Human atherosclerosis. II. Immunocytochemical analysis of the cellular composition of human atherosclerotic lesions
about
Localization of tissue factor in the normal vessel wall and in the atherosclerotic plaqueExpression of apolipoprotein serum amyloid A mRNA in human atherosclerotic lesions and cultured vascular cells: implications for serum amyloid A functionOsteopontin mRNA is expressed by smooth muscle-derived foam cells in human atherosclerotic lesions of the aortaExpanding expression of the 5-lipoxygenase pathway within the arterial wall during human atherogenesisOxidative risk for atherothrombotic cardiovascular disease.Platelet-derived growth factor gene expression in human atherosclerotic plaques and normal artery wall.HLA-DR antigen linkage of anti-beta receptor antibodies in idiopathic dilated and ischaemic cardiomyopathyCell proliferation in human coronary arteries.Macrophages promote polycystic kidney disease progression.Modulation of human aorta smooth muscle cell phenotype: a study of muscle-specific variants of vinculin, caldesmon, and actin expression.Evidence for multiple pathologic and protective mechanisms of murine cerebral malaria.Decay-accelerating factor is expressed on vascular smooth muscle cells in human atherosclerotic lesions.Neointimal macrophages colocalize with extracellular matrix gene expression in human atherosclerotic pulmonary arteries.Lipoprotein-proteoglycan complexes induce continued cholesteryl ester accumulation in foam cells from rabbit atherosclerotic lesions.Osteopontin is elevated during neointima formation in rat arteries and is a novel component of human atherosclerotic plaques.Upregulation of fibronectin synthesis by interleukin-1 beta in coronary artery smooth muscle cells is associated with the development of the post-cardiac transplant arteriopathy in piglets.Morphology of the endothelium over atherosclerotic plaques in human coronary arteries.Association of low numbers of CD206-positive cells with loss of ICC in the gastric body of patients with diabetic gastroparesis.Regional expression of the platelet-derived growth factor and its receptors in a primate graft model of vessel wall assembly.Increased platelet deposition on atherosclerotic coronary arteriesExpression of alpha 2-macroglobulin receptor/low density lipoprotein receptor-related protein and scavenger receptor in human atherosclerotic lesionsOxidatively modified low density lipoprotein is a chemoattractant for human T lymphocytesMacrophage-derived foam cells freshly isolated from rabbit atherosclerotic lesions degrade modified lipoproteins, promote oxidation of low-density lipoproteins, and contain oxidation-specific lipid-protein adductsPlatelet-derived growth factor activity and mRNA expression in healing vascular grafts in baboons. Association in vivo of platelet-derived growth factor mRNA and protein with cellular proliferationGene expression in macrophage-rich human atherosclerotic lesions. 15-lipoxygenase and acetyl low density lipoprotein receptor messenger RNA colocalize with oxidation specific lipid-protein adducts.Regulation of smooth muscle cell scavenger receptor expression in vivo by atherogenic diets and in vitro by cytokines.Monocyte chemoattractant protein-1 in human atheromatous plaques.Proliferating or interleukin 1-activated human vascular smooth muscle cells secrete copious interleukin 6.Platelet-derived growth factor in idiopathic pulmonary fibrosis.Platelet-derived growth factor mRNA detection in human atherosclerotic plaques by in situ hybridizationImmune interferon inhibits proliferation and induces 2'-5'-oligoadenylate synthetase gene expression in human vascular smooth muscle cellsCharacterization of a population of neural progenitor cells in the infant hippocampus.Macrophage foam cells from experimental atheroma constitutively produce matrix-degrading proteinases.Role of endothelial cell denudation and smooth muscle cell dedifferentiation in neointimal formation of human vein grafts after coronary artery bypass grafting: therapeutic implications.Lipoprotein lipase is synthesized by macrophage-derived foam cells in human coronary atherosclerotic plaques.Increased expression of heat shock protein 65 coincides with a population of infiltrating T lymphocytes in atherosclerotic lesions of rabbits specifically responding to heat shock protein 65Glomeruloid microvascular proliferation follows adenoviral vascular permeability factor/vascular endothelial growth factor-164 gene delivery.Expression of fibrinolytic genes in atherosclerotic abdominal aortic aneurysm wall. A possible mechanism for aneurysm expansion.Proteoglycan distribution in lesions of atherosclerosis depends on lesion severity, structural characteristics, and the proximity of platelet-derived growth factor and transforming growth factor-betaLipoproteins modulate expression of the macrophage scavenger receptor
P2860
Q24339425-EABF31EB-3179-4667-87CE-07DD24EF58FEQ24563622-37ACABFC-A891-433F-88DC-5486CA51175EQ24594206-96445266-7769-4744-A673-A498EBD05D03Q28205296-FD1F72AE-2538-4C6D-A2FD-4A6D96706272Q33554184-53F458E0-19D6-4159-BF4F-70590DD34B2EQ33567932-0CD88B17-7303-4C02-8902-07C7DAA1F8F5Q33611977-5A85F8F8-FAD6-4ADA-9ADA-BB8E3C648C17Q33635457-C38972E1-463B-4C63-B3A9-6345CEBFD806Q33640257-89D71836-4EFC-4995-8EA4-6B3E0C3B87D5Q33685386-36B3799E-9F8D-4869-9150-380A7FC11911Q33769789-107603FB-8BE5-4DDB-BBFA-30D013F95428Q33848520-E63DCA9E-87BA-46DB-AAA2-2447A0972ACFQ33890640-5848B281-F6B3-4964-BBDA-80CB955CD4ABQ33893364-22E34512-41ED-4AD0-BE5E-E11C11E23CE0Q33904134-5F4C01DD-534A-48A7-8D39-EE9F660C3212Q33905066-1AAB255D-9840-40F6-A792-C8057BECAF59Q34016793-B2795D2F-207D-4CB7-AD7E-E71530BC1E8EQ34111465-AB9294A0-C6C7-4C5B-92EC-1FCA9920B6C3Q34113116-BEBB5D45-09E9-41EB-B032-98F493425675Q34125013-8F8C885E-B243-4C85-A805-6794D5AD1730Q34143741-5E032347-C96F-4C07-ABF8-6F1143A3F9C3Q34172169-6A1FFD2A-4208-4628-987D-06F10D23418DQ34175281-6CF1B2BB-A232-452C-894A-D897C165C30AQ34180102-FA6B5D36-48EF-4B2A-8C98-D9B0AF262567Q34181152-BCE8E560-1700-40E8-AF21-B270BA085F96Q34193476-2A9D71D3-D463-4698-86B0-8383D86B3B03Q34203056-A3F833DC-ACAF-4DFE-8880-6E1907C1AB77Q34244878-8E7A3DA6-295A-4F2B-A4B4-F563F503DAC5Q34261287-03F67050-9C76-43EC-B87D-A5FC0680F4FCQ34563319-4E62492E-0CE8-4005-9160-2E61C96E39FFQ34570163-92607C11-194C-4921-BB6E-8E437D458595Q34658909-62ECAD33-EDA7-45BD-AFA8-A77CDD5EB743Q34762451-335E7E7E-31E6-4E47-AC3E-DA28AF5D7DD2Q35374740-A40075AD-1149-4603-9BD8-82B0C819C1BCQ35602166-79BAF022-40D6-4A09-A5E1-1D6384DA180DQ35611112-379CEB1B-E380-4EE4-88AF-2CF4CA740597Q35746429-5AB92262-A8B7-44B7-BBE6-2DAD31F6DEB5Q35751580-BA8B5A7B-2075-4EB7-9DEA-C730D8AE90D4Q35763762-2D03F279-7A0C-4F6F-973D-DC2F4E6D2E7CQ35765135-0BB0FDF5-9768-4647-BFC7-5669EE39E5ED
P2860
Human atherosclerosis. II. Immunocytochemical analysis of the cellular composition of human atherosclerotic lesions
description
1986 nî lūn-bûn
@nan
1986年の論文
@ja
1986年論文
@yue
1986年論文
@zh-hant
1986年論文
@zh-hk
1986年論文
@zh-mo
1986年論文
@zh-tw
1986年论文
@wuu
1986年论文
@zh
1986年论文
@zh-cn
name
Human atherosclerosis. II. Imm ...... human atherosclerotic lesions
@ast
Human atherosclerosis. II. Imm ...... human atherosclerotic lesions
@en
type
label
Human atherosclerosis. II. Imm ...... human atherosclerotic lesions
@ast
Human atherosclerosis. II. Imm ...... human atherosclerotic lesions
@en
prefLabel
Human atherosclerosis. II. Imm ...... human atherosclerotic lesions
@ast
Human atherosclerosis. II. Imm ...... human atherosclerotic lesions
@en
P2093
P2860
P1476
Human atherosclerosis. II. Imm ...... human atherosclerotic lesions
@en
P2093
P2860
P304
P407
P577
1986-10-01T00:00:00Z