MIR221/MIR222-driven post-transcriptional regulation of P27KIP1 and P57KIP2 is crucial for high-glucose- and AGE-mediated vascular cell damage.
about
Human miR-221/222 in Physiological and Atherosclerotic Vascular RemodelingPathogenesis of diabetic cerebral vascular disease complicationDiabetes-associated macrovascular complications: cell-based therapy a new tool?Mechanisms of metabolic memory and renal hypoxia as a therapeutic target in diabetic kidney disease.miR-221/222 control luminal breast cancer tumor progression by regulating different targets.microRNAs Distinctively Regulate Vascular Smooth Muscle and Endothelial Cells: Functional Implications in Angiogenesis, Atherosclerosis, and In-Stent Restenosis.Urinary microRNA profiling in the nephropathy of type 1 diabetes.A human 3'UTR clone collection to study post-transcriptional gene regulationEndothelial microparticles reduce ICAM-1 expression in a microRNA-222-dependent mechanism.Differential Expression of MicroRNAs in Endarterectomy Specimens Taken from Patients with Asymptomatic and Symptomatic Carotid Plaques.Metabolic stress in the myocardium: adaptations of gene expression.Increase of palmitic acid concentration impairs endothelial progenitor cell and bone marrow-derived progenitor cell bioavailability: role of the STAT5/PPARγ transcriptional complex.MicroRNAs: potential mediators and biomarkers of diabetic complications.Endothelial microRNAs and atherosclerosis.Making sense in antisense: therapeutic potential of noncoding RNAs in diabetes-induced vascular dysfunction.MicroRNA in diabetic nephropathy: renin angiotensin, aGE/RAGE, and oxidative stress pathway.Exercise mediated protection of diabetic heart through modulation of microRNA mediated molecular pathwaysMicroRNAs mediate metabolic stresses and angiogenesis.Role of microRNAs in diabetes and its cardiovascular complications.Cellular and molecular mechanisms of endothelial dysfunction in diabetes.Skewed Epigenetics: An Alternative Therapeutic Option for Diabetes Complications.Circulating miRNAs as intercellular messengers, potential biomarkers and therapeutic targets for Type 2 diabetes.Activated Stat5 trafficking Via Endothelial Cell-derived Extracellular Vesicles Controls IL-3 Pro-angiogenic Paracrine Action.Unacylated ghrelin promotes skeletal muscle regeneration following hindlimb ischemia via SOD-2-mediated miR-221/222 expression.Obesity reduces the pro-angiogenic potential of adipose tissue stem cell-derived extracellular vesicles (EVs) by impairing miR-126 content: impact on clinical applications.Diabetes and vascular disease: pathophysiology, clinical consequences, and medical therapy: part ImiRNA-221 and miRNA-222 synergistically function to promote vascular calcification.Insights into the molecular mechanisms of diabetes-induced endothelial dysfunction: focus on oxidative stress and endothelial progenitor cells.MiR-492 impairs the angiogenic potential of endothelial cells.Empagliflozin Limits Myocardial Infarction in Vivo and Cell Death in Vitro: Role of STAT3, Mitochondria, and Redox Aspects.Ghrelin, MicroRNAs, and Critical Limb Ischemia: Hungering for a Novel Treatment Option.Exosomes secreted by cardiomyocytes subjected to ischaemia promote cardiac angiogenesis.Adipose mesenchymal stem cells-derived exosomes attenuate retina degeneration of streptozotocin-induced diabetes in rabbitsMicroRNAs and cardiovascular diseases
P2860
Q26801898-3B4239A4-B4E9-4F30-9365-D03902668028Q28087462-F1497BAD-FE10-46E3-9A53-65CFACC9C949Q30428895-ADC73B4C-D4BC-4EC5-94A9-74DBCD302EB6Q33633674-02FB08E0-12DC-4CEE-A86E-BA6BBC8B4AB3Q33952998-BB63F60B-3B9B-466C-B1AE-631E148426C3Q34504964-C03E57B2-4F68-45A9-83C6-F232FD2BBB88Q34566051-5CE2E18F-194E-4792-BDDE-E36842C28756Q35863043-F98DEE42-6A29-4461-88F3-8596069FD2AEQ36057489-C2832A27-37C6-4610-8D2A-2EDFD8C53F2DQ36133951-97B14A5E-378F-439F-B49E-69008B7EB1E5Q36328486-2EA60DDC-D862-4BF6-B363-C998594EAD1EQ36720613-7F97743F-98D3-40FA-ABB1-68B8786174F4Q37146727-D8D8B16A-E104-450F-B7ED-76D486EEA25DQ37384227-2FDCD315-1EC3-46A5-B295-07CDE6C219A9Q37393027-A3BBB662-93FC-433E-B282-8095C339EF33Q37419073-C76514DC-D0E0-461B-87ED-A2273722C9BBQ37586770-D40F9D9B-201E-4F02-AF55-163B789B4ACFQ37917698-474B5D36-7F8D-4BE0-89C1-D6AAA6BD5D6BQ37953896-3AC5402B-F031-4721-8A60-5D49BC62B5C3Q38134022-3A21D167-08F8-40A5-B020-68BE4EB5E508Q38524836-D60B100C-769C-4724-BF87-FF050C3B2A7BQ38537772-6A696EBD-1BBB-456C-9C82-283306AF99EEQ41169371-BD2781B5-2653-480C-B5FD-DD04B7E86934Q41833851-999ECE5A-C5D1-491F-8E27-B0FCD3D8BF27Q41974700-B9056A8D-F3E7-4FFD-9344-1FFDB173043CQ42021514-1A31102A-DEE7-4AE0-AAB8-1B20290D17F9Q42084206-8AC48D13-4E4A-4993-9141-3A8FB9C37366Q42145401-0A9B04A5-DE2B-4C76-AB31-DB6F1023472FQ42971453-98C2F97B-B985-4E73-AA68-9D47ADC61AFDQ49423096-A698EEEA-FDDE-4FA4-A7F1-38F33726271EQ49561459-718179FF-08E6-450D-BBBE-F7E15FE39FCCQ50243885-A48F5DFE-32A2-4B1E-88AB-44F35E3FC38AQ58601517-5A1030E5-9A58-4A4B-B652-7C205A434354Q59104729-FE16B2F0-F27A-4BE8-93BB-06619299719D
P2860
MIR221/MIR222-driven post-transcriptional regulation of P27KIP1 and P57KIP2 is crucial for high-glucose- and AGE-mediated vascular cell damage.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
2011年论文
@zh
2011年论文
@zh-cn
name
MIR221/MIR222-driven post-tran ...... mediated vascular cell damage.
@en
MIR221/MIR222-driven post-tran ...... mediated vascular cell damage.
@nl
type
label
MIR221/MIR222-driven post-tran ...... mediated vascular cell damage.
@en
MIR221/MIR222-driven post-tran ...... mediated vascular cell damage.
@nl
prefLabel
MIR221/MIR222-driven post-tran ...... mediated vascular cell damage.
@en
MIR221/MIR222-driven post-tran ...... mediated vascular cell damage.
@nl
P2093
P2860
P1433
P1476
MIR221/MIR222-driven post-tran ...... mediated vascular cell damage.
@en
P2093
A Trombetta
G Togliatto
M F Brizzi
P Dentelli
P2860
P2888
P304
P356
10.1007/S00125-011-2125-5
P577
2011-04-02T00:00:00Z