Global ETD Search

41	The Role of AMPK in Neuromuscular Health and Disease Ng, Sean January 2023 (has links) The neuromuscular junction (NMJ) exhibits an extraordinary capacity for adaptation and plasticity throughout an individual's lifespan. This remarkable adaptability assumes a central role in safeguarding optimal neuromuscular function and counteracting neurodegenerative processes commonly associated with aging and prevalent neuromuscular disorders. The plasticity of the NMJ is under the influence of its cellular constituents, including the ⍺-motoneuron and the innervated muscle fiber. Among the diverse array of regulatory molecules, AMP-activated protein kinase (AMPK) plays a pivotal role in governing the phenotype of these cellular components, thereby potentially contributing to synaptic modifications. To explore the regulatory role of AMPK on the NMJ phenotype, we undertook a comprehensive investigation encompassing transgenic, pharmacologic, and physiologic manipulations of this kinase. In Study 1, we investigated the significance of skeletal muscle AMPK during aging, revealing its necessity in preserving NMJ integrity. Moreover, we observed that pharmacological and physiological activation of AMPK result in an enhanced synaptic gene profile in young animals, suggesting its role in NMJ modulation. Building upon these insights, we validate the stimulatory effects of a pan-AMPK activator, MK-8722 (MK), in the context of a prevalent neuromuscular disorder, Duchenne Muscular Dystrophy (DMD). Our investigations demonstrated that MK effectively evoked AMPK activation and downstream signaling in dystrophic muscle, providing the experimental foundations our third study. Here, we assess of the chronic effects of daily MK treatment in a pre-clinical DMD model and revealed significant improvements in mitochondrial health, neuromuscular function, and a reduction in muscle fibrosis and fatigue. Taken together, these findings support a critical role of AMPK in neuromuscular plasticity and highlight the kinase as a promising therapeutic target for muscular dystrophy. / Dissertation / Doctor of Philosophy (PhD) / The neuromuscular junction (NMJ) plays a vital role in maintaining muscle function and countering aging and neuromuscular disorders. This thesis investigated the role of AMP-activated protein kinase (AMPK) in neuromuscular biology during conditions of health and disease. We conducted various experiments involving genetic modifications, drug treatments, and exercise. First, we determined that AMPK is necessary to maintain the NMJ during aging. Stimulation of AMPK with a potent activator, MK-8722 (MK), led to elevated NMJ-related gene expression. We then shifted our focus to the most prevalent neuromuscular disorder, Duchenne Muscular Dystrophy (DMD). Our results showed that MK activated AMPK in dystrophic mice, prompting us to further investigate the long-term effects of daily treatment in a pre-clinical DMD model. Repeated MK treatment significantly improved neuromuscular function and reduced the symptoms of DMD. Together, our comprehensive investigation demonstrates the critical role of AMPK in shaping neuromuscular plasticity during healthy and diseased conditions. Neuromuscular Junction Muscle AMPK Dystrophy Exercise Neuromuscular Plasticity
42	DISTINCT ROLES OF SYNAPTIC βGalNAc TRANSFERASES, GALGT1 AND GALGT2, IN MUSCLE BIOLOGY Singhal, Neha 25 June 2012 (has links) No description available. Biomedical Research Galgt1 Galgt2 neuromuscular junction regeneration glycosylation
43	Mechanisms of Synaptic Development and Premature Aging in Drosophila: A Dissertation Li, Yihang 20 September 2016 (has links) Development and aging, two fundamental aspects of life, remain key biological processes that researchers try to understand. Drosophila melanogaster, thanks to its various merits, serves as an excellent model to study both of these processes. This thesis includes two parts. In the first part, I discuss our finding that the presynaptic neuron controls a retrograde signaling pathway by releasing essential components via exosomes. During synaptic development, postsynaptic cells send retrograde signals to adjust the activity and growth of presynaptic cells. It remains unclear what the mechanism is which triggers the release of retrograde signals; and how presynaptic cells are involved in this signaling event. The first part of this thesis demonstrates that a retrograde signal mediated by Synaptotagmin4 (Syt4) depends on the anterograde delivery of Syt4 protein from the presynaptic neuron to the muscle compartment likely through exosomes. This trans-synaptic transfer of Syt4 is required for the retrograde control of activity-dependent synaptic growth at the Drosophila larval neuromuscular junction. In the second part of this thesis, I talk about our discovery that the disruption of nuclear envelope (NE) budding, a novel RNA export pathway, is linked to the loss of mitochondrial integrity and premature aging in Drosophila. We demonstrate that several transcripts, which are essential for mitochondrial integrity and function, use NE-budding for nuclear export. Transgenic Drosophila expressing a LamC mutation modeling progeroid syndrome (PS), a premature aging disorder in humans, displays accelerated aging-related phenotypes including progressive mitochondrial degeneration as well as decreased levels of a specific mitochondrial transcript which is normally enriched at NE-budding site. The PS-modeled LamC mutants exhibit abnormal lamina organization that likely disrupts the egress of these RNAs via NE-budding. These results connect defective RNA export through NE-budding to progressive loss of mitochondrial integrity and premature aging in Drosophila. Drosophila melanogaster Premature Aging; Neuromuscular Junction Neurons Synapses Nuclear Envelope Dissertations, UMMS Aging, Premature Neuromuscular Junction Developmental Neuroscience Molecular and Cellular Neuroscience
44	Syncrip regulates mRNA localisation and translation at the Drosophila neuromuscular junction Halstead, James Maximilian January 2013 (has links) Evidence in different systems suggests that local translation is involved in synaptic plasticity in both neuron and muscle, but the mechanism by which this occurs is still poorly understood. The mRNA-binding protein Syncrip is conserved from fly to mammals and is thought to be involved in localized translation in both oocytes and neurons. Previous work has shown that Syncrip associates with mRNAs encoding key synaptic proteins at the Drosophila larval neuromuscular junction. Here I show that Syncrip is necessary for the structure and function of the neuromuscular junction. First, the loss of Syncrip leads to overgrowth of the neuromuscular junction. Second, Syncrip is required for proper expression of the Ca<sup>2+</sup>-sensor Synaptotagmin1 at the presynapse, and loss of Syncrip causes a decrease in vesicle release probability. Third, while it was not possible to measure mRNA distribution in neurons, Syncrip mutants, like other perturbations in synaptic plasticity, correlate with changes in mRNA localization in muscle. Fourth, the overexpression and loss of Syncrip function suggest that the nuclear and nucleolar trafficking of the eukaryotic translation initiation factor eIF4E may be important to regulating synaptic morphology. These data suggest that Syncrip is involved in mRNA localization and translation in synaptic plasticity. 572
45	Atividade biológica do veneno de Rhinella Icterica (Anura: Bufonidae) sobre o sistema nervoso de vertebrados. Oliveira, Raquel Soares, Belo, Cháriston André dal 03 March 2016 (has links) Submitted by Ana Damasceno (ana.damasceno@unipampa.edu.br) on 2016-06-24T17:05:01Z No. of bitstreams: 1 Atividade biológica do veneno de Rhinella Icterica Anura Bufonidae sobre o sistema nervoso de vertebrados.pdf: 3606718 bytes, checksum: 4fa3e0cd0db679c55769dcfec4b36b6d (MD5) / Approved for entry into archive by Ana Damasceno (ana.damasceno@unipampa.edu.br) on 2016-07-21T18:23:37Z (GMT) No. of bitstreams: 1 Atividade biológica do veneno de Rhinella Icterica Anura Bufonidae sobre o sistema nervoso de vertebrados.pdf: 3606718 bytes, checksum: 4fa3e0cd0db679c55769dcfec4b36b6d (MD5) / Made available in DSpace on 2016-07-21T18:23:38Z (GMT). No. of bitstreams: 1 Atividade biológica do veneno de Rhinella Icterica Anura Bufonidae sobre o sistema nervoso de vertebrados.pdf: 3606718 bytes, checksum: 4fa3e0cd0db679c55769dcfec4b36b6d (MD5) Previous issue date: 2016-03-03 / Os venenos animais são fontes de compostos bioativos com aplicabilidade terapêutica. Os anuros produzem através de glândulas paratóides, uma secreção venenosa rica em compostos de diversas classes químicas, as quais apresentam uma série de atividades farmacológicas de nteresse biotecnológico. Os sapos da espécie Rhinella icterica (Spix, 1824), pertencem a um grupo de animais venenosos presentes no bioma Pampa com carência de estudos macológicos e toxicológicos. Para os ensaios biológicos, os sapos foram coletados na região de Derrubadas, no estado do Rio Grande do Sul. O veneno foi extraído manualmente por compressão das glândulas paratóides, tratado por extração metanólica seguida de liofilização e então foi chamado de MERIV. A neurobiologia do veneno foi avaliada sobre a junção neuromuscular de aves, através da preparação biventer cervicis de pintainhos (BCP) e, através da análise das desidrogenases em fatias hipocampais de camundongos. A incubação de MERIV (5, 10, 20, 40 µg/mL) e Digoxina (6,5; 13; 26 e 52 nM) em fatias hipocampais de camundongos, induziram um efeito dose dependente na viabilidade celular. Apenas MERIV (5 µg/mL) e Digoxina (6,5 e 13 nM) provocaram aumento significativo da viabilidade celular de 36 ± 10%, 52 ± 7% e 57 ± 13%, p<0.05, respectivamente, enquanto nas demais concentrações houve decréscimo na viabilidade celular quando comparados com o controle Hepes (n=6). Em preparações euromusculares BCP, MERIV (5, 10 µg/mL) produziu um efeito facilitatório de 60 ± 15% e 46 ± 6%, respectivamente, seguido de bloqueio neuromuscular em 120 min de registro (n=6, p<0.05). De forma semelhante, a incubação dos músculos com Digoxina 52 nM ou Ouabaína 0,2 nM mimetizou a atividade de MERIV com aumento da amplitude de contração por 19 ± 4% e 27 ± 6%, e diminuição da contração muscular de 80 ± 4% e 91 ± 5%, respectivamente (n=5, p<0.05). MERIV também demonstrouatividade digitalic-like com inibição de 39 ± 3% da Na+,K+-ATPase (n=4, p<0.05). Em BPC, quando MERIV foi incubado 20 min antes da d-Tubocurarina 1,45 µM, houve um reforço do bloqueio neuromuscular, o qual foi completo em 80 min. Enquanto que em preparações BCP curarizadas, MERIV aumentou o tempo de bloqueio em 50 min, semelhante a ação de drogas anticolinesterásicas. Juntos, esses dados indicam que o extrato metanólico do veneno de R. icterica é capaz de interferir com a neurotransmissão provavelmente via inibição das enzimas acetilcolinesterase e Na+-K+- TPase. / Animal poisons are sources of bioactive compounds with therapeutic applicability. Anurans through parotid glands produce a poisonous secretion rich in compounds of different chemicalclasses, that have a range of pharmacological activities of biotechnological interest. oads of the species Rhinella icterica (Spix, 1824), belong to a group of poisonous animals present in the Pampa biome that still need to pharmacological and toxicological studies. Venom collection was made by milking toads obtained at Derrubadas region, Rio Grande do Sul state. The venom was previously treated by methanol extraction followed by lyophilization (thus called MERIV), before the biological assays. The venom neurobiology was evaluated on chicks neuromuscular junction by preparation biventer cervicis (BCP), and by function of mitochondrial dehydrogenases in hippocampal brain slices from mice. Incubation of MERIV (5, 10, 20 and 40 μg/mL) or digoxin (6.5, 13, 26 and 52 nM) with mice hippocampal brain slices induced a dose-dependent effect on cell viability. At low concentration MERIV (5 μg/mL) and digoxin (6.5 and 13 nM) induced a corresponding significative increases in cell viability, 36 ± 10%, 52 ± 7% and 57 ± 13% (p<0.05), respectively, while at higher concentrations there were a decrease in cell viability compared with control Hepes (n=6). In chicks neuromuscular preparation BCP, MERIV (5, 10 µg/mL) produced a facilitatory effect of 60 ± 15% and 46 ± 6%, respectively, followed by neuromuscular blockade in 120 min recordings (n=6, p <0.05). The incubation of BCP with digoxin (52 nM) or ouabain (0.2 nM) mimicked the venom activity by increasing the amplitude of the twitches by 19 ± 4% and 27 ± 6%, respectively, followed by a depression in muscle contraction recorded for 120 min ( 80 ± 4% and 91± 5%, p<0.05, respectively, n=5). MERIV also demonstrated digitalic-like activity inhibiting 39 ± 3% of Na+,K+-ATPase (n = 4, p <0.05). In BCP, when MERIV was incubated for 20 min before d-Tubocurarine (1.45 μM), there was a reinforcement of the neuromuscular blockade, wich was complete at 80 min. However, in preparations “curarizadas”, incubated with d-Tubocurarine (1.45 μM) before MERIV, there was a increase in the blocking time at 50 min, similar to the action of acetylcholinesterase drugs. Altogether, these data indicate that the methanolic extract from R. icterica venom is able to interfere in neurotransmission, probably by inhibiting the enzymes acetylcholinesterase and Na+,K+- ATPase. Veneno de sapo Junção neuromuscular Biventer cervicis Viabilidade celular Eletromiografia Toad venom Neuromuscular junction Cell viability Electromyography
46	Efeitos do Riluzole no Sistema Nervoso Central e Periférico de vertebrados Lucho, Ana Paula de Bairros 15 May 2014 (has links) Submitted by Ana Damasceno (ana.damasceno@unipampa.edu.br) on 2016-11-16T13:07:17Z No. of bitstreams: 2 license_rdf: 1232 bytes, checksum: 66e71c371cc565284e70f40736c94386 (MD5) Efeitos do Riluzole no Sistema Nervoso Central e Periférico de vertebrados..pdf: 3331266 bytes, checksum: 695a072e1aef84e61ff2e6ef010514a2 (MD5) / Made available in DSpace on 2016-11-16T13:07:17Z (GMT). No. of bitstreams: 2 license_rdf: 1232 bytes, checksum: 66e71c371cc565284e70f40736c94386 (MD5) Efeitos do Riluzole no Sistema Nervoso Central e Periférico de vertebrados..pdf: 3331266 bytes, checksum: 695a072e1aef84e61ff2e6ef010514a2 (MD5) Previous issue date: 2014-05-15 / O Riluzole é quimicamente relacionado aos benzotiazóis e é conhecido como um agente neuroprotetor, possuindo propriedades anticonvulsivantes, analgésicas, anestésicas, e sedativas. A ação neuroprotetora mais conhecida desta droga ocorre através da inibição da transmissão glutamatérgica no sistema nervoso central (SNC). Nesse trabalho, o Riluzole foi ensaiado sobre a junção neuromuscular esquelética (JNM) de aves visando estudar sua interação com o sistema nervoso periférico (SNP). Também foi verificada a ação do Riluzole em fatias de hipocampo de camundongos, comparando os resultados com agentes antiinflamatórios como o extrato de Hypericum brasiliense (HBE) e seu principal composto, quercetina, frente ao veneno de serpente Crotalus durissus terrificus (Cdt). No SNP, o Riluzole foi ensaiado em preparação músculo biventer cervicis de pintainhos, em banho de órgão isolado, nas doses de 5, 10 e 20 µM. Foram obtidos registros da amplitude da força de contração muscular em presença ou ausência de Riluzole durante 120min, e as curvasresposta à adição exógena de acetilcolina (ACh – 110 µM) e ao cloreto de potássio (KCl – 20 mM), antes e após a incubação com o tratamento. O Riluzole induziu respostas tempo e dosedependentes. Na concentração de 5 µM houve uma diminuição gradativa e significativa da resposta contrátil (p<0.05). Na concentração de 10 µM, houve uma facilitação significativa (p<0.05) da resposta contrátil e das curvas evocadas pelo KCl e ACh. No entanto, na dose de 20 µM houve uma estabilização da contratilidade em relação ao controle. Em todas as doses de Riluzole ensaiadas na JNM houve um aumento significativo da atividade da enzima acetilcolinesterase (AChE). Na sequência da verificação do mecanismo de ação do Riluzole sobre a placa motora, registros eletromiograficos foram tomados na presença dos inibidores especificos, Neostigmina e d-Tubocurarina, onde foi observada uma reversão dos efeitos quando Riluzole foi adicionado ao meio. Como modelo celular de SNC, a ação do Riluzole foi ensaiada em fatias de hipocampo e a viabilidade destas frente ao veneno de Cdt foi observada por meio da atividade de desidrogenases mitocondriais. Tanto Riluzole, como o extrato da planta HBE e quercetina, aumentaram a viabilidade celular em 1h de incubação a 37˚C na presença do veneno. Quercetina foi mais efetiva do que Riluzole e HBE em neutralizar a lise celular induzida pelo veneno. Assim, estes resultados demonstram a influência do Riluzole no SNC como neuroprotetor de toxinas de veneno de serpente, possivelmente atuando como agente anti-inflamatório, e no SNP, aumentando a atividade da AChE e atuando de maneira dose-dependente sobre a placa motora. / Riluzole is chemically related to benzothiazoles and it is known as a neuroprotective agent with anticonvulsant, analgesic, anesthetic and sedative properties. The neuroprotective drug action is well established being through inhibition of glutamatergic transmission in the central nervous system (CNS). In this study, we have assayed the drug Riluzole at skeletal neuromuscular junction (NMJ) of avian, seeking its interaction with the peripheral nervous system (PNS). We also tested Riluzole in the CNS of mice by comparing its results with anti - inflammatory agents, such as extract of Hypericum brasiliense (HBE) and its main isolated compound, quercetin, against the poison of Crotalus durissus terrificus (Cdt). In the PNS, Riluzole was tested in nerve-muscle preparations in chick biventer cervicis at doses of 5, 10 and 20 μM. It was obtained recordings of the muscle twitch-tension amplitude and the contracture responses to exogenous applied acetylcholine (ACh 110 μM) and potassium chloride (KCl – 20 mM) in the presence or absence of Riluzole during 120 min. Riluzole induced time and dose-dependent responses. At concentration of 5μM there was a gradual and significant decrease in the contractile response (p<0.05). The concentration of 10μM showed a significant facilitation of the contractile response (p<0.05) and an increase in the curve responses evoked by KCl and ACh. However, at a dose of 20 μM there was a stabilization of contractility compared to control. All tested doses of Riluzole showed a significant increase in the activity of the enzyme acetylcholinesterase (AChE). The action mechanism of Riluzole on the endplate was further analysed through the use of specific inhibitors, Neostigmine and dTubocurarine, a reversal of effects those was seen when Riluzole was added to the medium. As a cellular model of CNS, the action of Riluzole was tested in mice hippocampal slices. The cell viability against Cdt venom was observed through the activity of mitochondrial dehydrogenases. Riluzole as much as the plant extract HBE and its active ingredient, quercetin, increased cell viability in 1h incubation at 37˚C in the presence of the poison. However, quercetin showed to be more effective than Riluzole and HBE in neutralizing cell lysis induced by the venom. Thus, these results demonstrate the influence of Riluzole on the CNS, it showed a neuroprotective effect against snake venom toxins, possibly acting as an anti-inflammatory agent. As for the cholinergic system in the NMJ, Riluzole showed an interesting effect by increasing the activity of AChE and by acting in a dose-dependent manner over the endplate. Junção neuromuscular Veneno Quercetina Acetilcolina Biventer cervicis Neuromuscular junction Poison Quercetin acetylcholine Biventer cervicis
47	Is TGF-β playing a role in ectopic neuromuscular junction formation in the nematode Caenorhabditis elegans? Rahman, Abir A 10 December 2012 (has links) The neuromuscular junction (nmj) is a commonly studied synapse, used often to investigate reciprocal signaling between a motor neuron and the appropriate target muscle. In Caenorhabditis elegans, ectopic nmjs can be created by eliminating selected embryonic muscle cells that act as guideposts for the migration of post-embryonic muscles. The ectopic muscles are required to induce sprouting from DD motor neurons, indicating the presence of a muscle derived signaling molecule that interacts with the neurons. A TGF-β homolog, unc-129, is reported to be transiently expressed in the dorsal body wall muscles. The timing of the expression of TGF-β coincides with the time that the DD motor neurons respecify their synapses. In this study, we show that TGF-β is expressed by the ectopic muscle and that in unc-129 mutant animals, the ectopic muscle is unable to induce sprouting from the DD motor neurons. Therefore, we conclude that TGF-β is necessary for ectopic nmj formation in C.elegans. Caenorhabditis elegans Retrograde signaling TGF-β Neuromuscular junction Netrin Axon guidance
48	Nerve terminal protein complexes in the cholinergic synapse / Sunderland, William James, January 1998 (has links) Thesis (Ph. D.)--University of Washington, 1998. / Vita. Includes bibliographical references (leaves [104]-122).
49	Chemical events at the myoneural junction Kirschner, Leonard Burton, January 1951 (has links) Thesis (Ph. D.)--University of Wisconsin, 1951. / Typescript (carbon copy). eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves [82]-86).
50	Characterization of the Molecular Mechanisms Regulating the Agrin Signaling Pathway: a Dissertation Megeath, Laura Jalso 04 October 1999 (has links) The nervous system requires rapid, efficient, and accurate transmission between cells for proper functioning. Synapses are the predominant structures through which such vital communication occurs. How synapses are formed, maintained, and eliminated are questions of fundamental importance. At the nerve-muscle synapse, formation of the postsynaptic apparatus is directed by agrin. The hallmark activity of agrin is the aggregation of acetylcholine receptors (AChRs) into dense clusters opposite the presynaptic nerve terminal. Early events in the agrin signal transduction cascade include activation of the receptor tyrosine kinase MuSK and tyrosine phosphorylation of AChRs, but how these events lead to AChR cluster formation is unknown. Using the calcium buffer BAPTA, we demonstrate that intracellular calcium fluxes are necessary for agrin-induced formation of AChR clusters. However, clamping calcium fluxes before agrin stimulation does not alter agrin-induced phosphorylation of either MuSK or AChRs, indicating that this calcium-dependent step occurs downstream of both MuSK and AChR phosphorylation. These results identify a new step in the agrin signaling pathway required for the formation of AChR clusters. We show that intracellular calcium fluxes also play an important role in stabilizing AChR clusters. Clamping intracellular calcium fluxes results in rapid dispersal of AChR clusters and dephosphorylation of both MuSK and AChRs, even if agrin is continually present. Furthermore, the protein tyrosine phosphatase inhibitor pervanadate inhibits both the dispersal and dephosphorylation, indicating a role for a tyrosine phosphatase in AChR cluster dispersal. Our data indicate that AChR clusters are maintained by agrin/MuSK-induced intracellular calcium fluxes that tonically inhibit a tyrosine phosphatase localized to AChR clusters. Our findings also show that distinct molecular mechanisms mediate the formation and the dispersal of agrin-induced AChR clusters. The work presented here expands our understanding of synaptic differentiation in several ways. First, I characterized a new, calcium-dependent step required for the formation of agrin-induced AChR clusters. Next, I showed that postsynaptic specializations must be actively maintained, and describe a molecular mechanism that stabilizes AChR clusters. Finally, dispersal and formation of AChR clusters occurs by distinct pathways. Our understanding of the mechanisms regulating the formation and modulation of synapses will help us to better understand how the nervous system develops and responds to the world around us. Neuromuscular Junction Agrin Synaptic Transmission Amino Acids, Peptides, and Proteins Nervous System

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