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p63 and epithelial homeostasis : studies of p63 under normal, hyper-proliferative and malignant conditionsGu, Xiaolian January 2010 (has links)
Background: The p63 gene is a member of the p53 transcription factor family and can produce six different proteins using two promoters and differential splicing. Expression of p63 is required for proper formation of epithelial tissues. Studies on the transcriptional control of specific genes involved in cell survival, proliferation, differentiation and adhesion have revealed the contributions of p63 to the continuously renewing stratified epithelium. In this thesis, the aim was to improve our understanding of the roles of p63 in epithelial homeostasis by investigating expression of p63 in normal and benign hyper-proliferative epithelia and exploring the influence of p63 deregulation on cancer progression. Materials and methods: Using quantitative real time RT-PCR and immunohistochemistry, we first examined the expression of different p63 isoforms in patients diagnosed with psoriasis - a benign hyper-proliferative and inflammatory skin disease. Afterwards, we investigated responses of p63 in psoriatic epidermis upon Narrowband-UVB (NB-UVB) phototherapy. At the same time, we studied the potential impact of p63 in carcinogenesis by searching for p63 transcriptional targets in a cell line derived from squamous cell carcinoma of the head and neck (SCCHN) - the sixth most common cancer worldwide with over-expression of the ∆Np63α protein as a common feature. p63 gene silencing and microarray were used to identify p63 regulated genes. Real time RT-PCR, western blot, immunohistochemistry, chromatin immunoprecipitation, transient transfection and reporter assays were performed to confirm specific genes as direct p63 targets. Results: Significant down-regulation of p63 mRNA levels was found in psoriatic lesions compared to patients’ own clinically normal skin. Moreover, a trend of decreased TAp63 mRNA levels was seen in patients’ normal skin compared to age- and sex-matched healthy controls. Following NB-UVB phototherapy, an effective first line therapy for psoriasis, expression of p63 was not significantly affected. However, significant changes in p53, FABP5, miR-21 and miR-125b were found. Surprisingly, location and expression levels of p63 proteins detected by immunohistochemistry were similar under all skin conditions. A direct transcriptional regulation of TRAF4 by p63 was seen in the SCCHN cell line and we further found that the localization of the TRAF4 protein was associated with histological differentiation of SCCHN cells. However, unlike its over-expression in SCCHN, similar TRAF4 mRNA expression levels were seen in psoriatic lesions as compared to healthy controls. Besides TRAF4, a total of 127 genes were identified as potentially p63 regulated in the SCCHN cell line and strikingly, about 20% of these genes are involved in cell adhesion or migration. Conclusions: Dysregulation of p63 isoforms in psoriatic epidermis, especially decreased TAp63 expression, and their resistance to NB-UVB phototherapy implicated a contribution of p63 to the psoriasis phenotype. Transcriptional regulation of genes involved in multiple biological pathways indicated that over-expression of p63 in SCCHN might account for altered cell differentiation, adhesion and migration, thus contributing to SCCHN. In conclusion, our studies have found additional mechanisms through which p63 guarded homeostasis of the established epithelium. Deregulation of p63 might play a role in distinct pathological conditions by participating in diverse cellular pathways under different microenvironments.
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Effects of tap water, electrolyte solution, and spontaneous and furosemide-stimulated urinary excretion on thirstYu-Hong, Li, Waldréus, Nana, Zdolsek, Joachim, Hahn, Robert G January 2012 (has links)
AIM: To contrast the effects of various modifications of body fluid volumes on thirst as reported by healthy volunteers. METHODS: Ten male volunteers aged between 19 and 37 years (mean 22 years) underwent four experiments each, which comprised infusion of 400-800 mL of acetated Ringer’s solution and intake of 600 mL of tap water. Half of the experiments were preceded by volume depletion (median 1.7 L) with furosemide. A visual analogue scale (0-100 mm) was used to assess perceived thirst during each experiment. RESULTS: Volume depletion (P < 0.001) and tap water (P < 0.03) both affected thirst by 13 mm per L of fluid, whereas spontaneous diuresis and infusion of Ringer’s acetate did not significantly change the thirst rating (multiple regressions). More detailed analyses showed that the volume depletion increased the median (25th-75th percentiles) thirst rating from 28 mm (21-43) to 59 mm (46-72, P < 0.001) while no change occurred in those who were only slightly thirsty (< 30 mm) before the volume depletion began. Ringer’s solution alleviated thirst in those who were very thirsty, but tended to increase thirst in the volunteers who were not thirsty before the infusion. Similarly, hydration with tap water decreased thirst (by 24 mm, P < 0.04) in those who were thirsty (> 60 mm) while the others reported no change. CONCLUSION: The change in thirst rating during volume depletion, administration of Ringer’s acetate, and ingestion of tap water were all dependent on the thirst rating obtained when the manipulation of the body fluid volume was initiated.
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The mechanism of waterborne lead uptake and toxicity in <i>Daphnia magna</i>Roy, Sayanty 05 June 2009
Lead is an omnipresent pollutant, and its contamination in natural waters is an issue of current regulatory concern throughout the world including Canada. The free divalent ion of lead (Pb2+) is considered to be the most bioavailable and toxic form of lead. Pb2+ is known to be a calcium antagonist in vertebrates including fish. It is believed that lead causes toxicity to freshwater fish primarily by disrupting ionic homeostasis both during acute and chronic waterborne exposure. Lead can also potentially act as a respiratory toxicant since it is known to impair hemoglobin synthesis in both vertebrates. To date, the mechanistic underpinnings of lead accumulation and toxicity in aquatic invertebrates are not well understood, particularly during acute exposure. Therefore, the main objectives of the present study were in two folds: (i) to investigate the mechanisms of waterborne lead uptake, and (ii) to understand the physiological basis of lead toxicity during acute exposure. I used freshwater crustacean, <i>Daphnia magna</i>, as a model freshwater invertebrate species for my study. <i>Daphnia</i> are known to be quite sensitive to metals and widely used as a model species for toxicity assessments. The results of my study suggest that lead inhibits waterborne Ca2+ uptake in <i>Daphnia</i> in a concentration dependent manner, and this inhibition occurs predominantly through a direct competitive interaction. The entry of waterborne Pb2+ in <i>Daphnia</i> likely occurs via both lanthanum-sensitive and verapamil-sensitive epithelial calcium channels. Moreover, my results also indicate that acute waterborne lead exposure severely disrupts both Ca2+ and Na+ uptake from water, which are concomitant with the increase in the lead body burden in <i>Daphnia</i>. Interestingly however, acute exposure to lead does not affect the rate of oxygen consumption in <i>Daphnia</i>, indicating no acute respiratory toxicity of lead. Overall, it appears that lead acts as an ionoregulatory toxicant to <i>Daphnia</i> during acute waterborne exposure.
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A Biological Investigation of the Proteins Required for Nickel Insertion into Escherichia coli [NiFe] HydrogenaseChan Chung, Kim Cindy 05 January 2012 (has links)
[NiFe] hydrogenases are found in a variety of microorganisms and catalyze the reversible oxidation of hydrogen gas to protons and electrons. This enzyme has generated intense interest due to its contribution to pathogenicity in certain organisms as well as its application in bioremediation and the production of hydrogen as an alternative fuel source.
The biosynthesis of the dinuclear active site requires a number of accessory proteins to chaperone and insert the metal cofactors to the awaiting large subunit of hydrogenase. The proteins responsible for nickel delivery to Escherichia coli hydrogenase 3 are HypA, HypB, and SlyD, however the mechanism by which this is accomplished is unclear. The goal of this work was to analyze the metal-binding abilities and protein interactions of these nickel insertion proteins to enhance our understanding of their roles.
Isolated N-terminal peptide of HypB has similar high-affinity metal-binding to the full-length protein. This peptide binds nickel in a square planar site with three cysteinyl and a fourth N-terminal amine ligand. Additionally, studies with SlyD and HypA reveal protein interactions that occur during hydrogenase maturation. Pull-down experiments of a tagged variant of hydrogenase revealed multi-protein complexes with HypA, HypB, and SlyD. A complex between SlyD and hydrogenase forms prior to both nickel and iron insertion, supporting chaperone activity of SlyD during hydrogenase maturation. HypA can interact with hydrogenase in the absence of HypB and SlyD, and a possible role as the bridging protein during the nickel insertion event is proposed. In addition, fluorescent imaging of E. coli cells using a fluorescently labeled streptavidin conjugate revealed localization of both Strep-tagged II hydrogenase and HypA at or near the cell membrane, suggesting that enzyme maturation occurs proximal to metal transporters.
This work provided a deeper understanding of the role that each of these proteins play in [NiFe] hydrogenase assembly and is helpful for any future applications of this enzyme.
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A Biological Investigation of the Proteins Required for Nickel Insertion into Escherichia coli [NiFe] HydrogenaseChan Chung, Kim Cindy 05 January 2012 (has links)
[NiFe] hydrogenases are found in a variety of microorganisms and catalyze the reversible oxidation of hydrogen gas to protons and electrons. This enzyme has generated intense interest due to its contribution to pathogenicity in certain organisms as well as its application in bioremediation and the production of hydrogen as an alternative fuel source.
The biosynthesis of the dinuclear active site requires a number of accessory proteins to chaperone and insert the metal cofactors to the awaiting large subunit of hydrogenase. The proteins responsible for nickel delivery to Escherichia coli hydrogenase 3 are HypA, HypB, and SlyD, however the mechanism by which this is accomplished is unclear. The goal of this work was to analyze the metal-binding abilities and protein interactions of these nickel insertion proteins to enhance our understanding of their roles.
Isolated N-terminal peptide of HypB has similar high-affinity metal-binding to the full-length protein. This peptide binds nickel in a square planar site with three cysteinyl and a fourth N-terminal amine ligand. Additionally, studies with SlyD and HypA reveal protein interactions that occur during hydrogenase maturation. Pull-down experiments of a tagged variant of hydrogenase revealed multi-protein complexes with HypA, HypB, and SlyD. A complex between SlyD and hydrogenase forms prior to both nickel and iron insertion, supporting chaperone activity of SlyD during hydrogenase maturation. HypA can interact with hydrogenase in the absence of HypB and SlyD, and a possible role as the bridging protein during the nickel insertion event is proposed. In addition, fluorescent imaging of E. coli cells using a fluorescently labeled streptavidin conjugate revealed localization of both Strep-tagged II hydrogenase and HypA at or near the cell membrane, suggesting that enzyme maturation occurs proximal to metal transporters.
This work provided a deeper understanding of the role that each of these proteins play in [NiFe] hydrogenase assembly and is helpful for any future applications of this enzyme.
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The mechanism of waterborne lead uptake and toxicity in <i>Daphnia magna</i>Roy, Sayanty 05 June 2009 (has links)
Lead is an omnipresent pollutant, and its contamination in natural waters is an issue of current regulatory concern throughout the world including Canada. The free divalent ion of lead (Pb2+) is considered to be the most bioavailable and toxic form of lead. Pb2+ is known to be a calcium antagonist in vertebrates including fish. It is believed that lead causes toxicity to freshwater fish primarily by disrupting ionic homeostasis both during acute and chronic waterborne exposure. Lead can also potentially act as a respiratory toxicant since it is known to impair hemoglobin synthesis in both vertebrates. To date, the mechanistic underpinnings of lead accumulation and toxicity in aquatic invertebrates are not well understood, particularly during acute exposure. Therefore, the main objectives of the present study were in two folds: (i) to investigate the mechanisms of waterborne lead uptake, and (ii) to understand the physiological basis of lead toxicity during acute exposure. I used freshwater crustacean, <i>Daphnia magna</i>, as a model freshwater invertebrate species for my study. <i>Daphnia</i> are known to be quite sensitive to metals and widely used as a model species for toxicity assessments. The results of my study suggest that lead inhibits waterborne Ca2+ uptake in <i>Daphnia</i> in a concentration dependent manner, and this inhibition occurs predominantly through a direct competitive interaction. The entry of waterborne Pb2+ in <i>Daphnia</i> likely occurs via both lanthanum-sensitive and verapamil-sensitive epithelial calcium channels. Moreover, my results also indicate that acute waterborne lead exposure severely disrupts both Ca2+ and Na+ uptake from water, which are concomitant with the increase in the lead body burden in <i>Daphnia</i>. Interestingly however, acute exposure to lead does not affect the rate of oxygen consumption in <i>Daphnia</i>, indicating no acute respiratory toxicity of lead. Overall, it appears that lead acts as an ionoregulatory toxicant to <i>Daphnia</i> during acute waterborne exposure.
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Homeostasis of endocytic and autophagic systems insights from the host-pathogen interaction /Cianciola, Nicholas L. January 2009 (has links)
Thesis (Ph. D.)--Case Western Reserve University, 2009. / [School of Medicine] Department of Physiology and Biophysics. Includes bibliographical references.
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Differential Maintenance, Function, and Transcriptional Profile of CD8⁺ T cells with AgeRenkema, Kristin January 2013 (has links)
Infectious diseases remain amongst leading causes of death in people aged 65 years and older; therefore, much research is focused on determining the immune components that contribute to age-dependent increased susceptibility to, and increased mortality from, infections. CD8⁺ T cells are critical for clearing intracellular pathogens through production of cytokines and direct killing of infected cells. Age-dependent CD8⁺ T cell alterations have been described, including decreased numbers of naïve CD8⁺ T cell precursors and decreased numbers and function during infection. This dissertation explores the mechanisms contributing to these changes. First, we demonstrated that multiple mechanisms contribute to changes in the CD8⁺ T cell pool with age. CD8⁺ T cells from unimmunized T cell receptor transgenic (TCRTg) old mice undergo massive virtual memory (VM) conversion with age; both homeostatic proliferation and cross-reactivity may contribute to the generation and accumulation of VM cells with age. These VM cells exhibit an age-dependent replicative impairment to cognate antigen, which points to possible detrimental functional consequences due to changes in the overall T cell pool. Second, we evaluated the cell intrinsic contribution to the decreased old CD8⁺ T cell response. With in vitro stimulation, old CD8⁺ T cells exhibit decreased ability to enter into late cell divisions and decreased production of effector molecules. In addition, we found that old CD8⁺ T cells have decreased expression of the master transcription factor T-bet, which correlates to decreased effector function and terminal differentiation in vivo. Collectively, these results identify possible cell-intrinsic targets for improving CD8⁺ T cell immunity. Finally, we measured whether a Listera monocytogenes live vaccine model induces protective immune responses in old mice. We found that vaccination conferred little protection in old mice upon pathogen challenge. These results contrast with other vaccine models, which may allow for pinpointing both the vaccine and immune components required for generating strong protective immunity in the elderly. Collectively, this dissertation demonstrates that CD8⁺ T cell precursors, effector cells, and memory cells exhibit profound changes with, age and identifies both possible mechanisms contributing to these alterations as well as possible therapeutic/vaccine targets for improving immunity in the elderly.
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SlyD, A Ni(II) Metallochaperone for [NiFe]-hydrogenase Biosynthesis in Escherichia coliKaluarachchi, Harini 10 January 2012 (has links)
SlyD is a protein involved in [NiFe]-hydrogenase enzyme maturation and, together with HypB and HypA proteins, contributes to the nickel delivery step. To understand the molecular details of this in vivo function, the nickel-binding activity of SlyD was investigated in vitro. SlyD is a monomeric protein that can chelate up to 7 nickel ions with an affinity in the sub-nanomolar range. By truncation and mutagenesis studies we show that the unique C-terminal metal-binding domain of this protein is required for Ni(II) binding and that the protein coordinates this metal non-cooperatively. This activity of SlyD supports the proposed in vivo role of SlyD in nickel homeostasis.
In addition to nickel, SlyD can bind a variety of other types of transition metals. Therefore it was feasible that the protein contributes to homeostasis of metals other than nickel. To test this hypothesis, the metal selectivity of the protein was examined. The preference of SlyD for the metals examined could be ordered as follows, Mn(II), Fe(II) < Co(II) < Ni(II) ~ Zn(II) << Cu(I) indicating that the affinity of SlyD for the different metals follows the Irving-Williams series of metal-complex stabilities. Although the protein is unable to overcome the large thermodynamic preference in vitro for Cu(I) and exclude Zn(II) chelation, in vivo studies suggest a Ni(II)-specific function for the protein.
To understand the function of SlyD as a metallochaperone, its interaction with HypB was investigated. This investigation revealed that SlyD plays a role in Ni(II) storage in E. coli and can function as a Ni(II)-donor to HypB. This study also revealed that SlyD can modulate the metal-binding as well as the GTPase activities of HypB. Based on the experimental data, a role for the HypB-SlyD complex in [NiFe]-hydrogenase biosynthesis is presented.
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Characterization of gibberellin overexpression lines in peaWickramarathna, Aruna Unknown Date
No description available.
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