Global ETD Search

201	In Vitro and in Vivo Cytokine-Associated Immune Response to Biomaterials Schutte, Robert James 10 April 2008 (has links) <p>The success of implanted medical devices, such as biosensors, is dependent on the immune reaction to the surface of the implanted material. This immune reaction, termed the foreign body reaction, is potentially affected by the physical and chemical properties of the implanted material. Macrophages interact with the surface of the implanted material and secrete intercellular signals, including cytokines and growth factors, which direct the actions of immune cells in the surrounding tissue. The type and quantity of cytokines and growth factors produced by macrophages at an implant surface could be an indicator of the outcome of the foreign body reaction. </p><p>This study investigated the effect of the surface chemistry of an implanted device on the production of cytokines and growth factors. First, microdialysis sampling was characterized as a technique for collecting cytokines and growth factors from the tissue surrounding an implant. Based on this characterization, it was determined that a direct sampling method would be more suitable than microdialysis sampling for determining accurate tissue concentrations of cytokines and growth factors. Second, an in vitro model was developed and utilized to assess cytokine and growth factor production from monocyte/macrophage cultures seeded onto commonly implanted polymeric biomaterials with varying surface chemistries. The materials included in this study were polyethylene (PE), polyurethane (PU), polymethyl methacrylate (PMMA), expanded polytetrafluoroethylene (ePTFE), and a cytotoxic organo-tin polyvinyl chloride (ot-PVC) as a positive control. From this in vitro model, it was determined that the varying surface chemistries of these non-toxic materials, excluding ot-PVC, did not significantly affect the types and quantities of cytokines and growth factors produced. Finally, an in vivo model for evaluating the cytokine and growth factor response to an implanted biomaterial was utilized for comparison with the in vitro findings. In this model, biomaterials were implanted subcutaneously within the lumen of a stainless steel mesh cage. The mesh cage served to create a "pocket" where wound exudate fluid collected within the cage, surrounding the implanted biomaterial. The materials included in this study were PE, PU, and ot-PVC. Cytokines and growth factors produced at the material surface were sampled directly from the exudate fluid. The results from this in vivo study indicate that cytokine and growth factor production were not significantly impacted by the varying surface chemistries of the implanted biomaterials. The in vivo data support the findings from the in vitro model, suggesting that the foreign body reaction proceeds in a similar fashion for each of these non-cytotoxic, polymeric biomaterials with varying surface chemistries.</p> / Dissertation Engineering, Biomedical cytokine biomaterial foreign body reaction macrophage microdialysis
202	Peritoneal macrophage infiltration is correlated with baseline peritoneal solute transport rate in peritoneal dialysis patients Matsuo, Seiichi, Yuzawa, Yukio, Takei, Yoshifumi, Gotoh, Momokazu, Matsukawa, Yoshihisa, Hattori, Ryohei, Ito, Isao, Toda, Susumu, Suzuki, Yasuhiro, Mizuno, Masashi, Ito, Yasuhiko, Sawai, Akiho 07 1900 (has links) [First published online] 2010-11-22 / 名古屋大学博士学位論文学位の種類 : 博士(医学)(課程) 学位授与年月日:平成23年3月25日澤井晶穂氏の博士論文として提出された mast cell macrophage inflammation D/P Cr blood vessel
203	Resident macrophages activated by lipopolysaccharide (LPS) suppress muscle tension and initiate inflammatory response in the gastrointestinal muscle layer Torihashi, Shigeko, Ozaki, Hiroshi, Hori, Masatoshi, Kita, Muneto, Ohota, Sachiyo, Karaki, Hideaki, 鳥橋, 茂子 02 1900 (has links) No description available. macrophage gastrointestinal motility iNOS immune responses smooth muscle
204	Macrophage migration inhibitory factor and circulating progenitor cells: relevance and implications inperiodontal medicine 李晓, Li, Xiao January 2011 (has links) published_or_final_version / Dentistry / Doctoral / Doctor of Philosophy Macrophage migration inhibitory factor. Stem cells. Periodontal disease.
205	Molecular and Bioinformatic Analysis of Neurotropic HIV Envelope Glycoproteins Mefford, Megan 15 August 2012 (has links) Human immunodeficiency virus (HIV) infection of macrophages in brain and other tissues plays an important role in development of HIV-associated neurological disorders and other aspects of disease pathogenesis. Macrophages express low levels of CD4, and macrophage-tropic HIV strains express envelope glycoproteins (Envs) adapted to overcome this restriction to virus entry by mechanisms that are not well characterized. One mechanism that influences this phenotype is increased exposure of the CD4 or CCR5 binding site, which may increase dissociation of soluble gp120 (sgp120) from Env trimers based on structural models. Little is known about spontaneous sgp120 shedding from primary HIV Envs or its biological significance. In this dissertation, we identify genetic determinants in brain-derived Envs that overcome the restriction imposed by low CD4, examine spontaneous sgp120 shedding by these Envs, and explore the biological significance of these findings. Sequence analysis of the gp120 beta-3 strand of the CCR5-binding site bridging sheet identified D197, which eliminates an N-linked glycosylation site, as a viral determinant associated with brain infection and HIV-associated dementia (HAD), and position 200 as a positively-selected codon in HAD patients. Mutagenesis studies showed that D197 and T/V200 enhance fusion and infection of macrophages and other cells expressing low CD4 by enhancing gp120 binding to CCR5. Sgp120 shedding from primary brain and lymphoid Envs was highly variable within and between patients, representing a spectrum rather than a categorical phenotype. Brain Envs with high sgp120 shedding mediated enhanced fusion and infection with cells expressing low CD4. Furthermore, viruses expressing brain Envs with high sgp120 shedding had an increased capacity to induce lymphocyte activation during PBMC infection, despite similar levels of viral replication. Genetic analysis demonstrated greater entropy and positive selection in Envs with high versus low levels of sgp120 shedding, suggesting that diversifying evolution influences gp120-gp41 association. Finally, we examined V3 loop sequences from dual-tropic brain and lymphoid Envs and found that the frequency of R5X4 HIV-1 is underestimated by most predictive bioinformatic algorithms. Together, these studies provide a better understanding of how neurotropic HIV Envs adapt to target cells expressing low CD4, and possible roles of these viral adaptations in disease pathogenesis. gp120 HIV virology bioinformatics brain envelope macrophage neurotropic
206	Myeloid cell-specific ablation of the mineralocorticoid receptor attenuates experimental autoimmune encephalomyelitis Li, Xiao 14 January 2013 (has links) No description available. 570 Mineralocorticoid receptor macrophage polarization EAE Biologie (PPN619462639)
207	Impact de l'EGCG sur la réponse à la sphingosine-1-phosphate dans un modèle de différenciation de cellules promyelomonocytaires HL-60 en macrophages Chokor, Rima 10 1900 (has links) (PDF) Les maladies inflammatoires du système nerveux central (SNC) sont caractérisées par l'altération de la barrière hémato-encéphalique induite par les cellules immunitaires et les cellules tumorales. Il est reconnu que les macrophages peuvent induire l'inflammation en infiltrant la BHE. Lors d'un dommage ou d'une infection du SNC, les macrophages dérivés du sang sont activés. Une fois activés, ceux-ci migrent au site infecté ou endommagé et libèrent des cytokines et médiateurs inflammatoires tels que IL1, TNFα, VEGF. Ces cytokines jouent un rôle essentiel dans l'inflammation du SNC puisqu'elles induisent des chimiokines tels que la sphingosine-1-phosphate (S1P), un sphingolipide fortement exprimé dans les glioblastomes et qui joue un rôle important dans la chimiotaxie et le trafic des cellules immunitaires. Nous avons étudié l'efficacité d'une molécule dérivée de notre diète possédant des propriétés chimiopréventives et anti-inflammatoires, l'épigallocatéchine gallate (EGCG), sur la régulation transcriptionnelle des récepteurs de la S1P à divers stades de différenciation des cellules promyélomonocytaires HL-60. Nous avons d'abord différencié les cellules promyélomonocytaires HL-60 en « macrophages-like » en utilisant un promoteur tumorigène et activateur de la protéine kinase C-Phorbol 12-myristate 13-acétate (PMA). Nous avons démontré que le PMA induit l'adhésion cellulaire et augmente l'expression des transcrits S1P1, S1P2 et S1P5. Nous avons ensuite constaté que les cellules adhérentes semblaient être sensibles à la S1P en induisant la phosphorylation d'ERK, de JNK et de P38 MAPK. Cependant, l'inclusion de l'EGCG avant la différenciation par le PMA inhibe l'induction de ces trois voies MAPK par la S1P. D'autre part, un traitement par l'EGCG au cours de la différenciation, c'est-à-dire simultanément avec le PMA, affecte seulement la voie P38 MAPK. De plus, les cellules différenciées « macrophages-like » devenaient insensibles à l'EGCG. Enfin, nous démontrons que seul le récepteur S1P2, parmi les récepteurs fortement induits par le PMA, diminue lors du prétraitement par l'EGCG. Nos résultats suggèrent que l'EGCG antagonise la réponse à la S1P dans les cellules prédifférenciées via l'inhibition de la signalisation induite par le PMA. Par conséquent, une réponse réduite à la S1P pourrait abroger la migration transendothéliale des monocytes vers le SNC, et prévenir la neuroinflammation, les infections cérébrales secondaires ou certaines pathologies cérébrales conséquentes à l'infiltration de cellules immunitaires. ______________________________________________________________________________ MOTS-CLÉS DE L’AUTEUR : Neuroinflammation, S1P, EGCG, macrophages, chimiotactisme, chimioprévention Chimiotaxie Chimioprévention Macrophage Maladie inflammatoire Sphingosine-1-phosphate EGCG
208	Regulation and function of hyaluronan binding by CD44 in the immune system Ruffell, Brian 11 1900 (has links) The proteoglycan CD44 is a widely expressed cell surface receptor for the extracellular matrix glycosaminoglycan hyaluronan, and is involved in processes ranging from metastasis to wound healing. In the immune system, leukocyte activation induces hyaluronan binding through changes in CD44 post-translational modification, but these changes have not been well characterized. Here I identify chondroitin sulfate addition to CD44 as a negative regulator of hyaluronan binding. Chondroitin sulfate addition was analyzed by sulfate incorporation and Western blotting and determined to occur at serine 180 in human CD44 using site-directed mutagenesis. Mutation of serine 180 increased hyaluronan binding by both a CD44-immunoglobulin fusion protein expressed in HEK293 cells, and full-length CD44 expressed in murine L fibroblast cells. In bone marrow-derived macrophages, hyaluronan binding induced by the inflammatory cytokines tumor necrosis factor-α and interferon-γ corresponded with reduced chondroitin sulfate addition to CD44. Retroviral infection of CD44⁻/⁻ macrophages with mouse CD44 containing a mutation at serine 183, equivalent to serine 180 in human CD44, resulted in hyaluronan binding that was constitutively high and no longer enhanced by stimulation. These results demonstrate that hyaluronan binding by CD44 is regulated by chondroitin sulfate addition in macrophages. A functional consequence of altered chondroitin sulfate addition and increased hyaluronan binding was observed in Jurkat T cells, which became more susceptible to activation-induced cell death when transfected with mutant CD44. The extent of cell death was dependent upon both the hyaluronan binding ability of CD44 and the size of hyaluronan itself, with high molecular mass hyaluronan having a greater effect than intermediate or low molecular mass hyaluronan. The addition of hyaluronan to pre-activated Jurkat T cells induced rapid cell death independently of Fas and caspase activation, identifying a unique Fas-independent mechanism for inducing cell death in activated cells. Results were comparable in splenic T cells, where high hyaluronan binding correlated with increased phosphatidylserine exposure, and hyaluronan-dependent cell death occurred in a population of restimulated cells in the absence of Fas-dependent cell death. Together these results reveal a novel mechanism for regulating hyaluronan binding and demonstrate that altered chondroitin sulfate addition can affect CD44 function. CD44 Hyaluronan Chondroitin sulfate Leukocyte Macrophage T lymphocyte
209	S100A10 FACILITATES THE TUMOR PROMOTING ASSOCIATION OF MACROPHAGES WITH TUMOR CELLS Phipps, Kyle 17 August 2011 (has links) Hematopoietic cells are recruited to and co-opted by the growing tumor making expansive tumor growth possible. Although several cell types become associated with the growing tumor, macrophages play a fundamental role. The movement of macrophages across the basement membrane and through the extracellular matrix to the tumor site requires the activation of proteases, such as plasmin, at their cell surface. The proteolytic aspect of macrophage recruitment may represent an exploitable aspect of tumor growth in terms of therapeutic strategies. Here I show that the S100A10 protein facilitates the infiltration of macrophages into the site of tumor growth by stimulating the generation of the protease plasmin at their surface. Using a mouse model in which wild-type (WT) and S100A10-null mice are inoculated with tumor cells, a decrease in tumor-associated macrophages (TAMs) and greatly diminished tumor growth in tumors grown in S100A10-null mice was observed. Although tumor growth in S100A10-null mice could be restored by intraperitoneal injection of WT macrophages, S100A10-null macrophages only restored tumor growth when directly injected into the tumor. Lastly, selective depletion of macrophages from a WT mouse by liposome encapsulated clodronate treatment resulted in similar tumor growth deficits as in the S100A10-null mouse. These results highlight a new role for the S100A10 protein in the recruitment of TAMs to the tumor site and demonstrate a potential therapeutic strategy in which the tumor associated cells may be targeted.
210	Regulation of Lipid Droplet Cholesterol Efflux from Macrophage Foam Cells: a Role for Oxysterols and Autophagy Ouimet, Mireille 21 November 2011 (has links) Macrophage foam cells are the major culprits in atherosclerotic lesions, having a prominent role in both lesion initiation and progression. With atherosclerosis being the main factor underlying cardiovascular complications, there is a long-standing interest on finding ways to reverse lipid buildup in plaques. Studies have shown that promoting reverse cholesterol transport (RCT) from macrophage foam cells is anti-atherogenic because it alleviates the cholesterol burden of the plaques. The goal of this thesis was to gain insight into the mechanisms that govern cholesterol efflux from macrophage foam cells. The first part of this study looked at the ability of different oxysterols to promote cholesterol efflux in unloaded as compared to lipid-loaded macrophages, and our major finding here is that epoxycholesterol decreases efflux in lipid-loaded macrophages. It appears that epoxycholesterol does so by impairing the release cholesterol from its cellular storage site, the lipid droplet (LD), where it accumulates in the form of cholesteryl esters (CE). These results highlighted the importance of cholesterol release from LDs for efflux; indeed, this process is increasingly being recognized as the rate-limiting step for RCT in vivo. Subsequent experiments aimed at elucidating the mechanisms that govern LD CE hydrolysis in macrophage foam cells lead to the discovery of a novel pathway involved in cholesterol efflux. Macrophage CE hydrolysis is classically defined as being entirely dependent on neutral CE hydrolases. In the second part of this study, we demonstrate that in addition to the canonical CE hydrolases, which mediate neutral lipid hydrolysis, lysosomal acid lipase (LAL) also participates in the hydrolysis of cytoplasmic CE. Autophagy is specifically triggered in macrophages by atherogenic lipoproteins and delivers LD CE to LAL in lysosomes, thus generating free cholesterol for efflux. This autophagy-mediated cholesterol efflux is a process that is primarily dependant on the ABCA1 transporter and, importantly, is important for whole-body RCT. Overall, the studies presented in this thesis support that macrophage LD CE hydrolysis is rate-limiting for cholesterol efflux and shed light on the mechanisms of cholesterol mobilization for efflux in macrophage foam cells. atherosclerosis macrophage foam cell lipolysis cholesterol efflux lipid droplet autophagy

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