Angiopoetin-1 im Kontext von EPCs-vermittelter Nephroprotektion nach akuter renaler Ischämie / Angiopoietin-1 in the context of endothelial progenitor cells mediated Nephroprotection after acute renal ischemic

Idrizi, Nazif

25 July 2017

No description available.

610

Angiopoietin-1; EPCs; AKI

Medizin (PPN619874732)

Thérapie génique de l'angiogenèse tumorale ciblée par des cellules endothéliales immatures / Cell-mediated gene therapy based on endothelial precursor cells to target tumor angiogenesis

Collet, Guillaume

17 December 2012

Les facteurs de croissance endothéliaux (VEGFs) sont produits par les tumeurs qui sont hypoxiques. Principaux responsables de la néo-vascularisation pathologique, ils régulent le stroma tumoral. Les nouvelles stratégies qui ciblent et inhibent le VEGF ouvrent vers la thérapie anti-cancéreuse moderne. Elles ont pour but de contrôler l’angiogenèse tumorale plutôt que la détruire. Le défi est donc de piéger sélectivement le VEGF produit en excès, dans le microenvironnement tumoral, sous l’effet de l’hypoxie. La thèse présentée dans ce manuscrit est consacrée à la réalisation d’une nouvelle stratégie ciblante par l’intermédiaire de cellules, aussi appelée « Cheval de Troie ». Elle combine dans la même entité, une unité de ciblage et un système de délivrance spécifique d’un gène/molécule thérapeutique. Dans le but d’adresser la thérapie aux cellules cancéreuses sans affecter les cellules saines, un modèle de cellules endothéliales de type précurseur (CEPs) a été utilisé comme cellules ciblantes capables d’atteindre spécifiquement le site tumoral. Les CEPs ont été « armées » pour exprimer un gène thérapeutique chargé d’inhiber le VEGF. La neutralisation a été obtenue par la production d’une forme soluble du récepteur-2 du VEGF (VEGFR2 soluble), agissant comme inhibiteur. Caractéristique des tumeurs solides se développant, l’hypoxie a été choisie pour déclencher/éteindre l’expression et la sécrétion du VEGFR2 soluble, en introduisant, en amont du gène thérapeutique, une séquence régulatrice : HRE. Adressé au site tumoral par les CEPs, le régulateur de l’angiogenèse qu’est la forme soluble du VEGFR2, est exprimé de manière conditionnée et réversible, à l’hypoxie. Ceci ouvre à de nouvelles stratégies de normalisation contrôlée et stable des vaisseaux tumoraux en vue de l’utilisation de thérapies combinées. / Vascular endothelial growth factors (VEGFs) are over-expressed upon hypoxia in solid tumors. Major actors directing pathologic neo-vascularisation, they regulate the stromal reaction. Novel strategies that target and inhibit VEGF bring promise to modern anti-cancer therapies. They aim to control rather than destroy tumor angiogenesis. Consequently, the challenge is to selectively trap VEGFs, over-produced upon hypoxia, in the tumor microenvironment. The thesis presented in this manuscript focuses on the design of a novel cell-based targeting strategy, so-called “Trojan Horse”, combining in the same engineered entity, a targeting unit and a specific drug/gene delivery system. Aiming to address the therapy to cancer cells without affecting healthy cells, a model of endothelial precursor cell (EPCs) was used as targeting cell able to reach specifically the tumor site. EPCs were “armed” to express a therapeutic gene to inhibit VEGF. Trapping was attempted based on the production of a soluble form of the VEGF receptor-2 (sVEGFR2) as a candidate inhibitor. Hypoxia, a hallmark of developing solid tumors, was chosen to turn on/off the sVEGFR2 expression and secretion by introducing, upstream of the therapeutic gene, a hypoxia response element (HRE) regulating sequence. Properly addressed by the EPCs to the tumor site, such angiogenesis regulator as the soluble form of VEGFR2 is, was chosen to be expressed in a hypoxia-conditioned and reversible manner. This opens new strategies for a stably controlled normalization of tumor vessels in view of adjuvant design for combined therapies.

Angiogenèse tumoral

Hypoxie

Ciblage des EPCs

Normalisation

Piège à VEGF

Tumor angiogenesis

Hypoxia

EPCs targeting

Normalization

VEGF-trap

Loss of vascular homeostasis with age : correlation of structural changes in endothelial glycosaminoglycans with endothelial progenitor cell function

Williamson, Kate

January 2012

Ageing poses one of the largest risk factors for the development of cardiovascular disease (CVD). The increased propensity towards vascular pathology with advancing age maybe explained, in part, by a reduction in the ability of circulating endothelial progenitor cells (EPCs) to contribute to vascular repair and regeneration. Among all current putative EPC populations, outgrowth endothelial cells (OECs) display the most features consistent with a human postnatal vasculogenic cell. Cell-surface heparan sulfate (HS) proteoglycans, by virtue of specific sulfated domains within the glycosaminoglycan chain, are able to bind and modulate the activities of a variety of proteins important for EPC mobilisation, homing and function at sites requiring neovascularization. This study aimed to determine if human OEC function is impaired with age, and to ascertain whether this is accompanied by changes in the fine structure of OEC HS.Using in vitro cell culture methods, OECs were isolated from healthy subjects across an age range and cell phenotype was verified by the demonstration of numerous endothelial, but not hematopoietic, cell characteristics. The functional capacity of peripheral blood derived OECs from young and old subjects, and comparative cord blood derived OECs, was assessed in terms of their susceptibility to apoptosis, proliferative, migratory and tube-forming capabilities. In vitro scratch and transwell migration assays revealed that the migratory capacity of peripheral blood derived OECs isolated from old subjects was impaired in comparison to those from young subjects and cord blood derived OECs. Structural analysis of HS by high performance liquid chromatography (HPLC) demonstrated a significant reduction in the relative percentage of the trisulfated disaccharide, 2-O-sulfated-uronic acid, N, 6-O-sulfated-glucosamine (UA[2S]-GlcNS[6S]), within OEC HS with age (r = -0.847, p=<0.01). Moreover, a decline in the migratory response of OECs towards a gradient of VEGF significantly correlated with the percentage expression of this disaccharide (r = 0.840, p<0.01). Disruption of cell surface HS by pre-treatment with heparinase I and III was found to significantly reduce the VEGF-induced migratory response of peripheral blood derived OECs isolated from young subjects to levels similar to that observed for OECs from older individuals. Understanding the role of HS in regulating the directional migration of EPCs to sites requiring neovascularization and developing approaches to facilitate EPC migration may aid in the design of more successful strategies to optimise the regenerative capacity of these cells in the ageing vasculature.

616.1

Co-transplantation of Endothelial Progenitor Cells and Neural Progenitor Cells for Treating Ischemic Stroke in a Mouse Model

Wang, Jinju

22 August 2016

No description available.

Molecular Biology

Neurobiology

Vaskuläres Regenerationspotential im Muskel und endotheliale Vorläuferzellen im Blut bei Patienten mit Myositis / Vascular Regeneration Potential in Muscle and Endothelial Progenitor Cells in Blood of Patients with Myositis

Lemmer, Dana

06 June 2018

No description available.

610

myositis

endothelial progenitor cells

EPCs

idiopathic inflammatory myopathy

dermatomyositis

polymyositis

necrotizing myopathy

Rheumatologie (PPN619875887)

The Modulatory Role of Circulating Microvesicles in Endothelial Progenitor Cell Function Is Altered in T2DM.

Ammar, Hala Mustafa

30 May 2014

No description available.

Pharmacology

Toxicology

Medicine

Analyse organoprotektiver Effekte der renalen Denervation zur Behandlung therapierefraktärer arterieller Hypertonie / Analysis of organoprotective effects of renal denervation as a treatment of therapy-resistant hypertension

Bonss, Martina Rita Monika

30 April 2019

No description available.

610

renale Denervation

organoprotektive Effekte

endotheliale Progenitorzellen (EPCs)

sympathische Überaktivität

therapy-resistant hypertension

renal denervation

organoprotective effects

endothelial progenitor cells (EPCs)

sympathetic overactivity

Medizin (PPN619874732)

Thromboresistant and rapid-endothelialization effects of dopamine and staphylococcal protein A mediated anti-CD34 coating on 316L stainless steel for cardiovascular devices

Chen, Jialong, Li, Quanli, Xu, Jianguang, Zhang, Le, Maitz, Manfred F., Li, Jun

07 January 2020

There is convincing evidence in vivo that the vascular homing of endothelial progenitor cells (EPCs) contributes to rapid endothelial regeneration, which could prevent thrombosis and restenosis of cardiovascular devices. To enhance the EPC homing on cardiovascular devices, immobilization of an EPC capture agent (e.g. an anti-CD34 antibody) on the surface of cardiovascular devices is critical. We describe a way of immobilizing anti-CD34 Ab on 316L Stainless Steel (316L SS). For this, surface modification of 316L SS was performed via self-polymerization of dopamine (DA) and covalent grafting of staphylococcal protein A (SPA). On this coating the anti-CD34 Abs were oriented immobilized through their Fc constant region with SPA. In this process, the results of quartz crystal microbalance, X-ray photoelectron spectroscopy and water contact angle studies indicate that DA, SPA and anti-CD34 Ab were successfully immobilized onto the surface step by step. In vitro blood-compatibility tests confirmed that the modified surface induced less pro-coagulant fibrinogen denaturation, less platelet adhesion and lower activation of the adherent platelets. The affinity of EPCs for the modified surface has been demonstrated under flow conditions. This study provides potential applications for cardiovascular implant materials.

info:eu-repo/classification/ddc/540

ddc:540

info:eu-repo/classification/ddc/570

ddc:570

info:eu-repo/classification/ddc/610

ddc:610

Thérapie génique de l'angiogenèse tumorale ciblée par des cellules endothéliales immatures

Collet, Guillaume

17 December 2012

Les facteurs de croissance endothéliaux (VEGFs) sont produits par les tumeurs qui sont hypoxiques. Principaux responsables de la néo-vascularisation pathologique, ils régulent le stroma tumoral. Les nouvelles stratégies qui ciblent et inhibent le VEGF ouvrent vers la thérapie anti-cancéreuse moderne. Elles ont pour but de contrôler l'angiogenèse tumorale plutôt que la détruire. Le défi est donc de piéger sélectivement le VEGF produit en excès, dans le microenvironnement tumoral, sous l'effet de l'hypoxie. La thèse présentée dans ce manuscrit est consacrée à la réalisation d'une nouvelle stratégie ciblante par l'intermédiaire de cellules, aussi appelée " Cheval de Troie ". Elle combine dans la même entité, une unité de ciblage et un système de délivrance spécifique d'un gène/molécule thérapeutique. Dans le but d'adresser la thérapie aux cellules cancéreuses sans affecter les cellules saines, un modèle de cellules endothéliales de type précurseur (CEPs) a été utilisé comme cellules ciblantes capables d'atteindre spécifiquement le site tumoral. Les CEPs ont été " armées " pour exprimer un gène thérapeutique chargé d'inhiber le VEGF. La neutralisation a été obtenue par la production d'une forme soluble du récepteur-2 du VEGF (VEGFR2 soluble), agissant comme inhibiteur. Caractéristique des tumeurs solides se développant, l'hypoxie a été choisie pour déclencher/éteindre l'expression et la sécrétion du VEGFR2 soluble, en introduisant, en amont du gène thérapeutique, une séquence régulatrice : HRE. Adressé au site tumoral par les CEPs, le régulateur de l'angiogenèse qu'est la forme soluble du VEGFR2, est exprimé de manière conditionnée et réversible, à l'hypoxie. Ceci ouvre à de nouvelles stratégies de normalisation contrôlée et stable des vaisseaux tumoraux en vue de l'utilisation de thérapies combinées.

Angiogenèse tumoral

Hypoxie

Ciblage des EPCs

Normalisation

Piège à VEGF

Role of Stromal Cell-Derived Factor-1 in Neoangiogenesis in Endometriosis Lesions

VIRANI, SOPHIA

22 December 2011

Endometriosis affects 5-10% of women and is characterized by the growth of endometrial tissue outside of the uterus. Treatment for endometriosis primarily focuses on symptom relief, is short term with severe side effects and often leads to recurrence of the condition. Establishing new blood supply is a fundamental requirement for endometriosis lesions growth. This has led to the idea that antiangiogenic therapy may be a successful approach for inhibiting endometriosis. Recent evidence indicates that endothelial progenitor cells (EPCs) contribute to neoangiogenesis of endometriotic lesions. These EPCs are recruited to the lesion site by stromal cell-derived factor-1 (SDF-1). We hypothesize that SDF-1 is central to the neoangiogenesis and survival of endometriotic lesions and that administration of SDF-1 blocking antibody will inhibit lesion growth by inhibiting angiogenesis in a murine model of endometriosis. Immunohistochemistry for SDF-1 and CD34 was performed on human endometriosis and normal endometrial samples. Quantification of SDF-1 and EPCs was performed in the blood of endometriosis patients and controls using ELISA and flow cytometry, respectively. A new mouse model of endometriosis was developed using BALB/c-Rag2-/-/IL2rg-/- mice to investigate role of SDF-1 in neoangiogenesis. Either SDF-1 blocking antibody or an isotype control was administered on a weekly basis for four weeks. Weekly samples of peripheral blood from mice were analyzed for SDF-1, other cytokines of interest and EPCs. Mice were euthanized at seven weeks to observe lesion growth and blood vessel development. Our results indicate overabundance of SDF-1 and CD34+ progenitor cells in human endometriotic lesions compared to eutopic endometrium. In the mouse model, SDF-1 and circulating EPC levels decreased from pre-treatment levels after one week, and remained constant over the course of the treatment in both SDF-1 blocking antibody and isotype control groups. In the SDF-1 blocking group, reduced vascularity of lesions, identified by immunofluorescence staining for CD31, was revealed compared to isotype controls. These findings suggest that SDF-1 may be responsible for CD34+ progenitor cell recruitment to the neoangiogenic sites in endometriosis. Blocking of SDF-1 reduces neovascularization of human endometriotic lesions in a mouse model. Further studies on blocking SDF-1 in combination with other antiangiogenic agents are needed. / Thesis (Master, Anatomy & Cell Biology) -- Queen's University, 2011-12-21 19:34:43.054

endothelial progenitor cells

EPCs

endometriosis

endometrium

mouse model of endometriosis

stromal cell-derived factor-1

cEPCs

circulating endothelial progenitor cells

SDF-1

angiogenesis