Targeting Monocytes/Macrophages to Treat Atherosclerotic Inflammation
It is by now widely recognized that atherosclerosis – with its burden of consequences in cerebro- and cardiovascular diseases – is just a chronic inflammatory process of the arterial wall. A very peculiar, complex and as yet still poorly understood process, upon which hundreds of scientists from sev...
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| Μορφή: | Online |
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| Γλώσσα: | Αγγλικά |
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Frontiers Media SA
2021
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| Διαθέσιμο Online: | ONIX_20211118_9782889635993_873 |
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| collection | Directory of Open Access Books |
| description | It is by now widely recognized that atherosclerosis – with its burden of consequences in cerebro- and cardiovascular diseases – is just a chronic inflammatory process of the arterial wall. A very peculiar, complex and as yet still poorly understood process, upon which hundreds of scientists from several different fields are continuously concentrating their investigative efforts in search of possible leads to therapeutic approaches. Initiation of the disease is given by deposition of lipid in the intimal layers, resulting in endothelial activation and infiltration of blood-derived mononuclear cells. These mature into macrophages, become activated, express scavenger receptors such as SR-A and CD36 and ingest the oxidized lipoprotein accumulating in the lesion. Macrophages thus represent an obvious target for intervention, as they play a crucial role in the progression of the atherosclerotic inflammation. Studies have shown that hypercholesterolaemia can increase monocyte mobilisation from bone marrow into the circulation, and several chemokines and their receptors are involved in the recruitment of blood borne monocytes into the arterial wall. Monocyte-derived macrophages are capable of sustaining their local proliferation, but resident macrophages possibly also participate in progression of the disease. Remarkably, smooth muscle cells can acquire macrophage-like features during atherogenesis, including the ability to uptake lipid, thus becoming a significant proportion of the CD68+ so called ‘foam cells’. Lipid-laden macrophages induce extracellular matrix degradation, while lipid uptake eventually causes their death with formation of a necrotic core. The efficiency in clearance of dead cells by phagocytes (efferocytosis), can also be considered as a determinant of plaque vulnerability. An important feature of macrophages is their great plasticity and functional diversity in response to signals from the plaque microenvironment. Several such ‘signals’ (cholesterol, oxidative stress, hypoxia, cytokines…) can in fact modulate cell differentiation at transcriptional and epigenetic levels, thus altering the balance between the effector vs. reparative functions of macrophages. A whole gamut of specific subsets are thus originated, which appear to be simultaneously present in lesions with proportions that vary according to their location, the disease stage, and the presence of additional cell types such as e.g. dendritic cells. The result is a multiplicity of potential pharmacological targets, representing a major obstacle for the devisement of therapeutic strategies. Experimental approaches have been attempted in diverse directions: e.g. modulating the macrophage phenotype to an anti-inflammatory and resolving state, or blocking pro-inflammatory cytokines that macrophages produce, or alternatively enhancing efferocytosis in order to favour the resolution of inflammation and stabilization of plaques. Blocking monocyte recruitment was proposed in order to hinder the initial steps of atherogenesis. Other treatments were aimed to inhibiting local proliferation of pro-inflammatory macrophages. Specific targeting of macrophages has however to date not yet provided significant, translational results. The present Research Topic collects articles to help unravel the complexity of macrophage behaviour in atherosclerosis and identify innovative pharmacological approaches. |
| format | Online |
| id | doab-20.500.12854ir-73741 |
| institution | Directory of Open Access Books |
| language | eng |
| publishDate | 2021 |
| publishDateRange | 2021 |
| publishDateSort | 2021 |
| publisher | Frontiers Media SA |
| publisherStr | Frontiers Media SA |
| record_format | ojs |
| spelling | doab-20.500.12854ir-737412024-04-04T19:19:54Z Targeting Monocytes/Macrophages to Treat Atherosclerotic Inflammation Corti, Alessandro Gaucher, Caroline Pompella, Alfonso monocytes/macrophages inflammation foam cell formation smooth muscle cells atherosclerosis progression thema EDItEUR::P Mathematics and Science::PD Science: general issues thema EDItEUR::M Medicine and Nursing::MK Medical specialties, branches of medicine::MKG Pharmacology It is by now widely recognized that atherosclerosis – with its burden of consequences in cerebro- and cardiovascular diseases – is just a chronic inflammatory process of the arterial wall. A very peculiar, complex and as yet still poorly understood process, upon which hundreds of scientists from several different fields are continuously concentrating their investigative efforts in search of possible leads to therapeutic approaches. Initiation of the disease is given by deposition of lipid in the intimal layers, resulting in endothelial activation and infiltration of blood-derived mononuclear cells. These mature into macrophages, become activated, express scavenger receptors such as SR-A and CD36 and ingest the oxidized lipoprotein accumulating in the lesion. Macrophages thus represent an obvious target for intervention, as they play a crucial role in the progression of the atherosclerotic inflammation. Studies have shown that hypercholesterolaemia can increase monocyte mobilisation from bone marrow into the circulation, and several chemokines and their receptors are involved in the recruitment of blood borne monocytes into the arterial wall. Monocyte-derived macrophages are capable of sustaining their local proliferation, but resident macrophages possibly also participate in progression of the disease. Remarkably, smooth muscle cells can acquire macrophage-like features during atherogenesis, including the ability to uptake lipid, thus becoming a significant proportion of the CD68+ so called ‘foam cells’. Lipid-laden macrophages induce extracellular matrix degradation, while lipid uptake eventually causes their death with formation of a necrotic core. The efficiency in clearance of dead cells by phagocytes (efferocytosis), can also be considered as a determinant of plaque vulnerability. An important feature of macrophages is their great plasticity and functional diversity in response to signals from the plaque microenvironment. Several such ‘signals’ (cholesterol, oxidative stress, hypoxia, cytokines…) can in fact modulate cell differentiation at transcriptional and epigenetic levels, thus altering the balance between the effector vs. reparative functions of macrophages. A whole gamut of specific subsets are thus originated, which appear to be simultaneously present in lesions with proportions that vary according to their location, the disease stage, and the presence of additional cell types such as e.g. dendritic cells. The result is a multiplicity of potential pharmacological targets, representing a major obstacle for the devisement of therapeutic strategies. Experimental approaches have been attempted in diverse directions: e.g. modulating the macrophage phenotype to an anti-inflammatory and resolving state, or blocking pro-inflammatory cytokines that macrophages produce, or alternatively enhancing efferocytosis in order to favour the resolution of inflammation and stabilization of plaques. Blocking monocyte recruitment was proposed in order to hinder the initial steps of atherogenesis. Other treatments were aimed to inhibiting local proliferation of pro-inflammatory macrophages. Specific targeting of macrophages has however to date not yet provided significant, translational results. The present Research Topic collects articles to help unravel the complexity of macrophage behaviour in atherosclerosis and identify innovative pharmacological approaches. 2021-11-18T16:23:46Z 2021-11-18T16:23:46Z 2020 book ONIX_20211118_9782889635993_873 9782889635993 https://directory.doabooks.org/handle/20.500.12854/73741 eng image/jpeg Attribution 4.0 International https://www.frontiersin.org/research-topics/8456/targeting-monocytesmacrophages-to-treat-atherosclerotic-inflammation https://www.frontiersin.org/research-topics/8456/targeting-monocytesmacrophages-to-treat-atherosclerotic-inflammation Frontiers Media SA 10.3389/978-2-88963-599-3 10.3389/978-2-88963-599-3 bf5ce210-e72e-4860-ba9b-c305640ff3ae 9782889635993 127 open access |
| spellingShingle | monocytes/macrophages inflammation foam cell formation smooth muscle cells atherosclerosis progression thema EDItEUR::P Mathematics and Science::PD Science: general issues thema EDItEUR::M Medicine and Nursing::MK Medical specialties, branches of medicine::MKG Pharmacology Targeting Monocytes/Macrophages to Treat Atherosclerotic Inflammation |
| title | Targeting Monocytes/Macrophages to Treat Atherosclerotic Inflammation |
| title_full | Targeting Monocytes/Macrophages to Treat Atherosclerotic Inflammation |
| title_fullStr | Targeting Monocytes/Macrophages to Treat Atherosclerotic Inflammation |
| title_full_unstemmed | Targeting Monocytes/Macrophages to Treat Atherosclerotic Inflammation |
| title_short | Targeting Monocytes/Macrophages to Treat Atherosclerotic Inflammation |
| title_sort | targeting monocytes macrophages to treat atherosclerotic inflammation |
| topic | monocytes/macrophages inflammation foam cell formation smooth muscle cells atherosclerosis progression thema EDItEUR::P Mathematics and Science::PD Science: general issues thema EDItEUR::M Medicine and Nursing::MK Medical specialties, branches of medicine::MKG Pharmacology |
| topic_facet | monocytes/macrophages inflammation foam cell formation smooth muscle cells atherosclerosis progression thema EDItEUR::P Mathematics and Science::PD Science: general issues thema EDItEUR::M Medicine and Nursing::MK Medical specialties, branches of medicine::MKG Pharmacology |
| url | ONIX_20211118_9782889635993_873 |