Global ETD Search

231	Molecular basis of secondary multidrug transport Masureel, Matthieu 14 June 2013 (has links) The Major Facilitator Superfamily groups a vast number of secondary transporters that import or export distinct substrates. Among these, multidrug antiporters constitute a peculiar class of transporters, both because of their multispecificity, recognizing structurally very diverse substrates, and because of their transport mechanism, that relies on bilayer-mediated extrusion of cytotoxic compounds. An accurate and detailed description of the conformational changes that underlie the transport cycle is still lacking and the structural basis for energetic coupling in these transporters has not been elucidated, with so far only limited crystallographic evidence available. We investigate the molecular basis of secondary multidrug transport with biochemical and biophysical studies on LmrP, a Major Facilitator Superfamily multidrug transporter from Lactococcus lactis. We used extensive continuous-wave electron paramagnetic resonance and double electron-electron resonance measurements on a library of spin-labeled LmrP mutants to uncover the conformational states involved in transport and to investigate how protons and ligands shift the equilibrium between conformers to enable transport. We find that the transporter switches between outward-open and outward-closed conformations depending on the protonation states of specific acidic residues forming a transmembrane protonation relay. We observe that substrate binding restricts the conformational freedom of LmrP and induces localized conformational changes. Our data allows to build a model of secondary multidrug transport wherein substrate binding initiates the transport cycle by opening the extracellular side to protons. Subsequent protonation of membrane-embedded acidic residues induces substrate release to the extracellular side and triggers a cascade of conformational changes that culminates in a proton release to the intracellular side. Parallel to this, we have optimized our purification and expression protocol in order to set up crystallization trials on LmrP. Through extensive screening and optimization of the lipidation state of LmrP, using ad hoc methods for sample preparation, we were able to obtain low-resolution diffracting crystals. By improving our lipidation technique and modifying the lipid composition we further improved crystal quality. Other factors such as ligand addition, the presence of secondary detergent and additives for controlling phase separation and nucleation were tested, paving the way to high resolution structure determination of LmrP. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished Chimie Sciences exactes et naturelles Drug resistance Biological transport Résistance aux médicaments Transport biologique multidrug resistance double electron-electron resonance LmrP Major Facilitator Superfamily
232	Functional Effects of Carbon Nanoparticles on Barrier Epithelial Cell Function Banga, Amiraj 27 August 2012 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / As mass production of carbon nanoparticles (CNPs) continues to rise, the likelihood of occupational and environmental exposure raises the potential for exposure‐related health hazards. Although many groups have studied the effects of CNPs on biological systems, very few studies have examined the effects of exposure of cells, tissues or organisms to low, physiologically relevant concentrations of CNPs. Three of the most common types of CNPs are single wall nanotubes (SWNT), multi wall nanotubes (MWNT) and fullerenes (C60). We used electrophysiological techniques to test the effects of CNP exposure (40 μg/cm2 – 4 ng/cm2) on barrier function and hormonal responses of well characterized cell lines representing barrier epithelia from the kidney (mpkCCDcl4) and airways (Calu‐3). mpkCCDcl4 is a cell line representing principal cell type that lines the distal nephron in an electrically tight epithelia that aids in salt and water homeostasis and Calu‐3 is one of the few cell lines that produces features of a differentiated, functional human airway epithelium in vivo. These cell lines respond to hormones that regulate salt/water reabsorption (mpkCCDcl4) and chloride secretion (Calu‐3). In mpkCCDcl4 cells, after 48 hour exposure, the transepithelial electrical resistance (TEER) was unaffected by high concentrations (40 – 0.4 μg/cm2) of C60 or SWNT while lower, more relevant levels (< 0.04 μg/cm2) caused a decrease in TEER. MWNT decreased TEER at both high and low concentrations. CNT exposure for 48 hour did not change the transepithelial ion transport in response to anti‐diuretic hormone (ADH). In Calu‐3 cells, after 48 h of exposure to CNPs, fullerenes did not show any effect on TEER whereas the nanotubes significantly decreased TEER over a range of concentrations (4 μg/cm2‐0.004 ng/cm2). The ion transport response to epinephrine was also significantly decreased by the nanotubes but not by fullerenes. To look at the effect of exposure times, airway cells were exposed to same concentrations of CNPs for 24 and 1h. While the 48 h and 24 h exposures exhibited similar effects, there was no effect seen after 1h in terms of TEER or hormonal responses. In both the cell lines the magnitude of the transepithelial resistance change does not indicate a decrease in cellular viability but would be most consistent with more subtle changes (e.g., modifications of the cytoskeleton or changes in the composition of the cellular membrane). These changes in both the cell lines manifested as an inverse relationship with CNP concentration, were further corroborated by an inverse correlation between dose and changes in protein expression as indicated by proteomic analysis. These results indicate a functional impact of CNPs on epithelial cells at concentrations lower than have been previously studied and suggest caution with regard to increasing CNP levels due to increasing environmental pollution. Nanostructured materials -- Measurement Nanotubes ---Measurement Fullerenes Electrophysiology -- Technique Tubes Carbon Ion channels Proteomics Cells -- Permeability Biological transport
233	Stereospecific dehydroxyfluorination and the synthesis of trifluoro D-hexose sugar analogues Bresciani, Stefano January 2011 (has links) This thesis describes stereospecific fluorination reactions, and addresses the synthesis of fluorosugars. In Chapter 1, the influence of fluorine on the physical properties of organic molecules, as well as its stereoelectronic effects, are introduced. Furthermore, an overview of nucleophilic and electrophilic fluorination reactions is given. Chapter 2 describes the dehydroxyfluorination of allylic alcohol diastereoisomers 155a and 155b, which can proceed either by direct or allylic fluorination. The regio- and stereo- selectivities were also assessed. Chapter 3 outlines the synthesis of the novel trifluoro D-glucose analogue 193 and trifluoro D-altrose analogue 216. The transport of these hexose analogues across the red blood cell membranes was then explored, to investigate the influence of polarity versus hydrogen bonding ability in carbohydrate-protein interactions. Chapter 4 describes the development and optimisation of Bio’s methodology, to promote stereospecific dehydroxyfluorination of benzylic alcohols (R)-213 and (R)-227 by addition of TMS-amine additives 226 and 229. And finally Chapter 5 reports the experimental procedures as well as the characterisation and the crystallographic data of the molecules prepared in this thesis. 547.02
234	Avaliação dos efeitos do betabloqueador nebivolol sobre o peritônio em modelo experimental murino de diálise peritoneal / Assessment of the effects of beta-blocker nebivolol on the peritoneum in an experimental murine model of peritoneal dialysis Mazo, Anna Rita Moraes de Souza Aguirre 20 October 2011 (has links) A falência de ultrafiltração (UFF) é uma causa importante de interrupção da diálise peritoneal (DP) enquanto terapia renal substitutiva. Além da inflamação crônica e aguda causadas à membrana peritoneal (MP) pelos produtos de degradação da glicose, produtos avançados da glicosilação, pH ácido das soluções e infecções, -bloqueadores (BB) também foram implicados na gênese da UFF. A vasoconstrição arteriolar esplâncnica é considerada a causa provável da UFF por BB. O nebivolol (NV), um bloqueador 1-adrenérgico altamente seletivo que, diferente de outros BB, possui efeito vasodilatador por aumento de óxido nítrico (NO) por ativar a via L-arginina-NO, foi testado em pacientes idosos com ICC e levou à redução na mortalidade. O objetivo desse estudo é analisar os efeitos do NV sobre a ultrafiltração (UF), MP e características do efluente em um modelo animal de DP, através do estudo de fenômenos envolvidos na degeneração da MP e UFF, como transição epitélio mesenquimal (EMT) e fibrose, além de parâmetros humorais e celulares de inflamação. 21 camundongos C57BL/6 fêmeas, não urêmicos, com 12 a 14 semanas, foram submetidos à colocação de cateter peritoneal. Após uma semana, foram divididos em 3 grupos de 7 animais: grupo controle (observação 30 dias), grupo SDP (2 mL/ dia de solução glicosada de diálise peritoneal a 4,25% através do cateter, por 30 dias) e grupo NV (além da infusão, receberam 8 mg/kg/dia de NV por gavagem, por 30 dias). Após 30 dias, comparou-se espessura submesotelial, volume de UF, velocidades de transporte de pequenos solutos, marcação submesotelial de pan-citoqueratina, para quantificar EMT, contagem de vasos, linfangiogênese diafragmática e concentração de IL-6 e IL-10 no efluente. A espessura da MP foi de 23,14 m no grupo controle, no grupo SDP foi de 102,4 m e no grupo NV, 29,04 m, com p<0,05. O volume de UF foi 1,94mL para o grupo controle, para o grupo SDP, 1,56 mL e, para o grupo NV, 2,05 mL, também com p<0,05. Houve menor EMT, menor angiogênese e tendência a transporte mais lento de solutos no grupo tratado, assim como menor concentração de IL-6 e proporções de populações de linfócitos semelhantes às do grupo controle. Concluímos que a droga impediu o desenvolvimento de UFF, através do bloqueio de fenômenos como EMT, espessamento da MP e neoangiogênese, além de preservar características de imunidade celular e humoral locais, merecendo ser estudada em pacientes submetidos à DP / Ultrafiltration failure (UFF) is a major cause of peritoneal dialysis (PD) discontinuation. Besides peritoneal membrane (PM) acute and chronic inflammation caused by glucose degradation products, advanced glycation end-products, acidic pH of the solutions and peritoneal infections, also -blockers (BBs) have been implicated in UFF genesis. Splanchnic arteriolar vasoconstriction has been considered the probable cause of UFF induced by BBs. Nebivolol (NV), a highly selective 1-adrenergic blocker, unlike other BBs, has a vasodilatory effect caused by its ability to increase nitric oxide (NO) through L-arginine-NO pathway activation. NV has been tested in elderly patients with congestive heart failure and led to mortality reduction. The aim of this work is to analyze the effects of NV over ultrafiltration (UF), PM and effluent characteristics in an animal model of PD. For that end, phenomena known to be involved in PM degeneration and UFF, such as epithelial-to-mesenchymal transition (EMT), fibrosis, as well as cellular and humoral parameters of inflammation have been studied. 21 C57BL/ 6 female non uremic mice, ageing 12 to 14 weeks, underwent peritoneal catheter placement. One week later, they were divided into 3 groups of 7 animals: control group (observation for 30 day), PDF group (2 mL/ day of 4.25% dextrose peritoneal dialysis fluid injected through the catheter for 30 days) and NV group (besides the PDF infusion, this group received 8 mg/ kg/ day of NV by gavage, for 30 days). After 30 days, submesotelial thickness, UF volume, small solute transport speed, submesotelial pan-cytokeratin staining (EMT quantification), vessel count, diaphragmatic lymphangiogenesis and IL-6 and IL-10 concentrations in the effluent were compared. PM thickness was 23.14 m in the control group, 102.4 m in the PDF group and 29.04 m in the NV group, p <0.05. UF volume was 1.94 mL in the control group, 1.56 mL in the SDP group, and in the NV group, 2.05 mL, p <0.05. There was less EMT, less angiogenesis and a tendency to a slower solute transport in the treated group. Lower levels of IL-6 and similar lymphocyte populations proportions to the control group were also found. We conclude that the drug can prevent UFF development, through blockade of phenomena such as EMT, PM thickening and neoangiogenesis, while characteristics of local cellular and humoral immunity were preserved. These results warrant a clinical study of the drug in PD patients Adrenergic antagonists Animal models Antagonistas adrenérgicos Biological transport Diálise peritoneal Dialysis solutions Fibrose peritoneal Modelos animais Neovascularização patológica Pathologic neovascularization Peritoneal dialysis Peritoneal fibrosis Soluções para diálise Transporte biológico Ultrafiltração Ultrafiltration
235	Effects of scutellariae radix extract and its major flavonoid baicalein on electrolyte transport across human colonic epithelia (T84 cells). January 2003 (has links) Yue Gar-Lee Grace. / Thesis (M.Phil.)--Chinese University of Hong Kong, 2003. / Includes bibliographical references (leaves 113-120). / Abstracts in English and Chinese. / Abstract (English version) --- p.i / Abstract (Chinese version) --- p.iii / Acknowledgements --- p.v / Table of contents --- p.vi / List of figures --- p.x / List of tables --- p.xiii / List of abbreviations --- p.xiv / Chapter Chapter I: --- Introduction --- p.1 / Chapter 1.1. --- Transepithelial electrolyte transport in colon --- p.1 / Chapter 1.1.1. --- Intestinal fluid secretion --- p.1 / Chapter 1.1.2. --- Cellular mechanism of chloride secretion --- p.3 / Chapter 1.2. --- Biological activities of flavonoids --- p.6 / Chapter 1.2.1. --- Classification and general activities of flavonoids --- p.6 / Chapter 1.2.2. --- Bioavailability and pharmacokinetic properties of flavonoids --- p.8 / Chapter 1.3. --- "What is Scutellariae radix""?" --- p.9 / Chapter 1.3.1. --- Usage in Traditional Chinese Medicine --- p.9 / Chapter 1.3.2. --- Relationship with Coptidis rhizoma --- p.9 / Chapter 1.4. --- Effect of flavonoids on gastrointestinal activities --- p.12 / Chapter 1.4.1. --- Genistein and quercetin --- p.12 / Chapter 1.4.2. --- Baicalein --- p.12 / Chapter 1.5. --- Possible intracellular signaling pathway involved in the secretory response by Scutellariae radix (SR) in T84 cells --- p.14 / Chapter 1.5.1. --- Human colonic T84 cell --- p.14 / Chapter 1.5.2. --- Intracellular signaling pathway --- p.14 / Chapter 1.6. --- Aim of study --- p.17 / Chapter Chapter II : --- Methods and Materials --- p.18 / Chapter II.1. --- Culture technique of the T84 cells --- p.18 / Chapter II.2. --- Simultaneous measurement of short-circuit current (Isc) and intracellular calcium ([Ca2+]i) --- p.21 / Chapter II.2.1. --- Experimental setup --- p.21 / Chapter II.2.2. --- Preparation of the permeable supports --- p.23 / Chapter II.2.3. --- Cell seeding --- p.27 / Chapter II.2.4. --- Dye loading --- p.27 / Chapter II.2.5. --- Simultaneous measurement of Isc and [Ca2+]i- --- p.30 / Chapter II.3. --- Conventional short-circuit current (Isc) measurement --- p.34 / Chapter II.3.1. --- Experimental setup --- p.34 / Chapter II.3.2. --- Preparation of the permeable supports --- p.36 / Chapter II.3.3. --- Cell seeding --- p.36 / Chapter II.3.4. --- Measurement --- p.38 / Chapter II.4. --- Measurement of cAMP --- p.39 / Chapter II.5. --- Solutions and chemicals --- p.40 / Chapter II.6. --- Statistical analysis --- p.42 / Chapter Chapter III : --- Results --- p.43 / Chapter III. 1. --- Effects of baicalein and its interaction with calcium and cAMP-dependent secretagogues --- p.43 / Chapter III. 1.1. --- Effects of baicalein on baseline Isc and [Ca2+]i --- p.43 / Chapter III. 1.2. --- Ionic basis of baicalein-evoked Isc --- p.43 / Chapter III. 1.3. --- Effect of baicalein on carbachol-evoked Isc --- p.47 / Chapter III. 1.4. --- "Effect of baicalein on Isc stimulated by another calcium mobilizing agonist, histamine" --- p.58 / Chapter III. 1.5. --- Effect of carbachol on Isc response stimulated by baicalein --- p.61 / Chapter III. 1.6. --- Chronic effect of baicalein on carbachol-evoked increase in Isc --- p.63 / Chapter III.1.7. --- Interaction of baicalein with forskolin --- p.65 / Chapter III.2. --- Effects of baicalein on cAMP generation in T84 cells --- p.69 / Chapter III.2.1. --- Effects of baicalein on cAMP production --- p.69 / Chapter III.2.2 --- Effects of baicalein on forskolin-induced cAMP production --- p.70 / Chapter III.3. --- Effects of Scutellariae radix extract on ion transport activities in T84 cells --- p.73 / Chapter III.3.1. --- Effects of Scutellariae radix extract (SRE) on baseline Isc --- p.73 / Chapter III.3.2. --- Ionic basis of SRE-evoked Isc --- p.77 / Chapter III.3.3. --- Effects of adenylate cyclase inhibitor and PKA inhibitor --- p.77 / Chapter III.3.4. --- PKC modulation --- p.86 / Chapter III.3.5. --- Involvement of intracellular calcium --- p.86 / Chapter III.3.6. --- Involvement of cAMP --- p.94 / Chapter Chapter IV : --- Discussion --- p.98 / Chapter IV. 1. --- Effects of baicalein on ion transport in human colonic T84 cells --- p.98 / Chapter IV. 1.1. --- Roles of baicalein in chloride secretion in intestinal epithelial cells --- p.98 / Chapter IV. 1.2. --- Potentiation effect of baicalein on calcium-mediated chloride secretion --- p.100 / Chapter IV. 1.3. --- Potentiation effect of carbachol on baicalein-stimulated chloride secretion --- p.102 / Chapter IV. 1.4. --- Interaction between baicalein and forskolin --- p.104 / Chapter IV.2. --- Effects of Scutellariae radix extract on ion transport in human colonic T84 cells --- p.107 / Chapter IV.2.1 --- Characteristcs of Isc induced by Scutellariae radix extract --- p.107 / Chapter IV.2.2. --- Possible signaling mechanism involved in Isc induced by Scutellariae radix extract --- p.108 / Chapter IV.3. --- Comparison of the effects on ion transport in human colonic T84 cells produced by baicalein and Scutellariae radix extract --- p.110 / Chapter IV.3.1. --- Properties of baicalein- and Scutellariae radix extract- induced Isc response --- p.110 / Chapter IV.3.2. --- Summary --- p.111 / Chapter Chapter V : --- References --- p.113 / Publications --- p.120 Flavonoids--metabolism Biological Transport--drug effects Water-Electrolyte Balance--drug effects Intestinal Secretions--drug effects Electrolytes--metabolism Scutellaria baicalensis--metabolism Cyclic AMP--metabolism Calcium--metabolism Colon--metabolism Colon--drug effects
236	Models for the Transfer of Drugs from the Nasal Cavity to the Central Nervous System Jansson, Björn January 2004 (has links) <p>The blood-brain barrier restricts the access of many compounds, including therapeutic agents, to the brain. Several human studies indicate that nasal administration of hydrophilic compounds, such as peptides, can bypass the blood-brain barrier. The aims of this thesis were to develop and refine models for this direct nose-to-brain transfer.</p><p>In a mouse model, [<sup>3</sup>H]-dopamine was given as a unilateral nasal dose. The resulting radioactivity in the ipsilateral olfactory bulb was significantly higher than that in the contralateral bulb and peaked at 4 h. Tape section autoradiography showed that the radioactivity was concentrated in the olfactory nerve layer and the glomerular layer of the olfactory bulb. The olfactory transfer of dopamine was also studied <i>in vitro</i>. At a lower donor concentration, the mucosal-to-serosal dopamine permeability was higher than the serosal-to-mucosal permeability, but at a higher concentration, the permeability coefficients were similar. Together, these results suggest that the olfactory transfer of dopamine has an active component.</p><p>Olfactory transfer of fluorescein-labeled dextran through the epithelium and deeper tissues was studied in a rat model, which enabled visualization of the transfer using fluorescence microscopy. Although the epithelial transfer appeared to be mainly intracellular, transfer in the following deeper tissues was extracellular. Without altering the route of uptake, a gellan gum formulation enhanced the uptake of fluorescein dextran. The enhancing effect was considered likely to be the result of an increased residence time in the nasal cavity.</p><p>In conclusion, dopamine and fluorescein-labeled dextran were identified as suitable model compounds for the study of olfactory drug transfer mechanisms and the influence of drug formulation. Two new <i>in vitro</i> models of olfactory transfer were compared. Also, a rat model, which enabled the visualization of the entire nose-to-brain transfer, was developed.</p> Biopharmacy Administration intranasal Nasal mucosa Central nervous system Olfactory bulb Rat Mouse Swine Cattle Diffusion chambers culture In vitro Biological models Biological transport Dextrans Dopamine Gels Polysaccharides Autoradiography Fluorescence microscopy Biofarmaci Biopharmacy Biofarmaci
237	Models for the Transfer of Drugs from the Nasal Cavity to the Central Nervous System Jansson, Björn January 2004 (has links) The blood-brain barrier restricts the access of many compounds, including therapeutic agents, to the brain. Several human studies indicate that nasal administration of hydrophilic compounds, such as peptides, can bypass the blood-brain barrier. The aims of this thesis were to develop and refine models for this direct nose-to-brain transfer. In a mouse model, [3H]-dopamine was given as a unilateral nasal dose. The resulting radioactivity in the ipsilateral olfactory bulb was significantly higher than that in the contralateral bulb and peaked at 4 h. Tape section autoradiography showed that the radioactivity was concentrated in the olfactory nerve layer and the glomerular layer of the olfactory bulb. The olfactory transfer of dopamine was also studied in vitro. At a lower donor concentration, the mucosal-to-serosal dopamine permeability was higher than the serosal-to-mucosal permeability, but at a higher concentration, the permeability coefficients were similar. Together, these results suggest that the olfactory transfer of dopamine has an active component. Olfactory transfer of fluorescein-labeled dextran through the epithelium and deeper tissues was studied in a rat model, which enabled visualization of the transfer using fluorescence microscopy. Although the epithelial transfer appeared to be mainly intracellular, transfer in the following deeper tissues was extracellular. Without altering the route of uptake, a gellan gum formulation enhanced the uptake of fluorescein dextran. The enhancing effect was considered likely to be the result of an increased residence time in the nasal cavity. In conclusion, dopamine and fluorescein-labeled dextran were identified as suitable model compounds for the study of olfactory drug transfer mechanisms and the influence of drug formulation. Two new in vitro models of olfactory transfer were compared. Also, a rat model, which enabled the visualization of the entire nose-to-brain transfer, was developed. Biopharmacy Administration intranasal Nasal mucosa Central nervous system Olfactory bulb Rat Mouse Swine Cattle Diffusion chambers culture In vitro Biological models Biological transport Dextrans Dopamine Gels Polysaccharides Autoradiography Fluorescence microscopy Biofarmaci Biopharmacy Biofarmaci
238	Avaliação dos efeitos do betabloqueador nebivolol sobre o peritônio em modelo experimental murino de diálise peritoneal / Assessment of the effects of beta-blocker nebivolol on the peritoneum in an experimental murine model of peritoneal dialysis Anna Rita Moraes de Souza Aguirre Mazo 20 October 2011 (has links) A falência de ultrafiltração (UFF) é uma causa importante de interrupção da diálise peritoneal (DP) enquanto terapia renal substitutiva. Além da inflamação crônica e aguda causadas à membrana peritoneal (MP) pelos produtos de degradação da glicose, produtos avançados da glicosilação, pH ácido das soluções e infecções, -bloqueadores (BB) também foram implicados na gênese da UFF. A vasoconstrição arteriolar esplâncnica é considerada a causa provável da UFF por BB. O nebivolol (NV), um bloqueador 1-adrenérgico altamente seletivo que, diferente de outros BB, possui efeito vasodilatador por aumento de óxido nítrico (NO) por ativar a via L-arginina-NO, foi testado em pacientes idosos com ICC e levou à redução na mortalidade. O objetivo desse estudo é analisar os efeitos do NV sobre a ultrafiltração (UF), MP e características do efluente em um modelo animal de DP, através do estudo de fenômenos envolvidos na degeneração da MP e UFF, como transição epitélio mesenquimal (EMT) e fibrose, além de parâmetros humorais e celulares de inflamação. 21 camundongos C57BL/6 fêmeas, não urêmicos, com 12 a 14 semanas, foram submetidos à colocação de cateter peritoneal. Após uma semana, foram divididos em 3 grupos de 7 animais: grupo controle (observação 30 dias), grupo SDP (2 mL/ dia de solução glicosada de diálise peritoneal a 4,25% através do cateter, por 30 dias) e grupo NV (além da infusão, receberam 8 mg/kg/dia de NV por gavagem, por 30 dias). Após 30 dias, comparou-se espessura submesotelial, volume de UF, velocidades de transporte de pequenos solutos, marcação submesotelial de pan-citoqueratina, para quantificar EMT, contagem de vasos, linfangiogênese diafragmática e concentração de IL-6 e IL-10 no efluente. A espessura da MP foi de 23,14 m no grupo controle, no grupo SDP foi de 102,4 m e no grupo NV, 29,04 m, com p<0,05. O volume de UF foi 1,94mL para o grupo controle, para o grupo SDP, 1,56 mL e, para o grupo NV, 2,05 mL, também com p<0,05. Houve menor EMT, menor angiogênese e tendência a transporte mais lento de solutos no grupo tratado, assim como menor concentração de IL-6 e proporções de populações de linfócitos semelhantes às do grupo controle. Concluímos que a droga impediu o desenvolvimento de UFF, através do bloqueio de fenômenos como EMT, espessamento da MP e neoangiogênese, além de preservar características de imunidade celular e humoral locais, merecendo ser estudada em pacientes submetidos à DP / Ultrafiltration failure (UFF) is a major cause of peritoneal dialysis (PD) discontinuation. Besides peritoneal membrane (PM) acute and chronic inflammation caused by glucose degradation products, advanced glycation end-products, acidic pH of the solutions and peritoneal infections, also -blockers (BBs) have been implicated in UFF genesis. Splanchnic arteriolar vasoconstriction has been considered the probable cause of UFF induced by BBs. Nebivolol (NV), a highly selective 1-adrenergic blocker, unlike other BBs, has a vasodilatory effect caused by its ability to increase nitric oxide (NO) through L-arginine-NO pathway activation. NV has been tested in elderly patients with congestive heart failure and led to mortality reduction. The aim of this work is to analyze the effects of NV over ultrafiltration (UF), PM and effluent characteristics in an animal model of PD. For that end, phenomena known to be involved in PM degeneration and UFF, such as epithelial-to-mesenchymal transition (EMT), fibrosis, as well as cellular and humoral parameters of inflammation have been studied. 21 C57BL/ 6 female non uremic mice, ageing 12 to 14 weeks, underwent peritoneal catheter placement. One week later, they were divided into 3 groups of 7 animals: control group (observation for 30 day), PDF group (2 mL/ day of 4.25% dextrose peritoneal dialysis fluid injected through the catheter for 30 days) and NV group (besides the PDF infusion, this group received 8 mg/ kg/ day of NV by gavage, for 30 days). After 30 days, submesotelial thickness, UF volume, small solute transport speed, submesotelial pan-cytokeratin staining (EMT quantification), vessel count, diaphragmatic lymphangiogenesis and IL-6 and IL-10 concentrations in the effluent were compared. PM thickness was 23.14 m in the control group, 102.4 m in the PDF group and 29.04 m in the NV group, p <0.05. UF volume was 1.94 mL in the control group, 1.56 mL in the SDP group, and in the NV group, 2.05 mL, p <0.05. There was less EMT, less angiogenesis and a tendency to a slower solute transport in the treated group. Lower levels of IL-6 and similar lymphocyte populations proportions to the control group were also found. We conclude that the drug can prevent UFF development, through blockade of phenomena such as EMT, PM thickening and neoangiogenesis, while characteristics of local cellular and humoral immunity were preserved. These results warrant a clinical study of the drug in PD patients Antagonistas adrenérgicos Diálise peritoneal Fibrose peritoneal Modelos animais Neovascularização patológica Soluções para diálise Transporte biológico Ultrafiltração Adrenergic antagonists Animal models Biological transport Dialysis solutions Pathologic neovascularization Peritoneal dialysis Peritoneal fibrosis Ultrafiltration
239	Melanin transfer in human skin cells is mediated by filopodia--a model for homotypic and heterotypic lysosome-related organelle transfer Singh, Suman K., Kurfurst, R., Nizard, C., Schnebert, S., Perrier, E., Tobin, Desmond J. January 2010 (has links) No / Transfer of the melanocyte-specific and lysosome-related organelle, the melanosome, from melanocytes to keratinocytes is crucial for the protection of the skin against harmful ultraviolet radiation (UVR)--our main physiological cutaneous stressor. However, this commonplace event remains a most enigmatic process despite several early hypotheses. Recently, we and others have proposed a role for filopodia in melanin transfer, although conclusive experimental proof remained elusive. Using known filopodial markers (MyoX/Cdc42) and the filopodial disrupter, low-dose cytochalasin-B, we demonstrate here a requirement for filopodia in melanosome transfer from melanocytes to keratinocytes and also, unexpectedly, between keratinocytes. Melanin distribution throughout the skin represents the key phenotypic event in skin pigmentation. Melanocyte filopodia were also necessary for UVR-stimulated melanosome transfer, as this was also inhibited by MyoX knockdown and low-dose cytochalasin-B. Knockdown of keratinocyte MyoX protein, in its capacity as a phagocytosis effector, resulted in the inhibition of melanin uptake by keratinocytes. This indicates a central role for phagocytosis by keratinocytes of melanocyte filopodia. In summary, we propose a new model for the regulation of pigmentation in human skin cells under both constitutive and facultative (post-UVR) conditions, which we call the "filopodial-phagocytosis model." This model also provides a unique and highly accessible way to study lysosome-related organelle movement between mammalian cells. Adult Aged Base sequence Biological transport Blotting Western Cells Cultured DNA primers Female Humans Lysosomes Metabolism Male Melanins Microscopy Electron Scanning Microscopy Fluorescence Middle aged Pseudopodia Skin Cytology Radiation effects Ultraviolet rays REF 2014
240	Effects of carbon nanotubes on barrier epithelial cells via effects on lipid bilayers Lewis, Shanta January 2013 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Carbon nanotubes (CNTs) are one of the most common nanoparticles (NP) found in workplace air. Therefore, there is a strong chance that these NP will enter the human body. They have similar physical properties to asbestos, a known toxic material, yet there is limited evidence showing that CNTs may be hazardous to human barrier epithelia. In previous studies done in our laboratory, the effects of CNTs on the barrier function in the human airway epithelial cell line (Calu-3) were measured. Measurements were done using electrophysiology, a technique which measures both transepithelial electrical resistance (TEER), a measure of monolayer integrity, and short circuit current (SCC) which is a measure of vectorial ion transport across the cell monolayer. The research findings showed that select physiologically relevant concentrations of long single-wall (SW) and multi-wall (MW) CNTs significantly decreased the stimulated SCC of the Calu-3 cells compared to untreated cultures. Calu-3 cells showed decreases in TEER when incubated for 48 hours (h) with concentrations of MWCNT ranging from 4µg/cm2 to 0.4ng/cm2 and SWCNT ranging from 4µg/cm2 to 0.04ng/cm2. The impaired cellular function, despite sustained cell viability, led us to investigate the mechanism by which the CNTs were affecting the cell membrane. We investigated the interaction of short MWCNTs with model lipid membranes using an ion channel amplifier, Planar Bilayer Workstation. Membranes were synthesized using neutral diphytanoylphosphatidylcholine (DPhPC) and negatively charged diphytanoylphosphatidylserine (DPhPS) lipids. Gramicidin A (GA), an ion channel reporter protein, was used to measure changes in ion channel conductance due to CNT exposures. Synthetic membranes exposed to CNTs allowed bursts of currents to cross the membrane when they were added to the membrane buffer system. When added to the membrane in the presence of GA, they distorted channel formation and reduced membrane stability. Carbon nanotubes Multi-wall carbon nanotubes single-wall carbon nanotubes T84 Calu-3 Black lipid membranes Electrophysiology Ion channels Gramicidin A Short circuit current Carbon nanotubes -- Research -- Analysis Organic compounds -- Synthesis Electrophysiology -- Technique Ion channels -- Research -- Analysis Short circuits Epithelium Gramicidins Cyclic peptides -- Synthesis Tight junctions (Cell biology) Bilayer lipid membranes Biological transport Membranes (Biology)

Search results