Global ETD Search

11	Effekte der Barorezeptoraktivierungstherapie auf Marker des Endoplasmatischen Retikulum Stresses / Effects of baroreflex activation therapy on marker of endoplasmic reticulum stress Schierke, Kathrin Anina 12 November 2019 (has links) No description available. 610 hypertension baroreceptor activation therapy endoplasmic reticulum stress ERp57 calreticulin GRP78 Medizin (PPN619874732)
12	Identification of Host Factors Required for Anthrax Lethal Toxin Intoxication Using Chemical Genetic and RNAi Approaches Slater, Louise January 2011 (has links) Bacterial toxins have co-opted host cell machinery in order to enter cells and exert their deleterious effects. Anthrax toxin is composed of the receptor binding protein protective antigen (PA), and the enzymatic subunits lethal factor (LF) and edema factor (EF), which form the binary toxin complexes lethal toxin, LeTx (PA + LF), and edema toxin, EdTx (PA + EF). PA binds to receptors on the surface of host cells and shuttles LF and EF into cells through the endocytic pathway. Upon endosome acidification, PA oligomers insert into the endosomal membrane and form functional pores that deliver LF and EF into the cytoplasm. Translocation of the N-terminal domain of LF, \(LF_N\), through PA pores formed in lipid bilayers in vitro does not require host machinery. However, translocation of the related fusion protein \(LF_N\)-DTA across the membrane of toxin-loaded endosomes in vitro requires the addition of cytosolic translocation factors that include the COPI coatamer complex. We performed high-throughput small molecule and RNAi screens to identify host factors required for LF translocation, using LeTx-induced cell death as a phenotype. We describe the characterization of small molecule inhibitors of LeTx-induced cell death that inhibit toxin entry. Further, we describe the role of the endosomal chaperone GRP78 and the cytoplasmic CCT chaperonin in toxin translocation. RNAi knockdown of GRP78 and CCT subunits inhibited LeTx and EdTx delivered through the endocytic pathway. CCT knockdown additionally inhibited translocation of LF through PA pores formed directly in the plasma membrane, while GRP78 had no effect. Furthermore, we show that the role of GRP78 in toxin translocation is specific to translocation from the early endosome. Together with biochemical data, we propose that GRP78 facilitates translocation by unfolding LF and EF at near-neutral pH. In addition, we show that in CCT-knockdown cells, lethal levels of toxin reach the endosome, suggesting that CCT has a role in translocation and/or refolding of LF and EF. These studies highlight previously unidentified strategies used by anthrax toxin to hijack host cellular machinery in order to gain access to the cytosol. anthrax CCT chemical biology chemical genetics GRP78 lethal toxin cellular biology molecular biology microbiology
13	Membrane GRP78: Pathologic and Therapeutic Roles in Ovarian Cancer Mo, Lihong January 2014 (has links) <p>Ovarian cancer is the fifth leading cause of cancer-related death in the United States and the most lethal gynecologic malignancy. Patients with ovarian cancer are generally diagnosed at stage III or IV, when ascites fluid becomes a common symptom. The volume of ascites positively correlates with the extent of ovarian cancer metastasis and negatively with prognosis; however, the mechanisms explaining their effect are unknown. </p><p>We hypothesize that ascites enriches for cancer stem-like cells. Our present study demonstrates that mice injected with ID8 cells, a murine epithelial ovarian cancer line, have remarkably shortened survival, when injected together with ascites supernatant derived from tumor-bearing mice. Moreover, compared to their counterparts cultured in regular medium, ID8 cells cultured in ascites fluid, or isolated directly from ascites, show an increased expression of stem cell markers Oct4 and CD133. These cells also exhibit enhanced self-renewing ability in sphere assay, suggesting that ascites enriches for stem-like cells. </p><p>Furthermore, we demonstrate that ascites enriches for cells expressing cell surface GRP78, a stress-inducible endoplasmic reticulum chaperone which also appears on the plasma membrane (memGRP78) of aggressive cancers. MemGRP78 + cells correlate with stem cell properties of self-renewal and tumor initiation, suggesting GRP78 is a novel stem cell marker. Importantly, antibodies against the COOH terminal domain of GRP78 significantly reduce the self-renewing ability of murine and human ovarian cancer cells pre-incubated with ascites.</p><p>In conclusion, our study demonstrates that ascites enriches for stem-like cells in ovarian cancer cell lines. Furthermore, the inhibitory effect of antibodies against the COOH terminal domain of GRP78 suggests that memGRP78 is a logical therapeutic target for ovarian cancer.</p> / Dissertation Oncology Pathology Molecular biology Ascites Cancer stem cell GRP78 ID8 Immunotherapy Ovarian Cancer
14	ROLES OF ABCG5 ABCG8 CHOLESTEROL TRANSPORTER IN LIPID HOMEOSTASIS Wang, Yuhuan 01 January 2015 (has links) The ABCG5 ABCG8 (G5G8) sterol transporter promotes cholesterol secretion into bile and opposes dietary sterol absorption in the small intestine. An emerging body of literature suggests that G5G8 links sterol flux to various risk factors for metabolic syndrome (MetS) and nonalcoholic fatty liver disease (NAFLD). Therapeutic approaches that accelerate G5G8 activity may augment reverse cholesterol transport (RCT) and provide beneficial effects in the prevention and treatment of cardiovascular and liver disease. Mice lacking leptin (ob/ob) or its receptor (db/db) are obese, insulin resistant in part due to the reduced levels of hepatic G5G8 and biliary cholesterol. The underlying mechanisms responsible for the reduced G5G8 protein expression in these mice may provide a clue to the drug development for this target. My studies show that neither acute leptin replacement nor liver-specific deletion of leptin receptor alters G5G8 abundance or biliary cholesterol. Similarly, hepatic vagotomy has no effect on G5G8 expression. Conversely, expression of the ER chaperone, GRP78, rescues G5G8 in db/db mice. Previous studies suggest an interdependent relationship between liver and intestine for cholesterol elimination. A combination therapy that increases G5G8-mediated biliary cholesterol secretion and simultaneously reduces intestinal absorption is likely to act additively in cholesterol elimination. My studies show that treatment with ursodiol (Urso) increases hepatic G5G8 protein and both biliary and fecal sterols in a dose-dependent manner. Ezetimibe (EZ), a potent inhibitor of intestinal cholesterol absorption, produces an additive and dose-dependent increase in fecal sterol excretion in the presence of Urso. However, the stimulatory effects of both Urso and Urso-EZ are not G5G8-dependent. Beyond increasing G5G8 protein expression and biliary cholesterol secretion, my studies also show that Urso stimulates ileal FGF15 expression in mice. Our data of the stimulated ileal FGF15 expression in LIRKO and reduced hepatic G5G8 protein levels in Atsb KO mice both indicate the previous unrecognized role of FGF15/19 in the regulation of G5G8 and its activity. Indeed, this is subsequently confirmed by our results from the direct test of recombinant human FGF19 on G5G8. Thus, FGF15/19 may provide an alternative strategy in drug development to target G5G8 activity and accelerate cholesterol elimination. Reverse cholesterol transport G5G8 GRP78 Ursodiol Ezetimibe FGF15/19
15	Detection of Endoplasmic Reticulum Stress and Progression of Steatohepatitis in Mink (Neovison vison) with Fatty Liver Pal, Catherine 04 August 2011 (has links) This study used the non-alcoholic steatohepatitis activity index (NAI), presence of fibrosis and Mallory-Denk bodies (MDBs), and quantification of glucose regulated protein 78 (GRP78) messenger ribonucleic acid (mRNA) as indicators of steatohepatitis development and recovery in the American mink (Neovison vison). Mink were fasted for 0, 1, 3, 5, or 7 days, and one group re-fed 28 days post 7-day fast. Liver NAI indicated that moderate fatty liver developed after 5 days of fasting. Liver recovery was achieved after the re-feeding period. There was no evidence of fibrosis or MDB formation. Upregulation of GRP78 was observed by day 7 of fasting indicating endoplasmic reticulum stress. This effect was greater in females. Results suggest that liver steatosis did not advance to steatohepatitis within a 7-day fast. However, should the length of fast be increased the mink may be at risk. Results also show that liver recovery from simple fatty liver is possible.
16	GRP78/BiP is Involved in Ouabain-induced Endocytosis of the Na/K-ATPase in LLC-PK1 Cells Kesiry, Riad 27 September 2004 (has links) No description available. GRP78/BiP ouabain proteins Na/K-ATPase LLC-PK1 LLC-PK1 Cells mmol/L
17	Investigating Strategies to Modulate Macrophage Function to Prevent the Progression of Fibrotic Lung Disease / Investigating the UPR in Fibrotic Lung Disease Ayaub, Ehab 11 1900 (has links) Tissue fibrosis occurs in the advanced stages of various chronic diseases and can account for 45% of all deaths related to chronic diseases worldwide. The extracellular matrix (ECM) components comprising the fibrotic scar are primarily derived from myofibroblasts, which are contractile fibroblasts arising from the trans-differentiation of several cellular progenitors. Disturbances in immune cell infiltration and function could lead to the uncontrolled production of pro/anti-inflammatory mediators, which may alter the phenotype, state, and function of myofibroblasts progenitors, leading to aberrant wound repair and pathological fibrosis. A great deal of knowledge has implicated macrophages in the pathogenesis and exacerbation of the fibrotic process. Nonetheless, much remains to be elucidated on the potential mechanisms regulating macrophage accumulation and pro-fibrotic polarization, and whether these mechanisms can be further investigated to modulate tissue repair. The Endoplasmic reticulum (ER) stress has recently been implicated as a key mechanism that propagates the pathogenesis of the fibrotic process. How ER stress precisely impacts the fibrotic process is still unclear. This thesis partly explored how modulating the outcome of ER stress – the unfolded protein response (UPR), would affect the severity of lung fibrosis and addressed the role of IL-6 signalling in macrophages during fibrosis. The data demonstrated that UPR activation in pro-fibrotic macrophages and partial deficiency of Grp78, the master regulator of the UPR, abrogated pulmonary fibrotic changes and reduced the accumulation of pro-fibrotic (M2-like) macrophages. These findings were later associated with high TUNEL levels, 7AAD positive cells, Chop and cleaved caspase 3 levels, which are suggestive of GRP78 mediated apoptosis in this population. On the contrary, mice lacking a terminal UPR mediator of apoptosis, called Chop, had increased ECM deposition and greater persistence of non-apoptotic macrophages. These findings suggest that UPR-mediated macrophage polarization and apoptosis may alter lung wound repair processes. As IL-6 synergized the effect of IL-4 to promote a hyper M2 macrophage state, it provided a unique and compelling model to study the dynamics of macrophage alternative programming, which has set the stage to investigate whether the UPR was implicated in the generation of a hyper pro-fibrotic macrophage phenotype. This hyper M2 macrophage model led to the identification of ER expansion program and the IRE1-XBP1 arm of the UPR in pro-fibrotic macrophage polarization, and suggested an unprecedented in vivo role of IL-6 in priming macrophages in the injured lungs to possibly potentiate pathological wound repair. Looking forward, many questions remain to be answered in order to precisely identify the vital UPR axis regulating ER expansion in macrophages during pathological wound repair and to get closer to the understanding of whether the UPR modulates the pro-fibrotic/pro-resolving capacity of macrophages. Insights on these mechanisms may facilitate the development of therapeutics that better manage chronic fibrotic diseases which pose fatal consequences and increase public concern. / Thesis / Doctor of Philosophy (PhD) Lung Fibrosis Macrophages ER stress Unfolded Protein Response GRP78 ER expansion IL-6
18	Examining the Role of Endoplasmic Reticulum Stress in Pancreatic Beta-cell Biology Teodoro, Tracy 31 August 2012 (has links) Pancreatic beta-cells are responsible for secreting insulin into the circulation to maintain whole body glucose homeostasis. While pancreatic beta-cells have a large capacity to secrete insulin, their function progressively deteriorates during the pathogenesis of type 2 diabetes as a result of both genetic predisposition and environmental factors. Obesity is the largest risk factor for developing type 2 diabetes and is associated with various conditions that can impair normal beta-cell function, including excess free fatty acids, inflammation and insulin resistance. Accumulating evidence in the literature suggests that endoplasmic reticulum (ER) stress contributes to the molecular mechanism of pancreatic beta-cell failure during the progression of type 2 diabetes. In this thesis, I have examined the role of the ER stress sensor ATF6-alpha and also the ER-resident chaperone GRP78 in pancreatic beta-cell homeostasis and function. Work presented in Chapter 2 examined the function of naturally occurring ATF6-alpha protein variants associated with type 2 diabetes. I also examined the role of endogenous ATF6-alpha in pancreatic beta-cells, which is described in Chapter 3. Results from these analyses suggest that the ATF6-alpha gene is not a type 2 diabetes susceptibility gene; however, ATF6-alpha protein expression is important to beta-cell function and survival. Finally, ER stress markers have been detected in pancreatic beta-cells and insulin sensitive tissues (such as adipose and liver), which promote beta-cell dysfunction and insulin resistance, respectively. In Chapter 4, I examined the contribution of ER stress in beta-cell dysfunction specifically by generating transgenic mice over-expressing GRP78. The mice were subsequently challenged by high fat diet to determine their susceptibility to developing symptoms of type 2 diabetes. Indeed increased chaperone capacity in pancreatic beta-cells protected against obesity-induced glucose intolerance and insulin resistance. Overall, these data support the hypothesis that ER stress contributes to beta-cell dysfunction in type 2 diabetes progression. endoplasmic reticulum stress pancreatic beta-cell unfolded protein response ATF6 GRP78 type 2 diabetes 0379 0307 0487
19	O papel da UPR (Unfolded Protein Response) na resistência a drogas de céluas endoteliais em resposta ao estresse causado pelo pH ácido tumoral Visioli, Fernanda January 2011 (has links) A terapia antiangiogênica surgiu como uma alternativa promissora para o tratamento do câncer. No entanto, evidências recentes mostram que as células endoteliais isoladas diretamente de um tumor maligno são mais resistentes a diferentes drogas do que as células endoteliais presentes no mesmo tecido normal. Essas diferenças podem ser atribuídas em parte à adaptação das células endoteliais ao microambiente tumoral. Uma característica singular do microambiente tumoral é a consistente acidificação do meio extracelular, cujos efeitos nas células endoteliais não são conhecidos. Acidez extracelular pode alterar múltiplas funções biológicas, causar estresse do retículo endoplasmático (RE) e ativação da Unfolded Protein Response (UPR). Células endoteliais humanas primárias de derme (HDMEC) cultivadas em pH 6.4, ajustado tanto com ácido lático tanto com ácido clorídrico, apresentaram aumento da expressão de proteínas relacionadas à UPR, como GRP78, ATF4, elf2α fosforilada e aumento na clivagem do mRNA de XBP1. Nessas condições massiva morte celular ocorreu após 48 horas. Em contrapartida, quando as células endoteliais eram expostas à acidez crônica não-letal com pH 7.0 durante sete dias, essas foram capazes de se adaptar coincidentemente com um aumento da expressão da proteína GRP78 Após sete dias sob pH 7.0, as células HDMEC apresentaram maior resistência à morte celular quando tratadas com as drogas Etoposide, Adriamicina e Sunitinib em doses que variavam entre 0.0025μM a 100μM. O silenciamento do gene GRP78 com ShRNA reverteu esse fenótipo resistente. Para determinar os níveis de UPR in vivo utilizou-se captura por microdissecção à laser de células endoteliais em lâminas histológicas de 14 carcinomas espinocelulares bucais. Observou-se um aumento significativo dos níveis de mRNA de GRP78, ATF4 e CHOP em células endoteliais dos tumores quando comparadas a células endoteliais primárias (HDMEC). Além do mais, células endoteliais tumorais apresentaram intensa imunomarcação para GRP78 comparativamente a células endoteliais de mucosa bucal normal. A acidez, uma importante fonte de estresse no microambiente tumoral, pode ativar uma UPR adaptativa em células endoteliais. Aumento da expressão de GRP78 em células endoteliais é associado com maior resistência a drogas quimioterápicas. Os resultados sugerem que a resistência mediada pela UPR pode contribuir com o insucesso terapêutico na resposta a drogas antitumorais. / Antiangiogenic therapy has emerged as a promising alternative for cancer treatment. However, growing evidence has shown that endothelial cells isolated directly from malignant tumors are more resistant to different drugs than endothelial cells from normal tissues. These differences may due to the adaptation of endothelial cells to the tumor microenvironment. A unique feature of tumor microenvironment is the consistent acidification of the extracellular environment, whose effects on endothelial cells are not known. Extracellular acidity can alter multiple biological functions, including endoplasmic reticulum stress and activation of the Unfolded Protein Response (UPR). Primary human dermal microvascular endothelial cells (HDMEC) cultured at medium pH 6.4, adjusted with either lactic acid or either hydrochloric acid, showed strong up-regulation of the UPR-related proteins: GRP78, ATF4, phospho-elf2α and increased XBP1 mRNA splicing. However massive cell death occurred after 48 hours. In contrast, when endothelial cells were exposed to chronic nonlethal acidic stress at pH 7.0 for up to seven days, cells were able to adapt, coincidental with a marked increase in GRP78 protein expression. After 7 days at pH 7.0, HDMEC cells showed increased resistance to cell death when exposed to Etoposide, Adriamycin and Sunitinib at doses ranging from 0.0025μM to 100μM. Knockdown of GRP78 by shRNA reversed the resistance phenotype. To determine the levels of UPR in vivo, laser capture microdissection of endothelial cells from oral squamous cell carcinomas biopsies was done. There is a significant increase in mRNA levels of GRP78, ATF4 and CHOP on endothelial cells of tumors compared to untreated primary endothelial cells (HDMEC). Moreover, tumor 16 endothelial cells showed strong GRP78 immunostaining compared to endothelial cells from normal oral mucosa. Low pH, an important source of cellular stress in the tumor microenvironment, can activate an adaptive UPR response in endothelial cells. Increased expression of GRP78 in endothelial cells is associated with chemoresistance. The results suggest that UPR-mediated resistance may contribute to therapeutic failures in response to anticancer drugs. Patologia bucal Carcinoma bucal Endothelial cell Angiogenesis Tumor acidity Unfolded Protein Response GRP78 Oral squamous cell carcinoma
20	Understanding the Role of Phosphoinositide 3-Kinase and its Function as a Driving Force behind the ER Stress Response in Fibrostenotic Crohn’s Disease-affected Ileal Smooth Muscle Cells Yadav, Prashant 01 January 2018 (has links) Crohn’s disease (CD) affects about 780,000 people in the United States alone, and it is estimated that 6-15 per 100,000 persons will receive a diagnosis of this disease each year. There currently is no cure for Crohn’s disease, and available medical therapies simply serve to alleviate the inflammation. This does not help treat fibrostenosis that Crohn’s disease patients may develop, which can only be treated surgically. Finding alternatives to treat CD requires an understanding of mechanisms at the biochemical level. In this thesis, we attempted to gain a better understanding of certain pathways found to be active in Crohn’s disease-affected ileal smooth muscle cells. We found an upregulation of the ER stress pathway via expression of its surrogate, the GRP78 protein. We also showed evidence that the phosphoinositide 3-kinase (PI3K) pathway, a key proliferative pathway, is linked to ER stress in these cells, and is an upstream driving force of the ER stress response. Further research on the link between the PI3K and ER stress pathways needs to be conducted, and can potentially serve as a target for therapeutics to help reduce proliferation in fibrostenotic Crohn’s disease-affected ileal smooth muscle cells. ER Stress Proliferation Apoptosis Crohn's Disease PI3K GRP78 Digestive, Oral, and Skin Physiology Digestive System Diseases Gastroenterology Medical Biochemistry

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