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1	Identifizierung und funktionelle Charakterisierung des neuen MAR-bindenden Proteins, SATB2 Dobreva, Gergana. Unknown Date (has links) (PDF) University, Diss., 2004--München. / Parallelt.: Identification and functional characterization of the novel MAR-binding protein, SATB2. Bindeproteine. Matrix Attachment Region.
2	Improvement of adoptive T-cell therapy for Cancer Jin, Chuan January 2016 (has links) Cancer immunotherapy has recently made remarkable clinical progress. Adoptive transfer of T-cells engineered with a chimeric antigen receptor (CAR) against CD19 has been successful in treatment of B-cell leukemia. Patient’s T-cells are isolated, activated, transduced with a vector encoding the CAR molecule and then expanded before being transferred back to the patient. However some obstacles restrict its success in solid tumors. This thesis explores different aspects to improve CAR T-cells therapy of cancer. Ex vivo expanded T-cells are usually sensitive to the harsh tumor microenvironment after reinfusion. We developed a novel expansion method for T-cells, named AEP, by using irradiated and preactivated allo-sensitized allogeneic lymphocytes (ASALs) and allogeneic mature dendritic cells (DCs). AEP-expanded T-cells exhibited better survival and cytotoxic efficacy under oxidative and immunosuppressive stress, compared to T-cells expanded with established procedures. Integrating retro/lentivirus (RV/LV) used for CAR expressions randomly integrate in the T-cell genome and has the potential risk of causing insertional mutagenesis. We developed a non-integrating lentiviral (NILV) vector containing a scaffold matrix attachment region (S/MAR) element (NILV-S/MAR) for T-cells transduction. NILV-S/MAR-engineered CAR T-cells display similar cytotoxicity to LV-engineered CAR T-cells with undetectable level of insertional event, which makes them safer than CAR T-cells used in the clinic today. CD19-CAR T-cells have so far been successful for B-cell leukemia but less successful for B-cell lymphomas, which present semi-solid structure with an immunosuppressive microenvironment. We have developed CAR T-cells armed with H. pylorineutrophil-activating protein (HP-NAP). HP-NAP is a major virulence factor and plays important role in T-helper type 1 (Th1) polarizing. NAP-CAR T-cells showed the ability to mature DCs, attract innate immune cells and increase secretion of Th1 cytokines and chemokines, which presumably leads to better CAR T-cell therapy for B-cell lymphoma. Allogeneic-DCs (alloDCs) were used to further alter tumor microenvironment. The premise relies on initiation of an allo-reactive immune response for cytokine and chemokines secretion, as well as stimulation of T-cell response by bringing in tumor-associated antigen. We demonstrated that alloDCs promote migration and activation of immune cells and prolong the survival of tumor-bearing mice by attracting T-cells to tumors and reverse the immune suppressive tumor microenvironment.
3	Epigenetic Regulation of Epidermal Development and Keratinocyte Differentiation Botchkarev, Vladimir A. 07 1900 (has links) No Cell differentiation DNA helicases Epidermis Epigenesis Gene expression Humans Keratinocytes Nuclear proteins Signal transduction Transcription factors Tumor suppressor proteins
4	Organisation supérieure de la chromatine chez les mammifères : dynamique fondamentale et interactions spécifiques. / Higher-order organization of the mammalian chromatin : basic dynamics and specific interactions Court, Franck 17 December 2010 (has links) Chez les mammifères, l'ADN des cellules interphasiques s'organise en une fibre chromatinienne confinée à l'intérieur de « territoires chromosomiques ». Ce confinement autorise l'établissement d'interactions à longue distance permettant une régulation fine des fonctions génomiques. Toutefois, l'organisation et la dynamique de la chromatine à l'échelle dite supranucléosomale (10 à 500 kb) reste méconnue. Afin d'étudier la chromatine à cette échelle, nous avons utilisé la méthode dite de 3C-qPCR qui permet de mesurer les fréquences d'interactions entre deux portions génomiques. Dans un premier temps, nous avons analysé les collisions aléatoires afin de déterminer l'organisation intrinsèque de la chromatine à l'échelle supranucléosomale. Nos résultats indiquent que, en l'absence d'interactions spécifiques, les collisions aléatoires dans les régions riches en gènes présentent une modulation d'une périodicité d'environ 90kb. Cette modulation semble être sous-jacente à de nombreuses interactions spécifiques et avoir des répercutions sur leur positionnement génomique contribuant ainsi à l'évolution des génomes. Des modèles, dérivés de la physique des polymères, suggèrent que la chromatine s'organise dans ces régions en une hélice statistique. Dans un second temps, nous avons abordé l'organisation tridimensionnelle du locus murin Igf2/H19 soumis à l'empreinte génomique parentale. Les interactions spécifiques identifiées entre des « enhancers » endodermiques et certaines portions du locus ont confirmé l'existence d'une hiérarchie des interactions et ont permis la découverte d'un nouveau locus soumis à l'empreinte (PIHit). Ce locus produit un ARN non codant que nous avons caractérisé mais dont la fonction exacte reste à déterminer.Finalement, mes travaux de thèse ont aussi conduit à la mise au point d'une nouvelle technologie (HRS-SEQ) qui permettra d'aborder l'organisation génomique globale par le biais des séquences récupérées à haut-sel (HRS). / In mammal, the DNA of interphasic cells is organized into the chromatin fiber which is itself confined inside “chromosome territories”. This compact organization allows the establishment of long-range interactions involved in the fine regulation of genomic processes. However, the organization and the dynamic of the chromatin at the so-called supranucleosomal scale (10 to 500kb) remain unclear. In order to study the chromatin at this scale, we used the 3C-qPCR method that allows to measure interaction frequencies between two genomic regions. Firstly, we have analyzed random collisions in order to determine the intrinsic organization of the chromatin at the supranucleosomal scale. Our data indicates that, in the absence of specific interactions, random collisions in gene-rich regions show a periodic modulation of about 90kb. This modulation seems to be underlying numerous locus-specific interactions and have repercussions on their genomic location, thus contributing to genome evolution. Models, derived from polymers physics, suggest that, in these regions, the chromatin is shaped in a statistical helix. Secondly, we have investigated the tridimensional organization of the Igf2/H19 mouse locus which is subject to genomic imprinting. Specific interactions identified between endodermic enhancers and some regions of the locus have confirmed the existence of a hierarchy of interactions and allowed the discovery of a new imprinted locus (PIHit). This locus produces a non-coding RNA that we have characterized but for which the function remains to be determined.Finally, my work also led to the development of a new technology (HRS-SEQ) that allows to study global genome organization through mapping of high-salt recovered sequences (HRS). Organisation de la chromatine Échelle supranucléosomale Insulin-like Growth Factor 2 (Igf2) COrganisatiohromatine organization Sprunucleosomal scale Capture conformation chromosome (3C) Insulin-like Growth Factor 2 (Igf2) Matrix attachment region
5	Functional investigation of arabidopsis long coiled-coil proteins and subcellular localization of plant rangap1 Jeong, Sun Yong 20 July 2004 (has links) No description available. Biology, Botany CKII: Casein kinase II MAR: Matrix attachment region MFP1: MAR-binding filament-like protein1 MLP: Myosin-like protein PTK: Plastid transcription kinase Ran: Ras-related nuclear protein RanGAP: Ran GTPase activating protein
6	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

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