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Conditional Activation and Synergistic Enhancement of Smac Mimetic Peptides with Nucleic AcidsAltrichter, Yannic 14 March 2022 (has links)
Smac-Mimetika (SMCs) sind eine Klasse von Tetrapeptid-abgeleiteten Medikamenten, die dem homodimeren, pro-apoptotischen Protein Smac nachempfunden sind. Sie binden und hemmen die Apoptose-Inhibitoren (IAPs), eine Klasse von anti-apoptotischen Proteinen, die von vielen medikamentenresistenten Krebszellen überexprimiert werden. In dieser Arbeit wurden Strategien zur Steigerung und Kontrolle der Aktivität von SMCs durch Konjugation an Oligonukleotide (ON) untersucht. ONs wie Desoxyribonukleinsäure (DNA) oder das peptidbasierte Analogon Peptidnukleinsäure (PNA) bieten einzigartige Erkennungseigenschaften, die zur Detektion und/oder zur Modulation der Expression krebsspezifischer Genprodukte genutzt werden können. Letzteres kann z. B. mit Antisense-Oligonukleotiden (ASOs) erreicht werden, kurzen einzelsträngigen DNA- oder RNA-Molekülen, die die Translation einer komplementären Zielsequenz blockieren.
Im ersten Teil der Arbeit wurden Konjugate aus SMCs und ASOs auf Synergie-Effekte getestet. Viele menschliche Krebszelllinien sind gegen SMCs resistent, weil andere anti-apoptotische Proteine wie das zelluläre FLICE-ähnliche Protein (c-FLIP) als Ausfallsicherung wirken. Es konnte gezeigt werden, dass diese Resistenz durch Kupplung eines SMC an ein anti-c-FLIP ASO überwunden werden kann. Im zweiten Teil wurden kurze ON-Sonden verwendet, um ein templiertes Reaktionssystem zur gezielten Aktivierung eines SMCs in Gegenwart von X-linked Apoptose-Inhibitor (XIAP) mRNA zu erzeugen. Es wurden zwei verschiedene Ansätze untersucht: Ein templierter Acyl-Transfer, bei dem hochaffine, bivalente SMCs aus niedrig affinen, monovalenten Vorläufern erzeugt werden und eine Demaskierung der für die Bindungsaffinität von SMCs entscheidenden, N-terminalen Aminogruppe durch templierte Reduktion eines Azids. Für die zweite Strategie wurden zwei verschiedene Reaktionen verglichen, die Staudinger-Reduktion mit Phosphinen und eine katalytische Photoreduktion mit einem Ruthenium-Komplex. / Smac mimetic compounds (SMCs) are a class of tetrapeptide-derived drugs, modelled after the homodimeric, pro-apoptotic protein Smac. They bind and antagonize Inhibitor of Apoptosis Proteins (IAPs), a class of anti-apoptotic proteins overexpressed by many drug-resistant cancer cells. In this work, strategies to enhance and control the activity of SMCs by conjugating them to oligo-nucleotides (ON) were investigated. ONs like deoxyribonucleic acid (DNA) or the peptide-based analog peptide nucleic acid (PNA) offer unique recognition properties that can be used to detect and/or modulate the expression of cancer-specific gene products. The latter can be achieved with antisense oligonucleotides (ASOs), short single-stranded DNA or RNA molecules that block the translation of a complementary sequence of interest. In the first part of this work, conjugates between SMCs and ASOs were tested for synergy. Many human cancer cell lines are resistant to SMCs because other anti-apoptotic proteins like the cellular FLICE-like protein (c-FLIP) act as a failsafe. It could be demonstrated that by joining an SMC with an anti-c-FLIP ASO this resistance can be overcome. In the second part, short ON probes were used to create a templated reaction system to conditionally activate an SMC in the presence of x-linked inhibitor of apoptosis (XIAP) mRNA. Two different approaches were explored: A templated acyl transfer that yields high affinity bivalent SMCs from low affinity, monovalent precursors and unmasking of the N-terminal amino group, which is crucial for the binding affinity of SMCs, by templated reduction of an azide. For the second strategy, two different chemistries were compared, Staudinger reduction with phosphines and a catalytic photoreduction using a ruthenium complex.
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Design, Synthesis, and Biological Evaluation of Melanocortin-1-Receptor Agonists for the Prevention of Skin CancerRUWE, ANDREW R. 24 September 2008 (has links)
No description available.
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Morfogênese de ramificações: de padrões de crescimento de redes vasculares a estruturas biomiméticas / Branching morphogenesis: from growth patterns of vascular networks to biomimicry structuresTitotto, Silvia Lenyra Meirelles Campos 07 June 2013 (has links)
Esta investigação tece relações comparativas entre padrões de crescimento de redes vasculares e argumenta que no conceito de morfogênese, analogamente à biologia, há evoluções e agrupamentos gerativos em sistemas estruturais ramificados. Para a compreensão deste agrupamento gerativo, são utilizados conceitos adjacentes à geometria fractal - estudo de estruturas rugosas, porosas ou fragmentadas, que mantém sua irregularidade em grau similar para todas as escalas. Embora os fractais sejam mais conhecidos como objetos resultantes de algoritmos matemáticos em iterações sucessivas no campo das ciências computacionais, nesta pesquisa as estruturas naturais que se aproximam de modelos de geometria fractal irregular, isto é, classificadas como fractais estatísticos, e que são encontradas em vários sistemas orgânicos e minerais, têm predominância. Pesquisam-se e coletam-se in loco imagens de padrões ramificados para início de produção de trabalhos práticos. Elas são em sua maioria fotografias de seres biológicos naturais com algum grau de ramificação, mas incluem-se também estruturas estatisticamente fractais análogas a sistemas biológicos. Esses estudos de casos de ramificações são então categorizados de acordo com padrões superficiais, colorações, estruturação corporal, funcionalidade no sistema em que atuam e interação com os demais sistemas ou seres vivos presentes num dado ecossistema. A partir de seleção de alguns organismos de acordo com sua estrutura corporal e seus movimentos característicos, são produzidas arte-instalações onde estruturas biomiméticas híbridas são criadas para responder cinética e sensorialmente a estímulos humanos, ambientais e climáticos. / This survey weaves comparative relationships among growth patterns of vascular networks and argues that, in the concept of morphogenesis, in analogy to biology, there are generative clustering and evolutions in branched structural systems. To understand this generative clustering, adjacent concepts to fractal geometry are used - the study of rough, porous or fragmented structures that keep their irregularity to a similar degree at all scales. Although fractals are better known as resulting objects of mathematical algorithms in successive iterations in the field of computer science, in this research the natural structures that approximate to models of irregular fractals, i.e., classified as statistical, and that are found in various minerals and organic systems are predominant. Images of branched patterns are researched and collected in loco for a first production of practical work. They are mostly photographs of natural biological beings with some branching level, but they also include statistical fractal structures analogous to biological systems. These branching study cases are then categorized according to surface patterns, colors, body structure, functionality in the system in which they operate and interaction with other systems or living organisms present in a given ecosystem. From the selection of a few organisms according to their characteristic movements and body structure, installation artworks are experimentally designed where hybrid biomimetic structures are created to sensory and kinetically respond to human, environmental and climate stimuli.
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Synthèse d’oligomères de mimes contraints de dipeptides pour la vectorisation intracellulaire de molécules bioactives / synthesis of constrained dipeptide mimetic oligomers for the intracellular delivery of bioactive compoundsMartin, Vincent 19 December 2014 (has links)
La synthèse d'une nouvelle famille d'oligomères de motifs contraints de dipeptides est décrite dans ce manuscrit. Les monomères utilisés sont des motifs 3(S)-amino-5-carbonylméthyl-2,3-dihydro-1,5-benzothiazépine-4(5H)-one (DBT), acide 2-aminométhyl-phényl-acétique (AMPA) et α-amino γ-lactames. La structure secondaire de ces édifices a été étudiée par spectroscopies RMN, IR, CD et RX. Nous avons montré tout d'abord que les oligomères de DBT sont capables d'adopter des structures stables et définies en ruban. En se basant sur ces structures, nous avons conçu de nouveaux systèmes beaucoup plus versatiles qui permettent de répartir diverses fonctions (basiques, acides, aromatiques) de part et d'autre de l'axe du ruban. Une stratégie de synthèse originale a été développée à cet effet. Elle consiste en la conversion directe de séquences peptidiques, incorporant des méthionines, en oligomères d'α-amino γ-lactames. Ils sont capables, au même titre que ceux de DBT, d'adopter des structures en ruban et de pénétrer dans les cellules. Enfin une étude in vivo chez la souris a montré le fort potentiel anti-tumoral d'un bioconjugué associant des oligomères d'AMPA à un inhibiteur de la Cathepsine D, enzyme lysosomale surexprimée et sécrétée par de nombreuses tumeurs solides. / The synthesis of a new type of constrained dipeptide motif oligomers is described. Monomers used are the (3S)-amino-5-(carboxylmethyl)-2,3-dihydro-1,5-benzothiazepin-4(5H)-one (DBT), the 2-aminomethyl-phenyl-acetic acid (AMPA) and α-amino γ-lactams. The secondary structure of those architectures has been studied by NMR, IR, CD and X-ray spectroscopies. Firstly, we demonstrated that DBT oligomers are able to adopt stable and well defined ribbon like structures. Based on these structures, we designed new systems, far more versatile which are able to distribute various functions (basic, acidic, aromatic) on each side of the ribbon axis. An original strategy has been developed for this purpose. It consists in the direct conversion of peptidic sequences, incorporating methionine, in α-amino γ-lactams oligomers. They are able, as the DBT, to adopt ribbon like structures and to be internalized into cells. Finally, an in vivo study in mice showed the high anti-tumoral potency of a bioconjugate linking AMPA oligomers to an inhibitor of the cathepsin D, a lysosomal enzyme overexpressed and secreted by numerous solid tumors.
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Morfogênese de ramificações: de padrões de crescimento de redes vasculares a estruturas biomiméticas / Branching morphogenesis: from growth patterns of vascular networks to biomimicry structuresSilvia Lenyra Meirelles Campos Titotto 07 June 2013 (has links)
Esta investigação tece relações comparativas entre padrões de crescimento de redes vasculares e argumenta que no conceito de morfogênese, analogamente à biologia, há evoluções e agrupamentos gerativos em sistemas estruturais ramificados. Para a compreensão deste agrupamento gerativo, são utilizados conceitos adjacentes à geometria fractal - estudo de estruturas rugosas, porosas ou fragmentadas, que mantém sua irregularidade em grau similar para todas as escalas. Embora os fractais sejam mais conhecidos como objetos resultantes de algoritmos matemáticos em iterações sucessivas no campo das ciências computacionais, nesta pesquisa as estruturas naturais que se aproximam de modelos de geometria fractal irregular, isto é, classificadas como fractais estatísticos, e que são encontradas em vários sistemas orgânicos e minerais, têm predominância. Pesquisam-se e coletam-se in loco imagens de padrões ramificados para início de produção de trabalhos práticos. Elas são em sua maioria fotografias de seres biológicos naturais com algum grau de ramificação, mas incluem-se também estruturas estatisticamente fractais análogas a sistemas biológicos. Esses estudos de casos de ramificações são então categorizados de acordo com padrões superficiais, colorações, estruturação corporal, funcionalidade no sistema em que atuam e interação com os demais sistemas ou seres vivos presentes num dado ecossistema. A partir de seleção de alguns organismos de acordo com sua estrutura corporal e seus movimentos característicos, são produzidas arte-instalações onde estruturas biomiméticas híbridas são criadas para responder cinética e sensorialmente a estímulos humanos, ambientais e climáticos. / This survey weaves comparative relationships among growth patterns of vascular networks and argues that, in the concept of morphogenesis, in analogy to biology, there are generative clustering and evolutions in branched structural systems. To understand this generative clustering, adjacent concepts to fractal geometry are used - the study of rough, porous or fragmented structures that keep their irregularity to a similar degree at all scales. Although fractals are better known as resulting objects of mathematical algorithms in successive iterations in the field of computer science, in this research the natural structures that approximate to models of irregular fractals, i.e., classified as statistical, and that are found in various minerals and organic systems are predominant. Images of branched patterns are researched and collected in loco for a first production of practical work. They are mostly photographs of natural biological beings with some branching level, but they also include statistical fractal structures analogous to biological systems. These branching study cases are then categorized according to surface patterns, colors, body structure, functionality in the system in which they operate and interaction with other systems or living organisms present in a given ecosystem. From the selection of a few organisms according to their characteristic movements and body structure, installation artworks are experimentally designed where hybrid biomimetic structures are created to sensory and kinetically respond to human, environmental and climate stimuli.
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Bone marrow niche-mimetics modulate hematopoietic stem cell function via adhesion signaling in vitroKräter, Martin 09 November 2017 (has links) (PDF)
As graft source for lymphoma or leukemia treatment, hematopoietic stem and progenitor cells (HSPCs) have been the focus of translational medicine for decades. HSPCs are defined by their self-renewing capacity and their ability to give rise to all mature blood cells. They are found anchored to a specialized microenvironment in the bone marrow (BM) called the hematopoietic niche. HSPCs can be enriched by sorting them based on the presence of the surface antigen CD34 before clinical or tissue engineering use. As these cells represent a minority in most graft sources and the amount of applicable cells is limited, ex vivo expansion-cultures were established using cytokine cocktails or small molecules. However, in vitro culture of HSPCs as suspension-cultures result in heterogeneous cell populations with undefined cellular identities. In the BM niche, HSPCs are not exclusively maintained by cytokines but also by cell-matrix adhesions mediated by integrins (ITGs). Thus, β1 and β2 ITGs were found to promote initial contact of HSPCs with mesenchymal stromal cells (MSCs) and ITGβ3 expression was shown to be a marker for long-term repopulating HSPCs in vivo. Consequently, ex vivo remodeling of the BM niche using co-cultures of HSPCs and niche cells like MSCs came into spotlight and was proven to be a promising tool for stem cell expansion. However, in clinical and research applications, direct contact of two cell populations necessitates HSPC post-culture purification. To address these problems, we established a novel culture method for remodeling the BM extra cellular stroma in vitro wherein we used decellularized extracellular matrix (ECM) scaffolds derived from immortalized mesenchymal stromal cells (SCP-1). Such scaffolds were found to be highly reproducible and served as in vitro niche for HSPCs by being more effective for the expansion of CD34+ cells, compared to classical suspension cultures. ECMs were shown to consist of multiple proteins including fibronectins, collagens, and a major niche chemokine responsible for BM homing and retention of HSPCs in vivo, namely, stromal derived factor 1 (SDF-1). SDF-1 is known to be secreted by MSCs and is anchored to matrix proteins. This reveals that ECM scaffolds produced by SCP-1 cells are a naïve reconstructed microenvironment. When CD34+ cells were seeded, only around 20% of the cells adhered to the provided ECM scaffold.
These cells recognized SDF-1 via C-X-C chemokine receptor type 4 (CXCR-4), as shown by laser scanning confocal microscopy. Thus, adhesive sides as they are present in the BM niche are provided. However, CD34+ cells isolated from G-CSF mobilized peripheral blood of healthy donors were found to be heterogenous with respect to adhesion capacity. Nonetheless, it was similar to HSPC co-cultures with SCP-1 cells as feeder layer. Therefore, we separated and analyzed two cell fractions, the adherent (AT-cells) and the non- adherent supernatant (SN-cells) cells. Other signals provided by the BM extracellular stroma to HSPCs are physical cues that control HSPC fate. HSPCs sense these physical features through focal contacts and accordingly remodel their morphological and biomechanical properties. Using real-time deformability cytometry (RT-DC) to uncover biomechanical phenotypes of freshly isolated HSPCs, SN-cells, AT-cells, and classical suspension cultured HSPCs in plastic culture dishes (PCD) were analyzed. We found freshly isolated cells to be less deformable and small.
AT-cells displayed actin polymerization to stress fibers, and exhibited a stiffer mechanical phenotype compared to PCD-cultured or SN-cells. This might constitute the first hint of functional adaptation. Integrins are known to establish mechanosensing focal contacts. Thus, we analyzed ITG surface expression and identified ITGαIIb, ITGαV, and ITGβ3 to be enriched on AT-cells compared to freshly isolated cells or SN-cells. Active integrins need to form heterodimers consisting of one α- and one β subunit. Interestingly, the identified ITGs exclusively interact with each other to form RGD peptide receptors. RGD is a tripeptide consisting of the amino acids arginine, glycine, and aspartic acid and was identified as an adhesion sequence within fibronectin and other extracellular proteins. Consequently, we could confirm an important role for ITGαVβ3 in HSPC- ECM interaction with respect to adhesion and migration. However, we also identified ITGβ3 expression on a subset of CD34+ cells either freshly isolated or ECM cultured cells, as a marker for erythrocyte differentiation. These findings demonstrate that, in vitro, the ECM compartment acts as a regulator of HSPC fate and portray mechanical recognition as a potent driver of differentiation.
In this context, targeted modulation of ECM scaffolds could enhance cell-ECM interactions and accelerate stem cell expansion or differentiation. These modulations could also provide further insights into HSPC-niche regulation. We demonstrate that ECMs derived from osteogenic differentiated SCP-1 cells increase HSPC expansion but do not lead to increased cell adhesion. As ECM adhesion preliminary alters HSPC function, we aimed at developing ECM scaffolds with increased adhesion capacity. Using lentiviral transduction, we generated a stable knock down of fibulin-1 in SCP-1 cells. Fibulin-1 is an ECM protein known to form anti-adhesion sites with fibronectin. However, we failed to increase adherent cell numbers or enhance HSPC expansion in the fibulin-1 knock down ECMs.
Taken together, SCP-1 cell-derived ECM protein scaffolds provide an in vitro niche for HSPCs capable of stem cell expansion. Integrin mediated signaling altered the biomechanical and functional properties of HSPCs and hints at suspension cultures as being inappropriate to study the physiological aspects of HSPCs. Targeted modulation of ECM scaffolds could theoretically generate suitable ex vivo environments with the capacity to gain detailed insight into HSPC regulation within their niche. This will enhance the functionality of new biomaterials and will lead to improved regenerative therapies like BM transplantation.
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Modification of transmembrane peptides to probe SNARE-induced membrane fusion and cross-presentation of membrane-buried epitopesSchirmacher, Anastasiya 11 March 2020 (has links)
No description available.
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Peptides-beta/gamma mixtes : nouveaux édifices foldamères pour mimer l'hélice-alpha / Beta/gamma-Peptide manifolds designed as alpha-helix mimeticsGrison, Claire 23 November 2015 (has links)
Cette thèse est consacrée à la synthèse et à l'étude structurale de peptides-beta/gamma, contenant en alternance des acides aminés-beta et -gamma, conçus pour mimer l'hélice-alpha (ou hélice-13), structure secondaire des protéines. Nous avons ainsi élaboré une stratégie de design « bottom-up » pour des peptides-beta/gamma devant se replier sous forme d'hélice-13. Ces peptides comportent un acide aminé-beta, le (1S,2S)-trans-2-aminocyclobutanecarboxylique, qui joue un rôle clé de brique constitutive en apportant des contraintes conformationnelles. Dans un premier temps, la synthèse énantiomériquement pure du trans-ACBC basée sur une étape clé de photocycloaddition [2+2] a été optimisée. Il a alors été possible de synthétiser des peptides-beta/gamma incorporant en alternance le trans-ACBC et le GABA, qui est un acide aminé-gamma dépourvu de toute contrainte. Des études expérimentales et théoriques fines de ces peptides-beta/gamma ont révélé une structuration inédite sous forme de rubban-9/8, en solution. Il a été démontré que ces nouveaux foldamères adoptent une forme plus ou moins courbe gouvernée par un code combinant configuration et conformation des acides aminés constitutifs de ces peptides. Dans un deuxième temps, des contraintes sur l'acide aminé-gamma ont été introduites par la préparation de peptides-beta/gamma alternant le trans-ACBC et des acides aminés-gamma4. Des études expérimentales et théoriques de ces peptides-beta/gamma en solution ont révélé une préférence conformationnelle sous forme d'hélice-13. La stabilité de cette structure hélicoïdale augmente avec la longueur de la chaîne peptidique. Ces hélices-13 sont en effet fortement stabilisées à partir de 5 liaisons hydrogènes inter-résidus. Enfin, des peptides-alpha/beta/gamma capables de mimer l'hélice-alpha du peptide p53(15-31) ont été conçus et synthétisés, afin de vérifier expérimentalement leur hélicité prédite par modélisation moléculaire. Une fois leur résistance à la dégradation protéolytique démontrée, ces peptides-alpha/beta/gamma ont été testés comme inhibiteur de l'interaction p53/hDM2. Un candidat a particulièrement été capable d'inhiber cette interaction en se liant au site naturel de fixation avec la protéine hDM2. Ce résultat illustre la réussite de notre stratégie de construction de mimes de l'hélice-alpha. / This thesis is devoted to the synthesis and the structural characterisation of beta/gamma-peptides, constructed from beta- and gamma-amino acids in alternation, designed to mimic the alpha-helix secondary structure which is present in many native proteins. The alpha-helix can be defined as a 13-helix and a bottom-up foldamer design strategy to target a 13-helical structure was examined, whereby beta/gamma-peptides were proposed in which (1S,2S)-trans-2-aminocyclobutanecarboxylic acid (trans-ACBC) was incorporated as a conformationally-restricted beta-amino acid component. The scalable synthesis of enantiomerically pure trans-ACBC using a [2+2] photocycloaddition strategy was successfully optimized. beta/gamma-Peptides incorporating trans-ACBC and GABA, the latter being the gamma-amino acid component devoid of any constraint, were then synthesised. Experimental and theoretical investigations of their solution-state folding behaviour revealed an unprecedented 9/8-ribbon foldamer structure that adopts curved shapes governed by a combined configuration-conformation code. Additional constraints on the gamma-amino acid component were then considered and beta/gamma-peptides incorporating trans-ACBC and gamma4-amino acids were synthesised. Experimental and theoretical investigations of these beta/gamma-peptides in solution unveiled a preference for 13-helix folding behaviour, which increased commensurately with the peptide chain length; robust 13-helices were stabilised by a minimum of five intramolecular hydrogen bonds. In the last part of this thesis, molecular modelling was used to design helical alpha/beta/gamma-peptides intended to reproduce as closely as possible the hot-spot residues of the known alpha-helical peptide sequence p53(15-31). These peptides were synthesised and their predicted helical folding was verified experimentally along with their resistance to proteolytic enzymes. The alpha/beta/gamma-peptides were tested as inhibitors of the p53/hDM2 interaction. One peptide was found to behave as potent inhibitor and to bind to the native peptide binding pocket of the hDM2 protein, providing a successful proof of concept of the alpha-helix mimetic design strategy.
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Bone marrow niche-mimetics modulate hematopoietic stem cell function via adhesion signaling in vitroKräter, Martin 26 October 2017 (has links)
As graft source for lymphoma or leukemia treatment, hematopoietic stem and progenitor cells (HSPCs) have been the focus of translational medicine for decades. HSPCs are defined by their self-renewing capacity and their ability to give rise to all mature blood cells. They are found anchored to a specialized microenvironment in the bone marrow (BM) called the hematopoietic niche. HSPCs can be enriched by sorting them based on the presence of the surface antigen CD34 before clinical or tissue engineering use. As these cells represent a minority in most graft sources and the amount of applicable cells is limited, ex vivo expansion-cultures were established using cytokine cocktails or small molecules. However, in vitro culture of HSPCs as suspension-cultures result in heterogeneous cell populations with undefined cellular identities. In the BM niche, HSPCs are not exclusively maintained by cytokines but also by cell-matrix adhesions mediated by integrins (ITGs). Thus, β1 and β2 ITGs were found to promote initial contact of HSPCs with mesenchymal stromal cells (MSCs) and ITGβ3 expression was shown to be a marker for long-term repopulating HSPCs in vivo. Consequently, ex vivo remodeling of the BM niche using co-cultures of HSPCs and niche cells like MSCs came into spotlight and was proven to be a promising tool for stem cell expansion. However, in clinical and research applications, direct contact of two cell populations necessitates HSPC post-culture purification. To address these problems, we established a novel culture method for remodeling the BM extra cellular stroma in vitro wherein we used decellularized extracellular matrix (ECM) scaffolds derived from immortalized mesenchymal stromal cells (SCP-1). Such scaffolds were found to be highly reproducible and served as in vitro niche for HSPCs by being more effective for the expansion of CD34+ cells, compared to classical suspension cultures. ECMs were shown to consist of multiple proteins including fibronectins, collagens, and a major niche chemokine responsible for BM homing and retention of HSPCs in vivo, namely, stromal derived factor 1 (SDF-1). SDF-1 is known to be secreted by MSCs and is anchored to matrix proteins. This reveals that ECM scaffolds produced by SCP-1 cells are a naïve reconstructed microenvironment. When CD34+ cells were seeded, only around 20% of the cells adhered to the provided ECM scaffold.
These cells recognized SDF-1 via C-X-C chemokine receptor type 4 (CXCR-4), as shown by laser scanning confocal microscopy. Thus, adhesive sides as they are present in the BM niche are provided. However, CD34+ cells isolated from G-CSF mobilized peripheral blood of healthy donors were found to be heterogenous with respect to adhesion capacity. Nonetheless, it was similar to HSPC co-cultures with SCP-1 cells as feeder layer. Therefore, we separated and analyzed two cell fractions, the adherent (AT-cells) and the non- adherent supernatant (SN-cells) cells. Other signals provided by the BM extracellular stroma to HSPCs are physical cues that control HSPC fate. HSPCs sense these physical features through focal contacts and accordingly remodel their morphological and biomechanical properties. Using real-time deformability cytometry (RT-DC) to uncover biomechanical phenotypes of freshly isolated HSPCs, SN-cells, AT-cells, and classical suspension cultured HSPCs in plastic culture dishes (PCD) were analyzed. We found freshly isolated cells to be less deformable and small.
AT-cells displayed actin polymerization to stress fibers, and exhibited a stiffer mechanical phenotype compared to PCD-cultured or SN-cells. This might constitute the first hint of functional adaptation. Integrins are known to establish mechanosensing focal contacts. Thus, we analyzed ITG surface expression and identified ITGαIIb, ITGαV, and ITGβ3 to be enriched on AT-cells compared to freshly isolated cells or SN-cells. Active integrins need to form heterodimers consisting of one α- and one β subunit. Interestingly, the identified ITGs exclusively interact with each other to form RGD peptide receptors. RGD is a tripeptide consisting of the amino acids arginine, glycine, and aspartic acid and was identified as an adhesion sequence within fibronectin and other extracellular proteins. Consequently, we could confirm an important role for ITGαVβ3 in HSPC- ECM interaction with respect to adhesion and migration. However, we also identified ITGβ3 expression on a subset of CD34+ cells either freshly isolated or ECM cultured cells, as a marker for erythrocyte differentiation. These findings demonstrate that, in vitro, the ECM compartment acts as a regulator of HSPC fate and portray mechanical recognition as a potent driver of differentiation.
In this context, targeted modulation of ECM scaffolds could enhance cell-ECM interactions and accelerate stem cell expansion or differentiation. These modulations could also provide further insights into HSPC-niche regulation. We demonstrate that ECMs derived from osteogenic differentiated SCP-1 cells increase HSPC expansion but do not lead to increased cell adhesion. As ECM adhesion preliminary alters HSPC function, we aimed at developing ECM scaffolds with increased adhesion capacity. Using lentiviral transduction, we generated a stable knock down of fibulin-1 in SCP-1 cells. Fibulin-1 is an ECM protein known to form anti-adhesion sites with fibronectin. However, we failed to increase adherent cell numbers or enhance HSPC expansion in the fibulin-1 knock down ECMs.
Taken together, SCP-1 cell-derived ECM protein scaffolds provide an in vitro niche for HSPCs capable of stem cell expansion. Integrin mediated signaling altered the biomechanical and functional properties of HSPCs and hints at suspension cultures as being inappropriate to study the physiological aspects of HSPCs. Targeted modulation of ECM scaffolds could theoretically generate suitable ex vivo environments with the capacity to gain detailed insight into HSPC regulation within their niche. This will enhance the functionality of new biomaterials and will lead to improved regenerative therapies like BM transplantation.:List of contents I
List of figures IV
List of tables VI
Abbreviations VII
1 Introduction 1
1.1 The stem cell microenvironment 3
1.1.1 The cellular endosteal bone marrow microenvironment 6
1.1.1.1 Mesenchymal stem/stromal cells 7
1.1.1.2 Hematopoietic stem and progenitor cells 8
1.1.2 Extracellular bone marrow microenvironment 10
1.1.2.1 Extracellular matrix 11
Chemokines and Cytokines 12
Cell adhesion to ECM 13
1.2 Native ex vivo ECM scaffolds 16
2 Aim of the study 19
3 Materials and methods 21
3.1 Materials 21
3.1.1 Chemicals and reagents 21
3.1.2 Kits 23
3.1.3 Media 24
3.1.4 Antibodies 24
3.1.5 Primers, sh-RNA sequences, and vectors 25
3.1.6 Equipment 26
3.1.7 Software 27
3.2 Methods 27
3.2.1 Cell preparation and culture 27
3.2.1.1 Mesenchymal stromal cells 27
3.2.1.2 Hematopoietic stem cells 28
3.2.1.3 Single cell picked clone 1 (SCP-1) cells 28
3.2.2 Generation of surface immobilized ECM preparations 29
3.2.2.1 Surface functionalization 29
3.2.2.2 ECM preparation 29
3.2.3 Flow cytometry and fluorescent activated cell sorting 30
3.2.4 Cell cycle analyses 30
3.2.5 Proliferation analyses 31
3.2.6 Colony forming unit cell assay (CFU-GEMM) 31
3.2.7 Migration assays 31
3.2.7.1 Transwell migration 31
3.2.7.2 Live cell migration 32
3.2.8 Confocal laser scanning microscopy 32
3.2.9 Real-time deformability cytometry (RT-DC) 32
3.2.10 Molecular biological methods 33
3.2.10.1 RNA isolation, reverse transcription, and PCR 33
3.2.10.2 Lentiviral shRNA transduction 34
3.2.10.3 Western blot 35
3.2.10.4 ELISA 36
3.2.11 Statistical analysis 37
4 Results 38 4.1 Extracellular matrix scaffolds for HSPCs 38
4.1.1 ECM properties 39
4.1.2 HSPC survival in ECM and PCD cultures 40
4.1.3 HSPC expansion in ECM and PCD cultures 41
4.2 HSPC morphological and mechanical adaptation to ECM 44
4.2.1 Actin polymerization and polarization 45
4.2.2 Biomechanical phenotype 46
4.3 Bioactive SDF-1 is incorporated in ECM scaffolds 49
4.3.1 CXCR4 polarization towards ECM 50
4.4 HSPC integrin expression and migration 52
4.4.1 Integrin surface expression on HSPC subsets 52
4.4.2 Focal contact formation 53
4.4.3 Integrin activation via ECM adhesion 55
4.4.4 Clonogenicity of ECM cultured HSPCs 57
4.4.5 HSPC migration when attached to ECM scaffolds 60
4.4.5.1 Reduced migratory behavior via ITGαVβ3 inhibition 61
4.4.5.2 SDF-1 induces migration but not adhesion 64
4.5 Targeted modulation of ECM scaffolds 65
4.5.1 Fibulin-1 knock down in SCP-1 cells 66
4.5.2 HSPC support of fibulin-1 reduced ECM scaffolds 70
5 Discussion 73
5.1 SCP-1 cells as a source for ECM scaffold production 74
5.2 Cell adhesion and focal contact formation 75
5.3 HSPC multilineage potential 78
5.4 ECM scaffold modulation 79
6 Summary 83
7 Zusammenfassung 86
Bibliography 89
Danksagung 108
Anlagen 110
Erklärung zur Eröffnung des Promotionsverfahrens [Formblatt 1.2.1] 110
Erklärung zur Einhaltung rechtlicher Vorschriften [Formblatt 1.1] 110
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Vývoj nanochemických nástrojů cílících receptory nádorového mikroprostředí / Development of nanochemical tools targeting receptors in the tumor microenvironmentBlažková, Kristýna January 2022 (has links)
Development of nanochemical tools targeting receptors in the tumor microenvironment Targeting the receptors in the tumor microenvironment is crucial for the future development of targeted therapies, precision medicine and immunotherapy of cancer. The options available now are, however, limited by the availability of specific ligands. The advances in the field strongly rely on the use of antibodies and genetic modifications of immune cells. Availability of small molecules targeting the receptors of interest would allow further development of alternative strategies as well as deepen our understanding of the underlying mechanisms of cancer development, progression and clearance. In the search for new small-molecule ligands and their use for receptor targeting, the prostate-specific membrane antigen (PSMA) and the immune receptors CD3 and CD64 were selected as model targets. The selected method - the phage display of bicyclic peptides - utilizes chemical modification of the displayed three-cysteine peptides to achieve their cyclization and formation of bicycles. The panning of a peptide library displayed on the phages and probed with PSMA revealed a reproducibly-selected amino acid sequence. Interestingly, the phage clone carrying this sequence was a specific binder of PSMA, but the synthesized peptide alone...
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