Footprint Analysis of the Transcriptional Control of Glycogen Phosphorylase 2 in Dictyostelium Discoideum

Col, Bekir

07 January 1998

Glycogen phosphorylase 2 (gp-2) is a key enzyme during the development of Dictyostelium discoideum. The gp-2 enzyme breaks down glycogen into glucose monomers that are subsequently used to synthesize the terminal end products of cellular differentiation. This gene is an ideal candidate for studying the process of selective gene expression because its product figures so prominently in the development of this organism, implying a dependable control mechanism responsible for its developmentally regulated expression. I present in this thesis the identification of several putative cis-acting elements of gp-2 as revealed through footprint analysis. Due to the extreme AT-bias characteristic of Dictyostelium promoters, footprinting conditions required intensive optimization with respect to template, nonspecific competitor, source of protein extract and DNase I digestion. Using an endlabeled fragment containing seven repeated sequences (3 TA boxes [TAATTATA], 2 TAG boxes [TAAAAATGGT] and 2 C boxes [ACCCACT]), purified replication protein A and several developmental nuclear extracts were tested for DNA binding activity. Small footprints were observed on the TAG and C boxes of the promoter for both protein sources. However, using a more sensitive footprinting strategy involving multiple rounds of primer extension, larger footprints spanning the same promoter regions were detected. In both cases, the appearance of the footprints coincided with the documented transcriptional activity of the gene. It can be concluded from the data obtained that the TAG and C boxes are very likely cis-acting elements involved in the regulation of gp-2 expression. / Master of Science

cell differentiation

Dictyostelium discoideum

DNase I footprint analysis

transcription

gene expression

AT-rich

looping

large footprints

replication protein A

Characterization and localization of a cyclic AMP dependant protein kinase from Dictyostelium discoideum

Vaughan, Roxanne Louise

January 1985

A developmentally regulated cyclic AMP-dependent protein kinase has been recently reported in Dictyostelium discoideum. This report describes some of the physical and kinetic properties of the cAMP-dependent holoenzyme and its subunits. Gel filtration data suggests a holoenzyme Mr of 170,000-190,000, and catalytic and regulatory subunit Mrs of 40,000 and 49,000, respectively. These molecular weight determinations are compatible with an R₂C₂ subunit arrangement of the holoenzyme. Kinase activity required the presence of Mg²⁺ but cAMP binding to the enzyme was not dependent on divalent metal ions. The pH optimum for kinase activity was 7.5; the cAMP binding activity was not affected over a pH range of 5.0-10.0. The holoenzyme and isolated regulatory subunit had identical cAMP Kds of 28 nM. Cyclic AMP was able to dissociate the subunits when analyzed by density gradient centrifugation. Histone VII-S activated the subunits in the absence of cAMP but did not produce their dissociation. In contrast to the gel filtration data, sedimentation values indicated a dimeric holoenzyme structure. Reassociation of the subunits in the absence of cAMP occurred rapidly and was not dependent upon a preincubation with MgATP. High NaCl and low pH depressed both the total kinase activity and the ability of the subunits to reassociate as determined by activity ratio. MgATP did not decrease the ability of the holoenzyme to bind cAMP, neither did the holoenzyme possess a high affinity MgATP binding site. By the use of microdissection techniques holoenzyme levels were determined in individuals at each stage of development and in each cell type during development. Kinase activity was low and non-cAMP dependent in early aggregates but increased and became cAMP-dependent in later aggregates. Maximum activity and cAMP-dependency occurred during the slug and culmination stages. The only differential distribution of the kinase within a single-stage occurred during culmination when the activity in the stalks was approximately one-fourth that in the prespore mass. Preliminary evidence indicates that this difference is not due to an inhibitor. / Ph. D. / incomplete_metadata

LD5655.V856 1985.V387

Dictyostelium discoideum -- Development

Dictyostelium discoideum -- Cytology

Cell differentiation

Cyclic adenylic acid

Enzymatic analysis

Dd Slug Migration: Mathematical Model and Numerical Results

Song, Joy

30 May 2023

Amoebae are commonly studied to understand embryogenesis, and the best-characterized amoebozoan species is Dictyostelium discoideum (Dd). Dd has a very simple life cycle with a range of developmental stages, among which we are most interested in the stage of a migrating slug. It has been observed that different sizes of Dd slugs maintain a proportional distribution of prestalk cells and prespore cells: prestalk cells occupy the anterior 20% of the slug, while prespore cells occupy the posterior 80%. However, it remains unknown how the migrating slug forms and preserves this anterior-posterior proportional pattern under so many different dynamics including cell movement, signaling, and cell differentiation. Therefore, we constructed a mathematical model to simulate the cell movement and chemical distribution during slug migration, and we conducted numerical experiments to explore possible factors for this pattern. In particular, we divided the problem of interest into the following three parts to be investigated. (1) differential motion: the ability of prestalk cells to move through all the prespore cells and stay in the anterior region of the slug; (2) signaling: how cells of different types produce, receive, and respond to the signals in the environment; (3) cell differentiation: how prestalk and prespore cells differentiate into each other under the regulation of signaling. We finally combined and balanced these mechanisms appropriately to achieve the desired patterns observed in migrating slugs.

Dictyostelium discoideum

slug migration

cell sorting

differential motion

signaling

cAMP

DIF

cell proportioning

cell differentiation

Physical Sciences and Mathematics

Differential Expression of Surface Markers in Mouse Bone Marrow Mesenchymal Stromal Cell Subpopulations with Distinct Lineage Commitment

Anastassiadis, Konstantinos, Rostovskaya, Maria

18 January 2016

Bone marrow mesenchymal stromal cells (BM MSCs) represent a heterogeneous population of progenitors with potential for generation of skeletal tissues. However the identity of BM MSC subpopulations is poorly defined mainly due to the absence of specific markers allowing in situ localization of those cells and isolation of pure cell types. Here, we aimed at characterization of surface markers in mouse BM MSCs and in their subsets with distinct differentiation potential. Using conditionally immortalized BM MSCs we performed a screening with 176 antibodies and high-throughput flow cytometry, and found 33 markers expressed in MSCs, and among them 3 were novel for MSCs and 13 have not been reported for MSCs from mice. Furthermore, we obtained clonally derived MSC subpopulations and identified bipotential progenitors capable for osteo- and adipogenic differentiation, as well as monopotential osteogenic and adipogenic clones, and thus confirmed heterogeneity of MSCs. We found that expression of CD200 was characteristic for the clones with osteogenic potential, whereas SSEA4 marked adipogenic progenitors lacking osteogenic capacity, and CD140a was expressed in adipogenic cells independently of their efficiency for osteogenesis. We confirmed our observations in cell sorting experiments and further investigated the expression of those markers during the course of differentiation. Thus, our findings provide to our knowledge the most comprehensive characterization of surface antigens expression in mouse BM MSCs to date, and suggest CD200, SSEA4 and CD140a as markers differentially expressed in distinct types of MSC progenitors.

Knochenmarkszellen

Zellimmortalisation

Zelldifferenzierung

Mesenchymal stem cells

Cloning

Cell immortalization

Bone marrow cells

Cell differentiation

Flow cytometry

Adipocyte differentiation

Selection markers

ddc:610

rvk:XA 10000

Ossification hétérotopique traumatique : altérations du microenvironnement des progéniteurs du muscle squelettique et induction du programme de différenciation ostéogénique / Traumatic heterotopic ossification: alterations of the microenvironment of skeletal muscle progenitor cells and induction of the osteogenic differentiation program

Drouin, Geneviève

January 2016

Résumé: Le muscle squelettique possède une excellente capacité à se regénérer notamment grâce à ses cellules progénitrices stromales (mrSC) et myogéniques (CPM). À la suite de certains traumas et pour des raisons encore méconnues, la qualité de sa régénération est compromise ce qui mène à l’apparition de structures aberrantes tel l’os mature, aussi appelée ossification hétérotopique (OH) post-traumatique. Notre laboratoire a montré dans un modèle murin que les mrSC sont pleinement impliquées dans cette pathologie. De plus, un facteur fortement ostéoinducteur, BMP9, ne cause l’OH que si, et seulement si, le muscle est endommagé. Ce modèle d’étude est unique puisqu’il présente les particularités physiopathologiques de l’OH post-traumatique, un dommage du muscle étant essentiel à la formation d’os. De plus, ce modèle a permis de mettre en évidence le rôle prédominant du microenvironnement des cellules progénitrices dans le développement de cette pathologie. Nous avons donc émis l’HYPOTHÈSE selon laquelle le microenvironnement du muscle endommagé contient des facteurs qui peuvent influencer le phénotype de ses cellules progénitrices stromales et myogéniques favorisant ainsi le développement de l’OH. Nos résultats montrent que l’état hypoxique d’un muscle sévèrement endommagé augmente la prolifération et la différenciation ostéogénique des mrSC. De plus, l’hypoxie induit spécifiquement l’expression de BMP9 par les mrSC. L’impact de BMP9 a également été évalué sur la différenciation des CPM. Les résultats montrent qu’à des concentrations physiologiques, BMP9 inhibe le potentiel myogénique des CPM en faveur d’une différenciation ostéogénique, et cela tant dans la lignée myoblastique murine C2C12 que chez les CPM primaires humaines. En résumé, le muscle endommagé développant l’OH possède un microenvironement spécifique responsable du débalancement de la capacité régénérative de ses progéniteurs. Nos travaux montrent que ce microenvironnement cause un retard de la myogenèse et une ostéogenèse où participeront non seulement les mrSC mais également les CPM. L’identification et la compréhension des mécanismes régulant ces facteurs s’avèrent clé pour offrir aux cliniciens des outils de diagnostic mais également des alternatives ou des approches complémentaires aux traitements prophylaxiques actuels. / Abstract: Skeletal muscle has an extraordinary ability to regenerate due to its resident stromal cells (mrSCs) and myogenic progenitor cells (MPCs). Following certain traumas, the quality of the regeneration of skeletal muscle can be compromised for unknown reasons, leading to the appearance of aberrant structures such as mature bone, a process called posttraumatic heterotopic ossification (HO). Our laboratory developed a mouse model to show that mrSCs are fully involved in this pathology. We also showed that BMP9, a highly osteoinductive factor, causes HO if and only if the muscle is damaged. This model is unique in that it recapitulates the pathophysiological features of post-traumatic HO in which muscle damage is essential for bone formation. The model was also used to show that the progenitor cell microenvironment plays a predominant role in the development of this pathology. Based on these results, we HYPOTHESIZED that the microenvironment of the damaged muscle contains factors that can influence the phenotype of its progenitor cell populations, thus promoting the development of HO. Our results showed that the hypoxic state of a severely damaged muscle increases the proliferation and osteogenic differentiation of mrSCs and also specifically induces the expression of BMP9 by mrSCs. The impact of BMP9 on the differentiation of MPCs was also evaluated. At physiological concentrations, BMP9 inhibited the myogenic differentiation potential of murine myoblast C2C12 cells and primary human MPCs, and triggered their differentiation into an osteogenic lineage. In summary, we showed that damaged muscle that develops HO has a specific microenvironment that is responsible for the loss of the regenerative capacity of progenitor cells, leading to a delay in myogenesis, and that mrSCs and MPCs are both involved in osteogenesis. The identification and understanding of the mechanisms regulating these key factors could provide clinicians with valuable diagnostic tools as well as alternative and/or complementary approaches to current prophylactic treatments.

Muscle squelettique

Ossification hétérotopique

Microenvironnement

Désordre régénératif

Cellules progénitrices

Hypoxie

BMP9

Différenciation cellulaire

Trauma

Skeletal muscle

Heterotopic ossification

Microenvironment

Regenerative disorder

Progenitor cells

Hypoxia

Cell differentiation

Osteoclasts control osteoblast chemotaxis via PDGF-BB/PDGF receptor beta signaling

Hoflack, Bernard, Jurdic, Pierre, Riedl, Thilo, Gallois, Anne, Sanchez-Fernandez, Maria Arantzazu

26 November 2015

BACKGROUND: Bone remodeling relies on the tightly regulated interplay between bone forming osteoblasts and bone digesting osteoclasts. Several studies have now described the molecular mechanisms by which osteoblasts control osteoclastogenesis and bone degradation. It is currently unclear whether osteoclasts can influence bone rebuilding. METHODOLOGY/PRINCIPAL FINDINGS: Using in vitro cell systems, we show here that mature osteoclasts, but not their precursors, secrete chemotactic factors recognized by both mature osteoblasts and their precursors. Several growth factors whose expression is upregulated during osteoclastogenesis were identified by DNA microarrays as candidates mediating osteoblast chemotaxis. Our subsequent functional analyses demonstrate that mature osteoclasts, whose platelet-derived growth factor bb (PDGF-bb) expression is reduced by siRNAs, exhibit a reduced capability of attracting osteoblasts. Conversely, osteoblasts whose platelet-derived growth factor receptor beta (PDGFR-beta) expression is reduced by siRNAs exhibit a lower capability of responding to chemotactic factors secreted by osteoclasts. CONCLUSIONS/SIGNIFICANCE: We conclude that, in vitro mature osteoclasts control osteoblast chemotaxis via PDGF-bb/PDGFR-beta signaling. This may provide one key mechanism by which osteoclasts control bone formation in vivo.

Osteoklasten

Osteoblasten

Zelldifferenzierung

Exprimierung

Genexpression

Knochengeweberemodellierung

Chemotaxis

Wachstumsfaktoren

Osteoclasts

Osteoblasts

Osteoblasts differentiation

Cell differentiation

Gene expression

Bone remodeling

Chemotaxis

Growth factores

ddc:610

rvk:XA 10000

Multifaceted roles of the transmembrane nuclear envelope protein, Samp1

Jaffer Ali, Mohammed Hakim

January 2017

The eukaryotic nuclear envelope (NE), separates the nucleoplasm from cytoplasm and is made up of two concentric lipid membranes, the outer and the inner nuclear membranes (ONM and INM), the nuclear pore complexes (NPCs) and an underlying filamentous nuclear lamina. The INM contains hundreds of unique transmembrane proteins of which only a handful have been characterized. In this thesis, I aimed to understand the functional organization of proteins in the nuclear envelope and I focused on investigating the functions of a recently identified INM transmembrane protein, Samp1. We have developed a novel and robust approach, MCLIP, to identify specific protein-protein interactions taking place in live cells. Using MCLIP, we have shown that Samp1 interacts with proteins of the LINC complex, the nuclear lamina and components of the mitotic spindle. Samp1's specific interactions with a variety of binding partners, suggest that Samp1 plays important roles both in interphase and in mitosis.  We have also shown that Samp1 can provide a binding site at the INM for the GTPase Ran, a master regulator of protein interactions in interphase and in mitosis. Furthermore, we have also investigated the role of Samp1 in cell differentiation using two independent model systems. In human iPSCs, ectopic expression of Samp1 promoted differentiation despite pluripotent culture conditions. In C2C12 myoblast, depletion of Samp1 completely blocked differentiation into myotubes. The two studies complement each other and suggest that Samp1 has a strong differentiation promoting activity. Taken together, the findings in this thesis, give insights on the unexpected and unforeseen roles played by a transmembrane protein in different fundamental cellular process. / <p>At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 3: Manuscript. Paper 4: Manuscript. Paper 5: Manuscript.</p>

Nuclear envelope

cell differentiation

stem cells

myopathies

Biochemistry and Molecular Biology

Biokemi och molekylärbiologi

Cell Biology

Cellbiologi

Chemical Sciences

Kemi

Transcriptional regulation of effector CD8+ T cell differentiation and molecular dysfunction during HIV-1 infection

Noto, Alessandra

10 1900

Les cellules T CD8+ jouent un rôle primordial dans le contrôle des infections virales en limitant la dissémination des cellules infectées. Lors de l’infection chronique par le virus HIV, les cellules T CD8+ HIV-spécifiques ne se différencient pas en cellules effectrices fonctionnelles capables de tuer les cellules infectées par le virus ; ces cellules ne sont plus capables de proliférer ou de produire l’ IL-2. Ces cellules expriment PD-1 et l’engagement de PD-1, par son ligand, aboutit a plusieurs de ces déficits fonctionnels des cellules T . Le rôle de PD-1 dans la régulation d'évènements transcriptionnels contrôlant la différentiation et l'obtention des fonction effectrices des cellules T CD8+ reste à démontrer. Id2 joue un rôle central dans la différenciation des cellules T CD8+ effectrices. Nous avons émis l’hypothèse que le défaut de maturation observé chez les cellules T CD8+ PD-1 high HIV-spécifiques (CD8+PD-1hi) au cours de l’infection chronique par le virus HIV pouvait être lié à la diminution d’expression du régulateur Id2. Nous avons ainsi démontré que l'engagement de PD-1 contribuait à une diminution d'expression de Id2 et de ses cibles transcriptionnelles. La surexpression de Id2 de ces cellules a permis de restaurer l'expression de marqueurs tels que Granzyme B et Bcl-2 et diminuir l’expression du marqueur de maturation de CD27. La famille des cytokines à chaine gamma joue un rôle clef dans la survie et l’homéostasie des cellules T. Dans ce travail, nous avons démontré que l’IL-15 était unique grâce à ses capacités de stimulation de l’expression d’Id2 et ses propriétés favorisant la survie ainsi que la différenciation des cellules T CD8+ effectrices. l’IL-15 induit la prolifération de toutes les populations de cellules T mémoires provenant de donneurs sains. L’addition de cette cytokine aux sous-populations cellulaires Ttm et Tem a permis leur différenciation en cellules effectrices capables de produire Granzyme B alors que la stimulation par l’IL-15 des cellules Tcm ne favorise pas leur différenciation. Un test de cytotoxicitié par cytométrie en flux nous a permis de confirmer que la stimulation de cellules T CD8+ HIV spécifiques par l’IL-15 favorisait l’expression de Id2 et restaurait les fonctions cytotoxiques des cellules T CD8+ HIV spécifiques. En conclusion, nous avons pour la première fois dans cette thèse défini les mécanismes moléculaires impliqués dans la modulation de l’expression du régulateur transcriptionnel Id2 par l’IL-15. Nous avons également révélé comment l’engagement de PD-1 conduisait a une altération de l’expression et de la fonction d’Id2 et favorisait la diminution des fonctions effectrices des cellules T CD8-HIV spécifiques. Une perspective de traitement avec des agents tels que l’IL-15 ou le bloquage de PD-1, en combinaison avec les traitements conventionnels, pourrait contribuer à une meilleure stimulation des réponses immunes favorisant ainsi la réactivation des cellules T CD8+ et permettant la destruction de cellules T CD4+ infectées de manière latente. / CD8+ T cells play a fundamental role in controlling viral replication and dissemination by killing virus-infected cells. However during chronic HIV infection HIV-specific CD8+ T cells fail to differentiate to functional cytotoxic effector cells and develop functional defects such as loss of IL-2 secretion, decreased proliferation and express high levels of PD-1. Persistent expression of PD-1 and triggering by its ligand results in immune dysfunction; it is not known how PD-1 signaling influences transcriptional events involved in T cell differentiation and effector function. We found that the transcriptional regulator Id2 was downregulated in PD-1hi HIV-specific CD8+ T cells when compared to PD-1low CMV-specific CD8+ T cells from the same HIV-infected donors. Since Id2 has been shown to play a central role during differentiation of effector CD8+T cells, we hypothesized that skewed maturation of the PD-1hi HIV-specific CD8+ T during chronic HIV infection could result from decreased levels of Id2. We found that signals transduction pathways downstream of PD-1 ligation inhibited the expression of Id2; transfection of PD-1hi effector cells from HIV infected individuals with a Tat-Id2 construct could reverse an apoptotic fate associated with the exhausted phenotype. Finally, overexpression of Id2 restored expression of Granzyme-B and Bcl-2 and led to a decreased expression of the T cell maturation marker CD27. Although the extrinsic signals and costimulation needed to activate cell proliferation and effector function are well known, signal-transduction pathways that regulate differentiation of memory cells to effector cells are beginning to be understood. Thechain family of cytokines is essential for the survival and homeostasis of T cells; they have pleiotropic effects on the differentiation of effector and memory virus-specific CD8+ T cells. IL-15 was unique among gamma-chain cytokines in upregulating the expression of Id2 and promoting the survival and differentiation of effector memory CD8+ T cells. IL-15 induced proliferation of all memory subsets from healthy subjects but only induced differentiation, Granzyme-B production, and cytotoxic effector function in CD8+ Ttm and Tem cells. Stimulation of Tcm with IL-15 failed to induce their differentiation; this was associated with their decreased ex vivo levels of IL-15R when compared to Tem and Ttm subsets. Finally, we developed a single cell flow-cytometry cytotoxicity assay, and found that stimulation of CD8+T cells from HIV chronically infected subjects with peptide plus IL-15 induced the differentiation of tetramer+ CD8+ Ttm cells and restored Id2 expression and their cytotoxic activity . Overall, we illustrate in this thesis, for the first time, the molecular mechanisms of effector T cell differentiation mediated by IL-15 and its downstream transcriptional regulator Id2; we reveal how PD-1 engagement leads to alteration of the Id2 pathway leading to decreased effector function of the HIV-specific CD8+ T cells. Immunotherapy with agents such as IL-15 or PD-1 blocking antibody that increase levels of Id2 expression , in combination with HAART, should trigger the functional re-activation of HIV-specific CD8+ T cells and the killing of latently HIV-infected CD4+ T cells.

HIV

CD8 CTL

cytotoxicity

cytotoxicité

effector cell differentiation

Id2

IL-15

PD-1

Étude de la régulation de l'activité du ligand Delta dans le cadre de la signalisation Notch

Assaker, Gloria

05 1900

La voie de signalisation Notch est conservée au cours de l'évolution. Elle joue un rôle clé dans le développement, et elle est impliquée dans de nombreuses décisions de destin cellulaire, dans le maintien des cellules souches, et dans le contrôle de la prolifération et de la différenciation cellulaires. Une dérégulation de la signalisation Notch est impliquée dans diverses maladies et cancers, y compris les tumeurs solides, comme les cancers du sein et du col de l'utérus, et les leucémies, comme la Leucémie Aiguë Lymphoblastique des cellules T (LAL-T). Notch est un récepteur transmembranaire activé par des ligands transmembranaires de la famille DSL (Delta/Serrate/Lag-2). Bien que plusieurs mutations oncogéniques ont été identifiées au niveau du récepteur Notch, de nombreux cancers modulés par Notch demeurent ligand-dépendants. Étonnamment, les mécanismes moléculaires régulant l'activation du ligand sont encore relativement peu caractérisés par rapport à ceux qui régissent le récepteur Notch lui-même. Utilisant un essai de co-culture avec un rapporteur luciférase de Notch, nous avons effectué le premier crible d'ARNi pan-génomique visant spécifiquement à identifier des régulateurs des ligands de Notch dans la cellule émettrice du signal. Nous avons ainsi pu découvrir de nouvelles classes de régulateurs communs pour les ligands Delta-like1 et 4. Ces régulateurs comprennent des inhibiteurs de protéases, des facteurs de transcription, et des gènes divers à fonction inconnue, tels que Tmem128 « Transmembrane protein 128 », ou à fonction préalablement caractérisée tels que la co-chaperonne moléculaire Cdc37 « Cell division cycle 37 homolog ». Par la suite, nous avons développé des cribles secondaires fonctionnels où nous avons démontré l'importance de ces régulateurs pour des événements Notch-dépendants, comme la différenciation des cellules T normales, et la survie des cellules souches pré-leucémiques isolées à partir d'un modèle murin de LAL-T. En outre, nous avons prouvé que les régulateurs les plus forts du crible de survie sont également nécessaires pour l'activité d'auto-renouvellement des cellules souches pré-leucémiques. Finalement, nous avons entamé une caractérisation moléculaire préliminaire de deux régulateurs nouvellement identifiés; Tmem128 et Cdc37 afin d'étudier leur mécanisme d'action sur les ligands. En conclusion, cette étude nous a permis d'identifier de nouveaux régulateurs de la voie Notch qui pourraient servir de cibles thérapeutiques potentielles dans les cancers; tel qu'illustré par le modèle LAL-T. La compréhension des détails moléculaires sous-jacents aux fonctions de ces régulateurs sera essentielle afin de développer des inhibiteurs pharmacologiques pour bloquer leur action et entraver la signalisation Notch dans le cancer. / The Notch signalling pathway is evolutionarily conserved. It plays a key role in development and it is involved in multiple cell fate decisions, in the maintenance of stem cells, and in the regulation of cell proliferation and differentiation. Misregulation of Notch signalling is implicated in various diseases and cancers including solid tumours, such as breast and cervical cancers, and leukemias, such as T-cell Acute Lymphoblastic Leukemia (T-ALL). Notch is a transmembrane receptor activated by transmembrane ligands of the DSL family (Delta/Serrate/Lag-2). Whereas oncogenic mutations have been identified in the Notch receptor, many Notch-mediated cancers remain ligand-dependent. Strikingly, the molecular mechanisms that regulate ligand activation are still poorly characterized as compared to those regulating the Notch receptor itself. Using a co-culture assay with a luciferase Notch reporter, we performed the first genome-wide RNAi screen aiming specifically at identifying regulators of Notch ligands in the signal-sending cell. We thereby unraveled new classes of common regulators for both Delta-like1 and 4 ligands. These regulators include protease inhibitors, transcription factors and various genes of unknown function such as Tmem128 (Transmembrane protein 128), or of previously characterized function such as the molecular co-chaperone Cdc37 (Cell division cycle 37 homolog). We next developed functional secondary screens where we demonstrated that our hits are important for Notch-mediated events, such as normal T-cell differentiation, and survival of pre-leukemic stem cells (pre-LSCs) isolated from a mouse model of T-ALL. Moreover, we showed that top hits from the pre-LSC survival screen are also required for the self-renewal activity of pre-LSCs. Finally, we performed a preliminary molecular characterization of two newly identified regulators; Tmem128 and Cdc37 in order to investigate their mechanism of action on Delta-like ligands. Altogether, this study led to the identification of novel Notch pathway regulators that could serve as potential therapeutic targets in Notch cancers, as exemplified by the T-ALL model. Elucidating the finer details that underlie the molecular functions of these regulators will be critical to develop pharmacological inhibitors to counteract their action and impede Notch signalling in cancer.

Notch

Delta-like

Crible

Screen

Inhibiteurs de protéases

Protease inhibitors

Tmem128

Cdc37

Différenciation des cellules T

T-cell differentiation

LAL-T

T-ALL

Dental pulp stem cells adhesion, growth and differentiation on porous silicon scaffolds / Adhésion, croissance et différenciation de cellules souches pulpaires sur silicium poreux

Collart Dutilleul, Pierre-Yves

17 December 2013

Le silicium poreux est un biomatériau prometteur pour l'ingénierie tissulaire car il est non toxique et biorésorbable. Des modifications de surface permettent de contrôler sa vitesse de dégradation et peuvent favoriser l'adhésion cellulaire. Les cellules souches de la pulpe dentaire (DPSC) sont des cellules souches mésenchymateuses retrouvées dans la pulpe dentaire, à l'intérieur des dents, et constituent une source accessible de cellules souches. Regrouper les capacités de prolifération et différenciation des DPSC avec les propriétés morphologiques et biochimiques du pSi représente une approche intéressante pour des applications thérapeutiques de médecine régénératrice. Dans cette thèse, nous avons étudié le comportement de DPSC humaines sur des supports de pSi, avec des pores variant de quelques nanomètres à plusieurs centaines de nanomètres. Nous avons travaillé sur différentes fonctionnalisations chimiques afin d'optimiser l'adhésion cellulaire et de stabiliser le matériau : oxydation thermique, silanisation et hydrosilylation. L'adhésion, la prolifération et la différenciation osseuse ont été évaluées par microscopie à fluorescence, microscopie électronique à balayage, activité enzymatique, tests de prolifération (activité mitotique), immunofluorescence et spectroscopie FTIR. Le pSi avec des pores de 30 à 40 nm de diamètre s'est révélé être le plus approprié pour l'adhésion, la prolifération cellulaire et la différenciation ostéoblastique. De plus, la structure nanométrique et le relargage d'acide silicique par le pSi a démontré un effet positif sur l'induction osseuse et la formation d'une matrice minéralisée. Le pSi est donc apparu comme un matériau prometteur pour l'adhésion de cellules souches mésenchymateuses, que ce soit pour une transplantation immédiate in vivo ou pour expansion et différenciation in vitro. / Porous silicon (pSi) is a promising biomaterial for tissue engineering as it is both non-toxic and bioresorbable. Moreover, surface modification can offer control over the degradation rate of pSi and can also promote cell adhesion. Dental pulp stem cells (DPSC) are mesenchymal stem cells found within the teeth and constitute a readily source of stem cells. Coupling the good proliferation and differentiation capacities of DPSC with the textural and chemical properties of the pSi substrates provides an interesting approach for therapeutic use. In this thesis, the behavior of human DPSC is analyzed on pSi substrates presenting pore of various sizes, from few to hundreds nanometers. We investigated different chemical surface treatments, in order to enhance cell adhesion and stabilize the material: thermal oxidation, silanization and hydrosilylation. DPSC adhesion, proliferation and further osteodifferentiation were followed for up to 3 weeks by fluorescence microscopy, scanning electron microscopy (SEM), enzymatic activity assay, BrdU assay for mitotic activity, immunostaining and FTIR spectroscopy. Porous Silicon with pore size ranging from 30 to 40 nm was found to offer the best adhesion, the fastest growth rate for DPSC and the highest osteoinductive effect. Moreover, the pSi nanostructure and the release of silicic acid had a positive effect on precursor cells osteodifferentiation and mineralized matrix formation. Porous silicon appeared to be an appropriate biomaterial for mesenchymal stem cells adhesion and immediate in vivo transplantation, or for long term in vitro culture, for stem cells proliferation and differentiation.

Ingénierie tissulaire

Cellules souches mésenchymateuses

Silicium poreux

Adhésion cellulaire

Différenciation cellulaire

Tissue engineering

Mesenchymal stem cells

Porous silicon

Cell adhesion

Cell differentiation