scholarly article | Q13442814 |
retracted paper | Q45182324 |
P50 | author | Annarosa Leri | Q19863983 |
Piero Anversa | Q3903152 | ||
Jan Kajstura | Q57391856 | ||
Marcello Rota | Q57392184 | ||
Polina Goichberg | Q57392242 | ||
P2093 | author name string | Annarosa Leri | |
Jan Kajstura | |||
Marcello Rota | |||
Ramaswamy Kannappan | |||
Yingnan Bai | |||
Fumihiro Sanada | |||
Sergio Signore | |||
Andrea Sorrentino | |||
Maria Cimini | |||
Polina Goichberg | |||
P2860 | cites work | Loss of caveolin-1 polarity impedes endothelial cell polarization and directional movement | Q23909883 |
Eph/ephrin molecules--a hub for signaling and endocytosis | Q24611588 | ||
The ephrin A1-EphA2 system promotes cardiac stem cell migration after infarction | Q42739752 | ||
A direct role for Met endocytosis in tumorigenesis. | Q42809894 | ||
EphA4 is localized in clathrin-coated and synaptic vesicles in adult mouse brain | Q43196398 | ||
Myocyte turnover in the aging human heart | Q43415029 | ||
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Cardiac stem cell and myocyte aging, heart failure, and insulin-like growth factor-1 overexpression. | Q51010411 | ||
Peroxiredoxin II is an essential antioxidant enzyme that prevents the oxidative inactivation of VEGF receptor-2 in vascular endothelial cells. | Q53398020 | ||
Loss of functional caveolae during senescence of human fibroblasts | Q57351467 | ||
Cardiac Stem Cells Possess Growth Factor-Receptor Systems That After Activation Regenerate the Infarcted Myocardium, Improving Ventricular Function and Long-Term Survival | Q57395179 | ||
EphB receptors coordinate migration and proliferation in the intestinal stem cell niche | Q60721106 | ||
Senescence and death of primitive cells and myocytes lead to premature cardiac aging and heart failure | Q73906111 | ||
Signalling the end of the line | Q83793527 | ||
Role of cardiac stem cells in cardiac pathophysiology: a paradigm shift in human myocardial biology | Q26858965 | ||
Endosome maturation | Q26992067 | ||
Oxidants, oxidative stress and the biology of ageing | Q28131725 | ||
Activation of cardiac progenitor cells reverses the failing heart senescent phenotype and prolongs lifespan | Q28566303 | ||
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EphB receptors regulate stem/progenitor cell proliferation, migration, and polarity during hippocampal neurogenesis | Q28591772 | ||
Dynasore, a cell-permeable inhibitor of dynamin | Q29619881 | ||
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An inside view: VEGF receptor trafficking and signaling | Q33682832 | ||
DNA-SCARS: distinct nuclear structures that sustain damage-induced senescence growth arrest and inflammatory cytokine secretion | Q33759285 | ||
Stem cells in the dog heart are self-renewing, clonogenic, and multipotent and regenerate infarcted myocardium, improving cardiac function | Q33863225 | ||
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Eph receptors and ephrins in cancer: bidirectional signalling and beyond | Q34021365 | ||
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Flow cytometry and FISH to measure the average length of telomeres (flow FISH). | Q34615436 | ||
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The redox stress hypothesis of aging | Q35705418 | ||
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Regenerating new heart with stem cells | Q36497191 | ||
Assessing cell and organ senescence biomarkers | Q36776292 | ||
Mechanisms that regulate stem cell aging and life span | Q36810649 | ||
Clonality of mouse and human cardiomyogenesis in vivo | Q37385968 | ||
Endosomes: a legitimate platform for the signaling train | Q37394435 | ||
Cellular senescence, ageing and disease | Q37398698 | ||
A model for phospho-caveolin-1-driven turnover of focal adhesions. | Q37800338 | ||
Endocytosis and signaling | Q37862859 | ||
The role of endocytosis in activating and regulating signal transduction | Q37960345 | ||
Eph-dependent cell-cell adhesion and segregation in development and cancer. | Q37971902 | ||
Concepts and consequences of Eph receptor clustering | Q37977285 | ||
Caveolin-1: role in cell signaling | Q37992927 | ||
Eph/Ephrin signaling in injury and inflammation | Q38047589 | ||
Caveolin-1 is required for signaling and membrane targeting of EphB1 receptor tyrosine kinase | Q40275557 | ||
Anthracycline cardiomyopathy is mediated by depletion of the cardiac stem cell pool and is rescued by restoration of progenitor cell function | Q41883542 | ||
Endocytosis of EphA receptors is essential for the proper development of the retinocollicular topographic map. | Q42739460 | ||
P433 | issue | 20 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 2211-2223 | |
P577 | publication date | 2013-10-18 | |
P1433 | published in | Circulation | Q578091 |
P1476 | title | Age-associated defects in EphA2 signaling impair the migration of human cardiac progenitor cells | |
P478 | volume | 128 |
Q42007631 | A Novel Class of Human Cardiac Stem Cells |
Q36065239 | Accumulation of Mitochondrial DNA Mutations Disrupts Cardiac Progenitor Cell Function and Reduces Survival. |
Q40095672 | Activation of EphA4 and EphB2 Reverse Signaling Restores the Age-Associated Reduction of Self-Renewal, Migration, and Actin Turnover in Human Tendon Stem/Progenitor Cells. |
Q38596695 | Aging Effects on Cardiac Progenitor Cell Physiology |
Q34552442 | Aging disrupts cell subpopulation dynamics and diminishes the function of mesenchymal stem cells |
Q91418946 | Assessing Stem Cell DNA Integrity for Cardiac Cell Therapy |
Q51751360 | Beyond cardiomyocyte loss: Role of Notch in cardiac aging. |
Q89495332 | Biology of Tendon Stem Cells and Tendon in Aging |
Q90199537 | Bioreactor-based 3D human myocardial ischemia/reperfusion in vitro model: a novel tool to unveil key paracrine factors upon acute myocardial infarction |
Q35695769 | Cardiac aging - Getting to the stem of the problem. |
Q26825051 | Cardiac stem cells: biology and clinical applications |
Q41341645 | Combined Analysis of Endothelial, Hematopoietic, and Mesenchymal Stem Cell Compartments Shows Simultaneous but Independent Effects of Age and Heart Disease. |
Q39390326 | Concise Review: Challenges in Regenerating the Diabetic Heart: A Comprehensive Review |
Q39107914 | Conformational transitions and interactions underlying the function of membrane embedded receptor protein kinases |
Q38840851 | Current Understanding of the Pathways Involved in Adult Stem and Progenitor Cell Migration for Tissue Homeostasis and Repair |
Q38652827 | Decline in cellular function of aged mouse c-kit+ cardiac progenitor cells. |
Q38257853 | Eph receptors and ephrins: therapeutic opportunities |
Q46339083 | EphB2 signaling-mediated Sirt3 expression reduces MSC senescence by maintaining mitochondrial ROS homeostasis |
Q54179932 | Epigenome-wide association study reveals differential DNA methylation in individuals with a history of myocardial infarction. |
Q90735653 | Expression of Concern |
Q95387984 | Expression of Concern |
Q53085931 | Heart factory or fiction?: cardiac progenitor cells and regeneration. |
Q53125918 | Long noncoding RNA H19 mediates melatonin inhibition of premature senescence of c-kit(+) cardiac progenitor cells by promoting miR-675. |
Q37574010 | Predicting the future with stem cells |
Q37505199 | Rejuvenating the senescent heart |
Q45035654 | Remodeling the Human Adult Stem Cell Niche for Regenerative Medicine Applications |
Q49572317 | Rescue plan for Achilles: Therapeutics steering the fate and functions of stem cells in tendon wound healing |
Q58571967 | Single-Cell Transcriptomics of Human Mesenchymal Stem Cells Reveal Age-Related Cellular Subpopulation Depletion and Impaired Regenerative Function |
Q39534918 | Stimulatory Effects of Mesenchymal Stem Cells on cKit+ Cardiac Stem Cells Are Mediated by SDF1/CXCR4 and SCF/cKit Signaling Pathways |
Q36665462 | miR-204 downregulates EphB2 in aging mouse hippocampal neurons |
Q33809750 | p53 Modulates the Fate of Cardiac Progenitor Cells Ex Vivo and in the Diabetic Heart In Vivo |