Transdifferentiation of mouse aortic smooth muscle cells to a macrophage-like state after cholesterol loading.
about
Regulated Hyaluronan Synthesis by Vascular CellsImplications of autophagy for vascular smooth muscle cell function and plasticityHypoxia in murine atherosclerotic plaques and its adverse effects on macrophagesDietary cholesterol-induced post-testicular infertilityDivergent JAM-C Expression Accelerates Monocyte-Derived Cell Exit from Atherosclerotic PlaquesConnexin40 imparts conduction heterogeneity to atrial tissueNitric oxide inhibition of adenylyl cyclase type 6 activity is dependent upon lipid rafts and caveolin signaling complexesNovel lipid droplet-associated serine hydrolase regulates macrophage cholesterol mobilizationStatins promote the regression of atherosclerosis via activation of the CCR7-dependent emigration pathway in macrophagesSmooth muscle cell-specific deletion of Col15a1 unexpectedly leads to impaired development of advanced atherosclerotic lesions.KLF4-dependent phenotypic modulation of smooth muscle cells has a key role in atherosclerotic plaque pathogenesis.Recent insights into the cellular biology of atherosclerosisSmooth muscle cell phenotypic switching in atherosclerosisRole of smooth muscle cells in the initiation and early progression of atherosclerosis.Vascular smooth muscle cells in cerebral aneurysm pathogenesis.Gene expression changes in foam cells and the role of chemokine receptor CCR7 during atherosclerosis regression in ApoE-deficient mice.Testosterone and erectile function: from basic research to a new clinical paradigm for managing men with androgen insufficiency and erectile dysfunction.Lymphotoxin beta receptor signaling promotes tertiary lymphoid organogenesis in the aorta adventitia of aged ApoE-/- mice.Cellular plasticity of inflammatory myeloid cells in the peritoneal foreign body responseIRAK1 mediates TLR4-induced ABCA1 downregulation and lipid accumulation in VSMCs.A smooth muscle-like origin for beige adipocytesGalectin-3 in Peripheral Artery Disease. Relationships with Markers of Oxidative Stress and Inflammation.HDL promotes rapid atherosclerosis regression in mice and alters inflammatory properties of plaque monocyte-derived cells.Systemic vasculopathy with altered vasoreactivity in a transgenic mouse model of scleroderma.MicroRNA modulation of lipid metabolism and oxidative stress in cardiometabolic diseases.Ezetimibe suppresses cholesterol accumulation in lipid-loaded vascular smooth muscle cells in vitro via MAPK signalingMathematical modeling of corticosteroid pharmacogenomics in rat muscle following acute and chronic methylprednisolone dosingLXR promotes the maximal egress of monocyte-derived cells from mouse aortic plaques during atherosclerosis regression.Classical and Alternative Activation and Metalloproteinase Expression Occurs in Foam Cell Macrophages in Male and Female ApoE Null Mice in the Absence of T and B Lymphocytes.Matrix metalloproteinase activation predicts amelioration of remodeling after dietary modification in injured arteries.Role of toll-like receptor 4 in intimal foam cell accumulation in apolipoprotein E-deficient miceInhibition of bone morphogenetic protein signal transduction prevents the medial vascular calcification associated with matrix Gla protein deficiency.Galectin-3, a biomarker linking oxidative stress and inflammation with the clinical outcomes of patients with atherothrombosis.Diabetes adversely affects macrophages during atherosclerotic plaque regression in mice.Cholesterol loading reprograms the microRNA-143/145-myocardin axis to convert aortic smooth muscle cells to a dysfunctional macrophage-like phenotype.Myocardin regulates vascular smooth muscle cell inflammatory activation and diseaseRat carboxylesterase ES-4 enzyme functions as a major hepatic neutral cholesteryl ester hydrolase.Phosphatidylcholine-Mediated Aqueous Diffusion of Cellular Cholesterol Down-Regulates the ABCA1 Transporter in Human Skin FibroblastsEffect of PGC-1α on proliferation, migration, and transdifferentiation of rat vascular smooth muscle cells induced by high glucosePDGFRβ signalling regulates local inflammation and synergizes with hypercholesterolaemia to promote atherosclerosis.
P2860
Q26786080-2BE32C90-4169-4E71-A4F2-FA3FC1D1E368Q26863422-BA3F5D15-2CE3-4773-AABD-3685B02E4CC2Q26995104-9690A5BB-BA71-4B64-976C-43A180A0B64EQ27314685-2DE761A8-23EF-4055-9D8F-EE034CC289C1Q27333694-4E105921-C2D0-4360-8724-032DB5ECBB3CQ28508423-23487FF0-0093-4508-870F-8F976615134BQ28573679-87AB8E7D-F76D-4386-8271-D6A618CAC49CQ28592575-CFE55CA1-0782-47EC-903E-9F67ED73701BQ28741815-89B75724-781B-42CA-95FF-FA31261338B9Q30252988-19BF403A-36F4-4D6F-AD27-F6F6B95E7FFCQ30299921-D4F4F34C-D2DC-4C83-8871-FAAAC071D50BQ30300194-C274E5EF-3228-4962-9857-BC677CCA0EAAQ30418243-2A7CBEBB-6A50-4625-BB5E-F494284BEA1FQ30438867-3B943FA7-C76B-4F90-B882-305499A31E5EQ30457214-5A8C1C9D-B6B3-4569-9DFB-50C082EB0A96Q33236495-55637A5E-94C6-4202-A0B5-4CFA11FFF927Q33276072-E2C68CF7-CE18-4BB7-B981-ED5D58330CFAQ33399367-16D943E3-3D1E-48B4-86FC-C730A9A7B2E4Q33556377-38ADBC6A-8E88-4F08-9E55-4204F4311B94Q33586765-BA7C06B5-A4B0-4F24-B431-86E7C4B42E8DQ33738053-6785A17A-B4F6-4EB1-AD1D-4D826144D9F9Q33754984-1DFFD392-233B-4C3C-915D-B8F470D93583Q33868782-57B22510-F85C-4A59-86FA-B73B92F7D809Q33923465-52FE62C6-77D4-43D2-A448-545FBA16BD1BQ34093118-0F8F4F67-EBB0-449B-BEBE-B622F8EE8538Q34138315-6E924B11-0F48-4E92-91E5-F2DE8F59E67EQ34335463-D08274C5-B141-412A-8986-7AC8D724B948Q34360087-EB40FBFE-9AC5-4E59-B3E9-4B376AD5D62FQ34413984-0A869703-C5AE-403F-908F-74093C4551F7Q34420376-B851FD9C-4255-4E50-9768-54C4199511D3Q34555906-53E94187-5D12-42A2-BF36-10593653DFF3Q34989385-D46F5455-A5BE-44A2-9295-EB58FDD1DD7BQ35026202-AA9447C8-EB2D-4FA1-8185-2AACEC7A9B7DQ35043471-A025ACB6-5197-4F00-9530-936109098ECBQ35130704-05D5B246-1150-44E5-B33F-E0D562D1E90DQ35323782-241C739B-286D-4D65-9476-F2753A0E6952Q35562853-0F17DAF4-53A6-4CD9-9476-AA3300E2F657Q35670387-FB1FDB18-CB6E-422D-861D-E0CC3123E10AQ35830180-611CC155-FAEE-46E8-AB8C-BF0B7B9FCBEAQ35865871-62AC7B49-606F-43CE-B8B3-5029C386DDFF
P2860
Transdifferentiation of mouse aortic smooth muscle cells to a macrophage-like state after cholesterol loading.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 27 October 2003
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Transdifferentiation of mouse ...... ate after cholesterol loading.
@en
Transdifferentiation of mouse ...... ate after cholesterol loading.
@nl
type
label
Transdifferentiation of mouse ...... ate after cholesterol loading.
@en
Transdifferentiation of mouse ...... ate after cholesterol loading.
@nl
prefLabel
Transdifferentiation of mouse ...... ate after cholesterol loading.
@en
Transdifferentiation of mouse ...... ate after cholesterol loading.
@nl
P2093
P2860
P356
P1476
Transdifferentiation of mouse ...... ate after cholesterol loading.
@en
P2093
Eugene Trogan
James X Rong
Mark Shapiro
P2860
P304
13531-13536
P356
10.1073/PNAS.1735526100
P407
P577
2003-10-27T00:00:00Z