Global ETD Search

541	Ekstrakcija, sastav, delovanje i moguće primene odabranih vrsta pečuraka / Extraction, content, activity and possible applications of selected mushroom species Vidović Senka 30 May 2011 (has links) <p>Upotrebom 50% etanola i superkritičnog ugljendioksida kao ekstragensa izvr&scaron;ena je ekstrakcija različitih vrsta pečuraka. Nakon određivanja prinosa suvih ekstrakata, u njima su određeni: sadržaj ukupnih fenola i ukupnih flavonoida, sadržaj makro- i mikro-elemenata, sadržaj adenozina, kao i sadržaj karakterističnih komponenata pistilarina i variegetične kiseline. Najveći sadržaj ukupnih fenolnih jedinjenja određen je u suvom ekstraktu pečurke <em>C. pistillaris</em>, najveći sadržaj ukupnih flavonoida u ekstraktu <em>D. confragosa</em>, a najvi&scaron;e esencijalnog cinka i selena sadrži suvi ekstrakt pečurke <em>B. edulis</em>. U odnosu na ostale suve ekstrakte ekstrakt pečurke <em>L. saccatum</em> sadrži nekoliko puta veću količinu adenozina. Antioksidativno delovanje suvih ekstrakata analizirano je primenom spektrofotometrijskih i EPR metode. Ekstrakti <em>C. pistillaris, B. edulis </em>i <em>A. mellea</em> pokazali su se kao najefikasniji skevindžeri najopasnije slobodnoradikalske vrste hidroksil radikala, dok se efikasnim u prevenciji lipidne peroksidacije mogu smatrati ekstrakti <em>B. edulis, A. mellea </em>i<em> L. saccatum</em>. Nakon određivanja prinosa supekritičnih ekstrakata ispitivanih pečuraka, u njima je analiziran sastav masnih kiselina i detektovana jedinjenja sterolnog tipa. U ispitivanim ekstraktima dominantna je nezasićena linoleinska kiselina, a značajan je udeo i oleinske nezasićene masne kiseline. Dominantno jedinjenje sterolne strukture u gotovo svim ekstraktima je ergosterol. Ispitan je uticaj superkritičnih ekstrakata pečuraka na fluidnost membrane eritrocita i na osnovu dobijenih rezultata zaključeno da bi značajnu ulogu u antihipertenzivnoj ishrani mogle imati pečurke <em>A. mellea </em>i<em> M. procera</em>.</p> / <p>Using 50% ethanol and supercritical carbon dioxide different mushroom extracts were prepared. After analysis of extraction yield, content of total phenols and total flavonoids, content of macro-elements and micro-elements, as well as content of adenosine and characteristic compounds (pistilarin and variegatic acid) were determined. Highest content od total phenols was determined in <em>C. pistillaris</em> extract, highest content of total flavonoids in<em> D. confragosa</em> and highest content of essential zinc and selenium in B. edulis dry extract. In comparsion to other extracts <em>L. saccatum</em> posses few time higher content of adenosine. Antioxidat activity was analysed by spectrophotometric and EPR methods. Extracts of <em>C. pistillaris</em>,<em> B. edulis</em> and <em>A. mellea</em> have been showed as a most efficient in scavenging of dangerous OH˙ radical. In lipid peroxidation prevention significant were mushrooms extracts of<em> B. edulis</em>, <em>A. mellea</em> and<em> L. saccatum</em>.<br />After determination of mushrooms supercritical extraction yield, fatty acid composition and sterol components were analysed. Dominant unsaturated fatty acid in investigated mushroom extracts was linoleic acid. Content of oleic fatty acid was also significant. Dominant compound of sterol structure, in almost all supercritical extracts, was ergosterole. Influence of supercritical mushroom extracts on eritrocite membrane fluidity was investigated. Acording to obtained results, mushrooms <em>A. mellea</em> and <em>M. procera</em> could have significant role in antihypertensive diet.</p>
542	Efeitos da 5-iodotubercidina em linhagens de melanoma humano parentais e resistentes ao inibidor de BRAF / Effects of 5-iodotubercidin on human melanoma lines of parental and resistant to the BRAF inhibitor Santos, Stephanie Cristine Carvalho dos 13 February 2019 (has links) O melanoma é responsável por menos de 5% dos cânceres de pele, porém, 95% das mortes ocorrem devido a ocorrência de metástases. O melanoma metastático é refratário às terapias convencionais e rapidamente adquire resistência às terapias como as oncogene-dirigidas, como o inibidor de BRAF, da via de MAPK. Estudos prévios de screening in silico do nosso grupo, onde se utilizou as bases de dados TCGA e GEO, identificaram o gene adenosina quinase (ADK) como sendo diferencialmente expresso entre o melanoma invasivo e os nevus. A 5-iodotubercidina (5-ITu) é um potente inibidor farmacológico da ADK que dentre os diversos efeitos relatados na literatura destaca-se pelo potencial genotóxico. Os danos no DNA são os principais ativadores de checkpoint do ciclo celular, que levam a parada do ciclo celular transitória ou permanente, além de induzir morte celular, levando a hipótese de que ADK possa ser potencial agente anti-melanoma. Este trabalho objetivou avaliar a expressão do gene ADK em melanomas humanos e quimiorresistentes ao inibidor de BRAF (iBRAF), avaliou os impactos de 5-ITu sobre a proliferação, progressão do ciclo celular e morte celular e por fim avaliamos sua capacidade de aumentar a sensibilidade das células. Foi realizado PCR em tempo real para avaliar os níveis de expressão de mRNA de ADK em linhagens de melanoma e na cultura primária de melanócitos; a fim de avaliar a citotoxicidade de 5-ITu foram realizados os ensaios de exclusão por azul de tripan e de apoptose - Anexina V e PI e em modelo de esferoide, usando live/dead; também foi avaliada a influência de 5-ITu sobre a capacidade clonogênica e seus efeitos sobre a proliferação celular, a partir dos ensaios de ciclo celular e avaliação de marcadores de proliferação por imunofluorescência; as linhagens foram submetidas a diferentes regimes de tratamento com 5-ITu e o iBRAF, a fim de avaliar a curva de crescimento e a sensibilidade ao iBRAF por MTT níveis de expressão de mRNA de ADK maiores nas linhagens tumorais em relação aos melanócitos. 5-ITu mostrou-se capaz de inibir a proliferação (IC50) das linhagens de melanoma em concentrações de 1,9 a 3,5 µM. 5-ITu não foi capaz de induzir inviabilidade celular, apesar de reduzir a quantidade de células viáveis em todas as condições de tratamento, também não foi capaz de induzir aumento significativo de células apoptóticas, nem mesmo necróticas. No entanto, o tratamento com 5-ITu reduziu a capacidade clonogênica de linhagens de melanoma e promoveu parada de ciclo celular nas fases G1 e G2/M, levou ao aumento da população subG1. O tratamento com 5-ITu promoveu a redução da expressão de marcadores de proliferação, como ki67, e a combinação de tratamentos 5-ITu e iBraf foi capaz de aumentar o tempo de dobramento das linhagens de melanoma, embora tenha se mostrado incapaz de sensibilizar as células de melanoma ao tratamento com iBRAF. Desse modo, pode-se concluir que 5-ITu induz o efeito citostático e se mostra um potente agente antiproliferativo para melanoma parental e resistente. / Melanoma accounts for less than 5% of skin cancers, but 95% of deaths occur due to metastases. Metastatic melanoma is refractory to conventional therapies and rapidly acquires resistance to therapies such as oncogene-directed, such as the BRAF inhibitor, of the MAPK pathway. Previous studies of screening in silico of our group, using the databases TCGA and GEO, identified the adenosine kinase gene (ADK) as differentially expressed between invasive melanoma and nevus. 5-iodotubercidin (5-ITu) is a potent pharmacological inhibitor of ADK that among the several effects reported in the literature stands out for the genotoxic potential. DNA damage is the main activator of the cell cycle checkpoint, which leads to transient or permanent cell cycle arrest, in addition to inducing cell death, leading to the hypothesis that ADK may be a potential anti-melanoma agent. This work aimed to evaluate the expression of the ADK gene in human melanomas and chemoresistants to the BRAF inhibitor (iBRAF), evaluated the impacts of 5-ITu on proliferation, cell cycle progression and cell death and finally we evaluated its ability to increase the sensitivity of cells. Real-time PCR was performed to assess the levels of ADK mRNA expression in melanoma lines and primary melanocyte culture; in order to evaluate the cytotoxicity of 5-ITu, the trypan blue and apoptosis - Annexin V and PI exclusion and blue spheroid models were performed using live / dead; the influence of 5-ITu on the clonogenic capacity and its effects on cell proliferation, from the cell cycle assays and the evaluation of proliferation markers by immunofluorescence; the cell lines were submitted to different treatment regimens with 5-ITu and iBRAF in order to evaluate the growth curve and the sensitivity to iBRAF by MTT levels of mRNA expression of ADK higher in the tumor lines in relation to the melanocytes. 5-ITu was able to inhibit the proliferation (IC 50) of melanoma lines at concentrations of 1.9 to 3.5 181;M. 5-ITu was not able to induce cell non-viability, although it reduced the amount of viable cells in all treatment conditions, nor was it able to induce a significant increase in apoptotic or even necrotic cells. However, treatment with 5-ITu reduced the clonogenic capacity of melanoma cells and promoted cell cycle arrest in the G1 and G2 / M phases, leading to an increase in the subG1 population. Treatment with 5-ITu promotes the reduction of expression of proliferation markers, such as ki67, and the combination of 5-ITu and iBRAF treatments was able to increase the doubling time of melanoma cells, although it has been shown to be unable to sensitize melanoma cells to treatment with iBRAF. Thus, it can be concluded that 5-ITu induces the cytostatic effect and shows a potent antiproliferative agent for parental and resistant melanoma. 5-Iodotubercidin 5-Iodotubercidina Adenosina quinase Adenosine Kinase Agente citostático Checkpoint Checkpoint Cytostatic agent Danos no DNA DNA Damage Melanoma Melanoma Resistance Resistência
543	Study of adipokinetic hormone role in insects stressed by entomopathogenic nematodes IBRAHIM, Emad Ahmed Sayed January 2019 (has links) In this thesis, the effect of infection elicited by entomopathogenic nematodes (EPNs) Steinernema carpocapsae on Pyrrhocoris apterus and Drosophila melanogaster models were evaluated, and a role of adipokinetic hormones (AKHs) during the infection was characterized. These were monitored by determination of mortality, and various biochemical and physiological characteristics such as AKH levels both in the central nervous system (CNS) and in hemolymph, AKH gene expression in CNS, level of anti-oxidative stress markers, general metabolism and level of nutrients in normal and genetically modified insects. At P. apterus the mortality tests revealed that application of AKH increases the efficacy of EPN treatment. This result was confirmed using the firebugs with AKH receptor deficiency. Further, the increase of AKH expression and AKH levels in CNS and hemolymph seemed to be coordinated after the nematode treatment. At the D. melanogaster model also, the effect of adenosine into the above-mentioned characteristics was included. For this, mutants in AKH (AHK1), adenosine receptor (AdoR1) genes, and in both these genes together (AHK1 AdoR1 double mutant) were employed. Altogether, the results confirmed the involvement of AKH, and partially also adenosine into the antistress defense reactions elicited by the nematobacterial infection. Finally, the last part of the study was focused on examination of the vitellogenin (Vg) role in the defense reaction in firebug body P. apterus affected by two entomopathogenic organisms, the nematode S. carpocapsae and the fungus Isaria fumosorosea. The results revealed that Vg proteins play an important role in the defense against both types of the infections and are also able to kill entomopathogenic bacteria Xenorhabdus nematophila, that are symbionts of S. carpocapsae and that increase toxicity of this nematode.
544	Neuronal Growth Cone Dynamics are Regulated by a Nitric Oxide-Initiated Second Messenger Pathway. Welshhans, Kristy 01 October 2007 (has links) During development, neurons must find their way to and make connections with their appropriate targets. Growth cones are dynamic, motile structures that are integral to the establishment of appropriate connectivity during this wiring process. As growth cones migrate through their environment, they encounter guidance cues that direct their migration to their appropriate synaptic targets. The gaseous messenger nitric oxide (NO), which diffuses across the plasma membrane to act on intracellular targets, is a signaling molecule that affects growth cone motility. However, most studies have examined the effects of NO on growth cone morphology when applied in large concentrations and to entire cells. In addition, the intracellular second messenger cascade activated by NO to bring about these changes in growth cone morphology is not well understood. Therefore, this dissertation addresses the effects that a spatially- and temporally-restricted application of physiological amounts of NO can have on individual growth cone morphology, on the second messenger pathway that is activated by this application of NO, and on the calcium cascades that result and ultimately affect growth cone morphology. Helisoma trivolvis, a pond snail, is an excellent model system for this type of research because it has a well-defined nervous system and cultured neurons form large growth cones. In the present study, local application of NO to Helisoma trivolvis B5 neurons results in an increase in filopodial length, a decrease in filopodial number, and an increase in the intracellular calcium concentration ([Ca2+]i). In B5 neurons, the effects of NO on growth cone behavior and [Ca2+]i are mediated via sGC, protein kinase G, cyclic adenosine diphosphate ribose, and ryanodine receptor-mediated intracellular calcium release. This study demonstrates that neuronal growth cone pathfinding in vitro is affected by a single spatially- and temporally-restricted exposure to NO. Furthermore, NO acts via a second messenger cascade, resulting in a calcium increase that leads to cytoskeletal changes. These results suggest that NO may be a signal that promotes appropriate pathfinding and/or target recognition within the developing nervous system. Taken together, these data indicate that NO may be an important messenger during the development of the nervous system in vivo. filopodia protein kinase G soluble guanylyl cyclase growth cone calcium ryanodine receptor cyclic adenosine diphosphate ribose nitric oxide helisoma trivolvis Biology, general
545	Targeting the nucleotide metabolism of the mammalian pathogen Trypanosoma brucei Vodnala, Munender January 2013 (has links) Trypanosoma brucei causes African sleeping sickness in humans and Nagana in cattle. There are no vaccines available against the disease and the current treatment is also not satisfactory because of inefficacy and numerous side effects of the used drugs. T. brucei lacks de novo synthesis of purine nucleosides; hence it depends on the host to make its purine nucleotides. T. brucei has a high affinity adenosine kinase (TbAK), which phosphorylates adenosine, deoxyadenosine (dAdo), inosine and their analogs. RNAi experiments confirmed that TbAK is responsible for the salvage of dAdo and the toxicity of its substrate analogs. Cell growth assays with the dAdo analogs, Ara-A and F-Ara-A, suggested that TbAK could be exploited for drug development against the disease. It has previously been shown that when T. brucei cells were cultivated in the presence of 1 mM deoxyadenosine (dAdo), they showed accumulation of dATP and depletion of ATP nucleotides. The altered nucleotide levels were toxic to the trypanosomes. However the salvage of dAdo in trypanosomes was dramatically reduced below 0.5 mM dAdo. Radiolabeled dAdo experiments showed that it (especially at low concentrations) is cleaved to adenine and converted to ATP. The recombinant methylthioadenosine phosphorylase (TbMTAP) cleaved methylthioadenosine, dAdo and adenosine into adenine and sugar-1-P in a phosphate-dependent manner. The trypanosomes became more sensitive to dAdo when TbMTAP was down-regulated in RNAi experiments. The RNAi experiments confirmed that trypanosomes avoid dATP accumulation by cleaving dAdo. The TbMTAP cleavage-resistant nucleoside analogs, FANA-A and Ara-A, successfully cured T. brucei-infected mice. The DNA building block dTTP can be synthesized either via thymidylate synthase in the de novo pathway or via thymidine kinase (TK) by salvage synthesis. We found that T. brucei and three other parasites contain a tandem TK where the gene sequence was repeated twice or four times in a single open reading frame. The recombinant T. brucei TK, which belongs to the TK1 family, showed broad substrate specificity. The enzyme phosphorylated the pyrimidine nucleosides thymidine and deoxyuridine, as well as the purine nucleosides deoxyinosine and deoxyguanosine. When the repeated sequences of the tandem TbTK were expressed individually as domains, only domain 2 was active. However, the protein could not dimerize and had a 5-fold reduced affinity to its pyrimidine substrates but a similar turnover number as the full-length enzyme. The expressed domain 1 was inactive and sequence analysis revealed that some active residues, which are needed for substrate binding and catalysis, are absent. Generally, the TK1 family enzymes form dimers or tetramers and the quaternary structure is linked to the affinity for the substrates. The covalently linked inactive domain-1 helps domain-2 to form a pseudodimer for the efficient binding of substrates. In addition, we discovered a repetition of an 89-bp sequence in both domain 1 and domain 2, which suggests a genetic exchange between the two domains. T. brucei is very dependent on de novo synthesis via ribonucleotide reductase (RNR) for the production of dNTPs. Even though T. brucei RNR belongs to the class Ia RNR family and contains an ATP-binding cone, it lacks inhibition by dATP. The mechanism behind the RNR activation by ATP and inactivation by dATP was a puzzle for a long time in the ~50 years of RNR research. We carried out oligomerization studies on mouse and E. coli RNRs, which belongs to the same family as T. brucei, to get an understanding of the molecular mechanism behind overall activity regulation. We found that the oligomerization status of RNRs and overall activity mechanism are interlinked with each other. / Targeting the nucleotide metabolism of the mammalian pathogen Trypanosoma brucei. Trypanosoma brucei adenosine kinase thymidine kinase methylthioadenosine phosphorylase mouser ribonucleotide reductase E. coli ribonucleotide reductase RNR Ara-A F-Ara-A dNTP NTP doexynucleotide metabolism nucleosides nucleoside kinases allosteric regulation
546	Further Studies in Adenosinergic and Monoaminergic Mechanisms of Analgesia by Amitriptyline Liu, Jean 12 July 2012 (has links) In this thesis, rodent models of chronic pain were used to explore analgesic mechanisms that may potentially be engaged in spinal and peripheral compartments by systemically-administered amitriptyline, a tricyclic antidepressant. The first project (Chapter 2) identified the roles of spinal adenosine A1 and serotonin 5-HT7 receptors, as well as of peripheral adenosine A1 receptors, in the acute antinociceptive effects of amitriptyline in mice. The second project (Chapter 3) examined the potential utility of amitriptyline as a preventive analgesic against persistent post-surgical pain, and involved perioperative administration of amitriptyline after peripheral nerve injury in rats. Changes in post-injury behavioural outcomes, as well as spinal noradrenergic sprouting, were assessed. Overall, spinal serotonergic pathways linked to adenosine A1 receptors, as well as peripheral adenosine A1 receptors, appear to be important in antinociception by amitriptyline. Preventive analgesia by this drug does not appear to result from anatomical changes in spinal noradrenergic pathways. amitriptyline persistent post-surgical pain adenosine A1 receptor serotonin 5-HT7 receptor formalin test antinociception spared nerve injury preventive analgesia antidepressants pain
547	Aminopyrimidine derivatives as adenosine antagonists / Janke Kleynhans Kleynhans, Janke January 2013 (has links) Aims of this project - The aim of this study was to design and synthesise novel 2-aminopyrimidine derivatives as potential adenosine A1 and A2A receptor antagonists. Background and rationale - Parkinson’s disease is the second most common neurodegenerative disorder (after Alzheimer’s disease) and is characterised by the selective death of the dopaminergic neurons of the nigro-striatal pathway. Distinctive motor symptoms include bradykinesia, muscle rigidity and tremor, while non-motor symptoms, of which cognitive dysfunction is an example, also frequently occur. Current therapy provides symptomatic relief mainly by augmentation of dopaminergic signalling (levodopa, dopamine agonists, MAO and COMT enzyme inhibitors), but disease progression is not adequately addressed. New therapies that can prevent further neurodegeneration in addition to providing symptomatic relief are therefore urgently required. Adenosine has an important function as neuromodulator in the central nervous system. The adenosine A2A receptor in particular plays an essential role in the regulation of movement. This, coupled to the fact that it is uniquely distributed in the basal ganglia, contributes to its attractiveness as non-dopaminergic target in the treatment of movement disorders, such as Parkinson’s disease. The efficacy of adenosine receptor antagonists has been illustrated in animal models of Parkinson’s disease and several adenosine receptor antagonists have also reached clinical trials. The neuroprotective properties of adenosine A2A receptor antagonists are further attributed to their ability to modulate neuro-inflammation and decrease the release of the excitatory neurotransmitter glutamate, which is implicated in neurotoxicity. While adenosine A1 receptor antagonism has a synergistic effect on the motor effects of adenosine A2A receptor antagonism, it has the additional benefit of improving cognitive dysfunction, a cardinal non-motor symptom of Parkinson’s disease. Dual antagonism of adenosine A1 and A2A receptors therefore offers the potential of providing symptomatic relief as well as the neuroprotection so desperately needed in the clinical environment. Amino substituted heterocyclic scaffolds, such as those containing the 2-aminopyrimidine motif, have been shown to exhibit good efficacy as dual adenosine receptor antagonists. Since the structure activity relationships of 2-aminopyrimidines have not been comprehensively explored, it is in this regard that this study aimed to make a contribution. Results - Fourteen 2-aminopyrimidines were synthesised successfully over three steps, (although in low yields) and characterised by nuclear magnetic resonance and infrared spectroscopy, mass spectrometry, by determination of melting points and high performance liquid chromatography. Structure modifications explored included variation of the aromatic substituent on position 4, as well as variations in the substituents of the phenyl ring, present on position 6 of the pyrimidine ring. Radioligand binding assays were performed to determine the affinities of the synthesised compounds for the adenosine A1 and A2A receptor subtypes. Several high dual affinity derivatives were identified during this study; the compound with the highest affinity was 4-(5- methylthiophen-2-yl)-6-[3-(piperidine-1-carbonyl)phenyl]pyrimidin-2-amine (39f) with Ki values of 0.5 nM and 2.3 nM for the adenosine A2A and adenosine A1 receptors, respectively. A few general structure activity relationships were derived, which included: The effect of the aromatic substituent (position 4) on A2A affinity could be summarised (in order of declining affinity) as follows: 5-methylthiophene > phenyl > furan > pyridine > p-fluorophenyl > benzofuran. On the other hand, the effect of this substituent on A1 receptor affinity could be summarised (in order of declining affinity) as follows: phenyl > 5-methylthiophene > pfluorophenyl > benzofuran > pyridine. The affinities as exhibited by the methylthiophene derivatives 39f, 39h – 39j, further showed that while piperidine substitution (39f) resulted in optimal A2A and A1 affinity, pyrrolidine substitution (39j) was less favourable. Substitution at the 4ʹ position of the phenyl ring, as well as thiazole substitution, generally resulted in poor adenosine A1 and A2A receptor affinity. However, 4-[2-amino-6-(5-methylfuran-2-yl)pyrimidin- 4-yl]-N-(1,3-benzothiazol-2-yl)benzamide (39l) surprisingly demonstrated good affinity and selectivity for the adenosine A1 receptor. The results obtained during radioligand binding assays were rationalised by QSAR and molecular modelling (Discovery Studio 3.1, Accelrys) studies. The inverse relationship seen between log Ki (as indicator of affinity) and polar surface area, illustrated the importance of this physico-chemical property in the design of 2-aminopyrimidine A2A antagonists. The results from the docking study further showed that the orientation adopted by derivatives in the binding cavity (and particular hydrogen bonding to Asn 253 and Glu 169) is of importance. Results from the MTT cell viability assay indicated that none of the high affinity derivatives had a significant effect on cell viability at 1 μM, a concentration much higher than their Ki values. However, incorporation of the furan, benzofuran and p-fluorophenyl groups as aromatic substituent and a pyrrolidine as amine substituent, presented liabilities. Lastly, the haloperidol induced catalepsy assay (in rats) was used to give a preliminary indication of adenosine receptor antagonism or agonism. Compound 39f failed to reverse catalepsy under standard conditions, but showed some reversal after an increased time period. Indications therefore exist that 39f is an adenosine receptor antagonist that suffers from bioavailability issues. Compound (39c), 4-phenyl-6-[3-(piperidine-1- carbonyl)phenyl]pyrimidin-2-amine which also demonstrated promising affinity in the radioligand binding assays however showed a statistically significant reduction in catalepsy, indicating adenosine A2A receptor antagonism, and in vivo efficacy. Highly potent, dual affinity aminopyrimidine derivatives with acceptable toxicity profiles were identified in this study, with compound 39c demonstrating in vivo activity. The aim of designing and synthesising a promising dual adenosine A1/A2A receptor antagonist is therefore realised, with compound 39c as the most favourable example. / MSc (Pharmaceutical Chemistry), North-West University, Potchefstroom Campus, 2014 2-Aminopyrimidines Dual adenosine A1/A2A antagonists Neuroprotection Parkinson’s disease 2-Aminopirimidiene Dualistiese adenosien A1/A2A-antagoniste Neurobeskerming Parkinson se siekte
548	Purinergic Signaling and Autophagy Regulate the Secretion of High-Density Lipoprotein and Hepatic Lipase Chatterjee, Cynthia 19 April 2013 (has links) Dyslipidemia can be a comorbidity of both insulin-resistance and atherosclerosis. Hypertriglyceridemia is common in hyperglycemia and is associated with hypoalphalipoproteinemia (low HDL) and with altered nucleotide or purinergic signaling. We therefore hypothesized that extracellular nucleotides may affect hepatic lipoprotein metabolism. Our studies confirm this view and show that nucleotides regulate cellular proteolytic pathways in liver cells and thereby control lipoprotein secretion and their metabolism by hepatic lipase (HL). Treatment of liver cells with the nucleotide, adenosine diphosphate (ADP), stimulates VLDL-apoB100 and apoE secretion, but blocks HDL-apoA-I and HL secretion. ADP functions like a proteasomal inhibitor to block proteasomal degradation and stimulate apoB100 secretion. Blocking the proteosome is known to activate autophagic pathways. The nucleotide consequently stimulates autophagic degradation in liver cells and increases cellular levels of the autophagic proteins, LC3 and p62. Confocal studies show that ADP increases cellular LC3 levels and promotes co-localization of LC3 and apoA-I in an autophagosomal degradation compartment. ADP acts through the G-protein coupled receptor, P2Y13, to stimulate autophagy and block both HDL and HL secretion. Overexpression of P2Y13 increases cellular LC3 levels and blocks the induction of both HDL and HL secretion, while P2Y13 siRNA reduce LC3 protein levels and cause up to a ten-fold stimulation in HDL and HL secretion. P2Y13 gene expression regulates autophagy through the insulin receptor (IR-β). A reduction in P2Y13 expression increases the phosphorylation of IR-β and protein kinase B (Akt) >3-fold, while increasing P2Y13 expression inhibits the activation of IR-β and Akt. Experiments with epitope-labeled apoA-I and HL show that activation of purinergic pathways has no effect on the internalization and degradation of extracellular apoA-I and HL, which confirms the view that nucleotides primarily impact intracellular protein transport and degradation. In conclusion, elevated blood glucose levels may promote dyslipidemia by stimulating purinergic signaling through P2Y13 and IR-β and perturbing the intracellular degradation and secretion of both HDL and VLDL. High-Density Lipoprotein Hepatic Lipase Triglyceride Coronary Heart Disease Dyslipidemia Inflammation Autophagy Proteolytic Degradation Purinergic Signaling Insulin Signaling Metabolic Disease Lipoprotein Metabolism P2Y13 Adenosine Diphosphate
549	Local Purinergic Control of Arteriolar Reactivity in Pancreatic Islets and Renal Glomeruli Gao, Xiang January 2014 (has links) Local control of regional blood flow is exerted mainly through the arterioles. An adequate minute-to-minute regulation of blood perfusion of the kidney and the pancreas is obtained by the modulation of arteriolar reactivity, which will influence the organ function. The importance of purinergic signaling in this concept has been addressed, with special emphasis on the role of the adenosine A1 receptor. The effects of adenosine on two specialized vascular beds, namely the renal glomerulus and the pancreatic islets, have been examined. Characteristic for these regional circulations is their very high basal blood flow, but with somewhat different responses to vasoconstrictor and vasodilator stimuli. By adapting a unique microperfusion technique it was possible to separately perfuse isolated single mouse arterioles with attached glomeruli or pancreatic islets ex vivo. Microvascular responses were investigated following different additions to the perfusion fluid to directly examine the degree of dilation or constriction of the arterioles. This has been performed on transgenic animals in this thesis, e.g. A1 receptor knockout mice. Also effects of P2Y receptors on islet arterioles were examined in both normoglycemic and type 2 diabetic rats. Furthermore, interference with adenosine transport in glomerular arterioles were examined.. Our studies demonstrate important, yet complex, effects of adenosine and nucleotide signaling on renal and islet microvascular function, which in turn may influence both cardiovascular and metabolic regulations. They highlight the need for further studies of other purinergic receptors in this context, studies that are at currently being investigated. afferent arteriole islet arteriole adenosine A1 receptor ATP P2Y receptor microperfusion angiotensin II type 2 diabetes hypertension oxidative stress nitric oxide tubuloglomerular feedback
550	Organic dust-induced signaling in human pulmonary epithelial cells : emphasis on effects of cAMP modulation / Burvall, Karin, January 2005 (has links) (PDF) Diss. (sammanfattning) Stockholm : Karol. inst., 2005. / Härtill 5 uppsatser.

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