Functional plasticity of macrophages: in situ reprogramming of tumor-associated macrophages.
about
Interaction of tumor cells with the microenvironmentParallel Aspects of the Microenvironment in Cancer and Autoimmune DiseasePeripheral Blood Monocytes as Adult Stem Cells: Molecular Characterization and Improvements in Culture Conditions to Enhance Stem Cell Features and Proliferative PotentialWounds that will not heal: pervasive cellular reprogramming in cancerRole of tumor associated macrophages in tumor angiogenesis and lymphangiogenesisSpace and time: New considerations about the relationship between Toll-like receptors (TLRs) and type I interferons (IFNs)Minireview: Emerging Concepts in Islet Macrophage Biology in Type 2 DiabetesMacrophage-tumor cell interactions regulate the function of nitric oxideAlternatively activated macrophages and collagen remodeling characterize the postpartum involuting mammary gland across speciesInteraction between innate immunity and porcine reproductive and respiratory syndrome virus.Macrophage motility requires distinct α5β1/FAK and α4β1/paxillin signaling eventsAngiogenic capacity of M1- and M2-polarized macrophages is determined by the levels of TIMP-1 complexed with their secreted proMMP-9.The density of macrophages in the invasive front is inversely correlated to liver metastasis in colon cancer.Rapid release of cytoplasmic IL-15 from tumor-associated macrophages is an initial and critical event in IL-12-initiated tumor regression.Lineage tracing of lamellocytes demonstrates Drosophila macrophage plasticity.Kinetic assessment and therapeutic modulation of metabolic and inflammatory profiles in mice on a high-fat and cholesterol dietTumor-associated macrophages (TAMs) form an interconnected cellular supportive network in anaplastic thyroid carcinoma.Decellularized allogeneic and xenogeneic tissue as a bioscaffold for regenerative medicine: factors that influence the host response.Macrophage phenotype as a predictor of constructive remodeling following the implantation of biologically derived surgical mesh materials.Cervical cancer cell supernatants induce a phenotypic switch from U937-derived macrophage-activated M1 state into M2-like suppressor phenotype with change in Toll-like receptor profile.Macrophages: plastic solutions to environmental heterogeneity.An intracameral injection of antigen induces in situ chemokines and cytokines required for the generation of circulating immunoregulatory monocytes.High-avidity T cells are preferentially tolerized in the tumor microenvironmentObstacles and opportunities for understanding macrophage polarization.Characterization of host and microbial determinants in individuals with latent tuberculosis infection using a human granuloma model.The pro-inflammatory cytokine, interleukin-6, enhances the polarization of alternatively activated macrophages.M2 polarization enhances silica nanoparticle uptake by macrophagesNOS Inhibition Modulates Immune Polarization and Improves Radiation-Induced Tumor Growth DelayAdipocytes Promote B16BL6 Melanoma Cell Invasion and the Epithelial-to-Mesenchymal Transitionp47(phox) directs murine macrophage cell fate decisions.Distinct macrophage phenotype and collagen organization within the intraluminal thrombus of abdominal aortic aneurysm.Macrophage origin limits functional plasticity in helminth-bacterial co-infectionDiverse in vivo effects of soluble and membrane-bound M-CSF on tumor-associated macrophages in lymphoma xenograft model.Inflammation induced by MMP-9 enhances tumor regression of experimental breast cancerThe significance of macrophage phenotype in cancer and biomaterials.Effects of IRF1 and IFN-β interaction on the M1 polarization of macrophages and its antitumor functionMacrophages in tuberculosis: friend or foe.Obesity, metabolism and the microenvironment: Links to cancerFucoidan inhibits CCL22 production through NF-κB pathway in M2 macrophages: a potential therapeutic strategy for cancer.Regulation of the IL-10-driven macrophage phenotype under incoherent stimuli
P2860
Q21245506-11CFB9D3-4DF4-44B6-A691-7AC5D0BA3857Q26753174-74069DB7-3C02-4310-B054-3712B8270C66Q26769993-561898FC-156A-4CF8-AB5B-C9047F976C2CQ26828560-DA2BF6C9-BDDA-4C0F-9B6F-7027533BFA48Q26865533-80C575B2-7BED-4CA2-945B-95C736B202D2Q28081328-74EA593A-D048-4BEC-9F57-EB06E46334F8Q28083768-80B5FF31-5028-43BE-A621-402A4B1D2451Q28384490-58369435-545C-4405-85C0-79A7F992384DQ28576808-8F7C4EDE-E194-4DB9-A5C7-05F0E33BB95DQ30410415-3E13872D-1789-476D-8989-68921BBDF509Q30428574-D9964131-D872-46FA-B931-029EC3CBB9ECQ30559417-0600DFC4-5331-4FC7-94BD-9C127789F03DQ33737094-CF8D8CAF-5038-4011-A3C7-1FD2A1AF1805Q33738154-A7A6E25B-F6CD-495A-91C6-4865B85CFAC4Q33761292-63EB46DC-E104-4F67-9DB6-924C7AC8988FQ33809501-9ABCAC34-AC77-4E32-B18C-EE6B543BA5D2Q33980073-0A7E42EE-11CE-499C-A0A1-5F6CB7946C8DQ34039539-4EEF669B-5289-4171-8E3F-55F5FDF9E5A7Q34240471-0844246B-C4B5-4FF2-806F-2AA4AAB0C408Q34306761-AA4C5C8A-FB0C-48F2-B535-A1A4F94D9868Q34358862-45FBD0F7-C945-4494-97CE-7CC95B2FE13FQ34389392-3F39620F-E60E-45D7-8754-904D93DB9AB7Q34463820-B49751EA-7C66-4475-B450-B537C1DFCBF4Q34683631-7D04C94F-A306-4127-B6BA-25CD1B357C88Q35111159-7F9B39FA-6728-4EBF-9E89-DBA12C29C0A7Q35149385-7C39BFC8-1237-4A90-A279-630C7853E089Q35206084-C0466F61-1B8A-4400-8B3A-029B0315E9B1Q35862690-BCD70BFD-D51D-4137-93CB-617FFD727AA6Q35931354-ADF6BFB7-C441-468C-868E-6D8CDBFBD62DQ35952015-3FE78EB5-6F7D-49AA-9978-40ACD9694D2AQ35998243-040C966C-3A24-4866-A94B-CAE468876CE6Q36320142-5C13CC62-95C1-48F9-938E-3C2E37FDEDCFQ36738826-598F9D91-1724-4C5A-8C63-24A9382B554EQ36748236-31549740-E1FE-4FCE-ABBA-D22E70BA0C46Q36944484-5A890B75-0665-46AB-968A-3EA7EA5D46F0Q36983797-E82F6EBB-0F35-4A8D-8441-6A2BBE259F34Q37147624-DC44B987-D1B5-4255-B6A3-BF49530469E8Q37276139-35956190-2780-4CE9-9CCF-FB6B42DD3E5AQ37360097-561B6343-BF47-4A34-AC74-AEC31720D0FCQ37625179-84AAE9D3-C3C6-4EA8-B0A2-8F372E41D3A9
P2860
Functional plasticity of macrophages: in situ reprogramming of tumor-associated macrophages.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 15 July 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Functional plasticity of macro ...... tumor-associated macrophages.
@en
Functional plasticity of macro ...... tumor-associated macrophages.
@nl
type
label
Functional plasticity of macro ...... tumor-associated macrophages.
@en
Functional plasticity of macro ...... tumor-associated macrophages.
@nl
prefLabel
Functional plasticity of macro ...... tumor-associated macrophages.
@en
Functional plasticity of macro ...... tumor-associated macrophages.
@nl
P2860
P356
P1476
Functional plasticity of macro ...... tumor-associated macrophages.
@en
P2093
Robert D Stout
Stephanie K Watkins
P2860
P304
P356
10.1189/JLB.0209073
P50
P577
2009-07-15T00:00:00Z