Search results for " Stem Cells"

showing 10 items of 881 documents

OPLA scaffold, collagen I, and horse serum induce a higher degree of myogenic differentiation of adult rat cardiac stem cells

2009

In the last few years, a major goal of cardiac research has been to drive stem cell differentiation to replace damaged myocardium. Several research groups have attempted to differentiate potential cardiac stem cells (CSCs) using bi- or three-dimensional systems supplemented with growth factors or molecules acting as differentiating substances. We hypothesize that these systems failed to induce a complete differentiation because they lacked an architectural space. In the present study, we isolated a pool of small proliferating and fibroblast-like cells from adult rat myocardium. The phenotype of these cells was assessed and the characterized cells were cultured in a collagen I/OPLA scaffold …

SerumScaffoldPhysiologyCellular differentiationLIM-Homeodomain ProteinsClinical BiochemistryNerve Tissue ProteinsCell SeparationBiologyMuscle DevelopmentCollagen Type INestinRats Sprague-DawleyIntermediate Filament ProteinsMicroscopy Electron TransmissionTroponin TAnimalsMyocyteMyocytes CardiacHorsesTranscription factorHomeodomain ProteinsMyosin Heavy ChainsTissue ScaffoldsSettore BIO/16 - Anatomia UmanaMyocardiumCell DifferentiationCell BiologyAnatomyNestinPhenotypestem cell OPLA scaffoldActinsIn vitroClone CellsGATA4 Transcription FactorRatsCell biologyAdult Stem CellsProto-Oncogene Proteins c-kitConnexin 43FemaleStem cellTranscription FactorsJournal of Cellular Physiology
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H2O2 INDUCES NECROPTOSIS IN MESOANGIOBLAST STEM CELLS

2018

Stem cells are used in regenerative medicine, but their therapeutic efficacy is compromised by their huge death during the first days post-transplantation. Indeed, the microenvironment within damaged tissues is hostile for stem cell survival mainly due to oxidative stress. H2O2 may play a relevant role in inducing death of the injected cells. The aim of our study was to determine the mechanism of mesoangioblast (A6) cell death after an H2O2 treatment. FACS analysis with annV/PI showed that H2O2 induced a dose and time-dependent decrement in A6 viability. We have also found an increase in caspases 8, 9 and 3 activity after the treatment. To assess their involvement in cell death, the pan cas…

Settore BIO/06 - Anatomia Comparata E CitologiaMesoangioblast stem cells necroptosis apoptosis autophagy H2O2
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Effect of conditioned media from osteo- and adipodifferentiating mesenchymal stem cells on triple negative MDA-MB231 breast cancer cells

2013

Settore BIO/06 - Anatomia Comparata E Citologiamesencymal stem cells conditioned media breast cancer
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STEM CELLS IN BREAST CANCER DEVELOPMENT AND MALIGNANT PROGRESSION

Settore BIO/13 - Biologia ApplicataCancer Stem CellsBreast CancerMetastasiBreast Cancer; Metastasis; Cancer Stem Cells
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Perinatal and Wharton's jelly-derived mesenchymal stem cells in cartilage regenerative medicine and tissue engineering strategies

2011

Stem cells can be found in embryonic and extraembryonic tissues as well as in adult organs. In particular, research in the last few years has delineated the key features of perinatal stem cells derived from fetus-associated tissues. These cells show multiple differentiation potential, can be easily expanded ex vivo, and raise no ethical concerns as regards their use. Several reports indicate that cells isolated from Wharton's jelly (WJ), the main component of umbilical cord extracellular matrix, are multipotent stem cells that express markers shared by other mesenchymal stem cells (MSC) and give rise to different mature cell types belonging to all three germ layers. Moreover, WJ-MSC display…

Settore BIO/16 - Anatomia UmanaMesenchymal stem cellClinical uses of mesenchymal stem cellsBiologyRegenerative medicineCell biologyDevelopmental NeuroscienceMultipotent Stem CellWharton's jellyImmunologyArticular cartilage Chondrocytes Differentiation markers Extracellular matrix Mesenchymal stem cells scaffolds Tissue engineering Umbilical cord Wharton’s jellyStem cellDevelopmental BiologyStem cell transplantation for articular cartilage repairAdult stem cell
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Wharton's Jelly Mesenchymal Stem Cells and Immune Modulation: Regenerative Medicine Meets Tissue Repair

2013

Settore BIO/16 - Anatomia UmanaMesenchymal stem cellImmunologyWharton's jellyBiologyTissue repairImmune modulationRegenerative medicineWharton's jelly umbilical cord mesenchymal stem cells regenerative medicine immune modulation tissue repair differentiationCell biology
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Umbilical cord revisited: From Wharton's jelly myofibroblasts to mesenchymal stem cells

2013

The umbilical cord (UC) is an essential part of the placenta, contributing to foetal development by ensuring the blood flow between mother and foetus. The UC is formed within the first weeks of gestation by the enclosure of the vessels (one vein and two arteries) into a bulk of mucous connective tissue, named Wharton's jelly (WJ) and lined by the umbilical epithelium. Since their first identification, cells populating WJ were described as unusual fibroblasts (or myofibroblasts). Recent literature data further highlighted the functional interconnection between UC and the resident cells. The UC represents a reservoir of progenitor populations which are collectively grouped into MSCs (mesenchy…

Settore BIO/16 - Anatomia UmanaPlacentaStem CellsBone Marrow CellsCell DifferentiationMesenchymal Stem CellsRegenerative MedicineExtracellular MatrixUmbilical CordPhenotypeUmbilical cord Wharton's jelly mesenchymal stem cells extracellular matrix immunomodulatory markers stromal myofibroblastsPregnancyAnimalsHumansFemaleWharton JellyMyofibroblasts
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CARDIAC STEM CELLS AND BIOMATERIALS: INDUCTION OF MYOGENIC DIFFERENTIATION AND IMPLANTION OF BIOSYNTHETIC AND NATURAL MATRICES IN THE ADULT HEART

2014

Principal purpose of regenerative medicine for the cardiac tissue is to find the best way to inoculate stem cells in a specific myocardial area damage, improving their homing, integration and survival. To achieve this goal, the field of biomaterials is important to bypass this obstacles, modulating the environment for implanted cells and enhance CSC function in the heart. Biomaterials can mimic or include naturally occurring extracellular matrix and instruct stem cell function in different ways: promoting angiogenesis, enhancing stem cell engraftment and differentiation, and accelerating electromechanical integration of transplanted cells. The aim of this thesis was to assess whether the pr…

Settore BIO/16 - Anatomia UmanaSCAFFOLDMYOGENIC DIFFERENTIATIONCARDIAC STEM CELLSBIOMATERIALS
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Isolation and phenotypical characterization of mesenchymal stem cells from the Wharton's jelly of pre-term human umbilical cord

2014

Settore BIO/16 - Anatomia UmanaUmbilical cord perinatal stem cells mesenchymal stem cells immune modulation isolation protocol cell culture markers
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Wharton's jelly mesenchymal stem cells immunomodulatory molecules: their journey from umbilical cord to differentieted cells.

2014

Settore BIO/16 - Anatomia UmanaWJ-MSC IHC ICC HLA-ABC B7-H3 mesenchymal stem cells.
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