Global ETD Search

1	Effects of adenosine receptor agonists of the A1, A2A and A3 subtypes on the proinflammatory activity of human neutrophils in vitro Visser, Susanna Salomina 27 October 2005 (has links) Please read the abstract in the section 00front of this document / Thesis (DPhil (Medical Immunology))--University of Pretoria, 2006. / Immunology / unrestricted Neutrophils Adenosine Calcium influx Calcium Superoxide Elastases Calcium exflux Glucocorticoids UCTD
2	Novel norbornane derivatives as potential neuroprotective agents Egunlusi, Ayodeji Olatunde January 2020 (has links) Philosophiae Doctor - PhD / Neurodegenerative disorders are characterised by progressive loss of the brain’s physiological functions as a result of gradual degeneration of neurons in the central nervous system. Even though they are classified as diseases of the elderly, occurrence earlier in life is possible, but that would suggest the influence of genetic and/or environmental factors. Due to the continuous rise in modernisation and industrialisation over the years, there has been an increase in incidence and prevalence of neurodegenerative disorders. With the advances in technology and life expectancy, the rates of the common forms (Alzheimer’s disease and Parkinson’s disease), are expected to increase exponentially by 2050. Unfortunately, there is still no clinically approved treatment or therapy to slow down or halt the degenerative process as most registered drugs only offer symptomatic relief. Confounding this issue is the lack of definite mechanism of neurodegeneration, which is still poorly defined and not completely understood. Nonetheless, the pathology of most neurodegenerative disorders is believed to be a combination of interrelated processes that eventually leads to neuronal cell death. Among the postulated processes, the impact of excitotoxicity mediated by NMDA receptor over-activation is prominent and it is implicated in virtually all neurodegenerative disorders. With this basic insight, it is believed that molecules capable of inhibiting NMDA receptors and associated calcium channels, without affecting the normal physiological functions of the brain, could potentially serve as good neuroprotective drugs. Competitive and uncompetitive blockers (MK-801 and ketamine) have been explored, but none were clinically accepted due to undesirable side effects such as hallucinations, sedation and depression. However, NGP1-01, a polycyclic cage molecule, has been shown to be neuroprotective through modulation of NMDA receptors and voltage gated calcium channels and attenuation of MPP+ -induced toxicity. A similar approach could be useful in the design and development of new neuroprotective drugs. The aim of this study was to synthesise a series of open and rearranged cage-like molecules and explore their neuroprotective potential in neuroblastoma SH-SY5Y cells. The proposed structures, with norbornane scaffolds that contained different moieties, were designed to structurally resemble NGP1-01 and MK-801. Once synthesised, the compounds were purified and characterised, and were evaluated for their biological activities. Compounds were first screened for cytotoxicity at different concentrations. Thereafter, they were evaluated for neuroprotective effects against MPP+ -induced excitotoxicity and for calcium flux modulatory effects on NMDA receptor and voltage gated calcium channels. The norbornane derivatives were synthesised and characterised, and all final products were afforded in sufficient yields. All compounds with the exception of two compounds displayed good cytotoxic profiles towards the SH-SY5Y neuroblastoma cells at 10 µM, 50 µM and 100 µM concentrations as they demonstrated percentage cell viabilities close to 100% (control treated cells). Only two compounds showed percentage cell viability of 51% and 59% at 100 µM. Utilising the same cell line, all compounds, tested at 10 µM, attenuated MPP+ -induced toxicity after 24 hours of exposure to a neurotoxin. This was evident in the 23% to 53% enhancement (significant with p < 0.05) in cell viability when compared to the MPP+ only treated cells. In comparison to known NMDA receptor and/or voltage gated calcium channel blockers (MK-801, NGP1-01 or nimodipine), the synthesised compounds demonstrated mono or dual inhibition of calcium channels as they effectively attenuated calcium influx by blocking NMDA receptors and/or voltage gated calcium channels expressed in neuroblastoma SHSY5Y cells. This group of compounds were found to be more potent NMDA receptor inhibitors, probably due to similarities with MK-801 and memantine, than voltage gated calcium channel inhibitors. All compounds demonstrated moderate to good calcium inhibitory effects at NMDA receptors in the range of 23% to 70% while a selected few displayed very little or no activity at the voltage gated calcium channels. In conclusion, 27 compounds with norbornane scaffolds were successfully synthesised and evaluated for cytotoxicity and neuroprotection. The abilities of the synthesised compounds to protect neurons from the neurotoxin MPP+ and reduce calcium flux into neuronal cells were successfully demonstrated. These characteristics are essential in neuroprotection as they may prove significant in halting or slowing down the disease progression. The compounds showing a good cytotoxicity profile, neuroprotective effects and ability to reduce calcium overload, could potentially act as neuroprotective agents with good safety profiles or contribute as lead structures to the development and design of structurally related molecules that could clinically benefit people with neurodegenerative disorders. Neurodegenerative disorders Calcium influx Neuroblastomas SH-SY5Y cells Voltage gated calcium channels Oxidative stress
3	Estudo do mecanismo molecular de transfecção mediada por ultrassom / Molecular mechanism study of ultrasound-mediated gene delivery De Paula, Daisy Maria Bentes [UNIFESP] 24 November 2010 (has links) (PDF) Made available in DSpace on 2015-07-22T20:50:09Z (GMT). No. of bitstreams: 0 Previous issue date: 2010-11-24 / O ultrassom (US) vem sendo amplamente utilizado para melhorar a eficiência de transfecção de vetores não-virais. No entanto, o mecanismo pelo qual o US promove a entrega de DNA nas células ainda é pouco entendido. Este fenômeno é normalmente atribuído a sonoporação. Porém, com base em experimentos anteriores realizados em nosso laboratório, suspeitamos que outro mecanismo esteja envolvido no processo de captação de DNA. Para estudar o mecanismo de entrega, um vetor plasmideal expressando EGFP (pEGFP-N3, 4,7 kb) foi utilizado para transfectar células NIH3T3 com um aparelho de US terapêutico sem a adição de microbolhas. Em condições de insonação de 2 W/cm2, duty cycle de 20% por 30s o US promoveu cerca de 40% de eficiência de transfecção, mas com 1 W/cm2 resultou em níveis muito baixos de transfecção. Fixados esses parâmetros, também foi avaliada a produção de espécies reativas de oxigênio (ROS), o aumento da concentração intracelular de cálcio ([Ca2+]i) e as alterações no potencial de membrana através de microscopia confocal. A produção de ROS foi aumentada durante a insonação, sendo interrompida logo que o US foi desligado. A [Ca2+]i também foi aumentada durante a exposição ao US, mas seus níveis não retornaram ao basal durante os 3 minutos de observação. Porém, 1 W/cm2 não foi suficiente para mobilizar o cálcio durante a insonação, e o influxo de cálcio teve início apenas 12 segundos após o término do US. Quando expostas ao US, as células também apresentaram mudanças no potencial de membrana atingindo um estado de hiperpolarização, retornando ao estado normal logo que o US foi desligado. A alteração desses três parâmetros pelo US sugere que a entrega de DNA plasmideal deva ocorrer por endocitose. Por fim, utilizando DNA plasmideal fluorescente, mostramos que esta molécula entra na célula via endocitose mediada por clatrina. / Ultrasound (US) has been widely used to improve the efficiency of non-viral vector transfection. However, the mechanism that enables the uptake of plasmid DNA in cells by US insonation is poorly understood, but it is typically attributed to sonoporation. Based on our previous results, we hypothesized that other mechanisms, such as endocytosis, are involved in this process. To explore the mechanism of plasmid DNA uptake, a plasmid vector expressing EGFP (pEGFP-N3: 4.7 kb) was used to transfect NIH3T3 cells using a therapeutic US without microbubbles and was monitored in real-time using a confocal microscope. We achieved about 40% transfection efficiency when we applied 2 W/cm2 with 20% of duty-cycle for 30 s, but 1 W/cm2 resulted in a very low level of transfection. In these experiments, the production of reactive oxygen species was augmented during the insonation but was stopped soon after turning off the US. Calcium influx was also augmented during the insonation, but its level did not return to basal levels following the 3-min observation period. However, 1 W/cm2 was not sufficient to mobilize calcium influx during the insonation, and calcium influx began 12 s after turning off the US. US insonation also changed the cell membrane potential to promote a hyperpolarization state, which returned to the normal state soon after turning off the US. The alteration of these parameters by US indicates the uptake of plasmid DNA by endocytosis. Finally, using a fluorescently labeled plasmid, we showed that this molecule enters into cells via clathrin-mediated endocytosis, not via caveolin-1. / TEDE / BV UNIFESP: Teses e dissertações Captação de DNA plasmideal Clathrin Clatrina Endocitose Influxo de cálcio Ultrassom Transfecção Calcium influx Endocytosis Plasmid uptake Ultrasonics Transfection
4	Mitochondriale Redoxhomöostase in hippocampalen Neuronen MeCP2-defizienter Mäuse / Mitochondrial redox homeostasis in hippocampal neurons of MeCP2-deficient mice Festerling, Karina 31 December 1100 (has links) No description available. 610 redox homeostasis Rett syndrome oxidative stress redox balance roGFP1 calcium influx ROS
5	The role of EGR-1 and calcium influx in the antitumor activity of anti-CD20 monoclonal antibodies / Le rôle d'EGR-1 et du flux calcique dans l'activité antitumorale des anticorps monoclonaux anti-CD20 Spasevska, Ivana 01 December 2017 (has links) Les anticorps monoclonaux (AcM) anti-CD20 sont essentiels pour le traitement du lymphome non hodgkinien et de la leucémie lymphoïde chronique (LLC). Les AcM agissent soit en activant directement la signalisation apoptotique dans les cellules cibles, soit via le système immunitaire. Dans une étude préclinique, nous avons montré que le traitement avec AcM anti-CD20, rituximab et GA101, induit l'expression de la protéine early growth response 1 (EGR-1) (Dalle et al., 2011). EGR-1 est un facteur de transcription régulé par le calcium (Ca2+) et CD20 est impliqué dans la régulation du flux calcique transmembranaire. Nous avons donc étudié le rôle d'EGR-1 et du flux Ca2+ dans l'activité cytotoxique des AcM anti-CD20. Nous avons montré qu'EGR-1 est rapidement induit suite à l'exposition au rituximab et à GA101. La baisse de l'expression d'EGR-1 par shRNA a supprimé l'effet cytotoxique du GA101 à la fois in vitro et in vivo, indiquant qu'EGR-1 est requis pour la mort cellulaire médiée par CD20. De plus, la surexpression d'EGR-1 augmente la sensibilité au GA101 in vitro et in vivo. En outre, nos résultats indiquent que les AcM anti-CD20 induisent un flux Ca2+. Le blocage du flux Ca2+ par inhibiteurs de canaux calciques (ICC) a aboli l'induction d'EGR-1 ainsi que l'efficacité du GA101 in vivo et ex vivo dans des échantillons de LLC. Plus important, nos données indiquent que les patients recevant des ICC ont une moins bonne réponse au traitement par les AcM anti-CD20. En conclusion, nous avons identifié EGR-1 comme potentiel biomarqueur pour prédire la réponse à la thérapie anti-CD20 et démontré que les ICC ont un impact négatif sur l'efficacité des AcM anti-CD20 chez les patients / Anti-CD20 monoclonal antibodies (mAbs) are an essential component of the treatment of patients with non-Hodgkin's lymphoma and chronic lymphocytic leukemia (CLL). They mediate their antitumor effects by activating the immune system or by direct apoptotic signaling in target cells. In a previous preclinical study, we showed that treatment with anti-CD20 mAbs, rituximab and GA101, resulted in upregulated expression of early growth factor 1 (EGR-1) (Dalle et al. 2011). EGR-1 is a calcium (Ca2+) regulated transcription factor and CD20 is hypothesized to regulate transmembrane Ca2+ flux. Therefore, we aimed to assess the role of EGR-1 and Ca2+ flux in the cytotoxic activity of anti-CD20 mAbs. We have shown that EGR-1 expression is rapidly upregulated in CD20+ cells following rituximab and GA101 exposure. Decreasing EGR-1 expression by shRNA abolishes the direct cytotoxic effect of GA101 both in vitro and in vivo, indicating that EGR-1 is required for CD20-mediated cell death. Additionally, the overexpression of EGR-1 enhances the cytotoxic activity of GA101 both in vitro and in vivo. Furthermore, our results indicate that anti-CD20 mAbs induce calcium influx. Blocking the Ca2+ flux with calcium channel blockers (CCB) abolishes EGR-1 induction and impaires the GA101 efficacy in vivo and ex vivo in CLL blood samples. More importantly, our data indicate that patients receiving CCBs and anti-CD20 therapy have worst progression free survival and overall survival. In conclusion we have identified EGR-1 as a potential biomarker to predict response to anti-CD20 therapy. We demonstrated that co-treatement with CCBs negatively impacts the outcome of patients receiving anti-CD20 mAbs Anticorps monoclonaux anti-CD20 Rituximab GA101 EGR-1 Flux calcique Inhibiteurs des canaux calciques Anti-CD20 monoclonal antibodies Rituximab GA101 EGR-1 Calcium influx Calcium channel blockers 616.99
6	Synthesis & biological evaluation of neuroprotective molecules with polycyclic scaffolds Sharma, Rajan January 2017 (has links) Doctor Pharmaceuticae - Dpharm / Among neurological disorders, many of the most devastating disorders are neurodegenerative. Modern research associates excitotoxicity to a variety of neuropathological conditions, suggesting that the neurodegenerative diseases with distinct etiologies may have excitotoxicity as a common pathway. Excitotoxicity occurs through over-stimulation of receptors for excitatory neurotransmitters like the N-methyl-D-aspartate (NMDA) receptors. Due to the relevance of NMDA receptors and excitotoxic processes, the antagonism or modulation of NMDA receptors is used as a therapeutic tool against neurodegenerative diseases. NMDA receptor activity can be modulated by S-nitrosylation and this modulation of NMDA receptor activity can be utilised in the development of neuroprotective drugs. Neurodegenerative diseases Excitotoxicity Apoptosis Polycyclic cage compounds Drug design Neuroprotection N-methyl-D-aspartate (NMDA) receptors Calcium influx Nitric oxide NO-donating S-nitrosylation
7	Eriodictiol: um flavonóide antagonista do receptor trpv1 com atividade antioxidante / Eriodictyol: A flavonoid antagonist of TRPV1 receptor with antioxidant activity Rossato, Mateus Fortes 13 August 2010 (has links) Conselho Nacional de Desenvolvimento Científico e Tecnológico / The transient receptor potential vanilloid 1 (TRPV1) is a calcium permeable channel responsible for the transduction and modulation of acute and chronic pain signaling, being a potential target for treatment of different pain disorders. In spite of that, AMG517, a TRPV1 antagonist, presents several clinical limitations, such as the development of severe hypertermia. The aim of this study was to investigate the possible interaction of the flavonoid eriodictyol with the TRPV1 receptor and its putative antinociceptive and hyperthermic effect. Eriodictyol was able to displace the [3H]-resiniferatoxin binding (IC50 = 47 (21 - 119) nM) and to inhibit the calcium influx mediated by capsaicin (IC50 = 44 (16 125) nM), suggesting that eriodictyol acts as a TRPV1 antagonist. Moreover, eriodictyol induces antinociception in the intraplantar capsaicin test, with maximal effect of 49±10 and 64±4% of inhibition for oral (ED50 = 2 (1-5) mg/kg) and intrathecal (ED50 = 2 (1-3) nmol/site) routes, respectively. Concomitantly, eriodictyol did not induce any alteration on body temperature or locomotor activity. Orally administered eriodictyol (4.5 mg/kg) prevented the nociception induced by intrathecal injection of capsaicin (72±6% of inhibition), the non-protein thiol loss and the 3-nitrotyronise (3-NT) formation induced by capsaicin in spinal cord. Eriodictyol (4.5 mg/kg, p.o.) also reduced the thermal hyperalgesia (100% of inhibition) and mechanical allodynia (62±9% of inhibition) elicited by complete Freund s adjuvant (CFA) paw injection. In conclusion, Eriodictyol acts as an antagonist of TRPV1 receptor and an antioxidant, inducing antinociception without some side effects and limitations expected for TRPV1 antagonists, as hyperthermia. / O receptor de potencial transiente vanilóide 1 (TRPV1) é um canal iônico permeável a cátions ativado por uma série de estímulos nocivos, como calor, acidificação e agentes irritantes como a capsaicina. Este receptor é responsável pela detecção e transmissão da dor aguda e crônica. Devido a isso, substâncias que modulem a atividade deste receptor apresentam um potencial clínico para o tratamento da dor. Assim, este trabalho objetiva a possível interação do flavonóide eriodictiol com o receptor TRPV1. Inicialmente, observamos que o eriodictiol foi capaz de deslocar o radioligante [3H]-resiniferatoxina, em ensaio de união específica, do receptor TRPV1 com uma concentração inibitória 50% (IC50) de 46.9 (20.70 - 118.9) nM. Ao mesmo tempo, o eriodictiol também inibiu o influxo de cálcio estimulado por capsaicina com IC50 de 44,4 (15,6 125,1) nM, sugerindo que este aja como um antagonista do receptor. Além disso, também observamos que o eriodictiol induz antinocicepção no teste da capsaicina intraplantar com efeito máximo de 49,0±10.5 e 63,9±4.0 % de inibição máxima para o tratamento oral e intratecal, respectivamente, e com uma dose efetiva 50% (DE50) de 2,4 (1,0 5,5) mg/kg 2,2 (1,6 2,9) nmol/site, respectivamente. Além disso, não observamos alterações na atividade locomotora ou temperatura corporal dos animais. A administração oral de eriodictiol também foi capaz de prevenir a nocicepção induzida por capsaicina intratecal (71,7±5,7 % de inibição). Ao mesmo tempo, o eriodictiol também aboliu a hiperalgesia térmica e reduziu a alodínia mecânica (62,4±9,2 %) induzidas por adjuvante completo de Freund. Da mesma forma, o eriodictiol também preveniu totalmente a diminuição de tiois não protéicos e formação de 3-nitrotirosina (3-NT) espinhais induzidas por capsaicina, ao passo que apresentou atividade antioxidante direta no texto de neutralização do radical ABTS. Em conclusão, nossos resultados mostram que o eriodictiol age como um antagonista do receptor TRPV1, com atividade antioxidante, induzindo antinocicepção sem os efeitos colaterais e limitações esperados para antagonistas do receptor TRPV1. 3-NT Ensaio de ligação específica Influxo de cálcio Eriodictiol Dor TRPV1 Tiois 3-NT Binding Calcium influx Eriodictyol Pain TRPV1 Thiol CNPQ::CIENCIAS BIOLOGICAS::BIOQUIMICA
8	Spinophilin-dependent regulation of the phosphorylation, protein interactions, and function of the GluN2B subunit of the NMDAR and its implications in neuronal cell death Asma Beiraghi Salek (9746078) 07 January 2021 (has links) Excitotoxicity, a major hallmark of neurodegeneration associated with cerebral ischemia, is a result of accumulation of extracellular glutamate. This excess glutamate leads to hyperactivation of glutamate receptors such as the N-methyl-D-asparate (NMDA) receptors (NMDARs) following the activation of α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) receptor (AMPARs). Excessive activation of NMDARs causes an influx of calcium, which can eventually activate apoptotic pathways and lead to death of neurons. Regulation of NMDAR subunit composition, localization, surface expression, and activity can balance cell survival via activation of either pro-death or pro-survival pathways after a course of an ischemic insult. Specifically, phosphorylation of different NMDAR subunits defines their activity and downstream signaling pathways. NMDARs are phosphorylated by multiple kinases and dephosphorylated by different phosphatases. Besides phosphatases and kinases, per se, phosphorylation of synaptic proteins that regulate kinase or phosphatase targeting and activity also mediate NMDAR phosphorylation. Spinophilin, a major synaptic scaffolding and protein phosphatase 1 (PP1) targeting protein, mediates substrate phosphorylation via its ability to bind PP1. Our studies focus on delineating the role of spinophilin in the regulation of phosphorylation and function of the GluN2B subunit of the NMDA receptor as well as the role of spinophilin in modulating glutamate-induced neurotoxicity. Interestingly, our data demonstrate that spinophilin sequesters PP1 away from GluN2B thereby enhancing phosphorylation of GluN2B at Ser-1284. These changes impact GluN2B protein interactions, subcellular localization, and surface expression, leading to alterations in the amount of calcium entering the neuron via GluN2B-containing NMDARs. Our data show that spinophilin biphasically regulates GluN2B function. Specifically, Ser-1284 phosphorylation enhances calcium influx through GluN2B containing NMDA receptors, but spinophilin leads to dramatic decreases in the surface expression of the receptor independent of Ser-1284 phosphorylation. Moreover, in spinophilin knockout mice, we observe less PP1 binding to GluN2B and less phosphorylation of Ser-1284, but more surface expression of GluN2B and greater levels of caspase activity. Together, these observations suggest a potential neuroprotective role for spinophilin by decreasing GluN2B-containing NMDA receptor-dependent surface expression and thereby decreasing intracellular calcium and neuronal cell death. Cell Biology Molecular Biology Neuroscience Cell Neurochemistry NMDAR NMDA receptor GluN2B GluN2B Ser-1284 Spinophilin Phosphorylation Phosphatase PP1 Ischemia Excitotoxicity Cell death Calcium influx
9	Úloha vstupu vápenatých iontů a vápnikové senzitizace při kontrakci izolovaných artérií normotenzního a hypertenzního potkana / The role of calcium influx and calcium sensitization in contraction of isolated arteries of normotensive and hypertensive rat Bencze, Michal January 2017 (has links) Vascular resistance is mainly determined by the contraction of vascular smooth muscle (VSM), which is regulated by the phosphorylation of myosin light chain (MLC). VSM contraction is initiated by calcium influx into the VSM cells, which is mediated by transient receptor potential (TRP) channels and L-type voltage- dependent calcium channels (L-VDCC). On the other hand, calcium sensitization is a mechanism enhancing vascular contractile response at a given level of intracellular calcium by RhoA/Rho kinase pathway-mediated inhibition of myosin light chain phosphatase. In this thesis I present the data about i) the role of TRP channels in the mechanisms of vascular smooth muscle contraction, ii) enhanced contractility of arteries from spontaneously hypertensive rats (SHR), and iii) the differences in contraction of arteries from normotensive and hypertensive rats related to the role of RhoA/Rho kinase pathway in three types of experimental hypertension (SHR, Ren-2 transgenic rats and salt-sensitive Dahl rats). In the study concerning TRP channels, I compared the effects of three commonly used non-selective TRP channels inhibitors (2-APB, SKF-96365, FFA) on isolated arteries. Among them 2-APB was the most interesting because the observed inhibitory effects of 2-APB were dependent on the type of...
10	The Transient Receptor Potential Canonical 3 (TRPC3) Channel: Novel Role in Endothelial Cell Apoptosis and its Impact on Atherosclerosis Ampem, Prince Tuffour 03 October 2017 (has links) No description available. Biomedical Research TRPC3 ER stress Unfolded protein response apoptosis Endothelial cells Atherosclerosis Calcium influx CAMKII STAT1 JNK Coronary artery disease lesion Thapsigargin Tunicamycin Pyr10 Apoe knockout transgenic mouse

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