Global ETD Search

1	Characterization of mammalian exocyst subunit Sec3 Andersen, Nicholas John. Yeaman, Charles A. January 2009 (has links) Thesis supervisor: Charles A. Yeaman. Includes bibliographic references (p. 128-139). Cell adhesion. Desmosomes. Exocyst.
2	Structural and functional analysis of the Drosophila fat protein / Bolt, Mark W. January 1997 (has links) Thesis (Ph. D.)--University of Missouri-Columbia, 1997. / Typescript. Vita. Includes bibliographical references (leaves 123-137). Also available on the Internet.
3	A quantitative electron microscopic study of desmosomes and hemidesmosomes in human crevicular epithelium a thesis submitted in partial fulfillment ... periodontics ... / Geisenheimer, Jerold D. January 1970 (has links) Thesis (M.S.)--University of Michigan, 1970.
4	Structural and functional analysis of the Drosophila fat protein Bolt, Mark W. January 1997 (has links) Thesis (Ph. D.)--University of Missouri-Columbia, 1997. / Typescript. Vita. Includes bibliographical references (leaves 123-137). Also available on the Internet.
5	A quantitative electron microscopic study of desmosomes and hemidesmosomes in human crevicular epithelium a thesis submitted in partial fulfillment ... periodontics ... / Geisenheimer, Jerold D. January 1970 (has links) Thesis (M.S.)--University of Michigan, 1970.
6	Étude prospective pour la recherche et la caractérisation d’éléments desmosomaux et périkératinocytaires dont l’expression est liée à la différenciation épidermique / Prospective study for the research and characterization of epidermal proteins related to differentiation expressed in desmosomes and at the keratinocyte periphery Sandjeu, Yongoua 16 December 2010 (has links) L’épiderme est un tissu épithélial stratifié et kératinisé, majoritairement composé de kératinocytes. La cohésion de l’épiderme, élémentaire à la fonction-barrière et donc à la protection de l’organisme, est assurée grâce à des systèmes de jonctions intercellulaires, notamment les desmosomes. Comme l’indiquent nos résultats d’étude de la desmosealine, un protéoglycanne épidermique présent dans la partie extracellulaire des desmosomes, la composition de ces jonctions n’est pas encore entièrement élucidée. Les éléments matriciels issus des espaces extracellulaires de l’épiderme peuvent être incorporés au sein des desmosomes et participer ainsi à la régulation de la différenciation et la cohésion épidermiques. Nous avons mis au point une méthode permettant d’isoler les desmosomes épidermiques humains utilisables pour créer de nouveaux anticorps et favorisant la caractérisation biochimique de ces structures. Un nouvel anticorps monoclonal reconnaissant un antigène situé à la surface des kératinocytes, dont l’expression varie en fonction du degré de différenciation kératinocytaire, a été crée. A l’aide de cet anticorps, nous avons entrepris la caractérisation biochimique et par spectrométrie de masse de l’antigène associé. Nous avons ainsi développé de nouveaux outils biologiques et techniques utilisables pour l’étude des desmosomes et de leurs éléments issus de la matrice extracellulaire épidermique / Epidermis is a stratified, keratinized epithelial tissue, mostly composed of keratinocytes. Epidermal barrier function provided by epidermis is essential for protection of the organism and largely depends on cell cohesion. Desmosomes constitute the most prominent cell-to-cell junction system involved in this function. As indicated by our results of studies on desmosealin, an epidermal proteoglycan present in the extracellular parts of desmosomes, the composition of these junctions is not yet completely resolved. Elements of the intercellular matrix can be incorporated into desmosomes and thus participate in the regulation of the epidermal differentiation and cohesion. We established a method to isolate human epidermal desmosomes in order to create new antibodies allowing the biochemical characterization of new desmosomal components. A new monoclonal antibody has been generated. It recognizes an antigen located at the keratinocyte surface with an expression pattern depending on the level of keratinocyte differentiation. Using this antibody, we have engaged the biochemical and mass spectrometry characterization of the corresponding antigen. This work contributes to the development of new biological and technical tools useful for studies of desmosomes and of their components issued from the epidermal extracellular matrix Desmosomes Protéoglycannes Matrice extracellulaire épidermique Différenciation Desmosomes Proteoglycans Epidermal extracellular matrix Differentiation 573.5
7	Insights into molecular and functional mechanisms behind inherited heart and skin disorders Nitoiu, Daniela January 2015 (has links) Desmosomes are macromolecular, dynamic and adaptable complexes that connect intermediate filaments of neighboring cells in a variety of tissues, generating a large mechanically resilient structure. The importance of maintaining desmosome homeostasis for tissue integrity and optimal organ function has been revealed through the identification of desmosome-associated disorders and mechanistic studies into desmosome regulation. This thesis focuses on inherited skin and heart conditions linked to mutations in desmosomal genes or in genes believed to be implicated in desmosome regulation. Part of this thesis is focused on the molecular analysis and identification of novel desmosomal mutations in patients clinically diagnosed with Arrhythmogenic Right Ventricular Cardiomyopathy, and the genetic diagnosis of patients with hypotrichosis, hypotrichosis and PPK or acral peeling skin syndrome. Patients were analysed using a number of different genetic techniques including custom capture array, HaloPlex targeted resequencing, exome capture and Sanger sequencing. Both novel and previously reported mutations were identified in DSP, DSC2, DSG2, PKP2, DSG4 or CSTA in patients diagnosed with these disorders. The molecular mechanisms behind mutations in the protease inhibitors cystatin A and calpastatin, leading to the skin disorders exfoliative ichthyosis and PLACK syndrome, were also investigated. In vitro analysis, using siRNA-mediated knockdown in the immortalised keratinocyte cell line HaCaT, demonstrated that these mutations, affecting the structure and function of the protease inhibitors, lead to deficient intercellular adhesion, possibly through the indirect regulation of desmosomal complexes through their target proteases. 616.1
8	Cell Contacts and Airway Epithelial Damage in Asthma Shahana, Shahida January 2005 (has links) Airway epithelial damage is commonly found in asthma patients. Epithelial damage was investigated with special reference to contacts between epithelial cells. Eosinophils, common in allergic asthma, secrete cationic proteins, particularly major basic protein (MBP). The effect of poly-L-arginine, an analogue of MBP, on airway epithelial cells was investigated. Poly-L-arginine induced membrane damage, resulting in increased permeability, loss of cell-cell contracts (tight junctions and desmosomes) and generalized cell damage. Adhesion molecules on airway epithelial cells may be important in recruiting leukocytes. Interferon (IFN)-γ increased intracellular adhesion molecule-1 expression in airway epithelial cell lines. A combination of interleukin-4 and IFN-γ opened the tight junctions. Epithelial damage in asthma was studied at the ultrastructural level in bronchial biopsies from patients with atopic or non-atopic asthma, and healthy controls. Epithelial damage was extensive in both asthma groups. In basal and columnar cells, relative desmosome length was reduced by 30-40%. In columnar cells, half-desmosomes were noticed. Changes tended to be more extensive in atopic asthma, but there was no significant difference between the two groups. Reduced desmosomal contact may be important in the epithelial shedding observed in asthma. The contact area between columnar cells and basal lamina is relatively small in the human airway. Attachment of columnar cells to the basal lamina occurs indirectly, via desmosomal attachment to basal cells. Direct attachment of columnar cells to the basal lamina is weakened in asthmatics. Nasal polyposis is a chronic inflammatory disease often associated with asthma. An ultrastructural study showed that epithelial damage of columnar cells is more pronounced in allergic patients. The length of columnar cell desmosomes was significantly reduced in asthmatics vs. non-asthmatics, and in allergics vs. non-allergics. Cell contacts in airway epithelium in asthmatics are weakened, which may be an intrinsic feature or due to the presence of eosinophils producing toxic proteins. Anatomy Desmosomes tight junctions major basic protein eosinophil cytokines epithelial damage. Anatomi Anatomy Anatomi
9	Effects of Th-1 and Th-2 Cytokines and Reactive Oxygen Species on Normal Human Bronchial Epithelial Cells Kampf, Caroline January 2001 (has links) <p>Epithelial damage and shedding of the epithelium are common observations in many airway diseases such as asthma, Sjögren’s syndrome, chronic obstructive pulmonary disease and cystic fibrosis. The ability of the cells to attach to each other and/or to the matrix seems to be altered. In the present study, cultured normal human bronchial epithelial cells were used as a model system. The desmosomes and also the focal adhesions were investigated to see if changes in these structural components as well as metabolic alterations could explain the observed shedding of the epithelium.</p><p>Inflammatory mediators such as tumor necrosis factor alpha (TNF-α), interferon gamma (IFN-γ), interleukin-1 beta (IL-1β), interleukin-4 (IL-4), interleukin-5 (IL-5), interleukin-13 (IL-13), hypochlorous acid (HOCl) and nitric oxide (NO) are present in increased amounts in inflammation. The Th-1 cytokines, IFN-γ and TNF-α, as well as HOCl and NO affected the number of desmosomes and their ability to attach to each other. Interestingly, the Th-2 cytokines IL-4, IL-5 and IL-13 did not affect the cell-cell adhesion. HOCl and NO also affected the focal adhesions of the cells. </p><p>Both morphological and functional studies indicated that TNF-α, IFN-γ, HOCl and NO affect the mitochondria. A decreased glucose oxidation rate could result in a decreased production of ATP, which in turn could lead to inhibition of many cellular activities including an impaired ability of the ciliary activity in bronchial epithelial cells and mucus transport. The antioxidant N-acetyl-L-cysteine and the nitric oxide synthase inhibitor N-propyl-L-arginine inhibited these effects of HOCl. This indicates that HOCl can induce damage both by induction of free radicals and also through an increased production of NO. TNF-α and IFN-γ also induced an increased production of NO. N<sup>ω</sup>-monomethyl-L-arginine reduced the cytokine-induced production of NO. The NO donor DETA NONOate reduced the total protein biosynthesis as well as the DNA content. NO can react with superoxide anions generated by inflammatory cells in the airways to form peroxynitrite ions, which in turn could generate hydroxyl radicals. These toxic ions may contribute to damage of the airway epithelial cells. </p><p>In conclusion, pro-inflammatory cytokines such as TNF-α, IFN-γ and also the reactive oxygen species HOCl and NO could contribute to airway epithelial shedding by affecting the adhesion properties of the epithelial cells. More generalized morphological and metabolic changes could be other contributing factors, together with the increased production of NO.</p> Cell biology ytokines desmosomes focal adhesions free radicals hypochlorous acid nitric oxide normal human bronchial epithelial cells Cellbiologi Cell biology Cellbiologi
10	Ultrastructural Studies of the Airway Epithelium in Airway Diseases Shebani, Eyman January 2006 (has links) <p>Ultrastructural studies of airway epithelium in airway disease are important for diagnosis and understanding the underlying pathology which helps clinicians to improve the patients' treatment.</p><p>Airway biopsies from a 5-month old boy with respiratory problems and gastro-oesophageal reflux were studied by transmission electron microscopy (TEM). The tracheal columnar cells showed accumulation of lamellar bodies, indicative of lysosomal storage disease. The patient was diagnosed with Gaucher disease type 2.</p><p>Shedding of airway epithelial cells is commonly found in asthma. The attachment of these cells to the basal lamina was investigated by TEM of biopsies from patients with asthma and healthy controls. The contact area between columnar cells and basal lamina in asthmatics was significantly less than in controls. Attachment of columnar cells to the basal lamina occurs mainly indirectly, via desmosomal attachment to basal cells. </p><p>Primary ciliary dyskinesia (PCD) is a congenital disease. It is important to differentiate PCD from acquired (secondary) ciliary dyskinesia (SCD). The number of dynein arms determined by TEM was 1.5 and 1.4 for outer and inner dynein arms, respectively in PCD, versus 7.9 and 5.2 for controls and 8.1 and 5.9 in SCD. Compared to PCD patients, SCD patients have more structurally abnormal cilia. A significant difference was found in orientation of the central microtubule pair between PCD and SCD, but also overlap. </p><p>Leukotriene receptor antagonists are a new treatment for asthma. Both corticosteroids and montelukast caused apoptosis and necrosis of airway epithelial cells, and reduced the expression of intercellular adhesion molecule-1. Treatment of cells with tumor necrosis factor-α or interferon-γ reduced the fraction of the lateral cell membrane occupied by desmosomes and this effect was counteracted by corticosteroids. </p> Morphology asthma cilia corticosteroids cytokines desmosomes Gaucher’s disease montelukast primary ciliary dyskinesia transmission electron microscopy Morfologi Morphology, cell biology, pathology Morfologi, cellbiologi, patologi

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