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- Models of Investigation
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1. Antifungal innate immunity in C. elegans
- Dr. Jonathan Ewbank
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2. The anti-microbial defense of Drosophila: a paradigm for innate immunity
- Prof. Jules Hoffmann
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3. Phagocytosis in the fruit fly, Drosophila melanogaster
- Dr. Lynda Stuart
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4. Innate immune sensing and response
- Prof. Bruce Beutler
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5. Macrophages and systems biology
- Prof. David Hume
- Cell Types and Recruitment
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6. Leukocyte recruitment in vivo
- Prof. Paul Kubes
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8. Eosinophils
- Prof. Tim Williams
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9. Dendritic cells: linking innate to different forms of adaptive immunity
- Prof. Ralph Steinman
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11. Innate-like lymphocytes 1
- Prof. Adrian Hayday
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12. Innate-like lymphocytes 2
- Prof. Adrian Hayday
- Recognition and Signaling
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13. Colony stimulating factor-1 regulation of macrophages in development and disease
- Prof. E. Richard Stanley
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14. Fc receptors: linking innate and acquired immunity
- Prof. Ken G C Smith
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15. Phagocytosis
- Prof. Joel Swanson
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16. Clearance of apoptotic cells and the control of inflammation
- Prof. Sir John Savill
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17. Signaling by innate immune receptors
- Prof. Michael Karin
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18. Nuclear receptors at the crossroads of inflammation and atherosclerosis
- Prof. Christopher Glass
- Modulation of Effector Responses
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19. Humoral innate immunity and the acute phase response 1
- Prof. Alberto Mantovani
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20. Humoral innate immunity and the acute phase response 2
- Prof. Alberto Mantovani
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21. Cytokines regulating the innate response
- Prof. Anne O’Garra
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22. Arginase and nitric oxide
- Dr. Peter Murray
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23. Novel lipid mediators in resolution of inflammation
- Prof. Charles Serhan
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25. Cationic peptides in innate immunity
- Dr. Dawn Bowdish
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26. Iron metabolism and innate immunity
- Prof. Tomas Ganz
- Pathogen-Host Interactions
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27. Innate recognition of viruses
- Prof. Caetano Reis e Sousa
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28. Type I interferons in innate immunity to viral infections
- Prof. Christine Biron
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29. HIV-1 and immunopathogenesis: innate immunity
- Prof. Luis Montaner
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30. Understanding and combating tuberculosis
- Prof. David Russell
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32. Innate immunity and malaria
- Prof. Douglas Golenbock
- Health and Disease
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33. Innate immunity in children
- Prof. David Speert
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34. From bench to bedside: evolution of anti-TNFalpha therapy in rheumatoid arthritis
- Prof. Sir Ravinder Maini
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35. NOD-like receptors in innate immunity and inflammatory disease
- Prof. Gabriel Nunez
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36. Paneth cells in innate immunity and inflammatory bowel disease
- Prof. Satish Keshav
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37. Innate immunity in the brain in health and disease
- Prof. V. Hugh Perry
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38. The fate of monocytes in atherosclerosis
- Prof. Gwendolyn Randolph
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39. Macrophages, a cellular toolbox used by tumors to promote progression and metastasis
- Prof. Jeffrey Pollard
- Archived Lectures *These may not cover the latest advances in the field
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40. Monocyte/macrophages in innate immunity
- Prof. Emeritus Siamon Gordon
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41. Innate immunity in C. elegans
- Dr. Jonathan Ewbank
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43. NLR genes: infection, inflammation and vaccines
- Prof. Jenny Ting
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44. Manipulation of innate immune response: lessons from shigella
- Prof. Philippe Sansonetti
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45. Innate immunity of the lung and adaptation to air breathing at birth
- Prof. Jeffrey Whitsett
Printable Handouts
Navigable Slide Index
- Introduction
- Intravital imaging of macrophages
- Macrophages functions
- TAMs subvert normal macrophage functions
- Tumor-stroma interactions
- TAMs density and prognosis
- CSF-1 and macrophage chemokines
- CSF-1 promotes tumor progression to metastasis?
- A robust staging system for PyMT tumors
- Delayed tumor progression without macrophages
- Pulmonary metastasis inhibition
- CSF-1 and tumor regulation
- CSF-1 expression in mammary gland
- Macrophages staining in the -/- (CSF-1 Tg+) mice
- Tumor progression at 18 weeks of age
- TAMs density in tumor
- Macrophages promote invasive microenvironment
- Tumor cells migration and macrophages
- Micro needle invasion assay
- Needle collection and CSF-1 and EGF signalling
- Cell specific gene expression profiles
- Needle collection of cells requires macrophages
- Tumor cell macrophage interaction
- Macrophages and tumor cells
- Paracrine loop-relayed chemotaxis
- The six traits
- Vessel network formation and tumor progression
- Malignancy and the angiogenic switch
- Stage of macrophages recruitment
- Angiogenesis mechanism
- Vessel network formation in WT/ CSF1 null mice
- Macrophage depletion reduces vascularization
- Macrophage depletion and vessel area and density
- IHC of VEGF in PyMT tumor
- VEGF expression vector using the 2A system
- VEGF effect
- VEGF over-expression
- Introducing macrophages in an earlier stage
- CSF-1 effect
- CSF-1 over expression
- CSF-1 transgenic expression
- Tumor movement and macrophages
- Where do the macrophages localize?
- Tumor cell motility
- Intravasation
- The invasive microenvironment
- Paracrine interactions
- Acknowledgements
Topics Covered
- Tumor microenvironment
- Macrophages promote tumor progression and metastasis
- Macrophage densities correlate with poor prognosis in many human cancers
- Macrophages regulate tumor cell migration and intravasation
- Macrophages regulate the angiogenic switch at the malignant transition
- Macrophage and tumor cells move using a paracrine mechanism involving CSF-1 and EGF
- Macrophages synthesize VEGF to regulate angiogenesis
Links
Series:
Categories:
Therapeutic Areas:
Talk Citation
Pollard, J. (2009, May 31). Macrophages, a cellular toolbox used by tumors to promote progression and metastasis [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved October 12, 2024, from https://doi.org/10.69645/PYUH4089.Export Citation (RIS)
Publication History
Financial Disclosures
- Prof. Jeffrey Pollard has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.
Macrophages, a cellular toolbox used by tumors to promote progression and metastasis
Published on May 31, 2009
49 min
A selection of talks on Oncology
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