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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
41

Immune profiling of keloid disease

Bagabir, Rania January 2013 (has links)
Keloid disease (KD) is a benign fibroproliferative dermal disease of unknown aetiopathogenesis that occurs in genetically susceptible individuals. KD shows high heterogeneity within the lesion, harbouring different immune cell profiles, which are poorly characterised in KD at different lesional sites. Although, it has long been appreciated that chronic inflammation and dermal fibrosis is associated with other fibrotic diseases (e.g. scleroderma), this link has not, yet, been established in KD through direct evidence. Additionally, the limited availability of a simple KD animal model has hindered our understanding of the underlying pathogenesis of KD. Therefore, the main objectives were a) to identify and profile different immune cells at defined KD lesional and histological sites, b) to further characterize the potential contribution of viral particles in KD by investigating the gene and protein expression profile of toll like receptors that recognise viral particles in KD, and c) to develop an optimized long-term serum-free organ culture (OC) model for KD research as a tool for probing novel hypotheses in KD pathobiology deduced from a) and b) and to also validate the reliability and instructiveness of this novel ex vivo KD model with conventional (e.g. dexamethasone) and potential future anti-KD compounds [(-)-epigallocatechin-3-gallate (EGCG) and plasminogen activator inhibitor-1 (PAI-1) knock-down by siRNA]. To achieve above objectives, different cellular and molecular techniques were applied. Immune profiling of KD (chapter 2) at defined lesional and histological sites generated the first comprehensive analysis of KD-associated inflammatory cell infiltrates. This work demonstrated for the first time the presence of specific type of chronic inflammation in KD that resembles the formation of tertiary lymphoid tissues (TLTs) (in 14.7%, out of 68 KD cases). Although, these TLTs are not strictly linked to defined lesional sites within the KD, they are similar in structure to mucosa-associated lymphoid tissue (MALT). Therefore, we named this phenomenon as keloid-associated lymphoid tissue (KALT). Immunophenotyping of KD lesional sites also showed a predominance of T-cells, B-cells, M2 macrophages and OX40L+ degranulated mast cells in intralesional and perilesional sites of KD compared to normal skin and normal scar tissue. In the epidermis, Langerhans cells showed no changes, whereas the intra-epidermal T-cells were significantly increased in both the intralesional and perilesional sites of KD with an increased CD4:CD8 ratio. Intra-epidermal B-cells were only rarely found in KD. Interestingly, there was no significant statistical difference between intralesional and perilesional sites of KD immunophenotyping. These abnormal immune profiles suggest the persistence of non-resolving inflammation presence towards unknown stimuli, which require further investigation. The chronic inflammation could be followed by a reparative phase in a repetitive manner leading to KD formation. Evaluation of toll-like receptor (TLR) gene and protein expression in KD showed a significant increase in the expression of intra-epidermal TLR-6, -7 and dermal TLR-8. Since these TLRs are typically up regulated during anti-viral responses, these results further support the hypothesis that certain viruses or yet unidentified ligand may play a role in KD pathogenesis (chapter 3). A successful long-term, serum-free keloid OC model was established using a 4 mm sized punch biopsy embedded in collage matrix as air liquid interface in supplemented William’s E medium for up to 6 weeks (Chapter 4).
42

Exogenous modulation of embryonic tissue and stem cells to form nephronal structures

Sebinger, David Daniel Raphael 26 April 2013 (has links)
Renal tissue engineering and regenerative medicine represent a significant clinical objective because of the very limited prospect of cure after classical kidney treatment. Thus, approaches to isolate, manipulate and reintegrate structures or stimulating the selfregenerative potential of renal tissue are of special interest. Such new strategies go back to knowledge and further outcome of developmental biological research. An understanding of extracellular matrix (ECM) structure and composition forms thereby a particularly significant aspect in comprehending the complex dynamics of tissue regeneration. Consequently the reconstruction of these structures offers beneficial options for advanced cell and tissue culture technology and tissue engineering. In an effort to investigate the influence of natural extracellular structures and components on embryonic stem cell and renal embryonic tissue, methodologies which allow the easy application of exogenous signals on tissue in vitro on the one hand and the straight forward evaluation of decellularization methods on the other hand, were developed. Both systems can be used to investigate and modulate behaviour of biological systems and represent novel interesting tools for tissue engineering. The novel technique for culturing tissue in vitro allows the growing of embryonic renal explants in very low volumes of medium and optimized observability, which makes it predestined for testing additives. In particular, this novel culture set up provides an ideal opportunity to investigate renal development and structure formation. Further studies indicated that the set is universally applicable on all kinds of (embryonic) tissue. Following hereon, more than 20 different ECM components were tested for their impact on kidney development under 116 different culture conditions, including different concentrations and being either bound to the substrate or dissolved in the culture medium. This allowed to study the role of ECM constituents on renal structure formation. In ongoing projects, kidney rudiments are exposed to aligned matrix fibrils and hydrogels with first promising results. The insights gained thereof gave rise to a basis for the rational application of exogenous signals in regenerative kidney therapies. Additionally new strategies for decellularization of whole murine adult kidneys were explored by applying different chemical agents. The obtained whole matrices were analysed for their degree of decellularization and their residual content and composition. In a new straight forward approach, a dependency of ECM decellularization efficiency to the different agents used for decellularization could be shown. Moreover the capability of the ECM isolated from whole adult kidneys to direct stem cell differentiation towards renal cell linage phenotypes was proved. The data obtained within this thesis give an innovative impetus to the design of biomaterial scaffolds with defined and distinct properties, offering exciting options for tissue engineering and regenerative kidney therapies by exogenous cues.:Table of Contents LISTS OF FIGURES AND TABLES VI ACKNOWLEDGEMENTS..................................................................................VII ABSTRACT ............................................................................................................IX NOMENCLATURE ................................................................................................X 1 INTRODUCTION...................................................................................................1 2 FUNDAMENTALS..................................................................................................2 2.1 KIDNEY DEVELOPMENT AND REGENERATION ...............................................................................2 2.1.1 Function of the kidney............................................................................................2 2.1.2 Development of the metanephric kidney ................................................................2 2.1.3 Selfregenerative potential of the kidney.................................................................5 2.2 THE EXTRACELLULAR MATRIX AS BIOLOGICAL SCAFFOLD ...............................................................6 2.2.1 Molecular composition of the ECM........................................................................7 2.2.1.1 An overview of the main ECM components..................................................................................8 2.2.2 Cell/tissue-matrix interactions.............................................................................12 2.2.2.1 Biochemical signals....................................................................................................................13 2.2.2.2 Mechanical signals......................................................................................................................14 2.2.2.3 Structural signals........................................................................................................................15 2.3 TISSUE ENGINEERING FOR THERAPEUTIC PURPOSES .....................................................................15 2.3.1 An overview of tissue engineering and regenerative medicine.............................15 2.3.2 Biomaterials for tissue engineering and regenerative medicine...........................18 2.3.2.1 Decellularization approach as tool to extract natural matrices....................................................19 2.3.3 Tissue engineering and regenerative medicine in kidney treatment.....................19 2.4 ORGAN AND TISSUE CULTURE AS TOOL FOR TISSUE ENGINEERING...................................................22 2.4.1 Common organ culture systems............................................................................24 3 OBJECTIVES AND MOTIVATION...................................................................25 4 RESULTS AND DISCUSSION............................................................................27 4.1 A NOVEL, LOW-VOLUME METHOD FOR ORGAN CULTURE OF EMBRYONIC KIDNEYS THAT ALLOWS DEVELOPMENT OF CORTICO-MEDULLARY ANATOMICAL ORGANIZATION..............................................27 4.1.1 Additional evidences (to Appendix A) for stress reduction of kidney rudiments cultured in the novel system than those grown in conventional organ culture.....28 4.1.2 Additional evidences (to Appendix A) for corticomedullary zonation and improved development of kidney rudiments cultured in the novel system for a period of 12 days......................................................................................................................30 4.1.3 Additional evidences (to Appendix A) for the application of the glass based low volume culture system for other organs................................................................32 4.2 ECM MODULATED EARLY KIDNEY DEVELOPMENT IN ORGAN CULTURE ...........................................34 4.3 ESTABLISHING AND EVALUATING DECELLULARIZATION TECHNIQUES TO ISOLATE WHOLE KIDNEY ECMS FROM ADULT MURINE KIDNEYS................................................................................................37 4.4 THE ABILITY OF WHOLE DECELLULARIZED ECM CONSTRUCTS TO INFLUENCE MURINE EMBRYONIC STEM CELL DIFFERENTIATION AND RENAL TISSUE BEHAVIOUR IN A NEW STRAIGHT FORWARD APPROACH..........38 iv 5 SUMMARY AND OUTLOOK.............................................................................39 5.1 SUMMARY..........................................................................................................................39 5.2 OUTLOOK...........................................................................................................................42 6 BIBLIOGRAPHY.................................................................................................49 7 APPENDICES..........................................................................................................I 7.1 APPENDIX A: A NOVEL, LOW-VOLUME METHOD FOR ORGAN CULTURE OF EMBRYONIC KIDNEYS THAT ALLOWS DEVELOPMENT OF CORTICO-MEDULLARY ANATOMICAL ORGANIZATION......................I 7.2 APPENDIX B: ECM MODULATED EARLY KIDNEY DEVELOPMENT IN EMBRYONIC ORGAN CULTURE ....XIX 7.3 APPENDIX C: THE DEWAXED ECM: AN EASY METHOD TO ANALYZE CELL BEHAVIOUR ON DECELLULARIZED EXTRACELLULAR MATRICES.......................................................................XLIV 7.4 PUBLICATIONS AND SCIENTIFIC CONTRIBUTIONS......................................................................LXV 7.5 SELBSTSTÄNDIGKEITSERKLÄRUNG......................................................................................LXIX
43

SUMOylation and phosphorylation of GluK2 regulate kainate receptor trafficking and synaptic plasticity

Chamberlain, S.E., Gonzàlez-Gonzàlez, I.M., Wilkinson, K.A., Konopacki, F.A., Kantamneni, Sriharsha, Henley, J.M., Mellor, J.R. January 2012 (has links)
No / Phosphorylation or SUMOylation of the kainate receptor (KAR) subunit GluK2 have both individually been shown to regulate KAR surface expression. However, it is unknown whether phosphorylation and SUMOylation of GluK2 are important for activity-dependent KAR synaptic plasticity. We found that protein kinase C-mediated phosphorylation of GluK2 at serine 868 promotes GluK2 SUMOylation at lysine 886 and that both of these events are necessary for the internalization of GluK2-containing KARs that occurs during long-term depression of KAR-mediated synaptic transmission at rat hippocampal mossy fiber synapses. Conversely, phosphorylation of GluK2 at serine 868 in the absence of SUMOylation led to an increase in KAR surface expression by facilitating receptor recycling between endosomal compartments and the plasma membrane. Our results suggest a role for the dynamic control of synaptic SUMOylation in the regulation of KAR synaptic transmission and plasticity.
44

Human hair follicles contain two forms of ATP-sensitive potassium channels, only one of which is sensitive to minoxidil

Shorter, K., Farjo, N.P., Picksley, Stephen M., Randall, Valerie A. January 2008 (has links)
No / Hair disorders cause psychological distress but are generally poorly controlled; more effective treatments are required. Despite the long-standing use of minoxidil for balding, its mechanism is unclear; suggestions include action on vasculature or follicle cells. Similar drugs also stimulate hair, implicating ATP-sensitive potassium (K(ATP)) channels. To investigate whether K(ATP) channels are present in human follicles, we used organ culture, molecular biological, and immunohistological approaches. Minoxidil and tolbutamide, a K(ATP) channel blocker, opposed each other's effects on the growing phase (anagen) of scalp follicles cultured in media with and without insulin. Reverse transcriptase-polymerase chain reaction identified K(ATP) channel component gene expression including regulatory sulfonylurea receptors (SUR) SUR1 and SUR2B but not SUR2A and pore-forming subunits (Kir) Kir6.1 and Kir6.2. When hair bulb tissues were examined separately, epithelial matrix expressed SUR1 and Kir6.2, whereas both dermal papilla and sheath exhibited SUR2B and Kir6.1. Immunohistochemistry demonstrated similar protein distributions. Thus, human follicles respond biologically to K(ATP) channel regulators in culture and express genes and proteins for two K(ATP) channels, Kir6.2/SUR1 and Kir6.1/SUR2B; minoxidil only stimulates SUR2 channels. These findings indicate that human follicular dermal papillae contain K(ATP) channels that can respond to minoxidil and that tolbutamide may suppress hair growth clinically; novel drugs designed specifically for these channels could treat hair disorders.
45

Immunomodulatory effects of novel therapies for stroke

Hall, Aaron A. January 2009 (has links)
Dissertation (Ph.D.)--University of South Florida, 2009. / Title from PDF of title page. Document formatted into pages; contains 164 pages. Includes vita. Includes bibliographical references.
46

The prostamide-related glaucoma therapy, bimatoprost, offers a novel approach for treating scalp alopecias

Khidhir, K. G., Woodward, D. F., Farjo, N. P., Farjo, B. K., Tang, E. S., Wang, J. W., Picksley, S. M., Randall, V. A. January 2013 (has links)
Balding causes widespread psychological distress but is poorly controlled. The commonest treatment, minoxidil, was originally an antihypertensive drug that promoted unwanted hair. We hypothesized that another serendipitous discovery, increased eyelash growth side-effects of prostamide F(2alpha)-related eyedrops for glaucoma, may be relevant for scalp alopecias. Eyelash hairs and follicles are highly specialized and remain unaffected by androgens that inhibit scalp follicles and stimulate many others. Therefore, we investigated whether non-eyelash follicles could respond to bimatoprost, a prostamide F(2alpha) analog recently licensed for eyelash hypotrichosis. Bimatoprost, at pharmacologically selective concentrations, increased hair synthesis in scalp follicle organ culture and advanced mouse pelage hair regrowth in vivo compared to vehicle alone. A prostamide receptor antagonist blocked isolated follicle growth, confirming a direct, receptor-mediated mechanism within follicles; RT-PCR analysis identified 3 relevant receptor genes in scalp follicles in vivo. Receptors were located in the key follicle regulator, the dermal papilla, by analyzing individual follicular structures and immunohistochemistry. Thus, bimatoprost stimulates human scalp follicles in culture and rodent pelage follicles in vivo, mirroring eyelash behavior, and scalp follicles contain bimatoprost-sensitive prostamide receptors in vivo. This highlights a new follicular signaling system and confirms that bimatoprost offers a novel, low-risk therapeutic approach for scalp alopecias.
47

Development of Sensitive In Vitro Assays to Assess the Ocular Toxicity Potential of Chemicals and Ophthalmic Products

McCanna, David January 2009 (has links)
The utilization of in vitro tests with a tiered testing strategy for detection of mild ocular irritants can reduce the use of animals for testing, provide mechanistic data on toxic effects, and reduce the uncertainty associated with dose selection for clinical trials. The first section of this thesis describes how in vitro methods can be used to improve the prediction of the toxicity of chemicals and ophthalmic products. The proper utilization of in vitro methods can accurately predict toxic threshold levels and reduce animal use in product development. Sections two, three and four describe the development of new sensitive in vitro methods for predicting ocular toxicity. Maintaining the barrier function of the cornea is critical for the prevention of the penetration of infections microorganisms and irritating chemicals into the eye. Chapter 2 describes the development of a method for assessing the effects of chemicals on tight junctions using a human corneal epithelial and canine kidney epithelial cell line. In Chapter 3 a method that uses a primary organ culture for assessing single instillation and multiple instillation toxic effects is described. The ScanTox system was shown to be an ideal system to monitor the toxic effects over time as multiple readings can be taken of treated bovine lenses using the nondestructive method of assessing for the lens optical quality. Confirmations of toxic effects were made with the utilization of the viability dye alamarBlue. Chapter 4 describes the development of sensitive in vitro assays for detecting ocular toxicity by measuring the effects of chemicals on the mitochondrial integrity of bovine cornea, bovine lens epithelium and corneal epithelial cells, using fluorescent dyes. The goal of this research was to develop an in vitro test battery that can be used to accurately predict the ocular toxicity of new chemicals and ophthalmic formulations. By comparing the toxicity seen in vivo animals and humans with the toxicity response in these new in vitro methods, it was demonstrated that these in vitro methods can be utilized in a tiered testing strategy in the development of new chemicals and ophthalmic formulations.
48

Development of Sensitive In Vitro Assays to Assess the Ocular Toxicity Potential of Chemicals and Ophthalmic Products

McCanna, David January 2009 (has links)
The utilization of in vitro tests with a tiered testing strategy for detection of mild ocular irritants can reduce the use of animals for testing, provide mechanistic data on toxic effects, and reduce the uncertainty associated with dose selection for clinical trials. The first section of this thesis describes how in vitro methods can be used to improve the prediction of the toxicity of chemicals and ophthalmic products. The proper utilization of in vitro methods can accurately predict toxic threshold levels and reduce animal use in product development. Sections two, three and four describe the development of new sensitive in vitro methods for predicting ocular toxicity. Maintaining the barrier function of the cornea is critical for the prevention of the penetration of infections microorganisms and irritating chemicals into the eye. Chapter 2 describes the development of a method for assessing the effects of chemicals on tight junctions using a human corneal epithelial and canine kidney epithelial cell line. In Chapter 3 a method that uses a primary organ culture for assessing single instillation and multiple instillation toxic effects is described. The ScanTox system was shown to be an ideal system to monitor the toxic effects over time as multiple readings can be taken of treated bovine lenses using the nondestructive method of assessing for the lens optical quality. Confirmations of toxic effects were made with the utilization of the viability dye alamarBlue. Chapter 4 describes the development of sensitive in vitro assays for detecting ocular toxicity by measuring the effects of chemicals on the mitochondrial integrity of bovine cornea, bovine lens epithelium and corneal epithelial cells, using fluorescent dyes. The goal of this research was to develop an in vitro test battery that can be used to accurately predict the ocular toxicity of new chemicals and ophthalmic formulations. By comparing the toxicity seen in vivo animals and humans with the toxicity response in these new in vitro methods, it was demonstrated that these in vitro methods can be utilized in a tiered testing strategy in the development of new chemicals and ophthalmic formulations.

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