique (MD) in freely moving rats; to evaluate, by using MD, the effect of a single treatment with lipophilic extract from aerial parts of Hypericum caprifoliatum (HCP) on DA, DOPAC, HVA and 3-MT brain levels. MATERIALS AND METHODS: In order to validate the analytical technique we followed the parameters established by ANVISA for bioanalytical samples. The parameters were: precision, accuracy, specificity and also the lower limit of quantitation. The microdialysis technique was carried out following classical procedures: male Wistar rats were submitted to stereotaxic surgery for the guide cannula implantation in the brain regions of interest; 48 hours later, the microdiaysis probe was inserted and perfused with cerebrospinal fluid (1 μL/min). After baseline samples collecting (1 h), the treatments were administrated and samples were collected every 20 min, during 2h. To accomplish MD technique validation the animals were treated with amphetamine sulfate (2 mg/kg, s.c.) and the extracellular levels of DA, DOPAC e HVA were measured in striatum (A: -0,3; L: + 3,2; P: - 4,5). The effect of HCP acute treatment (270 mg/kg, p.o.) was evaluated in nucleus accumbens (A: +2,2; L: -1,5; P: -5,8). RESULTS AND DISCUSSION: The analytical parameters values found were within the acceptable ranges for bio-analytical limits specified by ANVISA. As expected, amphetamine sulfate administration significantly increased DA (160%) extracellular levels and decreased DOPAC (80%) and HVA (50%) levels. The quantification of 3-MT was not possible. Acute HCP administration did not affected DA, DOPAC and HVA levels in the nucleus accumbens. CONCLUSION: The HPLC-ED methodology and microdialysis procedures employed allowed the detection of amphetamineinduced changes in extracellular levels of DA and its metabolites demonstrating that the technical starting point was acceptable. The acute administration of 270 mg/kg, p.o. of HCP to rats was not sufficient to modify the extracellular levels of DA, DOPAC and HVA in the nucleus accumbens. Hypericum caprifoliatum Dopamina Ácido homovanílico Microdialise Brain microdialysis Hypericum caprifoliatum Dopamine DOPAC HVA 3-MT
4	Avaliação do efeito de um extrato lipofílico de Hypericum caprifoliatum Cham.& Schltdl sobre os níveis cerebrais de dopamina e seus metabólitos através de microdiálise cerebral em ratos conscientes / Evaluation of the effect of Hypericum caprifoliatum Cham. & Schltdl lipophilic extract on the extracellular levels of dopamine and its metabolites by cerebral microdialysis in freely moving rats Munari, Leonardo Mattos January 2006 (has links) OBJETIVO: Desenvolver e validar a técnica de CLAE-DE para o doseamento de dopamina (DA), ácido diidrofenilacético (DOPAC), ácido homovanílico (HVA) e 3-metoxitiramina (3-MT); validar a técnica de microdiálise (MD) cerebral em animais conscientes e avaliar o efeito do tratamento agudo com um extrato lipofílico das partes aéreas de Hypericum caprifoliatum (HCP) sobre os níveis cerebrais de DA e seus metabólitos. MATERIAIS E MÉTODOS: A validação analítica foi realizada conforme o preconizado pela ANVISA, com análise dos parâmetros linearidade, precisão, exatidão, especificidade e limite inferior de quantificação. A técnica de microdiálise foi realizada de forma clássica: guias de sonda foram implantadas nas regiões cerebrais de interesse por cirurgia estereotáxica; os dialisados foram obtidos, 48 horas após a cirurgia, através da perfusão da sonda com líquido cérebroespinhal artificial (1 μL/min) e coleta durante três horas, em intervalos de 20 min; as três primeiras coletas foram utilizadas para determinação da linha de base e só então foram administrados os tratamentos. Para a validação da MD a sonda foi implantada no estriado (A: -0,3; L: + 3,2; P: - 4,5) e o tratamento foi sulfato de anfetamina (2 mg/kg, s.c.). Para a avaliação do efeito de HCP, a sonda foi implantada no núcleo acumbens (A: +2,2; L: -1,5; P: -5,8) e o tratamento foi uma dose de 270 mg/kg do extrato (v.o.). RESULTADOS E DISCUSSÃO: Os parâmetros avaliados para validar o método analítico ficaram dentro dos limites especificados pela ANVISA. O sulfato de anfetamina produziu um aumento nos níveis extracelulares de DA em 160% e uma redução de DOPAC e de HVA em 80% e 50%, respectivamente. O extrato HCP não alterou o conteúdo intersticial de DA, DOPAC e HVA no núcleo acumbens. Os valores basais encontrados estão de acordo com dados relatados na literatura. Não foi possível quantificar 3-MT. CONCLUSÃO: A metodologia analítica e as condições experimentais de microdiálise utilizadas permitiram a mensuração de mudanças induzidas por anfetamina nos níveis extracelulares de DA e seus principais metabólitos demonstrando que os fundamentos da técnica estão estabelecidos em nossas condições. O regime de tratamento empregado com HCP não foi suficiente para alterar os níveis de DA e seus principais metabólitos no núcleo acumbens de ratos. / OBJECTIVE: The objectives of this work were to validate the HLPC-ED technique for measuring dopamine (DA), dihydroxyphenylacetic acid (DOPAC), homovanillic acid (HVA) and 3- methoxytyramine (3-MT); to put into operation the brain microdialysis technique (MD) in freely moving rats; to evaluate, by using MD, the effect of a single treatment with lipophilic extract from aerial parts of Hypericum caprifoliatum (HCP) on DA, DOPAC, HVA and 3-MT brain levels. MATERIALS AND METHODS: In order to validate the analytical technique we followed the parameters established by ANVISA for bioanalytical samples. The parameters were: precision, accuracy, specificity and also the lower limit of quantitation. The microdialysis technique was carried out following classical procedures: male Wistar rats were submitted to stereotaxic surgery for the guide cannula implantation in the brain regions of interest; 48 hours later, the microdiaysis probe was inserted and perfused with cerebrospinal fluid (1 μL/min). After baseline samples collecting (1 h), the treatments were administrated and samples were collected every 20 min, during 2h. To accomplish MD technique validation the animals were treated with amphetamine sulfate (2 mg/kg, s.c.) and the extracellular levels of DA, DOPAC e HVA were measured in striatum (A: -0,3; L: + 3,2; P: - 4,5). The effect of HCP acute treatment (270 mg/kg, p.o.) was evaluated in nucleus accumbens (A: +2,2; L: -1,5; P: -5,8). RESULTS AND DISCUSSION: The analytical parameters values found were within the acceptable ranges for bio-analytical limits specified by ANVISA. As expected, amphetamine sulfate administration significantly increased DA (160%) extracellular levels and decreased DOPAC (80%) and HVA (50%) levels. The quantification of 3-MT was not possible. Acute HCP administration did not affected DA, DOPAC and HVA levels in the nucleus accumbens. CONCLUSION: The HPLC-ED methodology and microdialysis procedures employed allowed the detection of amphetamineinduced changes in extracellular levels of DA and its metabolites demonstrating that the technical starting point was acceptable. The acute administration of 270 mg/kg, p.o. of HCP to rats was not sufficient to modify the extracellular levels of DA, DOPAC and HVA in the nucleus accumbens. Hypericum caprifoliatum Dopamina Ácido homovanílico Microdialise Brain microdialysis Hypericum caprifoliatum Dopamine DOPAC HVA 3-MT
5	Prenatal Cadmium and Ethanol Increase Amphetamine-Evoked Dopamine Release in Rat Striatum Nowak, Przemysław, Dabrowska, Joanna, Bortel, Aleksandra, Izabela, Biedka, Kostrzewa, Richard M., Brus, Ryszard 01 September 2006 (has links) To explore interactive deleterious effects of the teratogens ethanol and cadmium, pregnant rats were given cadmium (CdCl2, 50 ppm) and/or ethanol (10%), or tap water (controls) in the drinking water for the entire 21 days of pregnancy. At 3 months after birth, in vivo microdialysis was used to determine that there was a 4000% evoked release of DA by AMPH (AMPH, 4.0 mg/kg i.p.) in the striatum of rats exposed prenatally to both ethanol and cadmium, vs. a 2000% evoked release by AMPH in rats exposed prenatally to only ethanol or cadmium or tap water. Haloperidol (HAL)-evoked DA release was suppressed in groups exposed prenatally to ethanol, while HAL-evoked DOPAC and HVA release was greatest after co-exposure to prenatal cadmium and ethanol. These in vivo microdialysis results indicate that ontogenetic co-exposure to cadmium, and ethanol produces a long-lived suppressive effect on HAL-evoked DA release and a long-lived enhancing effect on AMPH-evoked DA release in rat striatum. These findings clearly demonstrate that there is marked alteration in dopaminergic regulation after ontogenetic cadmium and ethanol co-exposure, which in this regard resembles the reaction of the striatonigral pathway on AMPH-evoked DA release in rats with behavioral sensitization. amphetamine brain microdialysis cadmium DOPAC dopamine ethanol haloperidol HVA Biomedical Sciences
6	7-Nitroindazole Enhances Amphetamine-Evoked Dopamine Release in Rat Striatum. An in Vivo Microdialysis and Voltammetric Study Nowak, P., Brus, R., Oswiecimska, J., Sokola, A., Kostrzewa, R. M. 14 July 2002 (has links) (PDF) The intracellular second messenger nitric oxide (NO) is implicated in a variety of physiological functions, including release and uptake of dopamine (DA). In the described study, in vivo microdialysis and differential pulse voltammetric techniques were used to determine the involvement of NO in release of DA and its metabolites (dihydroxyphenylalanine, DOPAC; homovanillic acid, HVA) in neostriatum of freely moving rats. While the NO donor molsidomine (30.0 mg/kg; MOLS) and neuronal NO synthase- (nNOS-) inhbitor 7-nitroindazole (10.0 mg/kg; 7-NI) had no effect on the basal in vivo microdialysate level of DA, 7-NI specifically enhanced D,L-amphetamine- (1.0 mg/kg i.p.; AMPH) evoked release of DA. Basal or AMPH effects on DOPAC and HVA levels were not influenced by MOLS or 7-NI. Findings indicate that nitrergic systems have an important role in mediating effects of AMPH on dopaminergic systems. 7-nitroindazole amphetamine brain microdialysis DOPAC dopamine HVA in vivo voltammetry molsidomine Rats
7	The Effect of Organophosphate Exposure on Neocortical, Hippocampal and Striatal Monoamines: A Potential Substrate for Chronic Psychiatric, Cognitive and Motor Dysfunction Lewis, Mary Catherine 01 September 2003 (has links) Depression and other mood disorders, as well as cognitive and motor dysfunction have been linked with changes in monoamine levels in the brain. Environmental acetylcholinesterase (AChE) inhibitors, such as organophosphate insecticides (OPs), have also been shown to induce these problems. This study investigated whether insecticide-induced AChE inhibition, induced by chlorpyrifos (CPS), may contribute to the types of forebrain monoaminergic alterations associated with psychiatric, cognitive and motor dysfunction. Increased synaptic ACh, resulting from CPS-induced AChE inhibition, may alter the synthesis or release of monoamines through prolonged action of ACh on monoaminergic neurons that contain ACh receptors. Adult, male Sprague-Dawley rats were subjected to a single subcutaneous dose of CPS or corn oil vehicle. Brains were rapidly removed and the frontal cortex, hippocampus and striatum were bilaterally dissected on ice. These three regions from one side were assayed for AChE activity, while those from the opposite side were processed for high performance liquid chromatography with electrochemical detection (HPLC-ED) analysis of monoamine neurotransmitters and their metabolites. In the initial, exploratory experiment, inhibition of AChE activity was 66.8% in the frontal cortex, 43.8% in the hippocampus and 46.9% in the striatum, 7 days after a 60mg/kg dose of CPS. No significant differences in concentration of monoamine neurochemicals were observed between vehicle control and CPS-treated groups in either the hippocampus or striatum. However, in the frontal cortex of the CPS-treated rats there was a significant increase in median dihydroxyphenylacetic acid (DOPAC) concentration (P=0.019) and a very strong statistical trend toward increased dopamine (DA) concentration (P=0.0506). The second experiment examined the time course of AChE inhibition produced by a higher dose (200mg/kg) of CPS and how monoamine levels changed in conjunction with this pattern of AChE inhibition. Percent inhibition of AChE activity in CPS-treated animals, at 4, 14 and 21 days post-exposure was 77.0%, 86.6% and 81.9% in the frontal cortex, 86.1%, 85.9% and 83.2% in the hippocampus and 90.1%, 89.8% and 85.5% in the striatum. No significant differences in monoamine neurochemicals were observed between vehicle control and CPS-treated groups in either the hippocampus or striatum. A statistical trend toward a decrease in serotonin (5-HT) was seen in the frontal cortex at 14 days (P=0.0753) following CPS exposure. A very consistent, yet non-significant pattern of an increase in monoamines at 4 days post-CPS was observed in all instances, except for 5-hydroxyindoleacetic acid (5-HIAA) in the striatum. Therefore, the final experiment employed a more powerful design to focus on monoamine levels during, or shortly after, the change in AChE activity that rapidly follows exposure to 200mg/kg CPS. This experiment also employed a behavioral analysis on the day of sacrifice to assess the presence or absence of clinical signs of toxicity associated with this dose. Of the 30 CPS-treated rats, only 1 animal displayed a single behavioral sign of cholinergic poisoning. Percent inhibition of AChE activity at 2 and 4 days after treatment was 81.4% and 79.4% in the frontal cortex, 53.4% and 83.5% in the hippocampus, and 80.5% and 87.8% in the striatum. No significant changes in monoamine neurochemicals were observed between vehicle control and CPS-treated groups in either the frontal cortex or hippocampus. However, a significant increase in DOPAC (P=0.0285) in the striatum, 2 days after CPS treatment, was observed. In addition, a strong statistical trend toward decreased striatal 5-HT (P=0.0645) was reported 4 days after CPS treatment. The only significant correlation between AChE activity and monoamine concentration was observed for 5-HIAA in the striatum of CPS-treated, 2 day survivors (P=0.0445). However, it was of low magnitude (r=0.525, r2=0.276). CPS has a limited capacity to produce changes in monoamine neurotransmitters and/or their metabolites in the frontal cortex and striatum of the mammalian brain. These changes are primarily seen in the dopaminergic system. Alterations of monoamines do not appear to be strongly associated with incident levels of AChE inhibition. The biological implication of the limited OP induced changes in central monoamines remains significant, as changes in monoamines in the CNS nervous system have been linked to psychiatric, cognitive and motor dysfunction. / Master of Science 5-HIAA Serotonin Striatum Cerebral Cortex Hippocampus Chlorpyrifos Monoamines Insecticides Neurotoxicity Dopamine DOPAC Norepinephrine
8	Efectos conductuales y neuroquímicos del consumo de éxtasis y cocaína en ratones adolescentes. Daza Losada, Manuel 16 June 2009 (has links) La 3,4-metilendioximetanfetamina (MDMA), una sustancia popularmente conocida como éxtasis, es una droga ilícita consumida habitualmente por adolescentes y adultos jóvenes. Además, el policonsumo es una práctica habitual entre los usuarios de la MDMA, siendo la cocaína una de las drogas más frecuentemente asociadas a esta sustancia. El objetivo del presente trabajo fue evaluar los efectos a corto y largo plazo que se producen tras la administración de la MDMA (5, 10, o 20 mg/kg) sola o en combinación con cocaína (25 mg/kg) en ratones adolescentes. En el estudio sobre el efecto agudo, observamos que ambas drogas administradas individual o simultáneamente incrementan la actividad motora. La dosis alta de MDMA disminuye de los contactos sociales en la prueba de la interacción social afectando igualmente el test de retención de la evitación pasiva. Sin embargo, sólo la co-administración de MDMA en combinación con cocaína produjo un efecto ansiolítico caracterizado por un aumento del tiempo de permanencia en los brazos abiertos del laberinto elevado en cruz. Igualmente, el análisis neuroquímico reveló que los ratones que recibieron MDMA en combinación con cocaína mostraron un incremento en el turnover de DA en el estriado, pero una disminución del de serotonina en la corteza. Los estudios de los efectos a largo plazo, realizados tres semanas después de haber finalizado un tratamiento con MDMA sola o en combinación con cocaína (2 administraciones por día durante 3 días consecutivos), mostraron que los ratones expuestos a la MDMA, sola o más cocaína, incrementaron el tiempo dedicado a las conductas sociales, aunque los que también habían recibido cocaína presentaban además conductas de amenaza. Observamos un efecto neurotóxico en los ratones tratados únicamente con 20 mg/kg de MDMA que mostraron un decremento de la concentración de DA en el estriado, no observándose este deterioro en los tratados además con cocaína. Por otra parte, mediante el condicionamiento de la preferencia de lugar (CPL) confirmamos que la MDMA posee efectos reforzantes y que esta sustancia es capaz de reinstaurar la preferencia de lugar una vez que esta se ha extinguido. La expresión y la reinstauración del CPL inducido por la MDMA dependen de la pauta de condicionamiento que condiciona los efectos neurotóxicos producidos por esta droga. Para finalizar, el tratamiento con MDMA sola o en combinación con cocaína durante la adolescencia favorece los efectos reforzantes de la MDMA durante el periodo adulto. Además, la exposición previa a la cocaína aumenta el tiempo necesario para extinguir la preferencia de lugar inducida por la MDMA. / 3,4-methylene-dioxy-methamphetamine (MDMA), commonly known as ecstasy, is an illicit recreational drug consumed by teenagers and young adults. The poly-drug pattern is the most common among those observed in MDMA users, with cocaine being a frequently associated drug. The aim of the present study was to evaluate the short- and long-term effects of exposure to MDMA (5, 10, or 20 mg/kg), alone or plus cocaine (25 mg/kg), on adolescent mice. In the acute phase, both drugs produced hyperactivity whether administered alone or concurrently. The highest MDMA dose decreased social contacts and affected the passive avoidance task. However, an anxiolytic effect, studied by means of the elevated plus maze and expressed as an increase in the time spent on the open arms, was observed only in animals treated with both cocaine and MDMA. Neurochemical analyses revealed an increase in striatal DA turnover and a decrease in serotonin cortical turnover in mice treated with MDMA plus cocaine. The studies conducted to establish long-term effects, which were performed 3 weeks after a 3-day treatment of two daily injections of MDMA alone or plus cocaine (6 administrations) during the adolescent period, showed that mice treated with MDMA alone and plus cocaine spent more time engaged in social contact, although those also treated with cocaine exhibited threat behaviors. Furthermore, we observed a neurotoxic effect in mice exposed to 20 mg/kg of MDMA, evident in a decrease in DA levels in the striatum, but this effect was not detected in mice additionally treated with cocaine. On the other hand, using the conditioned place preference (CPP), we have confirmed the rewarding effects of MDMA. In addition, we also show that MDMA can produce reinstatement of place preference after the extinction of this response. The expression and reinstatement of MDMA-induced CPP depend on the conditioning protocol, which conditions the neurotoxic effects produced by this drug. Finally, exposure during adolescence to MDMA alone or plus cocaine facilitates the rewarding effects of MDMA in adulthood. Moreover, previous experience of cocaine increases the time required to extinguish the MDMA-induced CPP. interacción social laberinto elevado en cruz actividad motora CPL reinstauración dopamina adolescencia serotonina ratones cocaína MDMA evitación pasiva DOPAC HVA 5-HIAA. / MDMA cocaine mice adolescence serotonine dopamine reinstatement CPP motor activity elevated plus maze social interaction passive avoidance task DOPAC HVA 5-HIAA. Facultat de Psicologia 159.9
9	MASS SPECTROMETRIC DETECTION OF INDOPHENOLS FROM THE GIBBS REACTION FOR PHENOLS ANALYSIS Sabyasachy Mistry (7360475) 28 April 2020 (has links) <p><a></a><a></a><a></a><a></a><a></a><a></a><a></a><a></a><a></a><a></a><a>ABSTRACT</a></p> <p>Phenols are ubiquitous in our surroundings including biological molecules such as L-Dopa metabolites, food components, such as whiskey and liquid smoke, etc. This dissertation describes a new method for detecting phenols, by reaction with Gibbs reagent to form indophenols, followed by mass spectrometric detection. Unlike the standard Gibbs reaction which uses a colorimetric approach, the use of mass spectrometry allows for simultaneous detection of differently substituted phenols. The procedure is demonstrated to work for a large variety of phenols without <i>para</i>‐substitution. With <i>para</i>‐substituted phenols, Gibbs products are still often observed, but the specific product depends on the substituent. For <i>para</i> groups with high electronegativity, such as methoxy or halogens, the reaction proceeds by displacement of the substituent. For groups with lower electronegativity, such as amino or alkyl groups, Gibbs products are observed that retain the substituent, indicating that the reaction occurs at the <i>ortho</i> or <i>meta</i> position. In mixtures of phenols, the relative intensities of the Gibbs products are proportional to the relative concentrations, and concentrations as low as 1 μmol/L can be detected. The method is applied to the qualitative analysis of commercial liquid smoke, and it is found that hickory and mesquite flavors have significantly different phenolic composition.</p> <p>In the course of this study, we used this technique to quantify major phenol derivatives in commercial products such as liquid smoke (catechol, guaiacol and syringol) and whiskey (<i>o</i>-cresol, guaiacol and syringol) as the phenol derivatives are a significant part of the aroma of foodstuffs and alcoholic beverages. For instance, phenolic compounds are partly responsible for the taste, aroma and the smokiness in Liquid Smokes and Scotch whiskies. </p> <p>In the analysis of Liquid Smokes, we have carried out an analysis of phenols in commercial liquid smoke by using the reaction with Gibbs reagent followed by analysis using electrospray ionization mass spectrometry (ESI-MS). This analysis technique allows us to avoid any separation and/or solvent extraction steps before MS analysis. With this analysis, we are able to determine and compare the phenolic compositions of hickory, mesquite, pecan and apple wood flavors of liquid smoke. </p> <p>In the analysis of phenols in whiskey, we describe the detection of the Gibbs products from the phenols in four different commercial Scotch whiskies by using simple ESI-MS. In addition, by addition of an internal standard, 5,6,7,8-tetrahydro-1-napthol (THN), concentrations of the major phenols in the whiskies are readily obtained. With this analysis we are able to determine and compare the composition of phenols in them and their contribution in the taste, smokey, and aroma to the whiskies.</p> <p>Another important class of phenols are found in biological samples, such as L-Dopa and its metabolites, which are neurotransmitters and play important roles in living systems. In this work, we describe the detection of Gibbs products formed from these neurotransmitters after reaction with Gibbs reagent and analysis by using simple ESI‐MS. This technique would be an alternative method for the detection and simultaneous quantification of these neurotransmitters. </p> <p>Finally, in the course of this work, we found that the positive Gibbs tests are obtained for a wide range of <i>para</i>-substituted phenols, and that, in most cases, substitution occurs by displacement of the <i>para</i>-substituent. In addition, there is generally an additional unique second-phenol-addition product, which conveniently can be used from an analytical perspective to distinguish <i>para</i>-substituted phenols from the unsubstituted versions. In addition to using the methodology for phenol analysis, we are examining the mechanism of indophenol formation, particularly with the <i>para</i>-substituted phenols. </p> <p>The importance of peptides to the scientific world is enormous and, therefore, their structures, properties, and reactivity are exceptionally well-characterized by mass spectrometry and electrospray ionization. In the dipeptide work, we have used mass spectrometry to examine the dissociation of dipeptides of phenylalanine (Phe), containing sulfonated tag as a charge carrier (Phe), proline (Pro) to investigate their gas phase dissociation. The presence of sulfonated tag (SO<sub>3</sub><sup>-</sup>) on the Phe amino acid serves as the charge carrier such that the dipeptide backbone has a canonical structure and is not protonated. Phe-Pro dipeptide and their derivatives were synthesized and analyzed by LCQ-Deca mass spectroscopy to get the fragmentation mechanism. To confirm that fragmentation path, we also synthesized dikitopeparazines and oxazolines from all combinations of the dipeptides. All these analyses were confirmed by isotopic labeling experiments and determination and optimization of structures were carried out using theoretical calculation. We have found that the fragmentation of PhePro and ProPhe* dipeptides form sequence specific b<sub>2</sub> ions. In addition, not only is the ‘mobile proton’ involved in the dissociation process, but also is the ‘backbone hydrogen’ is involved in forming b<sub>2</sub> ions. </p> <p> </p> Analytical Spectrometry Physical Organic Chemistry Mass spectroscopy Phenols analysis Indophenols Liquid Smoke Scotch Whiskey Dipeptides QChem Marvin L-Dopa metabolites Catechol guaiacol Syringol Cresol 3,4-dihydroxyphenylacetic acid (DOPAC) dopamine 3-methoxytyramine (3-MT) b2 Ions

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