Global ETD Search

151	The Role of DNA Damage in Skin Stem Cells Karambela, Andriana 01 June 2017 (has links) The accurate maintenance of genomic integrity in stem cells (SCs) is essential for tissue homeostasis and its deregulation leads to developmental defects, cancer and ageing. We have shown that Brca1, key homologous recombination (HR) gene and critical regulator of the choice of the DNA double strand break (DSB) repair pathway, is specifically required for hair follicle formation and the establishment and maintenance of adult hair follicle SC pool in a conditional knock-out (CKO) mouse model. Brca1 loss leads to DNA damage-induced cell death in the hair follicle (HF), particularly in the matrix transient amplifying progenitors and moderately so in prospective quiescent adult HF SCs. This cell loss causes compensatory hyper-proliferation of the prospective HF SCs and their subsequent depletion. In striking contrast, the interfollicular epidermis (IFE) and its resident SCs remain unaffected by Brca1 deletion. I uncovered two mechanisms underlying the ability of the SCs and progenitors of the IFE to survive the deletion of Brca1. Collectively, this data reveals how distinct SCs and progenitors respond differently to Brca1 loss. Furthermore we show how the IFE can survive Brca1 loss through the use of two particular mechanisms as to sustain tissue homeostasis. The mechanisms uncovered here are likely to be relevant in other tissue-specific SCs and will have important implications in understanding cancer initiation and ageing. / Doctorat en Sciences biomédicales et pharmaceutiques (Médecine) / info:eu-repo/semantics/nonPublished Biologie Biologie cellulaire Biologie moléculaire Génétique moléculaire Cancérologie Dermatologie Sciences biomédicales Croissance et développement [animal] Sciences biomédicales en général DNA Damage DNA Repair Double Strand Break Repair Skin Epidermis Skin BRCA1 Stem Cells
152	Etude in situ par RMN HRMAS sur des épidermes reconstruits du métabolisme et de la réactivité de xénobiotiques allergisants / In situ study of metabolism and reactivity of allergenic molecules on reconstructed human epidermis by HR-MAS NMR Moss, Éric 16 January 2015 (has links) L’allergie de contact est une pathologie de la peau particulièrement répandue dans les pays industrialisés. Aucune thérapie ne permet actuellement de la soigner et seule l’éviction de l’allergène permet de la prévenir. Historiquement, l’évaluation du potentiel sensibilisant des molécules mises sur le marché a toujours été réalisée au moyen de tests sur l’animal. Cependant, le champ d’action de ces tests est aujourd’hui limité en raison de la nouvelle législation européenne sur les cosmétiques. Dans ce contexte, le développement de méthodes alternatives ne reposant pas sur l’utilisation d’animaux devient capital. L’allergie de contact repose sur une étape chimique clé : la formation d’un complexe antigénique allergène-protéine capable d’activer le système immunitaire cutané. Le but de ce travail de thèse a été d’étudier le comportement in situ d’allergènes au sein d’épidermes reconstruits de type SkinEthic®. A l’aide d’une technique d’analyse non invasive, la spectroscopie RMN HRMAS, il a été possible de suivre le devenir de différents allergènes, de leur éventuelle activation par voie métabolique, jusqu’à leur fixation sur les protéines épidermiques. / Contact dermatitis is a skin pathology particularly prevalent in industrialized countries. No therapy currently exists and only complete avoidance of the particular allergen can prevent an allergic reaction. Historically, the assessment of skin sensitisation potential of molecules placed on the market was always carried out by animal testing. However, the scope of this testing method is now limited by the new European cosmetics legislation. In this way, the development of alternative methods, not based on animal experimentation, become an important issue. Contact dermatitis results of a chemical key step: the formation of an antigenic complex allergen-protein complexe able to activate the cutaneous immune system. The aim of this PhD work was to study the in situ behaviour of allergens in reconstructed human epidermis (SkinEthic® model). By using an appropriate non-invasive analysis technique, HR-MAS NMR spectroscopy, it has been possible to study the mode of action of different allergens, from their possible activation through the metabolic pathway to the binding with epidermal proteins. Allergie de contact Allergène Méthode alternative Adduit haptène-protéine Métabolisme Épiderme humain reconstruit RMN HRMAS Contact dermatitis Allergen Alternative method Hapten-protein adduct Metabolism Reconstructed human epidermis HR-MAS NM 547.2
153	Mathematical approaches to modelling healing of full thickness circular skin wounds Bowden, Lucie Grace January 2015 (has links) Wound healing is a complex process, in which a sequence of interrelated events at both the cell and tissue levels interact and contribute to the reduction in wound size. For diabetic patients, many of these processes are compromised, so that wound healing slows down and in some cases halts. In this thesis we develop a series of increasingly detailed mathematical models to describe and investigate healing of full thickness skin wounds. We begin by developing a time-dependent ordinary differential equation model. This phenomenological model focusses on the main processes contributing to closure of a full thickness wound: proliferation in the epidermis and growth and contraction in the dermis. Model simulations suggest that the relative contributions of growth and contraction to healing of the dermis are altered in diabetic wounds. We investigate further the balance between growth and contraction by developing a more detailed, spatially-resolved model using continuum mechanics. Due to the initial large retraction of the wound edge upon injury, we adopt a non-linear elastic framework. Morphoelasticity theory is applied, with the total deformation of the material decomposed into an addition of mass and an elastic response. We use the model to investigate how interactions between growth and stress influence dermal wound healing. The model reveals that contraction alone generates unrealistically high tension in the dermal tissue and, hence, volumetric growth must contribute to healing. We show that, in the simplified case of homogeneous growth, the tissue must grow anisotropically in order to reduce the size of the wound and we postulate mechanosensitive growth laws consistent with this result. After closure the surrounding tissue remodels, returning to its residually stressed state. We identify the steady state growth profile associated with this remodelled state. The model is used to predict the outcome of rewounding experiments as a method of quantifying the amount of stress in the tissue and the application of pressure treatments to control tissue synthesis. The thesis concludes with an extension to the spatially-resolved mechanical model to account for the effects of the biochemical environment. Partial differential equations describing the dynamics of fibroblasts and a regulating growth factor are coupled to equations for the tissue mechanics, described in the morphoelastic framework. By accounting for biomechanical and biochemical stimuli the model allows us to formulate mechanistic laws for growth and contraction. We explore how disruption of mechanical and chemical feedback can lead to abnormal wound healing and use the model to identify specific treatments for normalising healing in these cases. 617.4
154	Evaluation of physico-chemical properties of biorefinery-derived amphiphilic molecules and their effects on multi-scale biological models / Evaluation des propriétés physico-chimiques de molécules amphiphiles dérivées de la bio-raffinerie et leurs effets sur des modèles biologiques multi-échelles Lu, Biao 16 October 2015 (has links) Aujourd'hui, un grand nombre de nouvelles molécules peuvent être synthétisées à partir de la biomasse. Les tensioactifs dérivés de sucre sont notamment considérés comme une alternative aux tensioactifs fossiles en raison de leur biodégradabilité et de leur biocompatibilité. Cependant, les études associant la caractérisation physico-chimique et les propriétés biologiques de ce type de tensio-actifs sont limitées. Il est ainsi difficile de prédire les propriétés d'un tensioactif à partir de sa structure chimique. L'établissement d'une méthodologie permettant de relier la structure des surfactants à leurs propriétés apparait pertinent. Dans ce travail, quatre surfactants dérivés de sucre ayant chacun une chaîne C8 liée à une tête glucose ou maltose par un groupe amide ont été caractérisés par leurs propriétés tensio-actives dans différentes solutions (eau et milieu biologique). Leurs interactions avec des protéines ont également été analysées. Concernant l'évaluation des propriétés biologiques, des tests de cytotoxicité/irritation ont été effectués sur trois modèles in-vitro : 1) modèle cellulaire 20 (cellules L929 cultivées en monocouche), Il) modèle cellulaire 30 (cellules L929 cultivées dans un gel de collagène), Ill) épiderme humain reconstitué. Les résultats indiquent que les quatre surfactants synthétisés présentent de bonnes propriétés tensio-actives et trois d'entre eux sont moins cytotoxiques que des tensioactifs de référence. Plusieurs hypothèses permettant de relier la structure chimique des molécules à leurs propriétés physico-chimiques et biologiques ont été proposées. Des travaux futurs permettront d'enrichir la base de données sur les relations structure-propriétés des tensioactifs issus de la biomasse, et de l'utiliser pour synthétiser des surfactants présentant des propriétés adaptées aux applications envisagées. / Nowadays, a wide variety of new molecules can derive from biomass. Among them, the family of sugar-based surfactants, which are considered as alternatives to fossil-based surfactants, due to their relatively high biodegradability and biocompatibility, exhibit interesting properties both in terms of their self-assembly and their ability to induce biological responses. In the study, for the purpose to analyse these properties, different methodologies have been established. In this work, physico-chemistry and cellular biology methodologies are associated to analyse the properties of pre-selected molecules characterized by gradua) structure modifications. Firstly, we have screened synthesized sugar-based surfactants according to their solubility and their ability to reduce surface tension of water. Four pre-selected molecules, with a C8 chain linked to a glucose or maltose head through an amide functional group, either under the form of carbamoyl (carbohydrate scaffold bearing the carbonyl) or alkylcarboxamide (the alkyl chain bearing the carbonyl), were then dissolved in water/ cell culture media for surface tension measurements. Their behaviors in solutions were characterized by Krafft points, Critical Micellar Concentrations or self-assembling properties through different methods. To evaluate the cytotoxic/ irritant effects of these molecules on cells and tissues, 3 in-vitro models were established: I) 2D cell culture mode! (L929 cell monolayer) II) 3D ce!! culture mode! (L929 cells embedded in collagen gel) and III) Reconstituted human epidermis (differentiated human keratinocytes). Corresponding experiments were carried out on these models with increasing complexity. Results show that the synthesized sugar-based surfactants, GlulamideC8, Glu6amideC8, Glu6amideC8' and MallamideC8 can reduce the surface tension of water solution to the came level as standard surfactants (Tween 20 and Hecameg). In the meantime, GlulamideC8, Glu6amideC8' and MallamideC8 present Iess cytotoxicity effects on L929 cells both in the monolayer model and the 3D mode! than Tween 20 and Hecameg. All synthesized and standard surfactants (GlulamideC8, Glu6amideC8, Gu6amideC8', MallamideC8, Tween 20 and Hecameg) have no significant cytotoxic/ irritant effects on reconstituted human epidermis at 1000 ig/mL after 48 h of topical application. Discussions have been made according to the results of experiments to establish possible structures/ physico-chemical properties - cytotoxicity relationships of these surfactants. Molécules amphiphiles Tensioactifs Biodégradabilité Cytotoxicité Bio-raffinerie Sugar-based surfactant Krafft point Surface-active properties 2D/3D cell models Cytotoxicity evaluation Reconstituted human epidermis Skin irritation Structure-properties relationships
155	Snímač otisku prstu / Realization of fingerprint scanner Kovář, Martin January 2015 (has links) This master’s thesis deals with the issue of scanning human fingerprints, which is currently very topical and represents the most widespread biometric technology. The theoretical part of the work acquaints the reader with basics of dactyloscopy and biometrics and concerns technologies used for fingerprinting, image preprocessing methods and commercially available contactless optical scanners. The practical part is a realisation of a contactless optical scanner based on a Raspberry Pi minicomputer, implementation of preprocessing algorithms in Python and testing of the device from the perspective of image quality.
156	Charakterizace role SPINK 6 v epidermis za použití transgenních modelů / Characterization of the role of SPINK 6 in the epidermis using transgenic models Buryová, Halka January 2011 (has links) Epidermal homeostasis, including proper turnover of keratinocytes, plays important role in the barrier function and serine proteases and their inhibitors are the key players. Activated proteases cleave desmosomes in uppermost layer and thus shed the cells from the epidermal surface. Therefore the serine protease inhibitors are secreted in lower epidermal layers to prevent premature activation of proteases and consequent disruption of epidermal barrier. The most studied inhibitors in epidermis belong to Serine proteases inhibitors Kazal-type family (SPINK). This diploma thesis is aimed to investigate function of murine SPINK6 in epidermal compartment in vivo. To achieve this, the transgenic mice overexpressing mSPINK6 under modified human involucrin promoter was generated. Two of five transgenic lines exhibited higher expression of mSPINK6 at mRNA and protein levels. The mSPINK6 transgenic mice are viable with no apparent phenotype. The small but in most cases not significant differences were observed on microscopic level among mSPINK6 transgenic and wild type animals In conclusion, this work showed that mSPINK6 does not play major role in skin homeostasis but gains significant importance under specific challenges of epidermal barrier. Therefore mSPINK6 transgenic mice, in combination with other deletion or...
157	MicroRNA-21 is an important downstream component of BMP signalling in epidermal keratinocytes Ahmed, Mohammed I., Mardaryev, Andrei N., Lewis, Christopher J., Sharov, A.A., Botchkareva, Natalia V. 17 June 2011 (has links) Yes / Bone morphogenetic proteins (BMPs) play essential roles in the control of skin development, postnatal tissue remodelling and tumorigenesis. To explore whether some of the effects of BMP signalling are mediated by microRNAs, we performed genome-wide microRNA (miRNA) screening in primary mouse keratinocytes after BMP4 treatment. Microarray analysis revealed substantial BMP4-dependent changes in the expression of distinct miRNAs, including miR-21. Real-time PCR confirmed that BMP4 dramatically inhibits miR-21 expression in the keratinocytes. Consistently, significantly increased levels of miR-21 were observed in transgenic mice overexpressing the BMP antagonist noggin under control of the K14 promoter (K14-noggin). By in situ hybridization, miR-21 expression was observed in the epidermis and hair follicle epithelium in normal mouse skin. In K14-noggin skin, miR-21 was prominently expressed in the epidermis, as well as in the peripheral portion of trichofolliculoma-like hair follicle-derived tumours that contain proliferating and poorly differentiated cells. By transfecting keratinocytes with a miR-21 mimic, we identified the existence of two groups of the BMP target genes, which are differentially regulated by miR-21. These included selected BMP-dependent tumour-suppressor genes (Pten, Pdcd4, Timp3 and Tpm1) negatively regulated by miR-21, as well as miR-21-independent Id1, Id2, Id3 and Msx2 that predominantly mediate the effects of BMPs on cell differentiation. In primary keratinocytes and HaCaT cells, miR-21 prevented the inhibitory effects of BMP4 on cell proliferation and migration. Thus, our study establishes a novel mechanism for the regulation of BMP-induced effects in the skin and suggests miRNAs are important modulators of the effects of growth factor signalling pathways on skin development and tumorigenesis. Animals Bone morphogenetic protein 4 Carrier proteins Cell transformation Cells Epidermis Gene expression regulation Neoplastic Genes Tumor suppressor Genome-wide association study Keratin-14 Keratinocytes Mice Inbred strains Transgenic MicroRNAs Microarray analysis Morphogenesis Signal transduction REF 2014
158	p63 regulates Satb1 to control tissue-specific chromatin remodeling during development of the epidermis Fessing, Michael Y., Mardaryev, Andrei N., Gdula, Michal R., Sharov, A.A., Sharova, T.Y., Rapisarda, Valentina, Gordon, K.B., Smorodchenko, A.D., Poterlowicz, Krzysztof, Ferone, G., Kohwi, Y., Missero, C., Kohwi-Shigematsu, T., Botchkarev, Vladimir A. January 2011 (has links) No / During development, multipotent progenitor cells establish tissue-specific programs of gene expression. In this paper, we show that p63 transcription factor, a master regulator of epidermal morphogenesis, executes its function in part by directly regulating expression of the genome organizer Satb1 in progenitor cells. p63 binds to a proximal regulatory region of the Satb1 gene, and p63 ablation results in marked reduction in the Satb1 expression levels in the epidermis. Satb1(-/-) mice show impaired epidermal morphology. In Satb1-null epidermis, chromatin architecture of the epidermal differentiation complex locus containing genes associated with epidermal differentiation is altered primarily at its central domain, where Satb1 binding was confirmed by chromatin immunoprecipitation-on-chip analysis. Furthermore, genes within this domain fail to be properly activated upon terminal differentiation. Satb1 expression in p63(+/-) skin explants treated with p63 small interfering ribonucleic acid partially restored the epidermal phenotype of p63-deficient mice. These data provide a novel mechanism by which Satb1, a direct downstream target of p63, contributes in epidermal morphogenesis via establishing tissue-specific chromatin organization and gene expression in epidermal progenitor cells. Animals Cell differentiation Chromatin Metabolism Chromatin assembly and disassembly Genetics Epidermis Cytology Embryology Gene expression regulation Developmental Genome In situ hybridization Fluorescence Mice Inbred C57BL Phosphoproteins Trans-activators REF 2014
159	Neural Wiskott-Aldrich syndrome protein modulates Wnt signaling and is required for hair follicle cycling in mice Lyubimova, A., Garber, J.J., Upadhyay, G., Sharov, A.A., Anastasoaie, F., Yajnik, V., Cotsarelis, G., Dotto, G.P., Botchkarev, Vladimir A., Snapper, S.B. January 2010 (has links) No / The Rho family GTPases Cdc42 and Rac1 are critical regulators of the actin cytoskeleton and are essential for skin and hair function. Wiskott-Aldrich syndrome family proteins act downstream of these GTPases, controlling actin assembly and cytoskeletal reorganization, but their role in epithelial cells has not been characterized in vivo. Here, we used a conditional knockout approach to assess the role of neural Wiskott-Aldrich syndrome protein (N-WASP), the ubiquitously expressed Wiskott-Aldrich syndrome-like (WASL) protein, in mouse skin. We found that N-WASP deficiency in mouse skin led to severe alopecia, epidermal hyperproliferation, and ulceration, without obvious effects on epidermal differentiation and wound healing. Further analysis revealed that the observed alopecia was likely the result of a progressive and ultimately nearly complete block in hair follicle (HF) cycling by 5 months of age. N-WASP deficiency also led to abnormal proliferation of skin progenitor cells, resulting in their depletion over time. Furthermore, N-WASP deficiency in vitro and in vivo correlated with decreased GSK-3beta phosphorylation, decreased nuclear localization of beta-catenin in follicular keratinocytes, and decreased Wnt-dependent transcription. Our results indicate a critical role for N-WASP in skin function and HF cycling and identify a link between N-WASP and Wnt signaling. We therefore propose that N-WASP acts as a positive regulator of beta-catenin-dependent transcription, modulating differentiation of HF progenitor cells. Alopecia Genetics Animals Cell differentiation Cell division Epidermis Cytology Pathology Gene deletion Hair follicle Keratinocytes Mice Mice Knockout Skin physiological phenomena Skin ulcer Wiskott-Aldrich Syndrome Protein Deficiency Neuronal Wound healing beta Catenin REF 2014
160	Validation of de novo Bioinformatic Predictions of Arabidopsis thaliana Cis-regulatory Elements using in planta GUS Expression Assays Hiu, Shuxian 19 July 2012 (has links) The study of cis-regulatory elements (CREs) will allow for increased understanding of regulation and lead to insight regarding the mechanisms governing growth, development, health, and disease. The aim of this study was to characterize the de novo in silico predictions of Arabidopsis CREs. Eight synthetic and 30 native promoter-constructs containing an eGFP/GUS reporter protein were generated for cold, genotoxic, heat, osmotic, and salt stress; the circadian clock; ABA signaling; root and epidermis tissue. Constructs were stably transformed into A. thaliana Col-0 and the effects of the CREs were evaluated by in planta stress or tissue assays using GUS expression levels. Results reveal a novel genotoxic element that specifically directs GUS expression in rosette leaves during genotoxic stress. Results also look promising for novel epidermis and root-specific elements. Results of these assays validate the de novo prediction pipeline's ability to identify novel and known CREs related to abiotic stress. cis-regulatory elements bioinformatics GUS cold stress enhancer silencer insulator local control regions (LCRs) MARs/SARs in planta evening element circadian rhythm arabidopsis genotoxic bleomycin mitomycin c heat stress stem epidermis root abscisic acid (ABA) osmotic stress salt stress synthetic constructs expression assays transcription factor binding sites CaMV35S columbia-0 0306 0715 0309 0379 0307

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