Pharmacological inhibition of mTOR attenuates replicative cell senescence and improves cellular function via regulating the STAT3-PIM1 axis in human cardiac progenitor cells
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Pharmacological inhibition of mTOR attenuates replicative cell senescence and improves cellular function via regulating the STAT3-PIM1 axis in human cardiac progenitor cells' 의 참고문헌
mTORC1 and mTORC2 play different roles in regulating cardiomyocyte differentiation from embryonic stem cells
mTOR supports long-term self-renewal and suppresses mesoderm and endoderm activities of human embryonic stem cells
mTOR signaling in growth control and disease
mTOR is essential for growth and proliferation in early mouse embryos and embryonic stem cells
Tor, a phosphatidylinositol kinase homologue, controls autophagy in yeast
The target of rapamycin (TOR)proteins
The serine/threonine kinase Pim-1
The regulation of autophagy-unanswered questions
The mTOR-regulated phosphoproteome reveals a mechanism of mTORC1-mediated inhibition of growth factor signaling
The limited in vitro lifetime of human diploid cell strains
The MEK/ERK cascade: from signaling specificity to diverse functions
TOR, a central controller of cell growth
TOR signaling in growth and metabolism
Senescence and death of primitive cells and myocytes lead to premature cardiac aging and heart failure
STAT3/Pim-1 signaling pathway plays a crucial role in endothelial differentiation of cardiac resident Sca-1+ cells both in vitro and in vivo
STAT3, a key regulator of cell-to-cell communication in the heart
SIRT1 activation rescues doxorubicin-induced loss of functional competence of human cardiac progenitor cells
Resident human cardiac stem cells: role in cardiac cellular homeostasis and potential for myocardial regeneration
Replicating centromeric chromatin : spatial and temporal control of CENP-A assembly
Relative roles of direct regeneration versus paracrine effects of human cardiosphere-derived cells transplanted into infarcted mice
Rejuvenation of human cardiac progenitor cells with Pim-1kinase
Regulation of mammalian autophagy in physiology and pathophysiology
Rapamycin: one drug, many effects
Rapamycin efficiently promotes cardiac differentiation of mouse embryonic stem cells
Rapamycin differentially inhibits S6Ks and 4E-BP1 to mediate cell-type-specific repression of mRNA translation
Rapamycin and CHIR99021 coordinate robust cardiomyocyte differentiation from human pluripotent stem cells via reducing p53-dependent apoptosis
Prolonged rapamycin treatment inhibits mTORC2assembly and Akt/PKB
Pim1 kinase overexpression enhances ckit(+)cardiac stem cell cardiac repair following myocardial infarction in swine
Pim-1 regulates cardiomyocyte survival downstream of Akt
Phosphoproteomic analysis identifies Grb10 as an mTORC1 substrate that negatively regulates insulin signaling
PIM1-minicircle as a therapeutic treatment for myocardial infarction
Naturally occurring p16(Ink4a)-positive cells shorten healthy lifespan
Modulation of Human Cardiac Progenitors via Hypoxia-ERK Circuit Improves their Functional Bioactivities
Mechanistic target of rapamycin(Mtor)is essential for murine embryonic heart development and growth
Markers of cellular senescence. Telomere shortening as a marker of cellular senescence
Mammalian target of rapamycin signaling in cardiac physiology and disease
Keeping the senescence secretome under control : molecular reins on the senescence-associated secretory phenotype
Involvement of Rictor/mTORC2 in cardiomyocyte differentiation of mouse embryonic stem cells in vitro
Intravenous gene therapy with PIM-1 via a cardiotropic viral vector halts the progression of diabetic cardiomyopathy through promotion of prosurvival signaling
Hypoxic/normoxic preconditioning increases endothelial differentiation potential of human bone marrow CD133+ cells
Hypoxic preconditioning of human mesenchymal stem cells overcomes hypoxia-induced inhibition of osteogenic differentiation
Hypoxia promotes proliferation and osteogenic differentiation potentials of human mesenchymal stem cells
Fibronectin is essential for reparative cardiac progenitor cell response after myocardial infarction
Expansion of human cardiac stem cells in physiological oxygen improves cell production efficiency and potency for myocardial repair
Ex vivo molecular rejuvenation improves the therapeutic activity of senescent human cardiac stem cells in a mouse model of myocardial infarction
Effects of age and heart failure on human cardiac stem cell function
Effective and selective targeting of leukemia cells using a TORC1/2 kinase inhibitor
Doxorubicin regulates autophagy signals via accumulation of cytosolic Ca(2+) in human cardiac progenitor cells
Doxorubicin induces senescence and impairs function of human cardiac progenitor cells
Doxorubicin : an update on anticancer molecular action, toxicity and novel drug delivery systems
Differential gene and transcript expression analysis of RNAseq experiments with TopHat and Cufflinks
Cellular senescence, ageing and disease
Cellular senescence in aging and age-related disease : from mechanisms to therapy
Cardiomyopathy of the aging human heart. Myocyte loss and reactive cellular hypertrophy
Cardiac stem cells possess growth factor-receptor systems that after activation regenerate the infarcted myocardium, improving ventricular function and long-term survival
Cardiac stem cell and myocyte aging, heart failure, and insulinlike growth factor-1 overexpression
Cardiac stem cell aging and heart failure
Cardiac raptor ablation impairs adaptive hypertrophy, alters metabolic gene expression, and causes heart failure in mice
Cardiac cell senescence and redox signaling
CENP-A is essential for cardiac progenitor cell proliferation
Autophagy as a cell death and tumor suppressor mechanism
Adult cardiac stem cells are multipotent and support myocardial regeneration
5-Azacytidine induces cardiac differentiation of human umbilical cord-derived mesenchymal stem cells by activating extracellular regulated kinase
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Pharmacological inhibition of mTOR attenuates replicative cell senescence and improves cellular function via regulating the STAT3-PIM1 axis in human cardiac progenitor cells'
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