Different functions of monocyte subsets in familial hypercholesterolemia: potential function of CD14+ CD16+ monocytes in detoxification of oxidized LDL.
about
Perspectives for Monocyte/Macrophage-Based Diagnostics of Chronic InflammationThe Role of Monocytes in Ischemic Stroke Pathobiology: New Avenues to ExploreMacrophage Heterogeneity and Plasticity: Impact of Macrophage Biomarkers on AtherosclerosisDeletion of macrophage Vitamin D receptor promotes insulin resistance and monocyte cholesterol transport to accelerate atherosclerosis in mice.Nonclassical patrolling monocyte function in the vasculatureContribution of vascular cell-derived cytokines to innate and inflammatory pathways in atherogenesis.Comparison of gene expression profiles between human and mouse monocyte subsetsGlatiramer acetate increases phagocytic activity of human monocytes in vitro and in multiple sclerosis patientsαMβ₂ integrin activation prevents alternative activation of human and murine macrophages and impedes foam cell formationAssociation of small dense LDL serum levels and circulating monocyte subsets in stable coronary artery disease.Elevated atherosclerosis-related gene expression, monocyte activation and microparticle-release are related to increased lipoprotein-associated oxidative stress in familial hypercholesterolemia.Macrophages in immunopathology of atherosclerosis: a target for diagnostics and therapy.Sera from patients with active systemic lupus erythematosus patients enhance the toll-like receptor 4 response in monocyte subsets.A human macrophage-hepatocyte co-culture model for comparative studies of infection and replication of Francisella tularensis LVS strain and subspecies holarctica and mediasiatica.Triglyceride-Rich Lipoproteins Modulate the Distribution and Extravasation of Ly6C/Gr1(low) Monocytes.Differential lipid metabolism in monocytes and macrophages: influence of cholesterol loadingA novel GGA-binding site is required for intracellular sorting mediated by stabilin-1.Regulation of the migration and survival of monocyte subsets by chemokine receptors and its relevance to atherosclerosis.The fate of monocytes in atherosclerosisMacrophage heterogeneity in atherosclerotic plaques.Macrophages of genetically characterized familial hypercholesterolaemia patients show up-regulation of LDL-receptor-related proteinsMonocyte subpopulations and cardiovascular risk in chronic kidney disease.Monocyte and macrophage differentiation: circulation inflammatory monocyte as biomarker for inflammatory diseases.The role of inflammatory biomarkers in developing targeted cardiovascular therapies: lessons from the cardiovascular inflammation reduction trials.Role of chitinase-like proteins in cancer.A new fluorescent dye for cell tracing and mitochondrial imaging in vitro and in vivo.Foamy monocytes form early and contribute to nascent atherosclerosis in mice with hypercholesterolemia.Effects of dyslipidaemia on monocyte production and function in cardiovascular disease.Lymphocytes and macrophages in adipose tissue in obesity: markers or makers of subclinical inflammation?Bid regulates the immunological profile of murine microglia and macrophages.Very-low and low-density lipoproteins induce neutral lipid accumulation and impair migration in monocyte subsets.Is plasma soluble CD36 associated with cardiovascular risk factors in early onset coronary artery disease patients?Short-term treatment with taurolidine is associated with liver injuryThermo-responsive cell culture carrier: Effects on macrophage functionality and detachment efficiency.Transcript profiling of CD16-positive monocytes reveals a unique molecular fingerprint.Circulatory Immune Cells in Cushing Syndrome: Bystanders or Active Contributors to Atherometabolic Injury? A Study of Adhesion and Activation of Cell Surface Markers.The role of monocytosis and neutrophilia in atherosclerosis.Stabilin-1/CLEVER-1, a type 2 macrophage marker, is an adhesion and scavenging molecule on human placental macrophages.Increased haematopoietic activity in patients with atherosclerosis.Standardized flow cytometry assay for identification of human monocytic heterogeneity and LRP1 expression in monocyte subpopulations: decreased expression of this receptor in nonclassical monocytes.
P2860
Q26745913-50F5AD04-4721-4487-92A1-E3A0E4005F99Q26768599-A23865A0-6CD4-40D7-931F-B128E5BD9C74Q26780531-585E786A-0865-4A95-BD7F-782B87AB24E5Q27321022-8217927A-F027-4BF1-89CE-369780071E96Q28080570-A3DBE044-0318-4290-8AF0-E52F92911B53Q30318502-AA359B18-185F-42B2-90F8-F8EC12178AADQ33608738-34413468-3955-4DF2-8B80-5C9680D7CA00Q34532418-2D550247-625F-418E-835D-29E66104627BQ34822654-FBA45E06-72BA-40FC-977A-B36EFC2F9470Q35302588-AB82F5FD-0E91-4FA3-A66E-0F5B7791BBF7Q35391967-3CE8F39B-9268-47DE-88BD-23741B0F3FF4Q35595537-772A4C7D-949F-4DF3-9E85-15861E87F207Q35672923-7406EA0D-30C2-466B-AE13-DA1DE303E6B4Q35887475-68FC27B6-721E-4B7B-A9DD-CE2EF8CCB2BEQ36111469-00B951E7-9C24-4263-A9E1-E9201503BBF8Q36731741-270B0921-7E7D-402F-B78E-6EB99CED5DDFQ37410401-382BB3A7-DE89-4A4F-94C3-EC6E1162C4B3Q37435783-9AE096E7-D0B7-46D7-9D4A-812C29CA7760Q37561404-7572AF7F-8F1E-4D09-90E5-9229C3BC5C2FQ37594434-103AA491-34AF-4913-B0FC-5BF409DEC597Q37662861-45ACA5A6-94C9-438C-8A45-2E000093CE42Q37992796-2F225F72-F664-4A99-B8D9-486CEB10F0A0Q38176479-5F964C17-31A6-4083-8144-F84102C42BE7Q38593722-D00997EA-CBF8-423E-9C62-640CC02DF7AAQ38687563-57752320-F7E9-4524-A5CB-E2DFE618E27EQ38819766-D5413DA3-BEE8-415F-A40B-FB8A70770169Q38860053-21AD802A-B73A-4F9B-92F0-1EF636D34D74Q38903993-95F9218C-8D8E-4340-B7D9-E409B881A418Q38985223-D7324E61-F9F1-4FD6-AB8A-F57C2C1A3DA4Q39603198-E1E228B2-FA73-42A9-9A0E-7878834C2F36Q40048017-5B0BE187-5D41-4470-AA56-2C5723C866B0Q41008794-C17343A1-A2F6-4E96-A7A9-BEA17C30285AQ41361424-41825AED-6F4A-449F-88C8-78696570B347Q41544437-DB671F87-1616-457F-A232-395B31644DD9Q47856307-C60EED95-2907-4648-8FC0-18DF73602280Q48164578-A59B2567-0834-4AD0-8F3F-A53E1548C596Q48175299-E0FBD089-F756-4F7D-81FC-026DF0460E15Q50337576-2CEC5475-2488-4D2C-830A-230DEC9E2FC7Q51673633-5715D158-3FD3-43B6-89CD-3183C7F8DCBAQ51747828-0427CB94-E295-417F-BABD-4D3E4B9CF844
P2860
Different functions of monocyte subsets in familial hypercholesterolemia: potential function of CD14+ CD16+ monocytes in detoxification of oxidized LDL.
description
2008 nî lūn-bûn
@nan
2008 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Different functions of monocyt ...... etoxification of oxidized LDL.
@ast
Different functions of monocyt ...... etoxification of oxidized LDL.
@en
type
label
Different functions of monocyt ...... etoxification of oxidized LDL.
@ast
Different functions of monocyt ...... etoxification of oxidized LDL.
@en
prefLabel
Different functions of monocyt ...... etoxification of oxidized LDL.
@ast
Different functions of monocyt ...... etoxification of oxidized LDL.
@en
P2093
P356
P1433
P1476
Different functions of monocyt ...... etoxification of oxidized LDL.
@en
P2093
Harald Funke
Julia Kzhyshkowska
Kerstin Neunübel
Knut Rennert
Regine Heller
Sandy Mosig
Siegfried Krause
P304
P356
10.1096/FJ.08-118240
P407
P577
2008-11-10T00:00:00Z