Search results for "Regenerative Medicine"

showing 10 items of 186 documents

Immunomodulatory effects of stem cells: Therapeutic option for neurodegenerative disorders.

2017

Stem cells have the capability of self-renewal and can differentiate into different cell types that might be used in regenerative medicine. Neurodegenerative diseases such as Alzheimer's disease (AD), Parkinson's disease (PD), multiple sclerosis (MS), and amyotrophic lateral sclerosis (ALS) currently lack effective treatments. Although stem cell therapy is still on the way from bench to bedside, we consider that it might provide new hope for patients suffering with neurodegenerative diseases. In this article, we will give an overview of recent studies on the potential therapeutic use of mesenchymal stem cells (MSCs), neural stem cells (NSCs), embryonic stem cells (ESCs), induced pluripotent…

0301 basic medicineSettore BIO/17 - IstologiaPathologymedicine.medical_specialtymedicine.medical_treatmentRegenerative medicineModels Biological03 medical and health sciencesmedicineAnimalsHumansImmunologic FactorsInduced pluripotent stem cellPharmacologyStem cell therapybusiness.industryMultiple sclerosisStem CellsMesenchymal stem cellNeurodegenerative DiseasesGeneral MedicineStem-cell therapyNeurodegenerative disordermedicine.diseaseEmbryonic stem cellNeural stem cell030104 developmental biologyRegenerative medicineStem cellbusinessNeuroscienceStem Cell TransplantationBiomedicinepharmacotherapy = Biomedecinepharmacotherapie
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Comparative study of the production of soluble factors in human placenta-derived mesenchymal stromal/stem cells grown in adherent conditions or as ag…

2019

Abstract Different approaches have been studied in both preclinical and clinical settings to develop cell-based therapies and/or engineered cell-based therapies to better integrate grafts with the host. In these techniques, much attention is addressed to the use of adult stem cells such as mesenchymal stem cells (MSCs), but identifying and obtaining sufficient numbers of therapeutic cells, and the right route of administration, is often a challenge. In this study, we tested the feasibility of encapsulating human amnion-derived MSCs (hAMSCs) in a semipermeable and biocompatible fiber as a new approach for regenerative medicine. Our data showed that hAMSCs aggregated in the device constitutes…

0301 basic medicineStromal cellAngiogenesisCell SurvivalPlacentaCellBiophysicsCell Culture TechniquesBiocompatible MaterialsBiologyParacrine effectsBiochemistryRegenerative medicineImmunomodulation03 medical and health sciences0302 clinical medicineImmune systemCell MovementPregnancymedicineCell AdhesionHuman Umbilical Vein Endothelial CellsHumansImmunologic FactorsAmnionMolecular BiologyCell AggregationSettore MED/04 - Patologia GeneraleCatheter-like devicePlacenta-derived stromal/stem cellsSettore BIO/16 - Anatomia UmanaMesenchymal stem cellMesenchymal Stem CellsCell BiologyCells Immobilized030104 developmental biologymedicine.anatomical_structure030220 oncology & carcinogenesisRegenerative medicineCancer researchAngiogenesis Inducing AgentsFemaleAngiogenesisStem cellAdult stem cell
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Mesenchymal Stromal Cells From Wharton's Jelly (WJ-MSCs)

2018

Abstract Among the potential sources of cells with attractive features for regenerative medicine, perinatal tissues have gained much attention in recent years. The umbilical cord (UC) is a fundamental part of placenta, the organ providing feto–maternal interface during pregnancy. The mature UC is constituted by three vessels, one vein, and two arteries, which are comprised into a meshwork formed by a mature mucous connective tissue, named Wharton's jelly (WJ). Recent data from research groups worldwide highlighted that WJ stromal cells possess unique features both in terms of differentiative ability and immunomodulation. These features are desirable for cellular therapy applications, thereb…

0301 basic medicineStromal cellMesenchymal stem cellBiologyUmbilical cordRegenerative medicineCell biologyCell therapy03 medical and health sciences030104 developmental biology0302 clinical medicinemedicine.anatomical_structurePlacentaWharton's jellyMucous Connective Tissuemedicine030217 neurology & neurosurgery
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Adult Neurogenesis Is Sustained by Symmetric Self-Renewal and Differentiation

2018

Somatic stem cells have been identified in multiple adult tissues. Whether self-renewal occurs symmetrically or asymmetrically is key to understanding long-term stem cell maintenance and generation of progeny for cell replacement. In the adult mouse brain, neural stem cells (NSCs) (B1 cells) are retained in the walls of the lateral ventricles (ventricular-subventricular zone [V-SVZ]). The mechanism of B1 cell retention into adulthood for lifelong neurogenesis is unknown. Using multiple clonal labeling techniques, we show that the vast majority of B1 cells divide symmetrically. Whereas 20%-30% symmetrically self-renew and can remain in the niche for several months before generating neurons, …

0301 basic medicineTime FactorsNeurogenesis1.1 Normal biological development and functioningCellventricular-subventricular zoneMice TransgenicCell Counttime-lapse imagingSelf renewalBiologyself-renewalRegenerative MedicineMedical and Health SciencesTransgenicMice03 medical and health sciencesLateral ventricleslineage tracingNeural Stem CellsInterneuronsUnderpinning researchGeneticsmedicineAnimalsHumansCell Self RenewalB1 cellsagingdivision modeNeurogenesisNeurosciencesCell DifferentiationCell BiologyBiological SciencesStem Cell ResearchNeural stem cellCell biologysymmetric divisionB-1 cell030104 developmental biologymedicine.anatomical_structureNeurologicalMolecular MedicineStem Cell Research - Nonembryonic - Non-HumanStem cellDevelopmental BiologyAdult stem cell
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Mitochondrial targeting as a novel therapy for stroke

2018

Stroke is a main cause of mortality and morbidity worldwide. Despite the increasing development of innovative treatments for stroke, most are unsuccessful in clinical trials. In recent years, an encouraging strategy for stroke therapy has been identified in stem cells transplantation. In particular, grafting cells and their secretion products are leading with functional recovery in stroke patients by promoting the growth and function of the neurovascular unit – a communication framework between neurons, their supply microvessels along with glial cells – underlying stroke pathology and recovery. Mitochondrial dysfunction has been recently recognized as a hallmark in ischemia/reperfusion neur…

0301 basic medicinelcsh:Diseases of the circulatory (Cardiovascular) systemAginglcsh:Medical technologyimpaired mitochondriavasculatureBioenergeticmedicine.medical_treatmentClinical Trials and Supportive ActivitiesIschemiaregenerative medicineReview ArticleBioenergeticsMitochondrionblood–brain barrierBioinformaticsstem cell therapycerebral ischemiaCell therapy03 medical and health sciences0302 clinical medicineClinical Researchmedicineneurovascular unitStrokeTransplantationbusiness.industryNeurosciencesGeneral MedicineStem-cell therapyblood-brain barrierStem Cell Researchmedicine.diseaseendothelial cellsBrain DisordersReview articleStrokeTransplantationtransfer of healthy mitochondria030104 developmental biologylcsh:R855-855.5lcsh:RC666-701endothelial cellStem cellbusiness030217 neurology & neurosurgeryBrain Circulation
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PFN1 and integrin‐β1/mTOR axis involvement in cornea differentiation of fibroblast limbal stem cells

2019

Abstract Ex vivo limbal stem cell transplantation is the main therapeutic approach to address a complete and functional re‐epithelialization in corneal blindness, the second most common eye disorder. Although important key points were defined, the molecular mechanisms involved in the epithelial phenotype determination are unclear. Our previous studies have demonstrated the pluripotency and immune‐modulatory of fibroblast limbal stem cells (f‐LSCs), isolated from the corneal limbus. We defined a proteomic profile especially enriched in wound healing and cytoskeleton‐remodelling proteins, including Profilin‐1 (PFN1). In this study we postulate that pfn‐1 knock down promotes epithelial lineage…

0301 basic medicinelimbal stem cellApoptosisintegrin-β1Settore MED/13 - EndocrinologiaProfilins0302 clinical medicinesignallingCells CulturedCorneal epitheliumIntegrin beta1TOR Serine-Threonine KinasesEpithelium CornealCell DifferentiationCell biologymedicine.anatomical_structuremTOR pathway030220 oncology & carcinogenesisMolecular MedicineOriginal ArticleStem cellHomeobox protein NANOGintegrin‐β1regenerative medicineBiologyLimbus CorneaeCorneal limbus03 medical and health sciencesstem cellsmedicineHumansprofilinFibroblastlimbal stem cellsPI3K/AKT/mTOR pathwayCell ProliferationWound HealingSettore MED/30 - Malattie Apparato VisivoCell BiologyOriginal ArticlesFibroblastseye diseasesepithelial differentiation030104 developmental biologyGene Expression RegulationEye disordersense organscorneal regenerationWound healingBiomarkersJournal of Cellular and Molecular Medicine
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ISL1 is a major susceptibility gene for classic bladder exstrophy and a regulator of urinary tract development

2017

AbstractPreviously genome-wide association methods in patients with classic bladder exstrophy (CBE) found association with ISL1, a master control gene expressed in pericloacal mesenchyme. This study sought to further explore the genetics in a larger set of patients following-up on the most promising genomic regions previously reported. Genotypes of 12 markers obtained from 268 CBE patients of Australian, British, German Italian, Spanish and Swedish origin and 1,354 ethnically matched controls and from 92 CBE case-parent trios from North America were analysed. Only marker rs6874700 at the ISL1 locus showed association (p = 2.22 × 10−08). A meta-analysis of rs6874700 of our previous and prese…

0301 basic medicinemedicine.medical_specialtyPathologyMesenchymeUrinary systemOrganogenesisLIM-Homeodomain ProteinsLocus (genetics)030105 genetics & heredityBiologyPolymorphism Single Nucleotidebladder extrophyArticlePronephrosMesoderm03 medical and health sciencesMiceBEEC bladder extrophy urinary tract development ISL1GenotypemedicineAnimalsHumansProtein IsoformsGenetic Predisposition to DiseaseBEECUrinary TractGeneZebrafishGeneticsMultidisciplinaryBladder ExstrophyGene Expression Regulation DevelopmentalISL1medicine.diseaseEmbryo Mammalianurinary tract developmentBladder exstrophy030104 developmental biologymedicine.anatomical_structureReconstructive and regenerative medicine Radboud Institute for Molecular Life Sciences [Radboudumc 10]LarvaISL1Medical geneticsFemaleTranscription FactorsRare cancers Radboud Institute for Health Sciences [Radboudumc 9]Scientific Reports
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HCN2 Channel-Induced Rescue of Brain Teratogenesis via Local and Long-Range Bioelectric Repair

2020

Embryonic exposure to the teratogen nicotine results in brain defects, by disrupting endogenous spatial pre patterns necessary for normal brain size and patterning. Extending prior work in Xenopus laevis that showed that misexpression of ion channels can rescue morphogenesis, we demonstrate and characterize a novel aspect of developmental bioelectricity: channel-dependent repair signals propagate long-range across the embryo. We show that distal HCN2 channel misexpression and distal transplants of HCN2-expressing tissue, non-cell-autonomously reverse profound defects, rescuing brain anatomy, gene expression, and learning. Moreover, such rescue can be induced by small-molecule HCN2 channel a…

0301 basic medicineteratogenMorphogenesisXenopusregenerative medicineEndogenyBiologyRegenerative medicinelcsh:RC321-57103 medical and health sciencesCellular and Molecular Neuroscience0302 clinical medicinenon-locallcsh:Neurosciences. Biological psychiatry. NeuropsychiatryIon channelOriginal ResearchMechanism (biology)Embryobiology.organism_classificationEmbryonic stem cellCell biologylong-range030104 developmental biologybioelectricCellular Neuroscienceion channel030217 neurology & neurosurgerynicotineFrontiers in Cellular Neuroscience
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Multifunctional Bioinstructive 3D Architectures to Modulate Cellular Behavior

2019

Biological structures control cell behavior via physical, chemical, electrical, and mechanical cues. Approaches that allow us to build devices that mimic these cues in a combinatorial way are lacking due to there being no suitable instructive materials and limited manufacturing procedures. This challenge is addressed by developing a new conductive composite material, allowing for the fabrication of 3D biomimetic structures in a single manufacturing method based on two?photon polymerization. The approach induces a combinatorial biostimulative input that can be tailored to a specific application. Development of the 3D architecture is performed with a chemically actuating photocurable acrylate…

0303 health sciencesbiomimetic 3D architecturesMaterials scienceregenerative medicineNanotechnology02 engineering and technology3D printing021001 nanoscience & nanotechnologyCondensed Matter PhysicsRegenerative medicineElectronic Optical and Magnetic Materialscardiomyocyte maturationBiomaterials03 medical and health sciencesGeneral chemical engineeringElectrochemistry0210 nano-technology030304 developmental biologyAdvanced Functional Materials
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Mesenchymal stem cells of Systemic Sclerosis patients, derived from different sources, show a profibrotic microRNA profiling

2019

AbstractSystemic Sclerosis (SSc) is a disease with limited therapeutic possibilities. Mesenchymal stem cells (MSCs)-therapy could be a promising therapeutic option, however the ideal MSCs source has not yet been found. To address this problem, we perform comparison between bone marrow (BM)-MSCs and adipose (A)-MSCs, by the miRs expression profile, to identify the gene modulation in these two MSCs source. MicroRNAs (miRs) are RNAs sequences, regulating gene expression and MSCs, derived from different tissues, may differently respond to the SSc microenvironment. The miRs array was used for the miRs profiling and by DIANA-mirPath tool we identified the biological functions of the dysregulated …

Adult0301 basic medicineTherapeutic gene modulationAutoimmune diseasesCellular differentiationGene regulatory networklcsh:MedicineBone Marrow CellsBiologyRegenerative medicineArticle03 medical and health sciences0302 clinical medicinemicroRNAmedicineHumansGene Regulatory Networkslcsh:ScienceCells CulturedSystemic SclerosiCell ProliferationRegulation of gene expressionScleroderma SystemicMultidisciplinarySequence Analysis RNAGene Expression ProfilingMesenchymal stem celllcsh:RCell DifferentiationMesenchymal Stem CellsSettore MED/16 - ReumatologiaMicroRNAs030104 developmental biologymedicine.anatomical_structureAdipose TissueGene Expression RegulationCancer researchSystemic sclerosisFemalelcsh:QBone marrow030217 neurology & neurosurgeryScientific Reports
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