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1	Regulation of SNARE proteins in macrophages by colony stimulating factor-1 Achuthan, Adrian January 2007 (has links) (PDF) Macrophages serve key roles in host defence by initiating inflammatory responses to infection and/or injury. They contribute to innate immunity by secreting a range of pro-inflammatory cytokines (e.g. TNF and IL-6) upon activation as well as by phagocytosing pathogens and dead cells, which is necessary for the resolution of inflammation and effective wound repair. Macrophages also contribute to adaptive immunity by functioning as antigen presenting cells.Colony stimulating factor 1 (CSF-1) is the major growth factor governing the differentiation, proliferation and survival of macrophages. Although not as well appreciated, CSF-1 also regulates some of the immune functions of macrophages, such as cytokine secretion and phagocytosis. However, the mechanisms by which CSF-1 governs the immune functions of macrophages are poorly understood. Cytokine secretion, phagocytosis and antigen presentation involve various vesicle trafficking and membrane fusion events, processes in which SNARE proteins play vital roles. Thus, the hypothesis tested in this thesis was that CSF-1 modulates the immune functions of macrophages by regulating the expression and/or activity of SNARE proteins that regulate endocytic and exocytic processes.In this study, the endosomal SNARE protein syntaxin 7 was identified, via microarray analysis, as a CSF-1 inducible gene in primary mouse macrophages. Syntaxin 7 has previously been detected in phagosomal membranes in macrophages. Furthermore, syntaxin 7 has recently been implicated in the secretion of cytokines (e.g. TNF) from macrophages by forming a novel complex with syntaxin 6, Vti1b and VAMP3.
2	Role of macrophage colony stimulating factor-1 (CSF-1) in postnatal growth Gow, Deborah Jane January 2013 (has links) Colony-Stimulating Factor (CSF-1) is required for the proliferation, differentiation and survival of cells of the mononuclear phagocyte lineage. Mice with a mutation in their CSF-1 gene demonstrate abnormal development in many organ systems and severe growth retardation. These defects can be corrected by administration of rh- CSF-1, and when similarly administered to wild-type mice, can increase organ and body weight, thus highlighting the importance of CSF-1 in postnatal growth. CSF-1 is known to be elevated in the circulation in the immediate postnatal period of both mice and humans. It remains to be seen whether CSF-1 deficiency underlies important clinical issues such as low birth weight, and whether there are any functionally important variations in expression or biology of CSF-1, or the alternative CSF-1R ligand IL-34 that contributes to variation in somatic growth between individuals. This thesis aimed to use the pig as a model for human innate immunity and disease based upon recent publications that highlighted the similarities in their immune systems. To investigate the effects of CSF-1 on postnatal growth the first aim was to characterise the CSF-1R system in pigs and produce reagents. Biologically active porcine CSF-1 and IL-34 were produced along with expression of full length functional porcine CSF-1R and production of anti-CSF-1R antibodies. A bioassay was developed and optimised to assess the biological activity of these proteins. The cross-species reactivity of a range of species CSF-1 and IL-34 proteins was investigated in-vitro using the bioassay and cell culture systems. Recombinant CSF-1 is known to have a short half-life. Since conjugation of proteins to the Fc region of immunoglobulins has been used extensively to improve circulating half-life; a porcine Fc CSF-1 fusion protein was generated by commercial partners, Pfizer Animal Health. The conjugated and un-conjugated CSF-1 proteins had identical activity in cell line and primary cell assays in-vitro. The in-vivo activity of porcine Fc CSF-1 was tested initially in the Csf1r-EGFP+ mouse reporter line and C57BL/6 mice. The Fc CSF-1 protein was more active than the native protein in promoting increased monocyte and tissue macrophage numbers, increasing body weight and inducing hepatosplenomegaly. Hepatic growth was associated with extensive macrophage infiltration and hepatocyte proliferation, identified by gene expression profiling as well as immunohistochemistry. Fc CSF-1 was then tested in neonatal pigs. They were found to have an immature immune system that develops with age. No postnatal surge of CSF-1 was detected. Fc CSF-1 administration increased blood monocyte and neutrophil numbers confirming that CSF-1 is not saturating at this time. Nevertheless, no influence on postnatal growth rate was identified. This is discussed in terms of the differences in placental architecture in the pig compared to human and mouse. This thesis demonstrates the effectiveness of porcine Fc CSF-1 in both mice and porcine and highlights the important role that CSF-1 and macrophages play in liver homeostasis. Fc CSF-1 is identified as candidate therapeutic agent in humans and companion animals for tissue regeneration, and a tool for the study of the role of macrophages in physiology and pathology. 612.6
3	Regulation of colony stimulating factor-1 expression and ovarian cancer cell behavior in vitro by miR-128 and miR-152 Woo, Ho-Hyung, Laszlo, Csaba, Greco, Stephen, Chambers, Setsuko January 2012 (has links) BACKGROUND:Colony stimulating factor-1 (CSF-1) plays an important role in ovarian cancer biology and as a prognostic factor in ovarian cancer. Elevated levels of CSF-1 promote progression of ovarian cancer, by binding to CSF-1R (the tyrosine kinase receptor encoded by c-fms proto-oncogene).Post-transcriptional regulation of CSF-1 mRNA by its 3' untranslated region (3'UTR) has been studied previously. Several cis-acting elements in 3'UTR are involved in post-transcriptional regulation of CSF-1 mRNA. These include conserved protein-binding motifs as well as miRNA targets. miRNAs are 21-23nt single strand RNA which bind the complementary sequences in mRNAs, suppressing translation and enhancing mRNA degradation.RESULTS:In this report, we investigate the effect of miRNAs on post-transcriptional regulation of CSF-1 mRNA in human ovarian cancer. Bioinformatics analysis predicts at least 14 miRNAs targeting CSF-1 mRNA 3'UTR. By mutations in putative miRNA targets in CSF-1 mRNA 3'UTR, we identified a common target for both miR-128 and miR-152. We have also found that both miR-128 and miR-152 down-regulate CSF-1 mRNA and protein expression in ovarian cancer cells leading to decreased cell motility and adhesion in vitro, two major aspects of the metastatic potential of cancer cells.CONCLUSION:The major CSF-1 mRNA 3'UTR contains a common miRNA target which is involved in post-transcriptional regulation of CSF-1. Our results provide the evidence for a mechanism by which miR-128 and miR-152 down-regulate CSF-1, an important regulator of ovarian cancer. miR-128 miR-152 CSF-1 mRNA Post-transcriptional regulation motility and adhesion
4	The Role of Colony-stimulating Factor 1 and its Receptor on Acute Myeloid Leukemia Fateen, Mohammed 25 July 2012 (has links) Colony-stimulating factor 1 receptor (CSF1R, Fms) is an integral transmembrane glycoprotein with tyrosine specific protein kinase activity that it is found on the mononuclear phagocytes to promote their survival, proliferation and differentiation. Colony-stimulating factor 1 (CSF-1), also known as M-CSF, is a protein ligand that acts on the CSF1R. There is a variable association of Fms with the stem cell marker CD34 on acute myeloid leukemia (AML) cells and this suggests different structures of the AML hierarchy in different patients. Mouse stromal cells (MS-5) were transduced with a plasmid containing human CSF-1 because mouse CSF-1 is inactive on human CSF1R. Results show that AML cells cultured with CSF-1-expressing stroma had a much better growth and survival than the control stroma, suggesting that CSF-1 might be a stimulating factor for the growth of leukemic stem cells. Leukemia AML Cancer stem cells Leukemia stem cells CSF-1 M-CSF 0307 0992
5	The Role of Colony-stimulating Factor 1 and its Receptor on Acute Myeloid Leukemia Fateen, Mohammed 25 July 2012 (has links) Colony-stimulating factor 1 receptor (CSF1R, Fms) is an integral transmembrane glycoprotein with tyrosine specific protein kinase activity that it is found on the mononuclear phagocytes to promote their survival, proliferation and differentiation. Colony-stimulating factor 1 (CSF-1), also known as M-CSF, is a protein ligand that acts on the CSF1R. There is a variable association of Fms with the stem cell marker CD34 on acute myeloid leukemia (AML) cells and this suggests different structures of the AML hierarchy in different patients. Mouse stromal cells (MS-5) were transduced with a plasmid containing human CSF-1 because mouse CSF-1 is inactive on human CSF1R. Results show that AML cells cultured with CSF-1-expressing stroma had a much better growth and survival than the control stroma, suggesting that CSF-1 might be a stimulating factor for the growth of leukemic stem cells. Leukemia AML Cancer stem cells Leukemia stem cells CSF-1 M-CSF 0307 0992
6	ROLE OF TH2 IMMUNOSUPPRESSIVE REGULATORS IN TUMOR-INDUCED DIFFERENTIATION OF MYELOID-LYMPHATIC ENDOTHELIAL CELL PROGENITORS Espinosa Gonzalez, Maria Camila 01 December 2021 (has links) Lymphatic metastasis in breast cancer (BC) is one of the most important prognostic factors for patient survival. The escaped tumor cells reach distant vital organs and their unopposed expansion in these organs may cause mortality to patient. Tumor cells are transported to lymph node (LN) exclusively by tumor lymphatic vessels (LV). Increased tumor lymphangiogenesis, i.e., the formation of new LV is currently thought to be promoted by soluble factors such as VEGF-C and –D that activate VEGFR-3 expressed in lymphatic endothelial cells (LEC). These factors are secreted by malignant, tumor-infiltrating immune and stromal cells and create a favorable environment for formation of new vessels. However, emerging evidence suggests that tumor lymphangiogenesis is also promoted by Myeloid-derived Lymphatic Endothelial Cell Progenitors (M-LECP). We recently showed that M-LECP are abundant in mouse and human breast tumors and that their density strongly correlates with both lymphatic formation and nodal metastasis. Characterization of M-LECP showed that nearly all these cells express typical markers of the M2-type of macrophages such as CD163, CD204, and CD209. These cells are consider to be strongly immunosuppressive as exemplified by their inhibition of mobilization, activation, and survival of the key defenders against cancer cells, cytotoxic CD8+ T lymphocytes. Here, we compare the in vitro differentiation of M-LECP derived from bone marrow (BM) myeloid precursors primed with CSF-1 followed by secondary stimulants such as LPS, an immunomodulatory ligand for TLR4, and IL-4, IL-13, and IL-10 downstream targets of this receptor that are known to promote M2-macrophage development. Expression of these stimulants was analyzed by qPCR, flow cytometry, and ELISA during M-LECP differentiation. Our study describes the expression and functionality of these Th2 cytokines and their receptors during M-LECP differentiation. We found that each of the Th2 pathways singularly promotes M-LECP differentiation but there is an absent additive effect. We also found that IL-10 but no other Th2 cytokines is upregulated along with its receptor and contributes to the expression of the lymphatic properties similarly to LPS. To our knowledge, the role of IL-10 in development of lymphatic phenotype through differentiation of M-LECP has not been reported previously. Lastly, we show recruitment of M-LECP in a mouse BC model and the co-expression of the Th2 cytokine receptors in these cells. These studies have a potential to identify new regulators of M-LECP production in the bone marrow that could serve as biomarkers and targets for inhibiting tumor lymphatic formation, and by extension, lymph node metastasis. Bone marrow progenitors Breast Cancer metastasis CSF-1 Lymphangiogenesis Th2 cytokines TLR4
7	CSF-1-Rezeptor Inhibitor als Therapieansatz in Mausmodellen für Charcot-Marie-Tooth Neuropathien Typ 1 / CSF-1-Receptor Inhibitor as treatment approach in mouse models for Charcot-Marie-Tooth neuropathies typ 1 Schreiber, David Lukas January 2019 (has links) (PDF) Charcot-Marie-Tooth Neuropathien sind die häufigsten hereditären Erkrankungen des peripheren Nervensystems und dennoch bis heute nicht therapierbar. Die Lebensqualität der Patienten ist durch motorische und sensorische Defizite der Extremitäten häufig stark eingeschränkt. Ursache können unter anderem Mutationen in Schwann-Zellen sein, die zu dem typischen Bild von Demyelinisierung und axonalem Schaden führen. In den letzten Jahren konnte in Mausmodellen das Immunsystem als wichtiger Mediator in der Pathogenese der CMT 1 Subtypen A, B und X identifiziert werden. Insbesondere Makrophagen spielen eine tragende Rolle bei dem Verlust der axonalen Integrität, bei der Schädigung der Myelinscheiden, sowie bei der Dedifferenzierung von Schwann-Zellen. Entscheidender Faktor für Proliferation und Aktivierung der Makrophagen ist hierbei das Zytokin CSF-1, dessen korrespondierender Rezeptor auf Makrophagen exprimiert wird. Der CSF-1/CSF1R Signalweg bietet somit einen vielversprechenden Angriffspunkt. In der vorliegenden Arbeit wurden Mausmodelle der CMT 1 Subtypen A, B und X mit einem niedermolekularen CSF-1-Rezeptor Inhibitor behandelt. Anschließend erfolgte eine funktionelle und strukturelle Auswertung der peripheren Nerven. Das beste Ansprechen auf die Therapie zeigten Cx32def Mutanten. Strukturell fielen ein verringerter axonaler Schaden und eine verbesserte axonale Regenerationsfähigkeit sowie erhaltene neuromuskuläre Synapsen auf. Funktionell äußerte sich dies in verbesserten elektrophysiologischen Parametern und einem Krafterhalt, welcher als klinischer Parameter die größte Relevanz für betroffene Patienten hat und somit besonders hervorzuheben ist. Auch P0het Mutanten zeigten Verbesserungen nach der CSF1RI Behandlung. Anders als bei Cx32def Tieren zeigte sich hier jedoch vor allem ein Erhalt der Myelinintegrität. Weiterhin wirkte sich die Therapie positiv auf elektrophysiologische Parameter und Krafttests aus. Vor allem besonders stark betroffene Individuen schienen hierbei von der CSF1RI Behandlung zu profitieren. Bei PMP22tg Mutanten hingegen konnten keine positiven Effekte der CSF1RI Behandlung nachgewiesen werden. Strukturelle und funktionelle Parameter behandelter Tiere unterschieden sich nicht von unbehandelten. Diese Ergebnisse unterstreichen die Relevanz der sekundären Entzündungsreaktion in CMT 1 Neuropathien als wichtigen Mediator in der Pathogenese. Weiterhin konnte gezeigt werden, dass eine Intervention im CSF-1/CSF1R Signalweg einen vielversprechenden möglichen Ansatz für die Therapie der bisher nicht behandelbaren CMT 1 Subypen X und B darstellt. Unausweichlich ist hierbei ein möglichst früher Therapiestart vor Ausprägung der ersten molekularen und histologischen Veränderungen. Im Hinblick auf die nicht die Lebenserwartung reduzierende Erkrankung muss ferner eine Minimierung der Nebenwirkungen der Therapie gewährleistet sein. Besonders hervorzuheben ist hier die Verwendung eines Inhibitors, welcher nicht in das zentrale Nervensystem vordringen kann und somit die Funktion der Mikroglia nicht beeinträchtigt. / Charcot-Marie-Tooth neuropathies are the most abundant inherited disorders of the peripheral nervous system, caused by a various number of mutations in schwann cell proteins which lead to the typical outcome with demyelination and axonal damage. Affected Patients suffer from motor and sensory deficits of the upper and lower extremities. To this day there is no specific therapy available. Within the last years the immune system has been identified as a mediator in the pathogenesis oft the CMT 1 subtypes A, B and X. It was shown that macrophages play a crucial role in demyelination, loss of axonal integrity and schwann cell dedifferentiation. As main factor for macrophage proliferation and differentiation cytokine CSF-1 has been identified which corresponding receptor is expressed on the outer surface oft he macrophages. Hence the CSF-1/CSF1R signalling pathway represent a promising target for pharmacological approaches. In this study we treated mouse models of CMT 1 subtypes A, B and X with a small-molecule CSF-1-receptor inhibitor, followed by histological and functional evaluation of peripheral nerves and muscles. The best response to the treatment was observed in Cx32def mutants. The treatment resulted in reduced axonal damage, improved axonal regeneration and preserved neuromuscular junctions. In addition we found improved functional parameters in grip strength testing and in electrophysiological studies. In contrast to Cx32def mutants, the characteristic feature observed in P0het mutants after CSF-1-receptor inhibitor treatment was preserved myelin integrity. Especially strongly affected individuals seemed to benefit from the treatment. PMP22tg mutants did not respond to CSF-1-receptor inhibitor treatment. The results of this study emphaize the importance of low-grade secondary inflammation as a desease amplifier in CMT 1 neuropathies. Furthermore we could show that targeting the CSF-1/CSF1RI signalling pathway might represent a promising treatment approach for CMT 1 subtypes X and B. It should be started preferably in early childhood before the developement of the typical histopathological alterations. CSF-1 Charcot-Marie-Tooth-Hoffmann-Syndrom Makrophage Immunsystem ddc:610
8	Expression of the cytoplasmic nucleolin for post-transcriptional regulation of macrophage colony-stimulating factor mRNA in ovarian and breast cancer cells Woo, Ho-Hyung, Lee, Sang C., Gibson, Steven J., Chambers, Setsuko K. 03 1900 (has links) The formation of the mRNP complex is a critical component of translational regulation and mRNA decay. Both the 5 ' and 3 ' UTRs of CSF-1 mRNA are involved in post-transcriptional regulation. In CSF-1 mRNA, a small hairpin loop structure is predicted to form at the extreme 5 ' end (2-21 nt) of the 5 ' UTR. Nucleolin binds the hairpin loop structure in the 5 ' UTR of CSF-1 mRNA and enhances translation, while removal of this hairpin loop nucleolin binding element dramatically represses translation. Thus in CSF-1 mRNA, the hairpin loop nucleolin binding element is critical for translational regulation. In addition, nucleolin interacts with the 3 ' UTR of CSF-1 mRNA and facilitates the miRISC formation which results in poly (A) tail shortening. The overexpression of nucleolin increases the association of CSF-1 mRNA containing short poly (A)(n), <= 26, with polyribosomes. Nucleolin both forms an mRNP complex with the eIF4G and CSF-1 mRNA, and is co-localized with the eIF4G in the cytoplasm further supporting nucleolin's role in translational regulation. The distinct foci formation of nucleolin in the cytoplasm of ovarian and breast cancer cells implicates the translational promoting role of nucleolin in these cancers. Cytoplasmic nucleolin Untranslated regions Hairpin loop structure elF4G Translation Deadenylation mRNA
9	Funktionelle Charakterisierung linien-fremder Signalwege für Wachstum, Überleben und Reprogrammierung lymphatischer Zellen Lamprecht, Björn 05 January 2011 (has links) Cytokine steuern die Kommunikation von verschiedenen Zelltypen untereinander und regulieren deren Überleben, Differenzierung und Wachstum. Kommt es zu einer Deregulation der Expression von Cytokinen oder deren Rezeptoren, kann es zu autoimmunen oder malignen Erkrankungen kommen. Ein besonderes Beispiel der aberranten Cytokinexpression ist das klassische Hodgkin Lymphom. Die malignen Hodgkin/Reed-Sternberg (HRS) Zellen des Hodgkin Lymphoms stammen ursprünglich aus Keimzentrums B-Zellen ab, haben aber ihren B-Zell Phänotyp verloren. Des Weiteren exprimieren sie eine Vielzahl von verschiedenen Cytokinen und Cytokinrezeptoren, die ursprünglich nicht in einem Genexpressionsprogramm von B-Zellen vorkommen. In dieser Arbeit wurden zwei dieser Cytokin-Rezeptorsysteme (IL-21/IL-21R und CSF-1/CSF1R) hinsichtlich ihrer Funktionen für die HRS Zellen des Hodgkin Lymphoms charakterisiert. Die Expression des T-Zell assoziierten Cytokins IL-21 konnte in dieser Arbeit erstmals in HRS Zellen nachgewiesen werden. Für die Expression des myeloiden CSF1R zeigen Ergebnisse dieser Arbeit eine neuartige Regulation durch ein Long Terminal Repeat (LTR) Element, welche zu einem bis dahin unbekannten mRNA Transkript des Protoonkogens CSF1R in den HRS Zellen führt. Sowohl für IL-21 als auch für CSF1R konnte in der Doktorarbeit die Expression und Funktionalität des jeweilig korrespondierenden Rezeptors (IL-21R) bzw. Cytokins (CSF-1) nachgewiesen werden. Die Bedeutung dieser B-Zell fremden Gene für die HRS Zellen lag hauptsächlich in der Stimulation von Wachstum und Überleben und der Induktion von wichtigen Signalwegen (z.B. STAT3). Die Ergebnisse der Dissertation können als Ausgangspunkt für neue Strategien in der Diagnostik und der spezifischeren Therapie von Hodgkin Lymphom Patienten dienen. Der außergewöhnliche Mechanismus der Genregulation des CSF1R Gens über ein endogenes LTR Element kann in anderen Tumorentitäten ebenfalls ein Grund für die Aktivierung von Onkogenen sein. / Cytokines in the human body are responsible for cell-cell communication and regulate survival, differentiation and proliferation of different cell types. Deregulation of expression levels of cytokines might contribute to autoimmune diseases or tumor growth. One of the most prominent examples of aberrant cytokine expression is the classical Hodgkin Lymphoma. The malign Hodgkin/Reed-Sternberg (HRS) cells of classical Hodgkin Lymphoma are derived from germinal centre B cells, however they lost their B cell-specific phenotype. Moreover they express a huge variety of cytokines and cytokine receptors, normally not expressed in B cells. Two of these cytokine-receptor systems (IL-21/IL-21R and CSF-1/CSF1R) and their expression and function in HRS cells are subject of this dissertation. The expression of the T cell-associated cytokine IL-21 has been shown for the first time in HRS cells. The results for the myeloid-specific proto-oncogene CSF1R identified a unique, so far unknown mRNA transcript, expressed due to activation of a long terminal repeat (LTR) element. For both, IL-21 and CSF1R, the expression and functionality of the corresponding receptor (IL-21R) or cytokine (CSF-1), respectively, was demonstrated in this dissertation. Protection from apoptosis, proliferation and stimulation of several pathways are the main functional consequences of auto- and paracrine stimulation of HRS cells with either IL-21 or CSF-1. These results might lead to new diagnostic and more specific treatment strategies for Hodgkin Lymphoma patients. Regarding the unusual expression of CSF1R via LTR activation this mechanism might also be the reason for oncogene activation in several other tumor entities. B-Zellen Neoplasien Hodgkin Lymphom Cytokine IL-21R IL-21 CSF1R CSF-1 LTR epigenetische Modifikationen B cells Cytokines Neoplasia Hodgkin Lymphoma IL-21R IL-21 CSF1R CSF-1 LTR epigenetic modifications 570 Biowissenschaften, Biologie 32 Biologie XD 3200 ddc:570

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