Global ETD Search

11	Role of the SDF-1/CXCR4/eNOS Signaling Pathway in Chronic Kidney Disease Chen, Li-Hao (Henry) 21 November 2012 (has links) Loss of the renal microvasculature is a common feature of almost all forms of chronic kidney disease (CKD). Here we explored the role of the angiogenic chemokine stromal cell-derived factor-1-alpha (SDF-1) and its cognate receptor CXCR4 in experimental and human CKD. CXCR4 was present on endothelial cells and podocytes, while SDF-1 was detectable on podocytes, arteriolar smooth muscle cells, interstitial fibroblasts and occasional endothelial cells. CXCR4 mRNA was elevated in the kidneys of rats with CKD and chronic antagonism of CXCR4 accelerated renal decline and capillary loss. Acute SDF-1 infusion activated glomerular endothelial nitric oxide synthase (eNOS) in vivo, while functional response to SDF-1 was impaired in glomerular endothelial cells derived from eNOS-/- mice. Finally, CXCR4 mRNA was also found to be increased in biopsies of patients with secondary focal segmental glomerulosclerosis. These observations indicate that local eNOS-dependent SDF-1/CXCR4 signaling exerts a compensatory reno-protective effect in the setting of CKD. chronic kidney disease SDF-1 CXCR4 eNOS nephrology focal and segmental glomerulosclerosis 0306 0307 0379 0566
12	Role of the SDF-1/CXCR4/eNOS Signaling Pathway in Chronic Kidney Disease Chen, Li-Hao (Henry) 21 November 2012 (has links) Loss of the renal microvasculature is a common feature of almost all forms of chronic kidney disease (CKD). Here we explored the role of the angiogenic chemokine stromal cell-derived factor-1-alpha (SDF-1) and its cognate receptor CXCR4 in experimental and human CKD. CXCR4 was present on endothelial cells and podocytes, while SDF-1 was detectable on podocytes, arteriolar smooth muscle cells, interstitial fibroblasts and occasional endothelial cells. CXCR4 mRNA was elevated in the kidneys of rats with CKD and chronic antagonism of CXCR4 accelerated renal decline and capillary loss. Acute SDF-1 infusion activated glomerular endothelial nitric oxide synthase (eNOS) in vivo, while functional response to SDF-1 was impaired in glomerular endothelial cells derived from eNOS-/- mice. Finally, CXCR4 mRNA was also found to be increased in biopsies of patients with secondary focal segmental glomerulosclerosis. These observations indicate that local eNOS-dependent SDF-1/CXCR4 signaling exerts a compensatory reno-protective effect in the setting of CKD. chronic kidney disease SDF-1 CXCR4 eNOS nephrology focal and segmental glomerulosclerosis 0306 0307 0379 0566
13	Bone Marrow Targeted Liposomal Drug Delivery Systems Baki, Mert 01 June 2011 (has links) (PDF) Homing is the process that stem cells move to their own stem cell niches under the influence of chemokines like stromal-derived factor-1&alpha / (SDF-1&alpha / ) upon bone marrow transplantation (BMT). There is a need for increasing homing efficiency after BMT since only 10-15% of the transplanted cells can home to their own niches and a limited amount of donor marrow can be transplanted. In this study, we aimed to develop and characterize bone marrow targeted liposomal SDF-1&alpha / delivery system prepared by extrusion method. Alendronate conjugation was chosen to target the liposomes to bone marrow microenvironment, particularly the endosteal niche. Optimization studies were conducted with the model protein ( QD Polymers, Macromolecules 380-388 , alendronate.
14	SDF-1/IGF-1 conjugated to a PEGylated fibrin matrix as a treatment for an ischemia reperfusion injury in skeletal muscle repair Pham, Chantal Bich Phuong 26 April 2013 (has links) Ischemia/reperfusion (I/R) injury causes extensive damage to skeletal muscle, often resulting in prolonged functional deficits. This current study determines the efficacy of controlled release of SDF-1α and IGF-1 by conjugation to biodegradable, polyethylene glycol, (PEG)ylated fibrin gel matrix in skeletal muscle repair of an I/R injury. Male Sprague-Dawley rats underwent a 2-hour tourniquet induced I/R injury on their hind limbs. Twenty-four hours post injury the following treatments were administered: PEGylated fibrin gel (PEG-Fib), SDF-1 conjugated PEGylated fibrin gel (PEG-Fib/SDF-1), or dual protein IGF-1 and SDF-1 conjugated PEGylated fibrin gel (PEG-Fibrin/SDF-1/IGF-1. Following 14 days after injury, functional and histological evaluations were performed. There was no significant difference in maximum tetanic force production recovery between PEG-Fib and PEG-Fib/SDF-1 groups. However, PEG-Fib/SDF-1/IGF-1 group resulted in significant improvement of force production relative to the other treatment groups. The same results were found for specific tension. Histological analysis revealed a greater distribution of small myofibers in the PEG-Fib/SDF-1 group than the PEG-Fib group, while the PEG-Fib/SDF-1/IGF-1 group had the smallest distribution of small fibers and similar to controls (uninjured). There were also a greater number of centrally located nuclei in the PEG-Fib/SDF-1 group than the PEG-Fib group, while the PEG-Fib/SDF-1/IGF-1 group had similar values to controls. Although these results confirm the protective role of exogenous IGF-1, SDF-1 did not have an effect on skeletal muscle repair. / text Regenerative medicine Muscle regeneration Tourniquet PEGylated fibrin PEG IGF-1 SDF-1
15	Molecular Mechanisms of E. coli Shiga Toxin Pathogenesis Petruzziello, Tania Nadia 31 August 2012 (has links) Shiga toxin-producing E. coli (STEC) comprise a group of pathogenic organisms that elaborate a family of protein exotoxins known as Shiga toxins (Stxs). Intestinal infection with these organisms may lead to hemorrhagic colitis and hemolytic uremic syndrome, a life-threatening condition characterized by thrombocytopenia, non-immune hemolytic anemia, and acute renal failure. Vascular endothelial damage is believed to be a key initiating event in Stx-mediated diseases. At the molecular level, these toxins depurinate human 28S rRNA and inhibit translation. In addition, at concentrations that only minimally affect global protein synthesis, they have been found to alter expression of specific target genes. To better understand the endothelial damage induced by Stx, we investigated the global effects of Stx on endothelial gene expression, and defined a specific group of genes whose expression was altered by the toxin. Of interest, the CXCR4/CXCR7/SDF-1 chemokine pathway, a pathway central to vascular biology, was activated by Stx. In vitro studies demonstrated that Stx enhanced both transcript levels of these molecules, as well as their association with ribosomes. To define the relevance of these findings in vivo, a mouse model was established and key changes were noted in plasma and tissue content of CXCR4/CXCR7/SDF-1 following Stx exposure. Inhibition of CXCR4/SDF-1 interaction decreased indices of endothelial activation and organ injury and improved animal survival. Importantly, in children infected with E. coli O157:H7, plasma SDF-1 levels were significantly elevated in individuals who progressed to hemolytic uremic syndrome. A second pathway critical to endothelial health and function is VEGF signaling. Of interest, our endothelial gene expression analyses revealed changes in this pathway in vitro. VEGF mRNA association with cellular polyribosomes increased following Stx treatment. Further studies in vivo demonstrated decreased cardiac function and blood pressure, and increased vascular permeability in specific tissues. VEGF, an important inducer of vascular permeability, increased in mouse plasma. Additionally, altered mRNA expression was observed in key organs, such as the kidney and heart, following Stx challenge. Inhibition of VEGF significantly improved survival of animals treated with Stx, indicating that VEGF plays a role in Stx-mediated pathogenesis. Moreover, in vitro studies demonstrated that Stx-mediated endothelial permeability was attenuated in the presence of a VEGF inhibitor. Taken together, these data indicate that E. coli-derived Stxs induce pathological changes in two pathways key to vascular biology. These pathways represent novel targets for the development of preventative and therapeutic strategies for complications associated with Shiga toxin-producing E. coli infection. Shiga toxin endothelium CXCR4 VEGF SDF-1 O157:H7 E. coli 0307 0410 0566
16	Molecular Mechanisms of E. coli Shiga Toxin Pathogenesis Petruzziello, Tania Nadia 31 August 2012 (has links) Shiga toxin-producing E. coli (STEC) comprise a group of pathogenic organisms that elaborate a family of protein exotoxins known as Shiga toxins (Stxs). Intestinal infection with these organisms may lead to hemorrhagic colitis and hemolytic uremic syndrome, a life-threatening condition characterized by thrombocytopenia, non-immune hemolytic anemia, and acute renal failure. Vascular endothelial damage is believed to be a key initiating event in Stx-mediated diseases. At the molecular level, these toxins depurinate human 28S rRNA and inhibit translation. In addition, at concentrations that only minimally affect global protein synthesis, they have been found to alter expression of specific target genes. To better understand the endothelial damage induced by Stx, we investigated the global effects of Stx on endothelial gene expression, and defined a specific group of genes whose expression was altered by the toxin. Of interest, the CXCR4/CXCR7/SDF-1 chemokine pathway, a pathway central to vascular biology, was activated by Stx. In vitro studies demonstrated that Stx enhanced both transcript levels of these molecules, as well as their association with ribosomes. To define the relevance of these findings in vivo, a mouse model was established and key changes were noted in plasma and tissue content of CXCR4/CXCR7/SDF-1 following Stx exposure. Inhibition of CXCR4/SDF-1 interaction decreased indices of endothelial activation and organ injury and improved animal survival. Importantly, in children infected with E. coli O157:H7, plasma SDF-1 levels were significantly elevated in individuals who progressed to hemolytic uremic syndrome. A second pathway critical to endothelial health and function is VEGF signaling. Of interest, our endothelial gene expression analyses revealed changes in this pathway in vitro. VEGF mRNA association with cellular polyribosomes increased following Stx treatment. Further studies in vivo demonstrated decreased cardiac function and blood pressure, and increased vascular permeability in specific tissues. VEGF, an important inducer of vascular permeability, increased in mouse plasma. Additionally, altered mRNA expression was observed in key organs, such as the kidney and heart, following Stx challenge. Inhibition of VEGF significantly improved survival of animals treated with Stx, indicating that VEGF plays a role in Stx-mediated pathogenesis. Moreover, in vitro studies demonstrated that Stx-mediated endothelial permeability was attenuated in the presence of a VEGF inhibitor. Taken together, these data indicate that E. coli-derived Stxs induce pathological changes in two pathways key to vascular biology. These pathways represent novel targets for the development of preventative and therapeutic strategies for complications associated with Shiga toxin-producing E. coli infection. Shiga toxin endothelium CXCR4 VEGF SDF-1 O157:H7 E. coli 0307 0410 0566
17	A Study of Breast Cancer Cell Adhesion to Endothelium in Response to Cytokine Stimulus Henson, Karissa A. 26 July 2010 (has links) No description available. Biomedical Research Breast Cancer Cancer Stem Cells Metastasis E-selectin Cell Adhesion SDF-1 TGF-beta
18	Mecanismos moleculares da ação dos glicocorticóides endógenos e da anexina-A1 sobre o tráfego de neutrófilos: caracterização da ação sobre os eixos SDF-1α/CXCR4 e IL-17/IL-23/G-CSF / Molecular mechanisms of endogenous glucocorticoid and annexin-a1 actions on neutrophil traffic: characterization of this action on the SDF-1α/CXCR4 e IL-17/IL23/G-CSF axis Machado, Isabel Daufenback 17 December 2013 (has links) O tráfego de leucócitos é um processo complexo, dependente da ação de inúmeras substâncias químicas, além da perfeita interação celular. Desta forma, este estudo teve como objetivo avaliar a ação dos GCe e da ANXA1 sobre o eixo SDF-1α/CXCR4 e IL-17/IL-23/G-CSF e sobre a expressão de moléculas de adesão CD18, CD49d e CD62L. Foram utilizados camundongos machos Balb/C selvagens (WT) ou ANXA1-/-. As avaliações foram realizadas em condições basais, na presença de altas concentrações de GCe e na vigência de processo inflamatório, induzidos pela administração de ACTH (5 µg/animal, i.p.) ou pela injeção de LPS (100 µg/kg, i.p.), respectivamente, ou na ausência da ação dos GCe, pela ação do RU 38486 (RU, 10 mg/kg, i.p.). A participação da ANXA1 e do receptor FPR2 foi avaliada pelo pré-tratamento com Ac2-26 (1 mg/Kg, i.p.) ou com BOC2 (10 µg/animal, i.p.) durante 4 dias, 1 vez ao dia. A quantificação total e diferencial das células foi realizada em câmara de Neubauer e em esfregaços corados por May-Grunwald ou citometria de fluxo. As quantificações de CXCR2, CXCR4, FPR2, CD18, CD49d, CD62L e maturação granulocítica (CD11b/Ly6G) em células da medula e da circulação foram realizadas por citometria de fluxo. A expressão de ANXA1 nos tecidos do estomago e do baço foi realizada por western blotting e nas células da medula óssea e sangue circulante foi realizada por imunofluorescência. As quantificações de IL-17, IL-23, G-CSF, SDF-1α e corticosterona foram realizadas por ELISA. A quimiotaxia de neutrófilos da medula óssea e sangue periférico foi ensaiada na placa de quimiotaxia com filtro de poro de 8 µm. A fagocitose de neutrófilos apoptóticos por macrófagos da medula óssea foi avaliada por ensaio in vitro. Para verificar os efeitos do ACTH na migração de neutrófilos no processo inflamatório, foi empregado o modelo de bolsa de ar (100 µg/mL; LPS); e o comportamento dos leucócitos circulantes de animais tratados com ACTH foi avaliado pela técnica de microscopia intravital. Os resultados obtidos, que estão apresentados em quatro temáticas, mostraram que: 1) neutrófilos da medula óssea e sangue periférico expressam ANXA1 no citoplasma e membrana, bem como o receptor FPR2, constitutivamente, e a expressão de ambos é regulada pelos GCe. A ANXA1, via receptor FPR2 expresso em células da medula óssea, controlam a maturação neutrofílica e o tráfego destas células da medula óssea para o sangue. A ANXA1, via interação ao FPR2, controla o clearance de neutrófilos do sangue para a medula óssea, modulando o eixo SDF-1α/CXCR4; 2) A administração do ACTH causa neutrofilia e os neutrófilos circulantes são ANXA1+, CD18+, CD49d+, CD62L+, mostrando que injeção do ACTH in vivo altera o fenótipo destas células na circulação. Estas modificações alteram o comportamento dos neutrófilos na circulação, bem como a migração para a bolsa de ar na vigência de inflamação e para os tecidos de clearance. Estes efeitos podem ser dependentes, pelo menos em parte, da inibição de migração orientada, já que quimiotaxia frente ao fMLP ou ao SDF-1α estavam reduzidas. Ainda, o clearance de neutrófilos é reduzido em animais tratados com o ACTH pela menor atividade fagocítica e secretora dos macrófagos medulares; 3) Animais tratados com RU 38486 e ANXA1-/- mobilizam granulócitos da medula óssea para o sangue circulante e, deste compartimento para o foco de inflamação com maior intensidade que o observado em animais controles. O eixo IL-17/IL-23/G-CSF parece estar envolvido na granulopoiese e na mobilização de neutrófilos para o sangue durante a inflamação, mas não é alvo de ação da ANXA1 e o GCe nesta etapa do processo inflamatório. Adicionalmente, foi observado que na vigência de peritonite, as moléculas de adesão, CD49d e CD62L estão envolvidas no processo de migração de neutrófilos da medula óssea para o sangue. Os resultados aqui obtidos permitem concluir que os GCe e a ANXA1 são relevantes para granulopoiese e tráfego dos neutrófilos da medula óssea em condições fisiológicas e na vigência de processo inflamatório. Ainda, em conjunto com os dados da literatura, os nossos resultados podem sugerir a participação da ANXA1 dos GCe na plasticidade fenotípica dos neutrófilos de acordo com os estímulos a que são submetidos, e podem auxiliar na compreensão dos novos conceitos sobre a produção, tempo de vida, localização e funções de neutrófilos. / The traffic leukocytes is a complex process dependent on the action of severals chemical mediators, in addition to perfect cell interaction. Therefore, this study aimed to evaluate the effect of GCe and ANXA1 on SDF-1α/CXCR4 and IL-17/IL-23/G-CSF and on the expression of adhesion molecules CD18, CD49d and CD62L. Balb/C wild type and ANXA1-/- male mice were employed. The analysis were performed at physiological conditions, in the presence of high concentrations of GCe and during of inflammatory process induced by ACTH administration (5 µg/animal, i.p.) or LPS injection (100 µg/kg, i.p.), respectively or in the absence of GCe action, by the action of RU 38486 (RU, 10 mg/kg , i.p.). The involvement of the receptor FPR2 and ANXA1 was assessed by pre-treatment with Ac2-26 (1 mg/kg, i.p.) or BOC2 (10 µg/animal, i.p.) for 4 days, once a day. The quantification of total and differential cell was performed in a Neubauer chamber and stained smears by May-Grunwald and flow cytometry. Quantification of expression of CXCR2, CXCR4, FPR2, CD18, CD49d, CD62L and granulocytic maturation (CD11b/Ly6G) in the bone marrow and circulation were performed by flow cytometry. The expression of ANXA1 on tissues was performed by western blotting and on cells from bone marrow and blood by immunocytochemistry. Quantification of IL-17, IL-23, G-CSF, SDF-1α and corticosterone were performed by ELISA. The chemotaxis of neutrophils from the bone marrow and blood was tested in the chemotaxis chamber with filter pore of 8 microns. The phagocytosis of apoptotic neutrophils by bone marrow macrophages was assessed by in vitro assay. To investigate the effects of ACTH in the migration of neutrophils in the inflammatory process, the model employed was air pouch (100 µg/ ml, LPS), and the behavior of circulating leukocytes from animals treated with ACTH were evaluated by intravital microscopy. The results obtained, which are presented in three sections, showed that: 1) neutrophils from the bone marrow and blood expressed ANXA1 in the cytoplasm and membrane, as well as FPR2, constitutively and the expression of both is regulated by GCe. The ANXA1 via FPR2 receptor expressed in bone marrow cells, controls the neutrophilic maturation and traffic of these cells from the bone marrow into the blood. The ANXA1 via interaction to FPR2 controls the clearance of neutrophils from the blood to the bone marrow by modulating the SDF-1α/CXCR4 axis; 2) the administration of ACTH induces neutrophilia and the circulating neutrophils are ANXA1+, CD18+, CD49d+ and CD62L+, showing that the injection of ACTH in vivo alters the phenotype of these cells in the blood. These modifications alter the behavior of neutrophils in the blood, as well as the migration to the air pouch in the presence of inflammation and to the tissue clearance, and these effects may be dependent, at least in part, on inhibition of migration oriented events, as chemotaxis in response to fMLP or SDF-1α were reduced. Further, the clearance of neutrophils is reduced in animals treated with ACTH due to the lower phagocytic and secretory activity of medullary macrophages; 3) Animals treated with RU 38486 and ANXA1-/- mobilize granulocytes from bone marrow into the blood, and from this compartment to the focus of inflammation with higher intensity than that observed in the control group. The axis IL-17/IL-23/G-CSF seems to be involved in granulopoiesis and mobilization of neutrophils into the blood during inflammation, but it is not the target of action of ANXA1 and GCe at this step of inflammatory process. Additionally, it was observed that in the presence of peritonitis, the adhesion molecules, CD49d and CD62L are involved in the migration of neutrophils from the bone marrow into the blood. The results obtained allow concluding that the GCe and ANXA1 are relevant to the granulopoiesis and the traffic of neutrophils from bone marrow under physiological conditions and in the presence of inflammation. Furthermore, together with literature data, the data presented here may suggest the involvement of ANXA1 the GCe in phenotypic plasticity of neutrophils according to the stimuli that are submitted, and may support to understand the new concepts of production, half-life, location and function of neutrophils. ACTH ACTH Adhesion molecules Anexina-A1 Annexin-A1 Endogenous glucocorticoids Glicocorticóides endógenos IL-17/IL-23/G-CSF IL-17/IL-23/G-CSF axis Moléculas de adesão Neutrófilo Neutrophils SDF-1α/CXCR4 SDF-1α/CXCR4 axis
19	Characterization of stromal cell-derived factor-1 (SDF-1) and glycoprotein nmb (GPNMB) in cardiac pathophysiology Mühlstedt, Silke 08 February 2013 (has links) Ischämische Herzerkrankungen stellen die weltweit häufigste Todesursache dar. Das Chemokin SDF-1 zählt zu den vielversprechendsten neuen Therapietargets. Allerdings werden die dem SDF-1 Effekt zugrunde liegenden Mechanismen kontrovers diskutiert. Um den Einfluss von SDF-1 auf die Herzregeneration aufzuklären, wurden transgene Ratten generiert, welche SDF-1 in Kardiomyozyten überexprimieren. Die basale Herzfunktion war in diesen Ratten nicht verändert, jedoch zeigte sich nach Herzinfarkt eine Verschlechterung der kardialen Funktion. Des Weiteren ließen sich eine verstärkte Fibrosebildung, ein Anstieg neutrophiler Granulozyten im Blut sowie eine erhöhte Einwanderung von Makrophagen in die Herzen transgener Ratten feststellen. Dagegen waren die Anlockung von Stammzellen und die Blutgefäßneubildung nicht verändert. Diese Daten bestätigen, dass kardiales SDF-1 eine nachteilige Wirkung ausüben kann, indem es entzündliche Prozesse im geschädigten Gewebe beeinflusst. Ferner wurde ein Microarray-basiertes Screening in kardialem Gewebe nach Herzinfarkt durchgeführt. Ziel der Studie war die Identifizierung neuer Moleküle, deren Rolle bei Herzerkrankungen bislang unbekannt ist. Das Screening brachte das Glykoprotein GPNMB hervor, welches an fibrotischen Prozessen nach Gewebeschädigung beteiligt ist. Wir untersuchten das Protein mit Hilfe des DBA/2J Mausstammes, in dem kein funktionelles GPNMB vorhanden ist. Die Untersuchung dieser Mäuse ergab keine Veränderungen der basalen Herzfunktion, nach Herzinfarkt zeigte sich jedoch eine verbesserte kardiale Funktion sowie erhöhte Hämoglobinkonzentrationen im Blut. Außerdem war die Funktion von Makrophagen verändert. Darüber hinaus fanden wir erhöhte Konzentrationen von GPNMB in Plasmaproben von Patienten nach akutem Herzinfarkt. Zusammenfassend weisen die Ergebnisse darauf hin, dass GPNMB nicht nur ein vielversprechendes Therapietarget, sondern auch einen potenziellen Biomarker für ischämische Herzerkrankungen darstellt. / Ischemic heart diseases are a major cause of death worldwide due to the postmitotic state of the heart. The chemokine SDF-1 is one of the most promising novel therapeutic targets due to its ability to attract leukocytes and stem cells. However, the role of different cardiac cell types in this process remains elusive and underlying mechanisms have been controversially discussed. To clarify the role of SDF-1 and its receptor CXCR4 in myocardial regeneration, we generated transgenic rats overexpressing SDF-1 in cardiomyocytes. The function of the heart at baseline was not altered in these rats, whereas the induction of myocardial infarction resulted in impaired cardiac function and remodeling. This finding was accompanied by increased fibrosis, neutrophil blood counts and macrophage infiltration into the heart. On the other hand, stem cell recruitment and neovascularization were not altered in SDF-1 transgenic rats. In conclusion, our findings confirm that the SDF-1/CXCR4 axis can have adverse effects by affecting the inflammatory state of the healing heart. In addition, a microarray-based screening was conducted in rat hearts after myocardial infarction with the aim to discover yet unknown molecules involved in cardiac repair. This screening yielded GPNMB, a glycoprotein known to be involved in inflammatory and fibrotic processes after tissue injury. We studied the protein further using DBA/2J mice that lack functional levels of GPNMB. While the cardiac function was normal in these mice at baseline, induction of myocardial infarction revealed a preservation of cardiac function, less dilatation as well as higher red blood cell and hemoglobin levels. Moreover, the absence of GPNMB resulted in an altered activity and distribution of macrophages. We also found increased levels of GPNMB in plasma of patients after myocardial infarction. In conclusion, our findings suggest that GPNMB might constitute a novel therapeutic target and biomarker of acute ischemic heart diseases. Fibrose Makrophagen Entzündung Herzinfarkt CXCL12/SDF-1 kardiales Remodeling GPNMB myocardial infarction inflammation macrophages fibrosis CXCL12/SDF-1 cardiac remodeling GPNMB 570 Biowissenschaften, Biologie 32 Biologie YC 1100 ddc:570
20	Optimisation de la domiciliation des cellules CD34+ de sang de cordon ombilical: élucider les mécanismes en cause dépendant du CXCR4. Desjardins, Sonia F. 12 1900 (has links) Le sang provenant d’un cordon ombilical (SCO) représente une bonne source de cellules souches hématopoïétiques (CSH) pour des transplantations. Cependant, le nombre de cellules souches contenues dans ce sang est souvent insuffisant pour greffer un adulte. Le mécanisme intervenant dans la domiciliation de ces cellules au sein de la moelle osseuse (MO) est encore mal compris. On sait que l’interaction entre la chimiokine SDF-1 et le récepteur CXCR4, présent sur les cellules CD34+ de SCO, mène à la migration de ces cellules en direction de la MO. Nous pensons que l’augmentation de la proportion de cellules qui réussit à se greffer pourra pallier au problème du nombre. Les produits de dégradation, C3a et le C3desarg,, issus du système du complément, sont connus pour favoriser la réponse de cellules exprimant CXCR4 vers SDF-1. Nous avons analysé l’effet du C3adesarg, molécule non anaphylatoxique, sur la migration cellulaire vers SDF-1, de même que sur la prise de greffe des cellules CD34+ issues de SCO suite à une transplantation sur des souris NOD/SCIDyC-. Nos expériences ont démontré que le C3a ainsi que le C3adesarg augmentaient tous les deux la réponse des cellules CD34+ vers SDF-1. Toutefois, nous n’avons pas pu démontrer que ces molécules liaient directement le récepteur CXCR4. Par contre, le composé C3adesarg favorise la prise de greffe des cellules CD34+ de SCO. Il serait donc un bon candidat pour poursuivre une optimisation de ses propriétés. Nous avons également constaté que suite à une transplantation chez la souris, les cellules CD34+ de SCO subissent une hausse d’expression transitoire de leur CXCR4 environ quatre jours après la greffe. Cette hausse d’expression coïncide avec la multiplication des cellules CD34+ dans la MO. Nous avons également confirmé qu’une cellule CD34+ avec une forte expression de CXCR4 était dans un état prolifératif. Nos données suggèrent que l’interaction directe avec les cellules stromales soit responsable de cette hausse d’expression de CXCR4. / Since the first successful cord blood (CB) transplant was performed there has been a gradual increase in the use of CB for haematopoietic stem cell (HSC) transplantation, but the number of stem cells per CB is in general too low to ensure successful transplantation in adult patients. We would like to bypass the limitation of insufficient number of these cells in CB by enhancing the engraftment efficiency. The chemokine stromal-derived factor (SDF)-1, that binds to its receptor, CXCR4, plays an important and unique role in regulating the trafficking of HSC and their homing/retention in bone marrow (BM), but molecular regulatory mechanism of niches for HSC maintenance remains unclear. The complement C3 cleavage fragments, C3a and C3adesarg, modulate the responsiveness of CXCR4-expressing cell lines to SDF-1. We assessed the effect of the non anaphylatoxic complement fragment, C3adesarg, on SDF-1 responsiveness and engraftment of CB-HSC transplantation in a NOD/SCIDyC- mouse model. Complement breakdown products C3a and C3adesarg both increase the responsiveness of CD34+ cells to SDF-1. We find no evidence for direct interaction of complement fragments with CXCR4. Our data suggest that C3adesarg might contribute to optimize CB-HSC homing to bone marrow, and therefore efficacy of cord blood transplantation. We quantified the number of CXCR4 on the surface of CB-CD34+ after transplantation in mice. Our results showed that there is a transient overexpression of CXCR4 on the surface of HSC CD34+ found in the BM of NOD/SCIDyC- mice after 4-5 days post-injection. This transient overexpression correlated with multiplication of CD34+ cells in the BM. We confirm that the cells with an overexpression of CXCR4 are in a proliferation state. Our data suggested that this transient overexpression is caused by an interaction with the stomal cells. Cellules CD34+ Domiciliation Récepteur CXCR4 Chimiokine SDF-1 Sang de cordon ombilical Transplantation Récepteurs couplés aux protéines G C3a Homing CXCR4 receptor Chemokine SDF-1 Cord blood Transplantation G proteins coupled receptors CD34+

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