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31	Estudo dos efeitos do monossialogangliosídeo (GM1) administrado pela via transdérmica por laser a baixa temperatura, após lesão medular experimental em ratos / Study the effects of monossialoganglioside (GM1) administered by transdermal laser at low temperature, the spinal cord injuries in rats Souza, Fabiano Inácio de 24 January 2012 (has links) Objetivo: avaliar os efeitos do monossialogangliosídeo (GM1) administrado pela via de transdérmica por laser a baixa temperatura, após lesão medular experimental em ratos. Métodos: o estudo incluiu 40 ratos Wistar, machos, com idade entre 20 e 21 semanas, submetidos à lesão medular contusa pelo equipamento NYU Impactor, a altura de 25 mm, de acordo com o protocolo MASCIS. Foram formados 4 grupos de 10 animais. No grupo 1, os ratos receberam diariamente 0,2 ml de soro fisiológico, via intraperitoneal; no grupo 2, GM1 via intraperitoneal, na concentração 30 mg/kg por dia; no grupo 3, sessão diária de laser a baixa temperatura na topografia da lesão; no grupo 4 sessão diária de laser contendo GM1 na concentração de 30 mg/kg pela via transcutânea por Laser Ice. Todos os animais foram tratados por 42 dias. Foram avaliados por meio da escala de avaliação funcional Basso, Baettie e Bresnahan (BBB) em 7, 14, 21, 28, 35 e 42 dias após a lesão, pelo exame histopatológico e por potencial evocado motor após 42 dias da lesão. Resultados: os animais do grupo 4 apresentaram os escores da escala BBB superiores aos demais grupos até a quarta semana, sendo equiparado aos demais na sexta semana. Não houve diferença estatisticamente significante entre os grupos e as semanas. A avaliação histológica não demonstrou resultados com significância estatística. Os exames de potencial evocado motor demonstraram maior latência média no grupo 1, sem significância estatística. Conclusão: o emprego de GM1 associado a laser em baixa temperatura demonstra resultados funcionais superiores nas primeiras semanas, mas sem evidenciar diferença estatisticamente significante / Objective: To evaluate the effects of monossialoganglioside (GM1) administered transdermally, and laser at low temperature, in the functional and histological recovery of spinal cord injury in rats. Methods: Forty male Wistar rats, aged between 20 and 21 weeks, underwent spinal cord contusion at NYU Impactor, according to the MASCIS protocol. They were divided into four groups: in Group 1, rats received 0.2 ml of saline intraperitoneally daily; in Group 2, GM1 was administered intraperitoneally at a concentration 30 mg/kg per day; in Group 3, rats were treated with laser at low temperature on the skin, daily and in Group 4, the daily laser session also contained GM1. All the groups were treated for 42 days. The animals were evaluated by the Basso, Baettie and Bresnahan (BBB) functional scale on days 7, 14, 21, 28, 35 and 42 after injury, and by histopathology and motor evoked potentials after 42 days of injury. Results: The animals in Group 4 had higher BBB scores compared to the other groups, until the 4th week. There were no statistically significant differences between the groups, or in the comparisons over time, i.e. from one week to the next. Histological evaluation showed no statistically significant results, and no significant differences were found in the motor evoked potential tests either. Conclusion: GM1 associated with the use of low-temperature laser shows no superior functional, neurological or histological results in the treatment of spinal cord lesions in rats Gangliosídeo G(M1) GM1 ganglioside Laser Lasers Ratos Wistar Rats Wistar Spinal cord injuries Traumatismos da medula espinal
32	Development of a high-throughput shotgun-mass spectrometry method for qualitative and quantitative analysis of major mammalian brain gangliosides Spiegel, Christopher 07 October 2020 (has links) The goal of this thesis was to develop a high-throughput shotgun-MS lipidomics method to qualitatively and quantitively analyze the major mammalian brain ganglioside classes: GM1, GD1, GT1 and GQ1. As a starting point for the method to be developed, a modified ganglioside extraction method from Svennerholm and Ladisch was used (Svennerholm and Fredman, 1980; Ladisch and Gillard, 1985). The efficiencies and the impact of different extraction procedures to the overall performance were evaluated with a software called OptiVal™. The evaluation showed that the most important steps of the protocol are the salt concentration of the water phase during the 2-phase extraction, and 10 mM NaCl yielded the best sensitivity. Also, the number of washing steps with water during reverse solid phase extraction using C18 resin has a significant effect. The next step was to find suitable standards for quantification of the individual ganglioside classes. Since deuterated and alike ganglioside standards were commercially not available, we initially used a deuterated PE standard with limited success. A collaboration with the Ludger Johannes lab provided us with modified C17-ganglioside standards. The term “modified” describes the enzymatic exchange of the fatty acid in the hydrophobic tail by a 17-carbon atom long fatty acid. Since odd numbered fatty acids occur very rarely in nature, it is possible to use the measured intensity of the modified ceramide headgroup of 35:1 (Sphingosine C18:1 + Fatty Acid C17:0) to quantify natural gangliosides. Ideally, we would need to have a fitting modified C17-ganglioside standard for each class to be quantified. Since first only GM1 as a modified standard was available, it was necessary to determine response factors (RFs) for the ganglioside classes GD1, GT1 and GQ1. RFs were assessed empirically by titrating a variety of equimolar concentrations of the modified C17-GM1 standard versus wildtype standards of the other ganglioside classes. After establishment of the RFs it was possible to determine the limits of detection (LOD) and quantification (LOQ) for the ganglioside classes GD1, GT1 and GQ1 - with regard to the modified C17-GM1 standard. When the modified C17-standards for GD1 and GT1 became available, I was able to find out whether the correct internal standards are superior to the proxy method via response factors. The results clearly showed that the use of a correct class standards is preferable. For GQ1 no modified C17-standard was obtainable, therefore this class still has to be quantified via RFs. Experiments showed that the modified C17-GT1 standard is best suited for that. Another major goal was to integrate the ganglioside method into the general lipid analysis workflow of the high-throughput shotgun mass spectrometry platform that we were using. To achieve these goals adjustments on the evaluated (=old) protocol had to be done. These adjustments included changes in the extraction steps from the Svennerholm & Ladisch more into the direction of a Bligh & Dyer based extraction method. This meant abandoning the 2-phase extraction step as well as the chloroform/methanol/water (C/M/W) 4:8:3 extraction, in favor of a C/M 10:1 followed by a C/M 2:1 extraction of 150 mM ammonium-bicarbonate water solution. The goal behind this was to enable a combination of the global lipidome extraction (Surma et al., 2015) with the ganglioside extraction. Another important improvement was scaling up the extraction process. The use of standard single solid phase extraction (SPE) cartridges was limiting the extraction throughput to only 24 samples at a time, therefore the single SPE cartridges were replaced with the 96-well SPE SOLA™ plates. To process the SOLA™ plates it was necessary to establish the usage of a vacuum manifold. Combined, these changes lowered the overall process time of the protocol from nearly two working days to one working day, without significant loss of sensitivity regarding the measured sample concentrations. This was assessed by performing the mouse brain tissue titration experiment, with all three modified C17-ganglioside class standards GM1, GD1 and GT1. Finally, the established method was applied to investigate the difference in ganglioside levels in the cerebellum compared to the brain hemispheres in mice of different age. First the C/M 10:1 and 2:1 extraction was done for the analysis of all non-ganglioside lipids in the sample. The leftover water phase was then loaded onto the SOLA™ plates and processed with the new protocol. The results matched the given goals - to establish a protocol to measure and quantify the four major brain ganglioside classes in combination with the global lipidomics in a high-throughput manner - and thus were a success. To the best of our knowledge, this was the first time such a broad lipidomic measurement has been performed, hence no other studies exist to which the outcome could be compared. info:eu-repo/classification/ddc/610 ddc:610
33	A New Theory of Alzheimer's Disease Meier-Stephenson, Felix 14 March 2014 (has links) Alzheimer’s Disease (AD) is a chronic progressive neurological condition, clinically characterized by memory deficits, cognitive and physical impairment, and personality changes. Traditionally, AD was considered a type of protein folding disorder. Here, the concept of AD as an autoimmune disease of the innate immune system was developed. After exploring evolutionary connections between the AD peptide β-amyloid (Aβ) and known antimicrobial peptides (AMPs), and elucidating the structural similarities between Aβ and AMPs, a mechanism of action for Aβ’s antimicrobial activity is proposed that is based on the compromise of bacterial membranes. Following these theoretical considerations, experimental evidence is presented for the production of Aβ by cells in response to infection, and for Aβ’s antibacterial and antiviral activity. Rooted in similarities of the cell membranes of neuronal and bacterial cells in terms of lipid composition and transmembrane potential, it is hypothesised that Aβ’s neurotoxicity is caused by its misguided attack on neurons as an AMP. In reversing the concept of Aβ as an AMP, the similarity of AMPs to Aβ is demonstrated in experiments revealing the neurotoxicity of two AMPs, LL 37, and cecropin A. To determine a mechanism for the progressive nature of AD, it was shown that, although apoptosis may be involved in AD, it is actually necrosis that is responsible for the propagation of neuronal cell death so characteristic of AD. With the Vicious Cycle of AD, a scheme was devised, integrating the results obtained here with data and research from other groups, which explains the chronic and progressive nature of AD as a result of Aβ’s physiological role as an AMP and innate immune system effector. Borne from Aβ’s activity as an AMP and its central role in the Vicious Cycle of AD, a question was investigated: do antibiotics, such as penicillin, that cause release of bacterial endotoxins due to their mechanism of action, trigger the Vicious Cycle of AD and thus lead to the development of AD? Preliminary evidence supporting this notion was presented. Alzheimer's Disease beta-Amyloid Vicious Cycle of Alzheimer's Disease antimicrobial peptide innate immune system autoimmune disease antiaggregants antibiotics GM1 ganglioside GM1 Assay
34	Functional and histomorphometric evaluation of median nerve lesion in wistar rats treated with GM1 = Avaliação funcional e histomorfométrica da lesão de nervo mediano em ratos wistar tratados com GM1 / Avaliação funcional e histomorfométrica da lesão de nervo mediano em ratos wistar tratados com GM1 Oliveira Filho, Osvaldo Mendes de, 1964- 26 August 2018 (has links) Orientador: William Dias Belangero / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Ciências Médicas / Made available in DSpace on 2018-08-26T07:47:22Z (GMT). No. of bitstreams: 1 OliveiraFilho_OsvaldoMendesde_D.pdf: 2509545 bytes, checksum: 6effb16e1eedd8b6d33c41daea640b76 (MD5) Previous issue date: 2014 / Resumo: O objetivo deste trabalho foi comparar através da avaliação funcional pelo grasping test e análise histomorfométrica o tratamento da lesão do nervo mediano em ratos de linhagem Wistar através da microneurorrafia tradicional com a microneurorrafia associada à administração do monossialogangliosídeo (GM1) e avaliar especificamente se o GM1 melhora a regeneração axonal do nervo mediano e a função da musculatura por ele inervado. Material e Método: Foram empregados 32 ratos machos de linhagem Wistar. Destes, foram selecionados aleatoriamente 10 animais, grupo 0, para obtenção da força de preensão média em ratos normais, antes do procedimento cirúrgico. Esses animais foram reintegrados aos grupos. Foram criados o grupo I, com 10 animais, em que foi feita ressecção de 5 mm do nervo mediano do membro anterior direito e não foi submetido a nenhum tratamento. Nos outros grupos foi produzida uma lesão transversa do nervo mediano proximalmente ao epicôndilo medial criando-se os grupos II, tratados com microneurorrafia epineural externa e o grupo III, tratado com a microneurorrafia epineural externa associada à administração intraperitoneal de GM1. A cirurgia foi realizada imediatamente após a lesão e a técnica utilizada foi a sutura término-terminal. Foi realizada análise funcional semanal durante seis semanas através do teste de preensão da musculatura flexora dos dedos, que é específico para avaliar a ação do nervo mediano. Após esse período, os animais foram submetidos a eutanásia. As porções proximal e distal dos nervos foram coradas com azul de toluidina a 1% e realizada a análise histológica. Pela análise morfométrica obteve-se o número e diâmetro dos axônios nos cotos proximais e distais, criando-se uma nova fórmula com inclusão tanto do número como do diâmetro dos axônios para a avaliação da regeneração nervosa. Resultados: Os valores médios da força de preensão exercida pelos ratos do grupo 0 foram comparados aos animais dos grupos II e III através da análise de variância (ANOVA one way). Para a comparação dos valores médios da força realizada pelos ratos do grupo II e III foi feito o teste de Wilkoxon. Do ponto de vista funcional, o grupo III imprimiu uma maior força média com erro menor que 5% e realizou o teste de preensão mais precocemente. O grupo tratado com o GM1 apresentou um número 28% maior de axônios regenerados no segmento distal, com padrão histológico mais organizado e homogêneo e uma diferença significativa no diâmetro médio dos mesmos. Conclusão: Pode-se afirmar com erro menor que 5% que os grupos II (microneurorrafia) e III (microneurorrafia e GM1) apresentaram diferenças em relação à recuperação funcional, tendo o grupo III reagido melhor ao teste de preensão. O padrão histológico do grupo III apresentou maior grau de mielinização, tendo-se observado maior diâmetro médio nos axônios dos cotos distais (p=0,0056). Há um significativo indicio (p=0,0536) de que a utilização do GM1 nas cirurgias dos nervos periféricos melhora o padrão de regeneração axonal. Palavras Chaves: GM1, nervo mediano, regeneração axonal, ratos Wistar, avaliação funcional, morfometria / Abstract: Summary OBJECTIVES: The objective of this study was to compare the treatment of nerve median injuries in Wistar rats submitted to traditional microneurorraphy with the treatment that combined microneurorraphy and monossialoganglioside (GM1) administration while also specifically evaluating if GM1 promotes an increase in median nerve axonal regeneration, thus improving the function of the muscles in its territory of innervation. This comparison was done through functional evaluation measured by the grasping test and histomorphometric analysis. MATERIAL AND METHODS: Experiments were performed in thirty-two Wistar rats. Among them, 10 were randomly selected (group 0) to determine the average grasping strength in normal rats. These animals were then reunited with the others. There were three groups: group I (control group), submitted to a 5 mm lesion in the median nerve of the right forelimb and no treatment. Group II, submitted to lesion of the median nerve proximal to the medial epicondyle, treated with external epineural microneurorraphy, and group III, submitted to the same lesion and treated with external epineural microneurorraphy associated with intraperitoneal administration of GM1. Surgery was undertaken immediately after the damage to the nerve and end-to-end suture was used. Functional analysis through the grasping test of the flexor muscles of the fingers was assessed weekly; this test is specific to evaluate the action of the median nerve. In this experimental model, the animal is lifted by the tail and is stimulated to grasp a bar with its paw; the bar is located on the top of a conventional digital balance. While grasping the bar with its paw, the rat continued to be held by the tail until it releases the bar and the number on the scale is registered. After the functional evaluation the animals were euthanized. The proximal and distal portions of the nerves were colored with 1% toluidine blue dye. After the histologic exam, morphometric analysis was done by counting the number and diameter of the axons in the proximal and distal stumps. A new formula was designed including the number and diameter of the axons to evaluate nerve regeneration. RESULTS: The mean values of grasping strength exerted by rats in group I (control), were compared with group II (only microneurorraphy) and group III (microneurorraphy and GM1) through the analysis of variance (ANOVA one way). To compare the mean values of the strength sustained by rats in groups II and III, the Wilkoxon test was applied. From the functional perspective, the group that received GM1 performed the grasping test earlier, exerting a greater mean strength (error inferior to 5%). The microscopic analysis demonstrated that the group treated with GM1 showed a higher number of regenerated axons better organized and homogenous. And also that this group had a slightly thicker myelin sheath. There was a significant difference in the mean diameter of the axons of the distal segment and a number 28% higher of regenerated axons in the group treated with GM1. CONCLUSIONS: The authors can state with error inferior to 5% that the groups II and III showed differences in relation to functional recovery, group III performing better when submitted to the grasping test. Histological pattern of the group that received GM1 showed a higher degree of myelination. It was observed a greater mean diameter in the axons of distal stumps (p=0,0056). There is a significant indication (p=0,0536) that the use of GM1 in peripheral nerve surgery improves the pattern of axonal regeneration. Key Words: GM1, median nerve, axonal regeneration, Wistar rats, functional evaluation, morphometry / Doutorado / Medicina Interna / Doutor em Ciências Médicas Nervo mediano Ratos Wistar Regeneração nervosa Traumatismos dos nervos periféricos Gangliosídeo G(M1) Median nerve Rats, Wistar G(M1) ganglioside Peripheral nerve injuries Nerve regeneration
35	Approaches and Considerations Towards a Safe and Effective Adeno-Associated Virus Mediated Therapeutic Intervention for GM1-Gangliosidosis: A Dissertation Weismann, Cara M. 05 August 2014 (has links) GM1 gangliosidosis is a lysosomal storage disorder caused by a deficiency in the catabolizing enzyme β-galactosidase (βgal). This leads to accumulation of GM1-ganglioside (GM1) in the lysosome inducing ER stress and cell death. GM1 gangliosidosis is primarily a disorder of the central nervous system (CNS) with peripheral organ involvement. In this work we report two major findings, 1) systemic treatment of GM1 gangliosidosis with an adenoassociated virus (AAV9) encoding mouse-βgal (mβgal) in a GM1 gangliosidosis mouse model (βGal-/-), and 2) an investigation into an intracranial injection of a therapeutic AAVrh8 encoding mβgal. Systemic treatment of GM1 gangliosidosis with AAV9 resulted in a moderate expression of enzyme in the CNS, reduction of GM1 storage, significant retention of motor function and a significant increase in lifespan. Interestingly, the therapeutic effect was more robust in females. Intracranial injections of AAVrh8 vector expressing high levels of βgal resulted in enzyme spread throughout the brain, significant retention of motor function and a significant increase in lifespan. Histological alterations were also found at the injection site in both βGal-/- and normal animals. We constructed a series of vectors with a range of decreasing enzyme expression levels to investigate the cause for the unanticipated result. Microarrays were performed on the injection site and we showed that a lower expressing AAVrh8-mβgal vector mitigated the negative response. Intracranial injection of this newly developed vector was shown to clear lysosomal storage throughout the CNS of βGal-/- mice. Taken together, these studies indicate that a combined systemic and fine-tuned intracranial approach may be the most effective in clearing lysosomal storage completely in the CNS while providing therapeutic benefit to the periphery. Dependovirus G(M1) Ganglioside GM1 Gangliosidosis Genetic Vectors Lysosomal Storage Diseases beta-Galactosidase Dissertations, UMMS Gangliosidosis, GM1 Genetics and Genomics Nervous System Diseases Neuroscience and Neurobiology Therapeutics
36	Estudo da recuperação da função locomotora e histomorfométrica da lesão medular em ratos: efeitos da metilprednisolona e do gangliosídeo G(M1) / Locomotor function recovering and histomorphometric study of spinal cord injury in the rat: effects of methylprednisolone and ganglioside G(M1) Carvalho, Marcio Oliveira Penna de 11 February 2008 (has links) A metilprednisolona (MP) e o gangliosídeo GM-1 são drogas de uso clínico estabelecido para o tratamento da lesão medular em humanos, embora sua eficácia e seus mecanismos de ação ainda não sejam totalmente entendidos. O objetivo do presente trabalho foi avaliar os resultados da recuperação da função locomotora e comparar com as alterações histomorfométricas da medula de ratos com lesão medular medicados com MP; GM-1 e sua associação. A lesão medular foi produzida pelo sistema New York University® em 24 ratos Wistar, divididos em quatro grupos: controle (n=6), MP (n=6), GM1 (n=6) e MP+GM1 (n=6). A avaliação da recuperação da função locomotora dos ratos foi realizada utilizando-se a escala de BBB no 2º, 7º e 14º dias após lesão medular e sacrificados no 14º dia para análise histológica e morfométrica de área total, área preservada e percentual de área preservada. Concluímos que a MP e sua associação com o GM-1 mostraram-se eficazes na recuperação da função locomotora e que todos os ratos medicados demonstraram melhora no percentual de área preservada superior ao grupo controle. Os Grupos MP e GM1 foram superiores na preservação de substância branca e o GM-1 demonstrou efeitos benéficos na preservação de substância cinzenta no centro da lesão. A substância cinzenta demonstrou ser mais suscetível à lesão que a substância branca e não houve correlação entre os achados histológicos e a recuperação da função locomotora. / The methylprednisolone and the GM-1 ganglioside are drugs with established clinical usage for the treatment of spinal cord injury in human; however its efficiency and its active mechanisms are not completely understood yet. The objective of the present paper has been to evaluate the results from the neurological function recovering and to compare these with the histomorphometric alterations in rats with spinal cord injury, prescribed with methylprednisolone; GM-1 and its association. The spinal cord injury has been done by the New York University system® in 24 Wistar rats which were assigned to one of four groups: control (n=6), MP (n=6), GM1 (n=6) and MP+GM1 (n=6). The evaluation of the neurological function outcome has been carried out using BBB locomotor rating scale on the second, seventh and fourteenth days after the injury and sacrificed on the fourteenth day for histological and morphometric analyses of total cross-sectional area, spared area and percentage of spared area. We concluded that the methylprednisolone and its association with the GM-1 revealed themselves effective concerning to the locomotor function recover and that every medicated rat demonstrated an improvement in the preserved area percentage superior to the control group. The MP and GM1 Groups were superior in the white matter preservation and the GM-1 demonstrated beneficial effects regarding the gray matter preservation at the injury epicenter. The gray matter has been more sensitive for damaged than the white matter and there has not been correlation between the histological findings and the locomotor function recovering. Atividade motora Ganglioside G(M1) Gangliosídeo G(M1) Medula espinal/anatomia & histologia Methylprednisolone Metilprednisolona Motor activity Ratos Wistar Rats Wistar Spinal cord injuries Spinal cord/anatomy & histology Traumatismos da medula espinal
37	Estudo da recuperação da função locomotora e histomorfométrica da lesão medular em ratos: efeitos da metilprednisolona e do gangliosídeo G(M1) / Locomotor function recovering and histomorphometric study of spinal cord injury in the rat: effects of methylprednisolone and ganglioside G(M1) Marcio Oliveira Penna de Carvalho 11 February 2008 (has links) A metilprednisolona (MP) e o gangliosídeo GM-1 são drogas de uso clínico estabelecido para o tratamento da lesão medular em humanos, embora sua eficácia e seus mecanismos de ação ainda não sejam totalmente entendidos. O objetivo do presente trabalho foi avaliar os resultados da recuperação da função locomotora e comparar com as alterações histomorfométricas da medula de ratos com lesão medular medicados com MP; GM-1 e sua associação. A lesão medular foi produzida pelo sistema New York University® em 24 ratos Wistar, divididos em quatro grupos: controle (n=6), MP (n=6), GM1 (n=6) e MP+GM1 (n=6). A avaliação da recuperação da função locomotora dos ratos foi realizada utilizando-se a escala de BBB no 2º, 7º e 14º dias após lesão medular e sacrificados no 14º dia para análise histológica e morfométrica de área total, área preservada e percentual de área preservada. Concluímos que a MP e sua associação com o GM-1 mostraram-se eficazes na recuperação da função locomotora e que todos os ratos medicados demonstraram melhora no percentual de área preservada superior ao grupo controle. Os Grupos MP e GM1 foram superiores na preservação de substância branca e o GM-1 demonstrou efeitos benéficos na preservação de substância cinzenta no centro da lesão. A substância cinzenta demonstrou ser mais suscetível à lesão que a substância branca e não houve correlação entre os achados histológicos e a recuperação da função locomotora. / The methylprednisolone and the GM-1 ganglioside are drugs with established clinical usage for the treatment of spinal cord injury in human; however its efficiency and its active mechanisms are not completely understood yet. The objective of the present paper has been to evaluate the results from the neurological function recovering and to compare these with the histomorphometric alterations in rats with spinal cord injury, prescribed with methylprednisolone; GM-1 and its association. The spinal cord injury has been done by the New York University system® in 24 Wistar rats which were assigned to one of four groups: control (n=6), MP (n=6), GM1 (n=6) and MP+GM1 (n=6). The evaluation of the neurological function outcome has been carried out using BBB locomotor rating scale on the second, seventh and fourteenth days after the injury and sacrificed on the fourteenth day for histological and morphometric analyses of total cross-sectional area, spared area and percentage of spared area. We concluded that the methylprednisolone and its association with the GM-1 revealed themselves effective concerning to the locomotor function recover and that every medicated rat demonstrated an improvement in the preserved area percentage superior to the control group. The MP and GM1 Groups were superior in the white matter preservation and the GM-1 demonstrated beneficial effects regarding the gray matter preservation at the injury epicenter. The gray matter has been more sensitive for damaged than the white matter and there has not been correlation between the histological findings and the locomotor function recovering. Atividade motora Gangliosídeo G(M1) Medula espinal/anatomia & histologia Metilprednisolona Ratos Wistar Traumatismos da medula espinal Ganglioside G(M1) Methylprednisolone Motor activity Rats Wistar Spinal cord injuries Spinal cord/anatomy & histology
38	To salt or not to salt : three MALDI-TOF IMS protocols where (de)salting proved essential Yang, Ethan 05 1900 (has links) Présentement, la désorption ionisation laser assistée par la matrice (MALDI) est la méthode d’ionisation préférentielle pour étudier les lipides par l’imagerie par spectrométrie de masse (IMS). Bien qu’il existe les matrices spécifiques aux lipides, tel que la 1,5-DAN pour les phospholipides et la 2,5-DHB pour les triacylglycérols, il est toujours nécessaire d’augmenter la sensibilité de cette technique pour les échantillons atypiques ou certaines classes de lipides. Dans la première étude, nous avons amélioré la sensitivité pour les phospholipides sur les tubes de Malpighi de mouches prélevés par microdissection dans un tampon physiologique à base de sodium et potassium. Un protocole de lavage à deux étapes a était trouvé favorable : un premier rinçage dans le glycérol suivi d’un second rinçage dans l’acétate d’ammonium. Ce protocole permet de réduire au maximum la présence de sels sans délocalisation notoire des phospholipides. La détection et l’imagerie des phospholipides en ionisation négative et positive ont suggéré une distribution uniforme sur toute la longueur des tubes. Ces résultats ont été comparés à ceux obtenus sur des sections tissulaires minces de mouche entière acquis avec les deux polarités. Néanmoins, la structure tridimensionnelle complexe des tubes rénaux suggère que la microdissection est l’approche la plus favorable pour en étudier leur lipidome. Dans la deuxième étude, nous avons déterminé que l’addition de formate d’ammonium (AF) peut améliorer la détection des gangliosides par IMS dans le cerveau. Curieusement, il est nécessaire de rincer l’échantillon dans une solution d’AF avant l’addition de ce même sel suivit d’une conservation de l’échantillon dans un congélateur pendant 24 heures après la déposition de la matrice afin d’obtenir la meilleure augmentation de sensibilité. En moyenne, cette approche a permis d’augmenter l’intensité d’un facteur dix avec trois fois plus d’espèces de gangliosides détectées. De plus, malgré l’étape de lavage, nous n’avons pas observé la délocalisation des gangliosides puisqu’il est toujours possible d’obtenir les résultats d’IMS de qualité avec une résolution spatiale de 20 µm. Finalement, nous avons établi que le nitrate d’argent permet l’analyse des oléfines par IMS, en particulier du cholestérol. En optimisant le protocole de déposition par nébulisation, il est possible de générer une couche mince et homogène de nitrate d’argent ce qui rend la possibilité d’effectuer l’IMS à haute résolution spatiale, jusqu’à 10 µm, sans perte de qualité comparativement aux autres approches publiées. L’ensemble de ce travail démontre l’effet du sel sur la sélectivité et la sensibilité pour cibler les familles de lipides désirées, ce qui nécessite les études ultérieures sur le rôle de ces sels lors du processus de la désorption-ionisation. / Matrix-assisted laser desorption/ionization imaging mass spectrometry (MALDI IMS) is currently the ionization method of choice for elucidating the spatial distribution of lipids on thin tissue sections. Despite the discovery of lipid friendly matrices such as 1,5-DAN for phospholipids and 2,5-DHB for triacylglycerols, there is a continued need to improve sensitivity. In the first study, we improved the overall sensitivity for phospholipids of entire fly Malpighian tubules microdissected in PBS with a two-step wash in glycerol followed by ammonium acetate that removed the bulk of the salt with minimal species delocalization and tubule displacement. We were able to detect phospholipids in both positive and negative ion modes and revealed an even distribution of most phospholipids along the length of this organ. We compared the method to the results from whole body fly sections acquired in dual-polarity mode at the same spatial resolution and found it to be more suitable for studying the tubules because of the complex three-dimensional structure of this organ within the fly. In the second study, we observed a marked improvement in ganglioside signals on mouse brain tissue sections with ammonium salt addition. Specifically, when the sample was first desalted in a low concentration ammonium formate solution, spray-coated with the same salt, coated with matrix and finally left in the freezer overnight before data acquisition, we observed an average overall improvement in ganglioside signal intensity by ten-fold and the number of species detected by three-fold. This method also did not affect the spatial distribution of the gangliosides, as high spatial resolution IMS results acquired at 20 µm showed no species delocalization. Finally, we sought to determine if salts could be employed directly as matrices. In this work, we tested silver-based metal salts and discovered that spray depositing silver nitrate alone is a viable method for the IMS detection of olefins, particularly cholesterol. With the optimized dry spray parameter, the overall deposition is homogeneous and composed of microscopic salt crystals that allow for high spatial resolution IMS down to 10 µm while maintaining acceptable overall signal quality comparable to that of previously published protocols. Overall, this thesis demonstrates we can manipulate the local salt distribution to influence the sensitivity and selectivity to target specific lipid subfamilies, opening the door for future research to understanding the role salts play during the laser desorption/ionization process. MALDI Imagerie par spectrométrie de masse Lipidomique Sel Optimisation Ganglioside Phospholipide Cholestérol Tube de Malpighi Imaging mass spectrometry Lipidomics Salt Optimization Phospholipid Cholesterol Brain Malpighian tubules
39	Preparation of Non-Surface-Active Solutions from Bovine Milk and Dairy-Based Beverages to Improve Langmuir Trough Model Systems of Dairy Fluids Real Hernandez, Luis M. January 2018 (has links) No description available. Food Science Langmuir Trough Milk Fat Globule Membrane Lipids Bovine Milk Dairy Beverages Air-Water Interface Milk Ganglioside GM3 Milk Ultrafiltration Surface Pressure-Area Isotherms Milk Permeates Milk Surface Tension
40	糖鎖生物学の新展開村松, 喬, 斎藤, 政樹, 高崎, 誠一, 平林, 義雄, 堀田, 恭子, 山科, 郁男, 成松, 久, 鈴木, 明身, 永井, 克孝, 牧田, 章, 遠藤, 正彦, 長谷, 純宏, 鈴木, 旺, 川嵜, 敏祐, 松本, 勲武, 山下, 克子, 小川, 智也, 稲垣, 冬彦, 入村, 達郎 03 1900 (has links) 科学研究費補助金研究種目:総合研究(A) 課題番号:03304050 研究代表者:村松喬研究期間:1991-1993年度糖脂質レクチン糖タンパク質ムチン糖鎖欠損ガングリオシド糖転移酵素細胞接着 Ganglioside エンドサイト-シス Carbohydrate deficience ガラクト-ス転移酵素プロチオグリカン Glycosyltransferase 統転移酵素 Cell adhesion 発生分化 Lectin Mucin マクロファ-ジエンドグリコシダ-ゼ統鎖生物学癌転移 Glycolipid Glycoprotein

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