Global ETD Search

71	Development of an inducible and reversible mouse model of podocyte effacement Stringer, Colin D.M. 31 August 2011 (has links) Podocytes are specialized epithelial cells which wrap glomerular capillaries with numerous interdigitating foot processes (FP). Between adjacent FPs a unique junction, the slit diaphragm (SD), functions as the final blood filtration barrier. Actin organization is critical for maintaining FP structure and SD function, and the adaptor protein Nck can bind an intracellular SD component to couple it with actin regulators. Podocyte-specific deletion of Nck in mice results in proteinuria and FP effacement. To better understand FP remodelling, we have pursued a transgenic mouse model utilizing an inducible and reversible dominant negative Nck (DN-Nck) to prevent signalling to actin regulators, exclusively in podocytes. Effects of DN-Nck were first confirmed in vitro, and transgenic mice were then generated and induced to express DN-Nck. Despite obtaining several mice which exhibited a mild renal phenotype, transgene expression appeared to be lost in successive generations. Full in vivo analysis awaits generation of additional transgenic founders.
72	Host Responses to Infection of the Upper and Lower Urinary Tract Bowen, Samantha January 2013 (has links) <p>Urinary tract infections (UTIs) are the second most common type of infection identified in the clinical setting and disproportionately afflict women. UTIs most frequently manifest in the form of infection of the lower urinary tract, involving the bladder. Uropathogens, particularly uropathogenic E. coli, progressively colonize the urethra and ascend to the bladder, where they initiate cystitis. In some cases, infection further ascends through the ureters and reaches the kidneys, where it causes pyelonephritis. Infection of both the upper and lower urinary tract can have serious ramifications for the host, and this is in large part due not to infection itself but to host-directed responses to bacterial insults. </p><p> In this thesis, I will describe and discuss two distinct aspects of UTIs. In the first study, in vivo work in a mouse model of urinary tract infection revealed a novel role for mast cells, which are tissue-resident granulated innate immune cells, in directing the detachment and death of epithelial cells during cystitis, facilitating the clearance of bacteria from the bladder. An ex vivo porcine bladder infection model suggested a specific role for mast cell granules and the proteases contained therein, which was corroborated with in vitro experiments utlizing isolated mast cell granules and human epithelial cells to demonstrate granule-induced exfoliation and cell death. From this work, it is clear that mast cells play a highly targeted role in modulating urothelial integrity during bladder infection by mediating host-directed epithelial loss.</p><p> In the second study described in this dissertation, the synergistic roles of both pyelonephritis and vesico-ureteric reflux (VUR), a congenital urinary tract defect that results in the improper backflow of urine from the bladder to the kidney, in the development of reflux nephropathy, a fibrotic host response characterized by renal scar formation, were elucidated in a series of in vivo experiments. Specifically, the C3H mouse, which is naturally susceptible to VUR, was utilized to characterize the dynamics of kidney infection and the onset of reflux nephropathy. Renal scarring was dependent on the presence of sustained kidney infection and the accompanying inflammatory response due to VUR, while neither transient infection nor reflux alone were sufficient to provoke nephropathy. Thus, the development of reflux nephropathy is dependent upon the confluence of both infection and VUR. </p><p> This body of work reveals the double-edged sword of the host inflammatory response to urinary tract infection. In the bladder, mast cell activation and degranulation leads to granule-induced epithelial exfoliation and consequently a reduction in the bacterial burden in the bladder. However, the sustained inflammatory response that accompanies pyelonephritis in vesico-ureteric reflux-affected individuals results in significant damage to the kidney without any accompanying reduction in infection. These findings highlight the dueling roles of the host inflammatory response to infection in the upper and lower urinary tract and strongly suggest that differential clinical approaches to cystitis and pyelonephritis are necessary to promote an effective mast cell in the bladder in the former and facilitate the clearance of renal infection while mitigating tissue damage in the latter.</p> / Dissertation Microbiology Immunology innate immunity mast cell pyelonephritis reflux nephropathy urinary tract infection vesico-ureteric reflux
73	Podocytopenia in Diabetic Nephropathy: A Role for the Thromboxane A2 TP Receptor Bugnot, Gwendoline Carine Denise 15 April 2013 (has links) Although the etiology of diabetic nephropathy is still uncertain, proteinuria due to podocyte injury and loss (podocytopenia) are early features of the disease. Significant increases in thromboxane A2 (TXA2) production as well as expression of its receptor in animal models of diabetic nephropathy led to the hypothesis that TXA2 acting via its thromboxane-prostanoid (TP) receptor induces podocytopenia resulting in proteinuria. Systemic infusion of a TP antagonist demonstrated an important role of TXA2/TP signalling in our model of streptozotocin induced type-1 diabetic nephropathy by reducing kidney damage including proteinuria. Podocyte specific TP overexpressing mice did not demonstrate more pathologic or dynamic kidney damage than non-transgenic mice in STZ-induced diabetic nephropathy. Further assessment of the TP transgene functionality in this mice line is necessary to validate those results. Whereas the importance of TXA2/TP signalling is undeniable in diabetic nephropathy, it appears that podocyte TP receptors might not be directly targeted. Podocyte Diabetic nephropathy TP receptor Thromboxane A2 Proteinuria SQ29548 Arachidonic acid
74	Regulation of Homeostatic Intestinal IgA Responses by the TNF Family McCarthy, Douglas 14 November 2011 (has links) The mammalian immune system has developed diverse strategies to protect the gastrointestinal tract, as this tissue locale represents a huge absorptive surface and is susceptible to microbial breach. Paradoxically, one key aspect of this protective strategy is the maintenance of selected commensal microorganisms. These commensals serve essential roles in digestion, interfere with pathogenic microbial invasion and stimulate development of the host immune system. Therefore, immune responses which deplete these commensal populations are detrimental to the host. One effective intestinal immune response which selectively promotes the survival of commensals is production of antibodies of the IgA isotype which bind to bacteria without triggering inflammatory cytokines. Proteins of the tumor necrosis factor (TNF) family such as Lymphotoxin and BAFF contribute to the induction of IgA responses. Lymphotoxin is required for generation and organization of most organized lymphoid tissues, where B cell differentiation occurs, while BAFF is necessary for B cell survival and induces B cells to produce IgA. In this thesis, I describe work I have done in examining the roles of the TNF family members Lymphotoxin, BAFF and two related TNF family member cytokines, LIGHT and APRIL, in the regulation of IgA production in mice and in humans. Specifically, LIGHT over-expression drives immense production of IgA, leading to renal deposition of immune complexes in mice. Similar to LIGHT, BAFF over-expression drives increases in IgA production in the intestine, however I have shown that the effects of the BAFF pathway on IgA hyper-production are independent of LIGHT activity. Secondly, examining the phenotype of BAFF-over-expressing mice, I have shown that this phenotype resembles human IgA nephropathy (IgAN) and is dependent on intestinal commensals. Finally, I have described a lymphotoxin-dependent chemokine system in the intestinal lamina propria that could be responsible for organizing cells for the development of IgA responses in this mucosal site. Intestinal immunology Commensal flora IgA TNF superfamily BAFF Lymphotoxin IgA nephropathy 0982 0410
75	Role of Vascular Endothelial Growth Factor-A in Diabetic Kidney Disease Sivaskandarajah, Gavasker 25 August 2011 (has links) Vascular endothelial growth factor-A (VEGF) is required for endothelial cell differentiation and survival. To investigate the renoprotective properties of VEGF in diabetes an inducible Cre-loxP gene targeting system was used to excise VEGF from podocytes of adult mice (VEGFKO). Diabetes was induced by streptozotocin (STZ) at 2.5 weeks of age and VEGFKO was induced by doxycycline (dox) at 3-4 weeks of age. Blood and urine were collected weekly to monitor for hyperglycaemia and proteinuria, respectively. Mice were dissected 8 weeks after diabetes induction or earlier if morbidly ill; twenty percent of the mice in the DM+VEGFKO group died before the surrogate endpoint. Glomerular VEGF mRNA expression was decreased in VEGFKO mice compared to controls. However, DM+VEGFKO mice had significantly greater proteinuria, degrees of glomerular sclerosis, and glomerular cell apoptosis. These results confirm that VEGF is normally upregulated in diabetes but reducing VEGF expression in diabetes causes severe kidney injury. VEGF diabetes VEGF-A kidney glomerulus Vascular Endothelial Growth Factor A Cre mouse mice nephropathy 0719 0571
76	Evaluation Of Coal And Water Samples From Manisa-soma-denis Region Conccerning Balkan Endemic Nephropathy And Determination Of Balkan Endemic Nephropathy Risk Ozturk, Mehmet Sinan 01 January 2006 (has links) (PDF) The water and coal samples from the Manisa-Soma-DeniS region were studied on the basis of their basic characteristics, inorganic and organic parameters. Coal samples were determined as low-quality lignite. They have high concentrations of arsenic, uranium and lead. The organics in the coal samples are of aliphatic hydrocarbons and their derivatives (alkanes and alcohols), methyls, phthalates, naphtalenes and benzenes. They are inactive and low in concentrations. Water samples have basic characteristics within the range of drinking waters. They also have high arsenic and uranium concentrations indicating a possible leaching. Their organic compounds are similar to those in the coal samples. However, these organic compounds are not as toxic as those found in endemic samples and their concentration is also very low. Therefore, they are considered not to be a potential for Balkan Endemic Nephropathy (BEN)-disease. On the basis of the findings of this study, the area can be concluded as non-endemic region. QE Geology 1-996.5
77	Novel Approaches to Treatment and Prevention of Diabetic Nephropathy Nordquist, Lina January 2007 (has links) Several studies have reported beneficial effects of C-peptide supplementation in diabetic patients and animal models of insulinopenic diabetes. However, it is also established that good glycemic control is essential to minimize the risk of diabetes-induced complications. This thesis investigates potential mechanisms for the beneficial effect of C-peptide on glomerular hyperfiltration, and a novel, painless route of insulin administration. The results demonstrate that both C-peptide and its C-terminal penta-peptide sequence reduce the diabetes-induced glomerular hyperfiltration within an hour. The results also indicate that C-peptide possibly reduces diabetes-induced hyperfiltration via three different mechanisms: 1. Constriction of the afferent arteriole was demonstrated on isolated vessels from diabetic mice. 2. A net dilation of the efferent arteriole was evident in vivo. 3. Inhibition of the Na+/K+-ATPase was demonstrated in vivo in diabetic rats as well as in vitro on isolated proximal tubular cells from diabetic rats. All these mechanisms are known regulators of the net glomerular filtration pressure. The last part of this thesis demonstrates that intradermal administration with a newly developed patch-like microneedle device results in similar insulin concentration compared to standard subcutaneous delivery. These findings provide an insight for the beneficial effects of C-peptide on diabetic kidney function, and shows that this effect can be achieved by infusion of the C-terminal penta-peptide sequence alone. This thesis also presents a novel, painless alternative to insulin injections that is controllable, requires minimal training, and therefore presents several advantages compared to current standard therapy. Physiology Diabetes Nephropathy C-peptide Microneedle Renal GFR Oxygen Consumption Reabsorption Fysiologi
78	Nouveaux marqueurs diagnostiques et pronostiques dans la glomérulonéphrite extra-membraneuse : suivi des anticorps anti-PLA2R1 chez le greffé rénal : caractérisation des épitopes reconnus par les anticorps anti-PLA2R1 : identification d’une nouvelle cible antigénique / New diagnostic and prognostic marker in membranous nephropathy Seitz-Polski, Barbara 15 December 2014 (has links) La Glomérulonéphrite extra-membraneuse est une maladie auto-immune rare mais grave qui conduit dans 30% des cas à une insuffisance rénale chronique terminale nécessitant le recours à la dialyse ou la greffe rénale. Dans les suites d’une greffe, la GEM récidive dans 30 à 40% des cas. En 2009, l’équipe du Pr. Salant en collaboration avec notre équipe a montré que 70% des patients présentant une GEM étaient porteurs d’anticorps (Ac) dirigés contre le récepteur des phospholipases A2 (PLA2R1). Le titre d’anticorps est corrélé à l’activité de la maladie. Il n’existe actuellement aucun biomarqueur permettant de prédire l’évolution de la fonction rénale d’un patient lors de sa prise en charge : dans 30% des cas les patients présentent une rémission spontanée sans traitement immunosuppresseur. Le traitement de la GEM repose sur un traitement symptomatique et une réévaluation après 6 mois. En cas de maladie active persistante, il faut débuter un traitement immunosuppresseur. Dans les formes graves, cette période d’observation de 6 mois peut être à l’origine de lésions irréversibles. Nous avons validé un test ELISA permettant de quantifier les Ac anti-PLA2R1 au cours du suivi de patients porteurs d’une GEM. Ce test nous a permis de montrer sur une cohorte de 15 patients greffés dans les suites d’une GEM qu’un titre d’Ac anti-PLA2R1 persistant après la greffe était associé à un risque de récidive de la maladie sur le greffon. Nous avons ensuite produit dans des cellules HEK les orthologues de PLA2R1 (les récepteurs humain, lapin et murin). / Membranous Nephropathy (MN) is a major cause of nephrotic syndrome in adults. It is a rare but severe kidney disease with different etiologies and outcomes. In most cases (85%), the disease is idiopathic (iMN) and has an autoimmune origin. One third of patients develop end-stage kidney disease and are on kidney transplant waiting list. MN recurred in 30% after transplantation. Another third enter in spontaneous remission under renin-angiotensin system blockade. The treatment of iMN is controversial. KDIGO guidelines recommend a supportive symptomatic treatment with RAS-blockade and diuretics in all patients with iMN, and immunosuppressive therapy in case of renal function deterioration or persistent nephrotic syndrome. Therefore, immunosuppressive treatments are often started only after significant and potentially irreversible complications. No biological markers can predict clinical outcome and orient therapy. A major breakthrough was the discovery of autoantibodies to the phospholipase A2 receptor (PLA2R1, 180 kDa) in 70% of iMN patients in 2009, which has now allowed to develop diagnosis and prognosis tests for better medical care. During my PhD, I have first participated to the development of an ELISA which is now commercially available. I then used this latter to demonstrate that persistent anti-PLA2R1 activity can predict iMN recurrence after transplantation in a retrospective cohort of 15 patients. We then screened 50 patients with iMN on native kidney for their cross-reactivity to human (h), rabbit (rb) and mouse (m) PLA2R1 by western blot (WB) and antigen-specific ELISAs. Glomérulonéphrite extra-membraneuse Anticorps anti-PLA2R1 Épitopes Membranous nephropathy Anti-PLA2R1 antibodies Epitopes
79	Expressão gênica de proteínas do podócito na urina de pacientes diabéticos normo, micro ou macroalbuminúricos e em pré diabeticos Nascimento, Jonathan Fraportti do January 2012 (has links) Introdução: A lesão do podócito exerce um papel crítico na nefropatia diabética (ND) e é um fator preditivo de albuminúria patológica e progressão da doença. Neste estudo foi avaliada a expressão gênica de proteínas associadas ao podócito na urina de pacientes diabéticos em diferentes estágios da ND e em indivíduos com pré diabetes. Material e Métodos: Foram estudados 67 pacientes diabéticos com normo (n=34), micro (n=14) ou macroalbuminúria (n=19), dezenove indivíduos pré diabéticos e 15 controles saudáveis. O RNAm de nefrina, podocina, podocalixina, sinaptopodina, Transient Receptor Potential Cation Channel 6 (TRPC6), alfa actinina-4 e TGF1 foi quantificado por PCR em tempo real (2-ΔΔCt) em células do sedimento urinário. A expressão dos genes alvo do podócito foi correlacionada com albuminúria, controle glicêmico e função renal. O desempenho diagnóstico dos genes para albuminúria patológica foi determinado por curva ROC, e o seu efeito independente sobre esse desfecho foi avaliado por análise de regressão de Poisson. Resultados: O RNAm na urina dos genes alvo foi significativamente maior nos pacientes diabéticos em comparação aos não diabéticos, exceto de sinaptopodina e TGFβ1. A expressão de nefrina foi mais elevada nos indivíduos diabéticos micro e macroalbuminúricos comparado aos controles (p=0,04 e p<0,001 respectivamente), pré diabéticos (p<0,05) e normoalbuminúricos (p<0,05). Embora sua expressão tenha sido maior do que nos não diabéticos, os genes TRPC6, podocalixina e alfa actinina-4 não discriminaram os estágios da ND. A correlação da expressão dos genes com albuminúria e hemoglobina glicada foi estatisticamente significativa. Pacientes pré diabéticos tiveram expressão gênica semelhante aos controles. Na análise multivariada, apenas o gene da nefrina foi preditivo de albuminúria patológica. 6 Conclusões: A expressão das proteínas associadas ao podócito na urina foi maior nos pacientes diabéticos, mas não houve correlação direta do RNAm dos genes com níveis crescentes de albuminúria, exceto de nefrina. O gene da nefrina foi o único que discriminou os diferentes estágios da ND e foi preditivo de albuminúria patológica, mas a podocalixina e o TRPC6 também se correlacionaram com albuminúria e controle glicêmico. Neste estudo preliminar não se identificou aumento da expressão gênica das proteínas do podócito na urina em indivíduos com pré diabetes. / Introduction: Podocyte damage plays a critical role in the development of diabetic nephropathy (DN). The present study evaluated gene expression of podocyte-associated proteins in urine of pre-diabetic and diabetic patients at different stages of DN. Material and Methods: We studied 19 pre-diabetic patients, 67 diabetic patients with normo (n = 34), micro (n = 15), or macroalbuminuria (n = 19), and 15 healthy controls. Levels of mRNA of nephrin, podocin, podocalyxin, synaptopodin, transient receptor potential cation channel 6 (TRPC6), alpha-actinin-4, and TGF-1 were quantitatively measured by real-time polymerase chain reaction in urinary sediment. Gene expression was correlated with albuminuria, glycemic control, and renal function. The diagnostic performance of the genes for detecting pathological albuminuria was assessed by the receiver operating characteristic (ROC) curve and Poisson regression. Results: The mRNA expression of target genes in urinary sediment was significantly higher in diabetic compared to pre-diabetic patients and controls. Levels of nephrin were higher in diabetic patients with micro or macroalbuminuria than controls (p= 0.04 and p<0.001, respectively), pre-diabetic (p<0.05), and diabetic patients with normoalbuminuria (p<0.05), and increased with increasing rates of albuminuria. Gene expression was similar in pre-diabetic patients and controls. There was a significant positive correlation of gene expression with albuminuria and glycated hemoglobin. In the multivariate analysis, only nephrinuria predicted pathological albuminuria. Conclusions: The expression of podocyte-associated proteins in urine was higher in diabetic patients, but only nephrin correlated with increasing albuminuria and predicted 8 pathological albuminuria. This preliminary study did not find increased gene transcription in pre-diabetic patients. Diabetes mellitus Podócitos Expressão gênica Urina Albuminúria Podocyte TRPC6 Podocin Nephrin Pre-diabetes Diabetic nephropathy
80	Avaliação da função renal de cães sadios e nefropatas sob infusão de dopamina / Brum, Alexandre Martini de. January 2007 (has links) Orientadora: Marileda Bonafim Carvalho / Banca: Aparecido Antonio Camacho / Banca: Márcia Mery Kogika / Resumo: A dopamina e um composto endogeno amplamente utilizado em terapia intensiva. Possui um amplo espectro de acoes, tanto sobre o sistema cardiovascular como urinario. Aumento da taxa de filtracao glomerular, do fluxo sanguineo renal e excrecao fracionada de sodio e fosforo sao efeitos renais esperados em individuos normais, porem sao pouco explorados na medicina veterinaria. Com o proposito de testar a hipotese que a dopamina e capaz de aumentar a excrecao fracionada de fosforo em caes nefropatas, este estudo foi conduzido. Diferentes doses de dopamina foram administradas em caes nefropatas. Avaliacoes laboratoriais foram realizadas durante e apos os tratamentos. O clearance de creatinina e a excrecao fracionada de fosforo apresentaram aumento dose-dependente nos caes sadios. Em caes nefropatas, a dose de 1 Êg/kg/min aumentou discretamente a TFG, alem de aumentar o volume urinario e excrecao de fosfato, sem modificar a U-P/C e pressao arterial sistemica, enquanto a dose de 3 Êg/kg/min nao aumentou os beneficios e, ainda, promoveu aumento da excrecao urinaria de proteinas. / Abstract: Dopamine is a endogenous compound largely used in critical care. It has a large spectrum of actions on cardiovascular and urinary systems. Increases in glomerular filtration rate, renal blood flow and frational excretion of sodium and phosphate are renal effects expected in healthy patient, but there are few reports in veterinary medicine. In order to test the hypothesis that dopamine can increase frational excretion of phosphate in nephropathy dogs this study was conducted. Different dopamine doses were administered in nephropathy dogs. Laboratory evaluations were done during and after treatments. Creatinin clearance and frational excretion of phosphate increases dose-dependent form in healthy dogs. In the nephropathy dogs, the dose of 1ìg/kg/min increased the glomerular filtration rate, urinary volume and phosphate excretion, without modified U-P/C and systemic arterial blood pressure, while the dose of 3ug/kg/min dont increased the benefits and promoted a increase in the urinary excretion of proteins. / Mestre Nephropathy. eng Dogs. eng Dopamine. eng Phosphate. eng Dopamina. Fósforo. Rins - Doenças. Cães.

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