Global ETD Search

61	Immunohistochemical characterization of neuronal cilia in the rat central nervous system. Hughes, Rhome 05 1900 (has links) An anti-G"11 antibody was used to label neuronal cilia throughout the rat central nervous system. Immunoreactive cilia were observed in every examined region of the rat CNS, but not in monkey or mouse tissue. Antibodies to G"q and G"q/11 failed to label cilia. Immunoreactive cilia were observed as early as postnatal day 0 in spinal tissue, and postnatal day 3 in hypothalamic tissue. There was a statistically significant negative correlation between a region's mean cilium length and that region's distance to the nearest ventricle; regions nearest ventricles were those with the longest cilia. This correlation suggests neuronal cilia may function as chemosensors, detecting substances as they move out from the cerebrospinal fluid and into the extracellular space of the brain. Rats -- Nervous system. Cilia and ciliary motion. Immunohistochemistry. Neuronal cilia Immunohistochemistry G protein
62	Reaktive Veränderungen von Rückenmark und Nervenwurzeln nach dorsaler Rhizotomie sowie Ausriss und Replantation der Vorderwurzel im Segment C7 mit Applikation neurotropher Faktoren CNTF und BDNF / Reactive changes of spinal cord and nerve roots after dorsal rhizotomy, avulsion and replantation of C7 ventral roots with application of neurotrophic factors CNTF and BDNF Schlegel, Nicolas January 2006 (has links) (PDF) Als Therapieversuch bei Plexusläsionen wird die Replantation ausgerissener Vorderwurzelfasern durchgeführt. Voraussetzung für die erfolgreiche Regeneration von Motoneuronaxonen sind 1. Überleben einer ausreichenden Anzahl von Motoneuronen 2. erfolgreiche Wiederherstellung der Kontuität ausgerissener Axone mit dem Rückenmark und 3. funktionelle Hochwertigkeit regenerierter Axone. Neurotrophe Faktoren können Überleben und Regenerationsfähigkeit von Motoneuronen fördern. Gegenstand der vorliegenden Arbeit war die Analyse des Einflusses von CNTF und BDNF auf die Regeneration von Motoneuronaxonen nach Ausriss und Replantation im Segment C7 nach einer Überlebenszeit von 3 Wochen bzw. 6 Monaten. Vervollständigt wurden diese Untersuchungen durch detaillierte morphologische Analysen von Spinalganglien, durchtrennter Hinterwurzel und verletztem Hinterhorn. In verschiedenen Gruppen von adulten Kaninchen wurden CNTF, BDNF, oder beide Faktoren auf die ventrolaterale Replantationsstelle appliziert, Kontrollen wurden ohne Faktor belassen (n>5). Die Überlebenszeit der Versuchstiere lag bei 3 Wochen (n=3 Kontrollen) und 6 Monaten (n=27). Aus dem perfundiertem Gewebe wurden Semidünnschnitte durch Vorderwurzel/Spinalganglien und Kryostatserienschnitte durch das Segment C7 angefertigt. DiI-Fluoreszenztracing, Markscheidenfärbung, eine modifizierte Klüver-Barrera-Färbung der Kryostatschnitte sowie eine Touloidinblaufärbung der Semidünnschnitte ermöglichte die morphologische und morphometrische Analyse des Gewebes. Die Anzahl der überlebenden Motoneurone lag nach sechs Monaten bei allen Versuchsgruppen bei etwa 30%. Fluoreszenz-Tracing und Markscheidenfärbungen von Serienschnitten zeigten, dass Axone sowohl über die ursprünglichen ventralen Austrittstellen als auch über die ventrolaterale Replantationsstelle das Rückenmark verließen und im Bereich des Spinalganglions eine kompakte Vorderwurzel bildeten. Ventral austretende Axone zeigten signifikant größere Durchmesser als lateral austretende. Ausmaß und Art der Regeneration waren interindividuell unterschiedlich, die besten Ergebnisse zeigte die Replantation nah am ursprünglichen Austrittsort der Vorderwurzel. Unterschiede zwischen den Gruppen waren nicht deutlich. In Semidünnschnitten durch die regenerierte Vorderwurzel fanden sich nach drei Wochen kaum intakte, myelinisierte Axone, nach sechs Monaten war die Zahl der Axone auf etwa 45% der Zahl der gesunden Seite angestiegen. Regenerierte Axone waren dünn, typische Motoneuronaxone stellten nur einen kleinen Teil der regenerierten Axone. Gruppenunterschiede fanden sich im Axon-Myelinverhältnis, das bei Kontrollen der replantierten Seiten signifikant erniedrigt war. Diese Erniedrigung war noch vorhanden, jedoch nicht mehr signifikant bei Tieren, die mit CNTF- und BDNF-behandelt wurden. Die replantierten Vorderwurzeln der CNTF+BDNF-Gruppe zeigte überwiegend eine signifikant bessere Myelinisierung als die replantierten Kontrollen. An der früheren Hinterwurzeleintrittszone am Rückenmark wurden in Tieren mit geringem Verletzungsausmaß kleine ZNS-Gewebsprotrusionen beobachtet, in denen sich myelinisierte Axone befanden. Diese Axone zeigten eine Wachstumsrichtung in die Peripherie, was auf eine Sprossung der sensorischen Rückenmarksneurone schließen lässt. Innerhalb des Spinalganglions waren Neuron- und Axondichte auf den verletzten Seiten nicht wesentlich verändert. Eine leichte Abnahme des relativen Anteils großer Neurone und Axone wurde in den verletzten Seiten der Kontrollgruppe beobachtet. Für Axone war diese Abnahme statistisch signifikant. Im Gegensatz dazu war dies in Tieren, die mit neurotrophen Faktoren behandelt wurden, nicht zu beobachten. Bei allen Tieren zeigte sich ein beträchtliches Auswachsen von Hinterwurzelaxonen aus dem Spinalganglion. Diese Axone fanden keine spontane Verbindung mit dem proximalen Rest der Wurzel, sondern waren durch Bindegewebe eingehüllt. Bei etwa der Hälfte der Tiere zeigte sich, dass einer Untergruppe dieser Axone in Richtung des Narbengewebes der replantierten Vorderwurzel gewachsen war und über Defekte in der Bindegewebshülle teilweise sogar in die Vorderwurzel einwuchsen. Ein möglicher Einfluss der applizierten neurotrophen Faktoren auf das quantitative Regenerationsergebnis scheint also in diesem Modell gering zu sein. Auf eine qualitative Verbesserung deutet die Normalisierung des Axon-Myelinverhältnisses großer regenerierter Axone bei Kombinationsbehandlung hin. Die im vorliegenden Modell beträchtliche Regenerationskapazität der Hinterwurzel scheint bisher unterschätzt worden zu sein. Das unerwartete Einwachsen von Hinterwurzelaxonen in die Vorderwurzel könnte mit einer funktionellen Beeinträchtigung der regenerierten Vorderwurzel verbunden sein. / Treatment of brachial plexus lesions is attempted by surgical replantation of avulsed nerve roots. Prerequisites for successful regeneration of motoneuron axons are 1. survival of a large number of motoneurons, 2. restoration of connectivity between avulsed nerve roots and spinal cord and 3. high quality of regenerated axons. Regeneration and survival of motoneurons can be supported by neurotrophic factors. In the present study, the influence of CNTF and BDNF on regeneration of motoneurons after C7 ventral root avulsion and replantation after 3 weeks and 6 months was analysed. Additionally, detailed morphological analyses of dorsal root ganglia (DRG), severed dorsal roots and injured dorsal horns were performed. In adult rabbits C7 dorsal roots were severed, ventral roots were avulsed and replanted ventrolaterally. CNTF, BDNF, or both was applied to the replantation site, controls were replanted without application of neurotrophic factors (n>5). After 3 weeks (n= 3 controls) and 6 months (n= 27) after avulsion and replantation semi-thin sections of ventral roots and DRGs as well as cryostat serial sections from C7 spinal cord segment were prepared. DiI-fluorescence tracing, myelin-sheath staining, modified Klüver-Barrera staining of cryostat section and touloidinblue staining of semi-thin sections served for morphological and quantitative analyses. Six months after lesion, a survival of 30% of the C7 motoneurons was found without differences between the experimental groups. Retrograde fluorescent tracing and histological analysis documented that many axons had regrown through the original ventral exit zones or had exited the spinal cord at the lateral replantation site. However, many laterally exiting axons had not grown out directly from the ventral horn through the lateral white matter but had elongated vertically before leaving the spinal cord. The mean axonal diameter was significantly higher in regenerated axons that had exited through the original ventral exit zones in comparison with axons which had grown out laterally. Application of BDNF and/or CNTF did not show any effects on the pathways of regeneration into the replanted root. Three weeks after ventral root avulsion and replantation the number of axons was rare. After six months, the number of myelinated axons increased to 45% compared to unlesioned sides. Regenerated axons were mainly of small caliber with few axons showing typical properties of motoneuron axons. In controls myelination was significantly reduced compared to the unlesioned sides. This was not observed after CNTF, BDNF and CNTF+BDNF treatment. In CNTF+BDNF treated animals myelination was significantly increased compared to replanted controls in the majority of cases. At the dorsal root entry zone, small myelinated axons extended into central tissue protrusions, in cases with well-preserved morphology. This suggested sprouting of spinal neuron processes into the central dorsal root remnant. In lesioned DRGs, the density of neurons and myelinated axons was not significantly altered, but a slight decrease in the relative frequency of large neurons and an increase of small myelinated axons was noted (significant for axons). Unexpectedly, differences in the degree of these changes were found between control and neurotrophic factor-treated animals. Central axons of DRG neurons formed dorsal root stumps of considerable length which were attached to fibrous tissue surrounding the replanted ventral root. In cases where gaps were apparent in dorsal root sheaths, a subgroup of dorsal root axons entered this fibrous tissue. Continuity of sensory axons with the spinal cord was never observed. Some axons coursed ventrally in the direction of the spinal nerve. In summary, the number of surviving motoneurons and regenerating axons appeared not to be influenced by a single- dose application of neurotrophic factors in this model. However, improvement of myelination indicated that the quality of regeneration can be increased especially by CNTF+BDNF- treatment. Moreover, the considerable capacity of dorsal root regeneration we observed in this study has possibly been underestimated previously. The unexpected ingrowth of dorsal root axons into the regenerated ventral roots could be harmful for ventral root regeneration. Nervenregeneration Neurotropher Faktor Plexus brachialis Armplexusverletzung Ciliary neurotrophic factor Brain-derived neurotrophic factor ddc:610
63	GTPases Rho e o potencial regenerativo da retina de mamíferos / Rho GTPases and the regenerative potential of the mammalian retina Debbio, Carolina Beltrame Del 09 February 2010 (has links) O Corpo Ciliar (CC) é uma fonte de células tronco da retina de animais adultos, mas sua ativação permanece desconhecida. GTPases Rho são proteínas que reorganizam do citoesqueleto de actina, regulam vias de sinalização e transcrição gênica, sobrevivência celular e proliferação. Neste trabalho, investigamos a expressão das GTPases Rho nas células do CC e seu efeito na regulação do ciclo celular. As GTPases RhoA, RhoB e Rac1 foram expressas nas células do CC e sua ativação pelo ácido lisofosfatidico (LPA) aumentou a expressão dos genes progenitores retinianos Pax6 e Chx10. A inibição das proteínas por Toxina A de Clostridium difficile aumentou a proliferação no CC e potencializou o efeito proliferativo dos fatores de crescimento. A inibição especifica destas proteínas diminuiu a expressão dos transcritos de p21cip, p27kip, p16INK4a e p19INK4d e aumentou de Ki67, CiclinaA e D1. O estudo da via de Wnt indicou que Rac1 regulou os genes de componentes da degradação de -catenina e Lef1. Concluímos que a inativação das GTPases Rho induziu a proliferação das células progenitoras retinianas localizadas no CC e regulou a via de Wnt. Sua ativação induziu o perfil de célula progenitora, sugerindo uma nova ferramenta para o mecanismo de reparo retiniano. / Ciliary Body (CB) is a potential source of stem cells in the adult retina, but its activation is still unknown. Rho GTPases play a role in actin-based cytoskeleton reorganization, regulate signaling pathways and gene transcription, cell survival and cell proliferation. In this study we investigated the expression of Rho GTPases in CB cells and their role on cell cycle regulation. The GTPases RhoA, RhoB and Rac1 were present in CB cells and the activation by lysophosphatidic acid (LPA) increased the expression of the progenitor genes Pax6 and Chx10. The inhibition by Clostridium difficile Toxin A increased the proliferation of CB cells and potentiated the proliferative effect of growth factors. The specific inhibition decreased the expression of p21cip, p27kip, p16INK4a and p19INK4d as well as increased Ki67, cyclinA and D1 transcripts. The Wnt pathway study indicated that Rac1 regulated -catenin degradation genes components and Lef1. Taken together, the inactivation of Rho GTPases stimulated the proliferation of progenitor cells located in CB as well as regulate the Wnt signaling pathway. The proteins activation was correlated to progenitor profile induction. These different mechanisms may provide a potential new approach on retinal repair. Ciliary Body Corpo Ciliar GTPases Rho Progenitores retinianos Proliferação Proliferation Retinal progenitor cells Rho GTPases
64	Emissão de CO2 do solo em áreas de floresta plantada no Cerrado do Mato Grosso do Sul / Vicentini, Maria Elisa January 2017 (has links) Orientador: Alan Rodrigo Panosso / Resumo: The increase in CO2 concentration in the Earth's atmosphere was the main cause of global warming, accounting for about 60% of total greenhouse gas emissions. The objective of this work was to characterize the temporal patterns of CO2 emission, temperature, humidity and soil O2 capture, as well as their relationships in areas of Eucalyptus, Pinus and Ciliary forest reforested in a dystrophic Red Latosol in the Biome Cerrado, in the region of the municipality of Selvíria - MS. The study was conducted in three reforested areas located in the municipality of Selvíria-MS. Experimental areas consisted of forests planted with eucalyptus (EU), riparian forest (MA), pinus (PI). The CO2 emission from the soil was recorded using the LI-COR system (LI-8100) and the determination of soil O2 a uptake by means of the UV Flux 25% system. The results of CO2 emission, temperature, humidity and O2 capture were evaluated by means of repeated measures in time, by means of mixed models and descriptive statistics. Tukey's test was performed at a 5% probability level. The ratio of emitted CO2 to O2 consumed (RQ) was calculated. The mean CO2 emission of the soil in the studied areas EU, MA, PI, was 5.61; 5.53 and 4.06. μmol m-2 s-1 respectively. EO2 did not differ statistically in the three areas studied. MA had the highest soil moisture value. Most of the RQ values were <1. The total CO2 emissions recorded in 193 days of evaluation were 11.26 Mg ha-1 for EU 10.99 Mg ha-1, MA and 7,97 Mg ha-1 PI, wh... (Resumo completo, clicar acesso eletrônico abaixo) / Mestre Quociente Respiratório Eucalipto. Pinus Mata ciliar. Respiratory quotient Eucalipto - Uso terapêutico. Pinus Forest ciliary
65	Caractérisation de MAPKBP1, un nouveau gène non-ciliaire impliqué dans des formes tardives de néphronophtise / Characterisation of MAPKBP1, a novel non-ciliary gene implicated in late onset nephronophthisis Macia, Maxence 20 October 2016 (has links) La Néphronophtise (NPH) est une maladie autosomique récessive, qui se caractérise par des lésions tubulo-interstitielles conduisant à une insuffisance rénale terminale avant l'âge adulte. A ce jour des mutations dans 20 gènes (NPHP1-20) ont été identifiées comme responsables de la maladie. Les produits de ces gènes, les néphrocystines ou NPHP, se localisent et ont un rôle au cil primaire, définissant ainsi la NPH comme une ciliopathie. Nous avons identifié des mutations dans un nouveau gène candidat. Ces mutations ont été détectées dans six familles indépendantes, présentant une NPH tardive avec une fibrose rénale importante. Ce gène code MAPKBP1, une protéine très peu étudiée, ayant été décrite comme une protéine d'échafaudage de la voie JNK. MAPKBP1 interagit également avec WDR62, le produit d'un paralogue qui est le second gène le plus fréquemment muté dans les microcéphalies primaire récessives. La protéine WDR62 localise aux pôles du fuseau mitotiques (MSP) d'où elle régule l'orientation de l'axe des mitoses via la voie JNK dans le système nerveux central. Au cours de mon travail de thèse au sein du laboratoire des Maladies Rénales Héréditaires de l'Institut Imagine, j'ai étudié les fonctions cellulaires de la protéine MAPKBP1. J'ai ainsi pu mettre en évidence dans les lignées cellulaires ainsi que dans les tissus, que la protéine MAPKBP1 n'est pas présente au cil primaire et que les fibroblastes de patients ne présentent pas de défauts de ciliogenèse, indiquant que MAPKBP1 pourrait être le représentant d'une nouvelle famille de NPHP ne possédant pas de fonctions ciliaires. De manière intéressante, j'ai pu observer que MAPKBP1 est recruté aux MSP au cours des phases précoces de la mitose. Ainsi, en démontrant que certaines des mutations retrouvées chez les patients affectent le recrutement de MAPKBP1 aux MSP et perturbent également l'interaction de MAPKBP1 avec JNK et/ou WDR62, j'ai pu valider l'effet pathogène de ces mutations. De plus, j'ai montré des défauts dans la voie de réponse aux dommages à l'ADN dans les différents fibroblastes de patients comme récemment observé dans de nombreux modèles NPHP. / Nephronophthisis (NPH) is an autosomal recessive disease, characterised by tubulointerstitial lesions leading to an end-stage renal disease before adulthood. Causative mutations in 20 genes (NPHP1-20) have been identified so far. The products of those genes, the nephrocystins or NPHP, localise and function at the primary cilium, defining NPH as a ciliopathy. We identified mutations in a new candidate gene. Those mutations have been detected in six independent families, displaying late onset NPH with massive fibrosis. This gene encode MAPKBP1, a poorly studied protein that has been described as JNK pathway scaffold protein. MAPKBP1 also interacts with WDR62, the product of a paralogue which is the second most frequently mutated gene in recessive primary microcephalies. The protein WDR62 localises at the mitotic spindle poles (MSP) from where it regulates the orientation of the axis of division, through activation of JNK pathway in the central nervous system. During my work in the laboratory of Hereditary Kidney Diseases in the Imagine Institute, I studied MAPKBP1 cellular functions. I could show that in the various cell lines that have been tested, as well as in human kidney tissues, MAPKBP1 is not present at the primary cilia. And I also could show in patient fibroblasts that there is no ciliary defects, indicating that MAPKBP1 could be a novel NPHP protein that do not display ciliary functions. Interestingly, I could observe that MAPKBP1 is recruited at the MSPs during mitosis. Demonstrating that some patient mutations affect the recruitment of MAPKBP1 at the MSPs and also disturb interaction with JNK and/or WDR62, I could validate the pathogenic effect of those mutations. In addition, I could show defects in the DNA damage response in patient fibroblasts, as observed recently in various NPHP models. NPH Rein MAPKBP1 DDR MSP WDR62 Non-ciliaire NPH Kidney MAPKBP1 DDR MSP WDR62 Non-ciliary 616.042
66	The Effect of Fluid Flow on Human Sperm Fertility Unknown Date (has links) Current sperm processing methods used in assisted reproductive technologies can cause damage to the sperm cell. New ways that mimic the natural guidance mechanisms present in the female genital tract may offer ways to sort sperm with better fertility parameters. Sperm that respond to these cues may have better over sperm health. Human sperm exhibit positive rheotaxis by orienting and swimming against the fluid released by the female genital tract. At certain flow rates sperm can actively orient and swim against the flow. Sperm retrieved that exhibit positive rheotaxis have higher motility and better morphology than the original semen sample. / Includes bibliography. / Thesis (M.S.)--Florida Atlantic University, 2017. / FAU Electronic Theses and Dissertations Collection Fertility, Human. Cell separation. Reproductive health. Cilia and ciliary motion. Spermatozoa--Motility.
67	Étude de la fonction de la protéine Bug22p dans différents organismes / Study of Bug22p protein in different organisms Laligné, Chloé 29 September 2011 (has links) Les cils sont des organites très conservés au cours de l’évolution des eucaryotes et présents à la surface de presque tous les types cellulaires. Ils sont constitués d’une structure microtubulaire, l’axonème, entourée d’une membrane en continuité avec la membrane plasmique. Ils sont nucléés par un corps basal, centriole ancré à la surface cellulaire. Grâce aux nombreux récepteurs qu’ils concentrent à leur membrane, tous les cils sont des senseurs de leur environnement. Ils peuvent aussi être motiles et assurer, par leur battement coordonné, le déplacement relatif de la cellule et du fluide environnant. Tandis que cil et structure centriolaire, hérités du premier eucaryote, ont été perdus par certains champignons et par les plantes supérieures, certains gènes codant des protéines ciliaires et centriolaires sont pourtant retrouvés dans le génome de ces espèces. Cette conservation de protéines sans l’organite suggère soit que ces protéines interviennent dans un même processus moléculaire utilisé dans plusieurs organites, soit qu’elles jouent des rôles dans des processus moléculaires distincts via leur interaction avec différents types de partenaires.J’ai choisi d’étudier l’une de ces protéines ciliaires et centriolaires, Bug22p, hautement conservée en séquence protéique entre l'homme et la paramécie, mais également présente chez les plantes supérieures. J’ai mené cette étude principalement sur la paramécie, système modèle pour la biogénèse des corps basaux et des cils, mais aussi sur des cellules de mammifère et de végétaux supérieurs. Si Bug22p est impliquée dans la détermination du battement ciliaire chez la paramécie, elle se localise également dans des cils immotiles de cellules de mammifère suggérant que son activité ciliaire n’est pas réduite à cette seule fonction. Des expériences d’inactivation génique suggèrent par ailleurs un lien entre l’activité de Bug22p et la polyglycylation. Sa surexpression dans les cellules de mammifère en culture entraîne l’apparition d’extensions cellulaires et une augmentation des réseaux de tubulines acétylées probablement associées à une stabilisation des microtubules. L'ensemble de mes résultats suggère donc un rôle de Bug22p dans la régulation de modifications post-traductionnelles. En plus d’être présente dans les structures ciliaires, Bug22p se localise aussi bien dans les noyaux de la paramécie que dans ceux des cellules humaines et des plantes supérieures Arabidopsis et Nicotiana. Ces observations ouvrent un nouveau champ d’études. En effet, si l’on sait que les tubulines ciliaires sont soumises à différentes modifications post-traductionnelles telles que polyglycylation ou acétylation, ce type de modifications touchent également des protéines nucléaires régulant ainsi le trafic de protéines nucléaires ou l’expression génique. Nous pouvons donc avancer l’hypothèse selon laquelle Bug22p agirait sur la régulation de ces modifications dans le cil et dans le noyau. Il serait donc intéressant de caractériser les modifications post-traductionnelles chez les plantes supérieures afin de vérifier une possible implication de Bug22p dans leur régulation et donc comprendre les raisons de sa conservation chez les végétaux. / Cilia, organelles that have been conserved throughout the evolution of eukaryotes, are found at the surface of most cell types. They are composed of a microtubular structure, the axoneme, surrounded by a membrane continuous to the plasma membrane. Cilia are nucleated by basal body, which is a centriole anchored to the cell surface. Cilia are environmental sensors concentrated in the ciliary membrane. Cilia can be motile and ensure the relative movement of the cell with respect to the surrounding fluid by their coordinated beating. While cilia and centriolar structures inherited from the first eukaryote have been lost by certain fungi and higher plants, certain genes encoding ciliary and centriolar proteins are found in the genomes of organisms lacking these structures. The conservation of these proteins without organelle suggests that these proteins are involved in the same molecular process into different organelles or proteins are involved into different processes through some interactions with different partners.I chose to study the ciliary and centriolar protein, Bug22p, highly conserved between human and Paramecium proteins sequences, and also present in higher plants. My work addressed this study primarily on Paramecium, a model system for biogenesis of basal bodies and cilia, and I also pursued investigation of mammalian cells and higher plants. I was able to show that Bug22p is necessary for efficient Paramecium ciliary beating, but I also localized in the immotile cilia of mammalian cells suggesting that Bug22p is not only restricted to the motile ciliary function. By knockdown experiments in Paramecium, I obtained evidence that Bug22p is involved in polyglycylation. Bug22p overexpression in mammalian cells led to the appearance of cell extensions and increased acetylated tubulin networks consistent with microtubule stabilization. My results suggest that Bug22p may regulate post-translational proteins modifications.Bug22p is also localized in the nuclei of Paramecium, human and higher plants such as Arabidopsis and Nicotiana. These observations open a new field of study. The axoneme microtubules are highly modified by post-translational modifications such as acetylation and polyglycylation; we know that in the nucleus, theses modifications are involved in the control of nuclear trafficking of some proteins and the regulation of gene expression. We can therefore speculate that Bug22p acts on the regulation of these changes in the cilium and in the nucleus. Finally, it would be interesting to characterize the post-translational modifications in higher plants to verify the possible involvement of Bug22p in their regulation and thus understand the meaning of its conservation in higher plants lacking cilia. Cils Battement ciliaire Modifications post-traductionnelles GTL3 Bug22 Cilia Ciliary beating Post-translational modifications GTL3 Bug22
68	Effects of the neurotrophic factors CNTF and IGF-1 in mouse models for spinal muscular atrophy and diabetic neuropathy / Effekte der neurotrophen Faktoren CNTF und IGF-1 in Mausmodellen für spinale Muskelatrophie und diabetische Neuropathie Simon, Christian Marc January 2011 (has links) (PDF) In this study I investigate the role of Schwann cell and axon-derived trophic signals as modifiers of axonal integrity and sprouting in motoneuron disease and diabetic neuropathy (DNP). The first part of this thesis focuses on the role of the Schwann-cell-derived ciliary neurotrophic factor (CNTF) for compensatory sprouting in a mouse model for mild spinal muscular atrophy (SMA). In the second part, the role of the insulin-like growth factor 1 (IGF-1) and its binding protein 5 (IGFBP-5) is examined in the peripheral nerves of patients with DNP and in two corresponding mouse models. Proximal SMA is caused by homozygous loss or mutation of the SMN1 gene on human chromosome 5. The different forms of SMA can be divided into four groups, depending on the levels of SMN protein produced from a second SMN gene (SMN2) and the severity of the disease. Patients with milder forms of the disease, type III and type IV SMA, normally reach adulthood and regularly show enlargement of motor units, signifying the reinnervation of denervated muscle fibers. However, the underlying mechanisms are not understood. Smn+/- mice, a model of type III/IV SMA, are phenotypically normal, but they reveal progressive loss of motor neurons and denervation of motor endplates starting at 4 weeks of age. The progressive loss of spinal motor neurons reaches 50% at 12 months but muscle strength is not reduced. The first evidence for axonal sprouting as a compensatory mechanism in these animals was the more than 2-fold increase in amplitude of single motor unit action potentials (SMUAP) in the gastrocnemius muscle. Confocal analysis confirmed pronounced sprouting of innervating motor axons. As CNTF is highly expressed in Schwann cells and known to be involved in sprouting, its role for this compensatory sprouting response and the maintenance of muscle strength in Smn+/- mice was investigated. Deletion of CNTF in this mouse model results in reduced sprouting and decline of muscle strength in Smn+/- Cntf-/- mice. These findings indicate that CNTF is necessary for a sprouting response and thus enhances the size of motor units in skeletal muscles of Smn+/- mice. DNP afflicting motor and sensory nerve fibers is a major complication in diabetes mellitus. The underlying cellular mechanisms of motor axon degeneration are poorly understood. IGFBP-5, an inhibitory binding protein for IGF-1, is highly upregulated in peripheral nerves in patients with DNP. The study investigates the pathogenic relevance of this finding in transgenic mice overexpressing IGFBP-5 in motor axons. These mice develop motor axonopathy similar to that seen in DNP. Motor axon degeneration is also observed in mice in which the IGF-1 receptor (IGF-1R) was conditionally depleted in motoneurons, indicating that reduced activity of IGF-1 on IGF-1R in motoneurons is responsible for the observed effect. These data provide evidence that elevated expression of IGFBP-5 in diabetic nerves reduces the availability of IGF-1 for IGF-1R on motor axons leading to progressive neurodegeneration, and thus offers novel treatment strategies. / In dieser Arbeit habe ich die Rolle der neurotrophen Faktoren Ciliary neurotrophic factor (CNTF) und Insulin-like-growth factor 1 (IGF-1), die in Schwannzellen gebildet werden, als Modulatoren der axonalen Integrität bei einer degenerativen Motoneuronenerkrankung und bei diabetischer Neuropathie (DNP) untersucht. Im ersten Teil dieser Arbeit wird gezeigt, dass CNTF für ein kompensatorisches Sprouting von motorischen Axonen in einem Mausmodell für spinale Muskelatrophie (SMA) verantwortlich ist. Im zweiten Teil wird die Rolle von IGF-1 und dessen Bindeprotein, IGFBP-5, in Axonen motorischer Nerven bei Patienten mit DNP und zwei korrespondieren Mausmodellen gezeigt. Die proximale SMA wird durch einen homozygoten Verlust oder Mutation des SMN1 Gens auf dem Chromosom 5 verursacht. Bei der spinalen Muskelatrophie unterscheidet man verschiedene Schweregrade, abhängig von der Menge an SMN Protein, das vom zweiten SMN Gen (SMN2) produziert werden kann. Patienten mit einer milderen Form von SMA (Typ III und IV) erreichen das Erwachsenenalter und zeigen oft vergrößerte motorische Einheiten, im Gegensatz zu Patienten mit den schweren kindlichen Formen der Erkrankung. Smn+/- Mäuse, ein Modell für die leichten SMA Formen Typ II und IV, zeigen denervierte Endplatten bereits 4 Wochen nach der Geburt und einen fortschreitenden Verlust von Motoneuronen, der nach 12 Monaten mehr als 50% beträgt, ohne dass sich die Muskelkraft der Tiere verringert. Die Amplitude der Summenpotenziale von einzelnen motorischen Einheiten (Single motor unit action potential, SMUAP) im Wadenmuskel ist mehr als 2-fach erhöht. Konfokale Aufnahmen bestätigen ausgeprägtes Sprouting der noch innervierenden Axone. Smn+/- Mäuse ohne CNTF, das normalerweise stark in Schwann-Zellen exprimiert ist, zeigen reduziertes Sprouting und verringerte Muskelkraft. Diese Ergebnisse sprechen dafür, dass CNTF für das Sprouting und die vergrößerten motorischen Einheiten in Smn+/- Mäusen verantwortlich ist. Dieser kompensatorische Mechanismus könnte neue Behandlungs-möglichkeiten für Motoneuronerkrankungen eröffnen. Die Diabetische Neuropathie (DNP), eine der Hauptkomplikationen bei Diabetes Mellitus, betrifft sowohl motorische als auch sensorische Nervenfasern. Die zugrunde liegenden zellulären Mechanismen, die zur Degeneration motorischer Axone in Spätstadien der Erkrankung führen, sind größtenteils noch ungeklärt. IGFBP-5, ein IGF-1 hemmendes Bindeprotein, ist in peripheren Nervbiopsien von DNP Patienten stark überexprimiert. Diese potenzielle pathogene Relevanz wurde bei IGFBP-5 überexprimierenden transgenen Mäusen untersucht. Diese Mäuse entwickeln ähnlich wie die DNP Patienten eine motorische Axonopathie. Diese Axondegeneration zeigen auch Mäuse, bei denen der IGF-1 Rezeptor (IGF-1R) neuronenspezifisch ausgeschaltet wurde. Das bedeutet, dass reduzierte Wirkung von IGF-1 am IGF-1R auf Axonen von Motoneuronen für die beobachtete Axonopathie verantwortlich ist. Zusammenfassend zeigen diese Daten, dass erhöhtes IGFBP-5 in diabetischen Nerven die Verfügbarkeit von IGF-1 für den IGF-1R reduziert und zu progressiver Neurodegeneration führt. Diese Erkenntnis könnte neue Behandlungsstrategien für Patienten mit DNP eröffnen. Spinale Muskelatrophie Ciliary neurotrophic factor Diabetische Polyneuropathie ddc:570
69	Ciliary micropillar fluidic chip capture exosomes for drug resistant cells’ response to nanoparticle therapy test Wang, Zongxing 24 February 2014 (has links) In this dissertation, an exosome capturing ciliary micropillar array microfluidics is introduced and applied to evaluate the response of resistant cancer cells under nanoparticle encapsulated chemotherapy. Cancer cells are able to develop different mechanisms to resist therapeutic treatment, frequently causing chemotherapy failure. Active drug expulsion is one of the usual resisting schemes to reduce intracellular drug accumulation to a non-effective level. Evidence has suggested a potential exosomal pathway is used by multi-drug resistant (MDR) cancer cells to expel drugs. Here I study the exosomes derived from MDR cancer cells treated by nanotherapeutics aiming to establish the correlation between nanotherapeutics and exosomal pathway for drug expulsion. The outcome would boost further understanding of cancer MDR, and in turn direct the development of pharmaceutical nanoparticles to overcome MDR cancer. To effectively isolate exosomes for drug expulsion evaluation, a ciliary micropillar structure is fabricated employing microelectromechanical systems (MEMS) and metal assisted chemical etching (MACE) techniques. The ciliary micropillar is fabricated in two major steps: deep silicon etch (DSE) for pillars followed by a MACE process to etch nanowires on the pillars. The concept of using MACE as an alternative to DSE is also explored to reduce fabrication cost. With optimized parameters, it shows a comparable result to DSE. COMSOL simulation revealed that ciliated micropillars exhibited a unique advantage as a unit structure for capturing small particles in fluid flow, according to particle filtration theory. A nanowire layer with high permittivity allows fluid streamlines to pass through, and increases interaction with particle carrying fluid to increase the probability of particle interception. Nanowires on the pillar can trap specific sized particles due to their characteristic dimension. Thanks to the weaker stability of porous silicon nanowires, trapped particles can then be released by dissolving these nanowires without damage to the particles themselves. A microfluidic chip is fabricated with an optimized circular micropillar arrangement for resistance reduction, and its particle filtration performance is demonstrated by processing model cell culture medium. The device is applied to study MDR cells’ response to micelle encapsulated paclitaxel treatment. Cell culture medium from sensitive and MDR variant of MDA-MB-231 cells treated with pure and capsulated drugs are processed through the device for exosome isolation. Drug volume in collected exosomes is determined after measurement. By measuring drug efflux through exosomes, it is determined that MDA-MB-231MDR cells do use an exosomal pathway to expel drugs, but other mechanisms are also at play. Nanoparticle encapsulation results in higher drug concentration in exosomes partly because the origin of exosomes and nanoparticle intake through endocytosis share some similar route. / text Exosome Microfabrication Ciliary micropillar Microfluidics Metal assisted etch Cancer Multiple drug resistance
70	Ultrastructural studies of the airway epithelium in airway diseases / Shebani, Eyman, January 2006 (has links) Diss. (sammanfattning) Uppsala : Uppsala universitet, 2006. / Härtill 4 uppsatser.

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