Global ETD Search

811	Einfluss einer autologen Knochenmarkzelltherapie auf reaktive Astrogliose und Glukosetransporter-1-Expression in grauer und weißer Substanz des Großhirns nach fokaler zerebraler Ischämie beim Schaf von Geymüller, Teresa 10 July 2012 (has links) Ziele der hier vorliegenden Arbeit waren eine immunhistochemische Analyse von GFAP (‚glial fibrillary acidic protein’) und GLUT-1 (Glukosetransporter-1) nach fokaler zerebraler Ischämie sowie deren mögliche Beeinflussung durch eine intravenöse Transplantation autologer mononukleärer Knochenmarkzellen (mKMZ) im Schafmodell. Eine differenzierte Analyse der Zielstrukturen in grauer und weißer Substanz (GS bzw. WS) sollte Aufschluss über eventuell unterschiedliche Reaktionsmuster liefern. Das Gehirnmaterial von zehn Tieren der bereits 2006/2007 stattgefundenen Studie, welche mit PET und MRT-Untersuchungen sowie der Durchführung von Verhaltenstests einherging, wurde retrospektiv im Rahmen der vorliegenden Arbeit untersucht. Je fünf gehörten zu einer Kontroll- bzw. Therapiegruppe (KG bzw. TG). Bei allen Versuchstieren wurde durch die permanente Okklusion der linken mittleren Zerebralarterie (pMCAO) eine fokale zerebrale Ischämie im Bereich des Neokortex hervorgerufen. Die Tiere der Therapiegruppe erhielten 24 Stunden nach dem Eingriff eine Transplantation autologer mKMZ (4x106/kg KGew). Nach sieben Wochen wurden die Versuchstiere getötet, ihre Schädel perfundiert und ihre Gehirne fixiert. Eine Lamelle der Gehirne wurde für die anschließende histologische Untersuchung in 30% Saccharose konserviert. Nach der Etablierung der Antikörper GFAP und GLUT-1 wurden vier Regionen der Gehirn-lamellen immunhistochemisch markiert und abschließend qualitativ und quantitativ analysiert. Die Regionen I (infarktnah) und III (infarktfern) lagen in der ipsilateralen Hemisphäre, die Regionen II (korrespondierend zu Region I) und IV (korrespondierend zu Region III) in der kontralateralen Hemisphäre. Durch den höheren Substanzverlust an Gehirnmasse in der ipsi-lateralen Hemisphäre der KG, wurden in dieser Tiergruppe die Regionen III und IV nicht ausgewertet. Vor der Analyse sind die physiologischen Markierungsmuster der vier Regionen in grauer und weißer Substanz an zwei gesunden Tieren (Prozesskontrolle) aufgezeigt worden. Durch die elektronenmikroskopische Untersuchung von Präparaten und anhand von GFAP/GLUT-1 doppelmarkierten Präparaten konnte festgestellt werden, dass die Astrozytenendfüßchen durch den hier verwendeten GLUT-1 Antikörper nicht markiert wur-den, sondern dass alleinig die gefäßständige, 55 kDa schwere Isoform detektiert worden ist. Die fokale zerebrale Ischämie führte in beiden Gruppen zu einer hochgradigen reaktiven Astrogliose mit Ausprägung einer Glianarbe in Region I. Protoplasmatische Astrozyten der grauen und fibrilläre Astrozyten der weißen Substanz zeigten hypertrophe Veränderungen. Die reaktive Astrogliose von Region I spiegelte sich in einer erhöhten GFAP-Dichte wider (p<0,05 in der Therapiegruppe). Region III hatte die gleiche GFAP-Dichte wie die Regionen II und IV. Der direkte Vergleich zwischen den Regionen I der beiden Gruppen zeigte Veränderungen der GFAP-Dichte durch die Zelltherapie auf: In der GS der Therapiegruppe lag eine geringere GFAP-Dichte vor, in der WS eine höhere (≠ p<0,05; GS und WS). Die Ergebnisse der GLUT-1-Analyse sind denen der GFAP-Analyse sehr ähnlich. Durch den Schlaganfall ist es zu einer erhöhten GLUT-1-Expression in GS und WS (p<0,05 WS) von Region I der Kontrollgruppe gekommen. Auch in Region I der Therapiegruppe konnten er-höhte GLUT-1-Dichten in GS und WS (p<0,05 WS) detektiert werden, zusätzlich dazu lag in der GS von Region III der Therapiegruppe eine erhöhte GLUT-1-Dichte vor (p<0,05). Der Vergleich zwischen beiden Gruppen zeigte Veränderungen durch die Therapie für die Regio-nen I und II auf. Die GLUT-1-Dichte der WS war in beiden Regionen in der TG erhöht (p<0,05), die GS von Region I zeigte in der Therapiegruppe eine geringere GLUT-1-Dichte. Ein Schlaganfall führt zu einer Erhöhung der GFAP sowie GLUT-1-Dichten in WS und GS im infarktnahen Gebiet. Durch die Transplantation von 4x106 autologen mononukleären Knochenmarkzellen pro kg KGew 24 Stunden nach dem Schlaganfall können diese Strukturen in ihren Expressionsmustern beeinflusst werden, dabei reagieren graue und weiße Substanz unterschiedlich: Die GS mit einer Verringerung, die WS mit einer Erhöhung der GFAP- bzw. GLUT-1-Dichte (p<0,05 WS, GLUT-1). Die Funktionskreisläufe in infarktfernen Regionen sind sieben Wochen nach dem Schlaganfall auf Astrozytenebene normalisiert (vgl. Region III). Die erhöhte GLUT-1-Dichte (p<0,05) in der GS der infarktfernen Region ist möglicherweise mit einem erhöhten Glukosemetabolismus in Verbindung zu setzen. Dies kann jedoch erst durch die Auswertung der FDG-PET-Daten beantwortet werden. Ob die durch Transplantation autologer mKMZ festgestellten Veränderungen der GFAP- und GLUT-1-Dichte in der Therapiegruppe zusätzlich mit einer verbesserten motorischen Leistung der Tiere einhergingen, wird erst durch die Analyse der Daten aus den Verhaltenstests festgestellt werden können. info:eu-repo/classification/ddc/636.089 ddc:636.089
812	Microenvironnement et angiogénèse : implications dans la stratégie onco-chirurgicale des métastases hépatiques synchrones des cancers colorectaux / Microenvironment and angiogenesis : impact on onco-surgical management of synchronous colorectal liver metastases. Lim, Chetana 12 June 2017 (has links) Lors du diagnostic de cancer colorectal, près d’un quart des patients ont des métastases hépatiques dites synchrones. Lorsque la tumeur primitive est asymptomatique, la stratégie chirurgicale (chirurgie première de la tumeur primitive versus chirurgie première des métastases hépatiques) reste débattue. Les recommandations actuelles ne reposent que sur des accords d’experts qui elles-mêmes sont basées sur des études cliniques rétrospectives. L’étude du microenvironnement tumoral a pris ces dernières années une place majeure dans la recherche sur le cancer. Elle a permis de changer de paradigme avec une nouvelle conception du processus métastatique : une tumeur primitive peut agir sur le microenvironnement du futur site métastatique pour créer une "niche pré-métastatique". Cette niche pré-métastatique permettrait secondairement la croissance des cellules tumorales via une angiogénèse tumorale et la formation de métastases. Par une triple approche à la fois fondamentale, translationnelle et clinique, nous avons obtenu des données qui suggèrent qu’une chirurgie première de la tumeur colique ou rectale permet de moduler l’angiogénèse au sein du microenvironnement hépatique. Cette stratégie chirurgicale permettrait également d’améliorer le pronostic oncologique des malades et l’efficacité des anti-angiogéniques. / At the time of the diagnosis of colorectal cancer, nearly 25% of patients have synchronous liver metastases. When this tumor is asymptomatic, the question of surgical strategy (primary tumor first versus liver-first strategy) remains debated. Current recommendations are based on agreements of experts which are by themselves based on retrospective clinical studies. The study of the tumor microenvironment has taken in recent years a major place in the field of cancer research. It leads to new paradigm with a new conception of the metastatic process. It may be possible that the microenvironment of the metastatic sites can be modulated by the primary tumor to promote the formation of the pre-“metastatic niche”. This leads to promote the growth of cancer cells and increase the metastatic potential of primary tumor. By a multidisciplinary research including fundamental, translational and clinical approaches, we have shown that primary tumor first strategy could modulate tumor angiogenesis and liver metastatic process. It is associated with improved survival of patients and efficacy of the anti-angiogenic therapy. Niche pré-métastatique Progéniteurs endothéliaux médullaires Angiogénèse Tumeur primitive Métastases hépatiques synchrones Foie premier Pre-metastatic niche Angiogenesis Synchronous liver metastases Liver-first strategy
813	Altered interactions between mesenchymal stromal cells and hematopoietic stem cells from MDS and AML through expression of FAK / Interactions modifiées entre les cellules stromales mésenchymateuses et les cellules souches hématopoïétiques du SMD et de la LAM par l’expression du FAK Wu, Yuenv 16 September 2019 (has links) La FAK est une tyrosine kinase cytoplasmique qui régule divers processus cellulaires, dont la survie, la prolifération, la différenciation et la motilité. Bien que diverses études aient démontré l'importance du FAK dans la pathogenèse du SMD et de la LAM, le rôle de cette molécule dans le microenvironnement des tumeurs du SMD et de la LAM reste à déterminer davantage. En examinant les CSM de la moelle osseuse qui dérivent de patients atteints de SMD et de LAM, nous avons observé une augmentation continue de l'expression et de l'activation de la FAK pendant la progression du SMD vers de la LAM, semblable à celle observée chez les patients hémopoïétiques. Dans le SMD à faible risque, on a constaté que les CSM se caractérisaient par une faible expression et une faible activation du FAK. Ils présentaient une morphologie modifiée, un immunophénotype, une différenciation et l'expression de facteurs favorables à l'hématopoïèse. Il convient de noter que ces caractéristiques pourraient être largement reproduites dans les CSM saines par inhibition FAK. De plus, l'appauvrissement en FAK dans la lignée cellulaire stromale pourrait induire une expansion massive et l'apoptose des CSH normaux. Nos résultats mettent en évidence le rôle crucial du FAK dans le maintien des fonctions des CSM et fournissent la preuve que la dysrégulation du FAK dans les CSM contribue à la perturbation de l'hématopoïèse et éventuellement à la progression des tumeurs malignes myéloïdes. Une meilleure compréhension du rôle que joue le microenvironnement du SMD et de la LAM permettra de mieux reconnaître les patients à faible risque et de mettre au point des traitements ciblant les CSM défectueuses, améliorant ainsi le résultat clinique / FAK is a cytoplasmic tyrosine kinase that regulates diverse cellular processes, including survival, proliferation, differentiation, and motility. Though various studies have demonstrated the importance of FAK in MDS and AML pathogenesis, the role of this molecule in MDS and AML tumor microenvironment remained to be further determined. By examining BM MSCs derived from MDS and AML patients, we have observed a continues increase of FAK expression and activation during MDS progression to AML, similar to those detected in hemopoietic counterparts. In LR-MDS, MSCs were found to be characterized by low FAK expression and activation. They exhibited altered morphology, immunophenotype, differentiation, and expression of hematopoiesis-supporting factors. Of note, these features could be largely reproduced in normal MSCs by FAK inhibition. Furthermore, FAK depletion in BM stromal cell line could induce massive expansion and apoptosis of normal HSPCs. Our results highlight a critical role of FAK in maintaining the functions of BM MSCs and provide evidence that dysregulation of FAK in MSCs contribute to the disturbed hematopoiesis and possibly the progression of myeloid malignancies. A greater understanding of the role that BM microenvironment plays in MDS and AML will enable an increased recognition of poor-risk patients and the development of therapies that target the defected MSCs, thereby improving the clinical outcome Cellules stromales mésenchymateuses Propriété cellulaire Support d'hématopoïèse Microenvironnement de la moelle osseuse Syndromes myélodysplasiques Leucémie myéloïde aiguë Focal adhesion kinase Mesenchymal stromal cells Cellular property Hematopoiesis-support Bone marrow microenvironment Myelodysplastic syndromes Acute myeloid leukemia Focal adhesion kinase 570
814	Role of S6K1 in regulating self-renewal of hematopoietic stem cells and propagatoin of leukemia Ghosh, Joydeep 15 December 2015 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / The development and function of hematopoietic stem cells (HSCs) is regulated by numerous signaling pathways including Akt-mechanistic target of rapamycin complex1 (mTORC1) pathway. Dysregulation of this pathway results in impaired HSC function and contributes to the development of hematologic malignancies. Activated mTORC1 phosphorylates and subsequently activates ribosomal protein S6 kinase 1 (S6K1). To study the role of S6K1 in hematopoiesis as well as leukemogenesis, we used a genetic model of S6K1 deficient mice (S6K1-/-). We found that loss of S6K1 expression in HSCs results in reduction of absolute HSC number in bone marrow (BM). Following chemotherapy, cycling HSCs undergo apoptosis and quiescent HSCs are required to cycle to regenerate the hematopoietic system. S6K1 regulates the quiescence of HSCs and in the absence of S6K1, mice are more susceptible to repeated myeloablative stress. We also observed that loss of expression as well as gain of expression of S6K1 affects the self-renewal ability of HSCs. Interestingly, when we overexpressed S6K1, it also resulted in reduced self-renewal of HSCs. Next, we assessed the role of S6K1 in the propagation of acute myeloid leukemia (AML). The mixed-lineage leukemiaÂ (MLL) gene is required for the maintenance of adult HSCs. Translocations inÂ MLLÂ are detected in approximately 5-10% of adult acute leukemia patients and in approximately 70% of acute leukemias in infants. We expressed MLL-AF9 fusion oncoprotein in WT andÂ S6K1-/-Â hematopoietic stem and progenitor cells (HSC/Ps) and performed serial transplantation. Upon secondary transplantation, recipients of S6K1 deficient AML cells survived significantly longer compared to controls. In vitro, pharmacological inhibition of S6K1 activity resulted in reduced growth of primary human cells expressing MLL-AF9. Both human and murine HSC/Ps expressing MLL-AF9 showed reduced mTORC1 activity upon inhibition of S6K1 suggesting that loss of S6K1 activity results in reduced Akt-mTORC1 activation both upstream and downstream of mTORC1. Overall, our studies establish a critical role of S6K1 activity in the maintenance of HSC function and in the propagation of leukemia. Acute Myeloid Leukemia Hematopoietic stem cells MLL-AF9 Myeloablative stress S6K1 Self-renewal Hematopoietic stem cells Hematopoietic stem cells -- Regeneration Hematopoietic stem cell disorders Hematopoietic growth factors Bone marrow Protein kinases Myeloid leukemia Stem cells
815	Engineering the Micro-Environment Niche of Human Bone Marrow-Derived Mesenchymal Stem Cells for Enhanced Cardiac Tissue Regeneration Joshi, Jyotsna 05 December 2018 (has links) No description available. Biomedical Engineering Myocardial infarction MSC spheroids 5-azacytidine Collagen hydrogels Collagen nanofibers Wnt signaling MSC paracrine signaling TNF-alpha Human cardiomyocytes Cocultures of MSC and cardiomyocytes
816	Trait Mindfulness: A Protective Factor for Bone Marrow Transplant Recipients? Poggioli, Michael 13 July 2020 (has links) No description available. Psychology Psychotherapy
817	Immunogeneic Cell Populations of the Skin: Pattern of Dendritic Cells and T Cells in Healthy Skin and in Skin of Patients During Allogeneic Hematopoietic Stem Cell Transplantation Eger, Lars 29 April 2008 (has links) Dendritic cells (DCs), a hematopoietic cell type belonging to the sub-group of cells called antigen presenting cells (APCs), inhabit a central role in innate and adaptive immunity. Although the DC family is very heterogeneous, all members share unique features. Most importantly, DCs can stimulate an immune response. This is due to the cells’ ability to capture and process antigens and to maturate in the presence of danger signals presented by pathogens. Maturation in turn results in the migration of DCs from the tissue they reside in to the draining lymph nodes, as well as in the subsequent presentation of the acquired antigens to T cells. In the skin, which is one of the most immunogeneic organs, DCs are present in sizable numbers in both the epidermis and the dermis. This study focused on two types of DCs: epidermal Langerhans cells (LCs) and dermal DCs (DDCs). While much is understood about LCs, far less is known about the role that DDCs play in skin immunity. Therefore one purpose of this study was to characterize DDCs and to compare their phenotype and functions to that of LCs. This study used two different methods to characterize human skin resident immune cells with regard to their number and distribution. First, a stable analytical immunohistochemistry-based method was developed and applied to a substantial number of healthy skin donors. This enabled a quantitative analysis of skin DC types and skin resident T cells at different anatomical locations in situ. A novel method to count dermal cell populations in situ was developed that resulted in the first published quantification of APCs, DDCs, as well as T cells in human dermis. Second, the traditional form of the emigration assay, which selectively enriches vital cells capable of ex vivo emigration from the skin, was upgraded toward a stable analytical method to separate epidermal LCs from DDCs. In this way, both skin DC types became accessible in sufficient numbers to allow for a comparison of phenotypes and functions in vitro. The resulting phenotypic observations clearly showed that both, LCs and DDCs are not fully mature after their emigration ex vivo and that both can be transformed into a phenotypically more mature state by treating them with inflammatory cytokines. What’s more, LCs are also functionally in an immature state after their emigration. They efficiently took up antigen, showed a low capacity to trans-migrate in response to chemokines, and demonstrated a low capacity to stimulate allogeneic T cells in a mixed leukocyte reaction (MLR). For the first time this study observed all these main APC functions not only for LCs but additionally for DDCs. As these observations were made in relation to LCs of the same donor, it could be concluded that DDCs are functionally more mature than LCs after emigration. DDCs showed a lower antigen uptake capacity than LCs but were superior in terms of their migratory and stimulatory capacity. However, treatment with cytokines could skew LC functions toward functional capacities observed for DDCs, i.e., it decreased LCs’ Ag uptake and increased their migratory and stimulatory capacity, whereas the cytokine treatment did not alter DDCs’ functional capacities. After improving immuno-histochemistry and the emigration assay using healthy skin samples, these newly developed techniques were implemented in clinical trials to observe the number, distribution and migratory capacity of skin DCs and T cells in patients undergoing allogeneic hematopoietic cell transplantation (aHSCT). Such a study is of importance because the turnover of DCs and T cells is closely associated with the occurrence of acute graft-versus-host disease (aGvHD), the major cause of morbidity and mortality after aHSCT. Due to the study design used, this study concisely demonstrate that at the onset of aGvHD, different DC types accumulate along with effector T cells in skin lesions of aGvHD but not in uninvolved skin of the same patient. These results suggest that in addition to donor T cells LCs and DDCs play a role during the early phase of cutaneous aGvHD directly within the site of inflammation. The view of many authors that DC depletion in the transplant recipient, especially in target organs, is a promising approach for aGvHD prophylaxis and therapy is further underscored by these results. One targeting strategy to inhibit GvHD by eliminating recipient DCs may be the use of DC specific monoclonal antibodies. Alemtuzumab (anti-CD52) is a monoclonal antibody and has proven effective in preventing aGvHD after aHSCT. It may, despite depleting donor T cells, also work by targeting recipient DCs. To determine whether the last mechanism of action is significant, a second clinical study investigated the effects of intravenous alemtuzumab on DCs by comparing the number of these cells in skin and blood of patients before and after a 4-week course of alemtuzumab treatment. The result was that although skin DCs weakly express the target antigen CD52 the number of these cells was not consistently reduced by alemtuzumab. In contrast, circulating blood DCs have a stronger CD52 expression and were significantly reduced by the treatment. In conclusion, this work provides new insights into the phenotypical and functional characteristics of human skin DCs, as well as into the fate of these cell types during aHSCT. The investigation of the APC system during aGvHD as carried out here will help to understand the process of aGvHD in more detail. All these efforts may hopefully support the development of new approaches for therapy and prevention of this major limitation of aHSCT and may help to improve this only curative therapy for several life-threatening diseases. info:eu-repo/classification/ddc/570 ddc:570
818	Deep learning identifies Acute Promyelocytic Leukemia in bone marrow smears Eckardt, Jan‑Niklas, Schmittmann, Tim, Riechert, Sebastian, Kramer, Michael, Shekh Sulaiman, Anas, Sockel, Katja, Kroschinsky, Frank, Schetelig, Johannes, Wagenführ, Lisa, Schuler, Ulrich, Platzbecker, Uwe, Thiede, Christian, Stölzel, Friedrich, Röllig, Christoph, Bornhäuser, Martin, Wendt, Karsten, Middeke, Jan Moritz 20 March 2024 (has links) Background: Acute promyelocytic leukemia (APL) is considered a hematologic emergency due to high risk of bleeding and fatal hemorrhages being a major cause of death. Despite lower death rates reported from clinical trials, patient registry data suggest an early death rate of 20%, especially for elderly and frail patients. Therefore, reliable diagnosis is required as treatment with differentiation-inducing agents leads to cure in the majority of patients. However, diagnosis commonly relies on cytomorphology and genetic confirmation of the pathognomonic t(15;17). Yet, the latter is more time consuming and in some regions unavailable. - Methods: In recent years, deep learning (DL) has been evaluated for medical image recognition showing outstanding capabilities in analyzing large amounts of image data and provides reliable classification results. We developed a multi-stage DL platform that automatically reads images of bone marrow smears, accurately segments cells, and subsequently predicts APL using image data only. We retrospectively identified 51 APL patients from previous multicenter trials and compared them to 1048 non-APL acute myeloid leukemia (AML) patients and 236 healthy bone marrow donor samples, respectively. - Results: Our DL platform segments bone marrow cells with a mean average precision and a mean average recall of both 0.97. Further, it achieves high accuracy in detecting APL by distinguishing between APL and non-APL AML as well as APL and healthy donors with an area under the receiver operating characteristic of 0.8575 and 0.9585, respectively, using visual image data only. - Conclusions: Our study underlines not only the feasibility of DL to detect distinct morphologies that accompany a cytogenetic aberration like t(15;17) in APL, but also shows the capability of DL to abstract information from a small medical data set, i. e. 51 APL patients, and infer correct predictions. This demonstrates the suitability of DL to assist in the diagnosis of rare cancer entities. As our DL platform predicts APL from bone marrow smear images alone, this may be used to diagnose APL in regions were molecular or cytogenetic subtyping is not routinely available and raise attention to suspected cases of APL for expert evaluation. info:eu-repo/classification/ddc/610 ddc:610
819	The role of neutrophils in trained immunity Kalafati, Lydia, Hatzioannou, Aikaterini, Hajishengallis, George, Chavakis, Triantafyllos 26 February 2024 (has links) The principle of trained immunity represents innate immune memory due to sustained, mainly epigenetic, changes triggered by endogenous or exogenous stimuli in bone marrow (BM) progenitors (central trained immunity) and their innate immune cell progeny, thereby triggering elevated responsiveness against secondary stimuli. BM progenitors can respond to microbial and sterile signals, thereby possibly acquiring trained immunity-mediated long-lasting alterations that may shape the fate and function of their progeny, for example, neutrophils. Neutrophils, the most abundant innate immune cell population, are produced in the BM from committed progenitor cells in a process designated granulopoiesis. Neutrophils are the first responders against infectious or inflammatory challenges and have versatile functions in immunity. Together with other innate immune cells, neutrophils are effectors of peripheral trained immunity. However, given the short lifetime of neutrophils, their ability to acquire immunological memory may lie in the central training of their BM progenitors resulting in generation of reprogrammed, that is, “trained”, neutrophils. Although trained immunity may have beneficial effects in infection or cancer, it may also mediate detrimental outcomes in chronic inflammation. Here, we review the emerging research area of trained immunity with a particular emphasis on the role of neutrophils and granulopoiesis. info:eu-repo/classification/ddc/610 ddc:610
820	Targeting the Dectin-1 Receptor via Beta-Glucan Microparticles to Modulate Alternatively Activated Macrophage Activity and Inhibit Alternative Activation / INFLUENCING PROFIBROTIC MACROPHAGE POLARIZATION AND ACTIVITY USING YEAST-DERIVED MICROPARTICLES Imran Hayat, Aaron January 2021 (has links) Idiopathic Pulmonary Fibrosis (IPF) is a debilitating respiratory disorder that is characterized by a progressive decline in lung function. Originating through unknown etiology, it is essentially an unchecked wound healing response that causes the build-up of excessive scar tissue in the lung interstitial tissue with a heavy toll on the patient’s respiratory capacity. Pro-fibrotic alternatively activated macrophages (M2) have been linked as an important contributor to the fibrotic remodeling of the lung. Previous Ask research indicates that targeting M2 macrophages is possible through the use of the Dectin-1 receptor, a transmembrane cell surface receptor found in high abundance on M2 macrophages. Activating the Dectin-1 receptor through the use of beta-glucan, a ligand the receptor has a high affinity for, initiates a pro-inflammatory response within the naturally immunosuppressive macrophage and can alter its activity to be less fibrogenic. Our data suggest that M2 polarization of naïve macrophages can be inhibited in vitro by beta-glucan microparticles. Additionally, we have found that polarized M2 macrophages adopt M1-like characteristics when treated with beta-glucan microparticles, in a process that is largely Dectin-1 dependent. M2 cell surface marker CD206, increased levels of which are associated with rapidly progressing IPF, shows significantly decreased frequency of expression in M2 macrophages treated with beta-glucan microparticles. Our assessment for cell-specific uptake of beta-glucan microparticles suggests an important role of the Dectin-1 receptor for significantly increased uptake in murine wild-type M2 macrophages relative to their Dectin-1 knockout counterpart. The use of beta-glucan microparticles as a potential anti-fibrotic therapeutic was assessed in the bleomycin model of fibrotic lung disease. Mice given bleomycin and treated with beta-glucan displayed decreased soluble collagen content and TGFB expression within lung homogenate relative to fibrotic bleomycin control mice. Overall, these results provide insight into the use of beta-glucan as a potential activity modulator of macrophage function in IPF and the possibility of its use as a therapeutic. / Thesis / Master of Science (MSc)

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