In vitro and in vivo neurogenic potential of mesenchymal stem cells isolated from different sources
暂无分享,去创建一个
Rajarshi Pal | J. John | A. Das | I. Parhar | R. Bhonde | S. Dutta | Gurbind Singh | M. K. Mamidi | Ramyani Taran
[1] A. E. Elçin,et al. Isolation and characterization of mesenchymal stem cells. , 2014, Methods in molecular biology.
[2] Akon Higuchi,et al. The isolation and differentiation of human adipose-derived stem cells using membrane filtration. , 2012, Biomaterials.
[3] A. Das,et al. Comparative cellular and molecular analyses of pooled bone marrow multipotent mesenchymal stromal cells during continuous passaging and after successive cryopreservation , 2012, Journal of cellular biochemistry.
[4] Heyan Zhao,et al. In vitro differentiation of human umbilical cord mesenchymal stem cells (hUCMSCs), derived from Wharton's jelly, into choline acetyltransferase (ChAT)-positive cells , 2012, International Journal of Developmental Neuroscience.
[5] V. Tkachuk,et al. In vitro neuronal induction of adipose-derived stem cells and their fate after transplantation into injured mouse brain. , 2012, Current medicinal chemistry.
[6] R. Bolea,et al. Isolation and characterization of ovine mesenchymal stem cells derived from peripheral blood , 2012, BMC Veterinary Research.
[7] Mahendra S Rao,et al. Cell therapy in critical limb ischemia: current developments and future progress. , 2012, Cytotherapy.
[8] R. Vishnubalaji,et al. Skin-derived multipotent stromal cells – an archrival for mesenchymal stem cells , 2012, Cell and Tissue Research.
[9] F. Jiao,et al. Human mesenchymal stem cells derived from limb bud can differentiate into all three embryonic germ layers lineages. , 2012, Cellular reprogramming.
[10] E. Masaoud,et al. Isolation, characterization, and in vitro proliferation of canine mesenchymal stem cells derived from bone marrow, adipose tissue, muscle, and periosteum. , 2012, American journal of veterinary research.
[11] J. Malek,et al. Comprehensive Characterization of Mesenchymal Stem Cells from Human Placenta and Fetal Membrane and Their Response to Osteoactivin Stimulation , 2012, Stem cells international.
[12] N. Anagnou,et al. Amniotic Fluid and Amniotic Membrane Stem Cells: Marker Discovery , 2012, Stem cells international.
[13] Xin-min Zheng,et al. Neural Differentiation of Rat Adipose-Derived Stem Cells in Vitro , 2012, Cellular and Molecular Neurobiology.
[14] W. Hurley,et al. Transcriptomics Comparison between Porcine Adipose and Bone Marrow Mesenchymal Stem Cells during In Vitro Osteogenic and Adipogenic Differentiation , 2012, PloS one.
[15] J. Hickman,et al. Small Molecule Induction of Human Umbilical Stem Cells into Myelin Basic Protein Positive Oligodendrocytes in a Defined Three- Dimensional Environment , 2012 .
[16] H. Kazemi,et al. In Vitro Differentiation of Bone Marrow Stromal Cells into Oligodendrocyte-like Cells Using Triiodothyronine as Inducer , 2012, The International journal of neuroscience.
[17] E. Melamed,et al. Placental mesenchymal stromal cells induced into neurotrophic factor-producing cells protect neuronal cells from hypoxia and oxidative stress. , 2012, Cytotherapy.
[18] G. Papaccio,et al. Identification, isolation, characterization, and banking of human dental pulp stem cells. , 2012, Methods in molecular biology.
[19] Shing-Jyh Chang,et al. MicroRNA-34a modulates genes involved in cellular motility and oxidative phosphorylation in neural precursors derived from human umbilical cord mesenchymal stem cells , 2011, BMC Medical Genomics.
[20] Rajarshi Pal,et al. Stem Cells in Stroke Repair: Current Success & Future Prospects , 2011 .
[21] I. Datta,et al. Neuronal plasticity of human Wharton's jelly mesenchymal stromal cells to the dopaminergic cell type compared with human bone marrow mesenchymal stromal cells. , 2011, Cytotherapy.
[22] E. Wróbel,et al. Perinatal sources of mesenchymal stem cells: Wharton’s jelly, amnion and chorion , 2011, Cellular & Molecular Biology Letters.
[23] T. Iwama,et al. Comparison of mesenchymal stem cells from adipose tissue and bone marrow for ischemic stroke therapy. , 2011, Cytotherapy.
[24] Takuya Matsunaga,et al. Intravenous administration of auto serum-expanded autologous mesenchymal stem cells in stroke. , 2011, Brain : a journal of neurology.
[25] A. Das,et al. Current status and prospective application of stem cell-based therapies for spinal cord injury. , 2011, Current stem cell research & therapy.
[26] L. Otero,et al. Late transplantation of allogeneic bone marrow stromal cells improves neurologic deficits subsequent to intracerebral hemorrhage. , 2011, Cytotherapy.
[27] M. Zatz,et al. Contamination of Mesenchymal Stem-Cells with Fibroblasts Accelerates Neurodegeneration in an Experimental Model of Parkinson’s Disease , 2011, Stem Cell Reviews and Reports.
[28] K. Bae,et al. Neuron-Like Differentiation of Bone Marrow-Derived Mesenchymal Stem Cells , 2011, Yonsei medical journal.
[29] Pawan Kumar Gupta,et al. Co‐culture of mesenchymal‐like stromal cells derived from human foreskin permits long term propagation and differentiation of human embryonic stem cells , 2011, Journal of cellular biochemistry.
[30] J. Y. Lee,et al. Therapeutic efficacy and safety of TRAIL-producing human adipose tissue-derived mesenchymal stem cells against experimental brainstem glioma. , 2011, Neuro-oncology.
[31] L. Kiesel,et al. Characterization of endometrial mesenchymal stem-like cells obtained by endometrial biopsy during routine diagnostics. , 2011, Fertility and sterility.
[32] P. Sanberg,et al. Recent Studies Assessing the Proliferative Capability of a Novel Adult Stem Cell Identified in Menstrual Blood. , 2011, The open stem cell journal.
[33] G. Yadid,et al. Mesenchymal stem cells increase hippocampal neurogenesis and counteract depressive-like behavior , 2010, Molecular Psychiatry.
[34] J. Nolta,et al. Mesenchymal stem cells for the treatment of neurodegenerative disease. , 2010, Regenerative medicine.
[35] Jeff W M Bulte,et al. Safety and immunological effects of mesenchymal stem cell transplantation in patients with multiple sclerosis and amyotrophic lateral sclerosis. , 2010, Archives of neurology.
[36] E. Parati,et al. Stem Cell Transplantation for Ischemic Stroke , 2010, The Cochrane database of systematic reviews.
[37] J. Piedrahita,et al. Generation and characterization of neurospheres from canine adipose tissue-derived stromal cells. , 2010, Cellular reprogramming.
[38] Zhi-jun Yang,et al. Schwann-like cells can be induction from human nestin-positive amniotic fluid mesenchymal stem cells , 2010, In Vitro Cellular & Developmental Biology - Animal.
[39] A. Salgado,et al. Role of human umbilical cord mesenchymal progenitors conditioned media in neuronal/glial cell densities, viability, and proliferation. , 2010, Stem cells and development.
[40] T. He,et al. Pre‐activation of retinoid signaling facilitates neuronal differentiation of mesenchymal stem cells , 2010, Development, growth & differentiation.
[41] M. Wiberg,et al. Bone marrow- and adipose-derived stem cells show expression of myelin mRNAs and proteins. , 2010, Regenerative medicine.
[42] A. Ludolph,et al. Efficient processing of Alzheimer's disease amyloid-Beta peptides by neuroectodermally converted mesenchymal stem cells. , 2010, Stem cells and development.
[43] D. Herndon,et al. Isolation and characterization of mesenchymal stem cells from the sub-amniotic human umbilical cord lining membrane. , 2010, Stem cells and development.
[44] J. Veltman,et al. Functional differences between mesenchymal stem cell populations are reflected by their transcriptome. , 2010, Stem cells and development.
[45] Xiaomin Wang,et al. Stem cells from human-exfoliated deciduous teeth can differentiate into dopaminergic neuron-like cells. , 2010, Stem cells and development.
[46] S. Totey,et al. Open-labeled study of unilateral autologous bone-marrow-derived mesenchymal stem cell transplantation in Parkinson's disease. , 2010, Translational research : the journal of laboratory and clinical medicine.
[47] S. Endo,et al. Intracerebral Transplantation of Bone Marrow‐Derived Mesenchymal Stem Cells Reduces Amyloid‐Beta Deposition and Rescues Memory Deficits in Alzheimer's Disease Mice by Modulation of Immune Responses , 2009, Stem cells.
[48] N. Sims,et al. Mitochondria, oxidative metabolism and cell death in stroke. , 2010, Biochimica et biophysica acta.
[49] M. Kameda,et al. Intravenous administration of mesenchymal stem cells exerts therapeutic effects on parkinsonian model of rats: Focusing on neuroprotective effects of stromal cell-derived factor-1α , 2010, BMC Neuroscience.
[50] Sujeong Jang,et al. Functional neural differentiation of human adipose tissue-derived stem cells using bFGF and forskolin , 2010, BMC Cell Biology.
[51] G. Varga,et al. Differentiation potential of stem cells from human dental origin - promise for tissue engineering. , 2009, Journal of physiology and pharmacology : an official journal of the Polish Physiological Society.
[52] Miles C. Miller,et al. Microglial downregulation in a double transgenic mouse model associated with early-onset Alzheimer's disease (AD) after intraventricular implantation of alginate encapsulated Glukagon-like-peptide-1 (GLP-1) producing human mesenchymal stem-cells , 2009, Cerebrospinal Fluid Research.
[53] E. Melamed,et al. Introducing Transcription Factors to Multipotent Mesenchymal Stem Cells: Making Transdifferentiation Possible , 2009, Stem cells.
[54] E. Medico,et al. Multipotent mesenchymal stem cells from amniotic fluid originate neural precursors with functional voltage-gated sodium channels. , 2009, Cytotherapy.
[55] T. Tiraihi,et al. Transdifferentiation of bone marrow stromal cells into cholinergic neuronal phenotype: a potential source for cell therapy in spinal cord injury. , 2009, Cytotherapy.
[56] J. Borneman,et al. Cellular immune response to intrastriatally implanted allogeneic bone marrow stromal cells in a rat model of Parkinson's disease , 2009, Journal of Neuroinflammation.
[57] D. E. Discher,et al. Matrix elasticity directs stem cell lineage — Soluble factors that limit osteogenesis , 2009 .
[58] E. Melamed,et al. Lentiviral delivery of LMX1a enhances dopaminergic phenotype in differentiated human bone marrow mesenchymal stem cells. , 2009, Stem cells and development.
[59] Harley I Kornblum,et al. Endogenous Wnt Signaling Maintains Neural Progenitor Cell Potency , 2009, Stem cells.
[60] Li Chen,et al. The differentiation of human placenta-derived mesenchymal stem cells into dopaminergic cells in vitro , 2009, Cellular & Molecular Biology Letters.
[61] S. Koh,et al. Erythropoietin increases the motility of human bone marrow-multipotent stromal cells (hBM-MSCs) and enhances the production of neurotrophic factors from hBM-MSCs. , 2009, Stem cells and development.
[62] F. Barry,et al. Elevation of cAMP in mesenchymal stem cells transiently upregulates neural markers rather than inducing neural differentiation. , 2009, Stem cells and development.
[63] C. Shih,et al. Derivation of neural stem cells from mesenchymal stemcells: evidence for a bipotential stem cell population. , 2008, Stem cells and development.
[64] P. Rameshwar,et al. Loss of RE-1 silencing factor in mesenchymal stem cell-derived dopamine progenitors induces functional maturity , 2008, Molecular and Cellular Neuroscience.
[65] Brooke R. Snyder,et al. Putative Dental Pulp‐Derived Stem/Stromal Cells Promote Proliferation and Differentiation of Endogenous Neural Cells in the Hippocampus of Mice , 2008, Stem cells.
[66] A. Sbarbati,et al. Neuronal differentiation potential of human adipose-derived mesenchymal stem cells. , 2008, Stem cells and development.
[67] I. Sekiya,et al. Synovial fluid-derived mesenchymal stem cells increase after intra-articular ligament injury in humans. , 2008, Rheumatology.
[68] S. Gronthos,et al. Adult Human Dental Pulp Stem Cells Differentiate Toward Functionally Active Neurons Under Appropriate Environmental Cues , 2008, Stem cells.
[69] Lin Chen,et al. NRSF silencing induces neuronal differentiation of human mesenchymal stem cells. , 2008, Experimental cell research.
[70] B. Wollenberg,et al. Isolation and characterization of adult stem cells from human salivary glands. , 2008, Stem cells and development.
[71] S. Dimauro,et al. Mitochondrial disorders in the nervous system. , 2008, Annual review of neuroscience.
[72] Y. Liou,et al. Neural differentiation and potential use of stem cells from the human umbilical cord for central nervous system transplantation therapy , 2008, Journal of neuroscience research.
[73] K. Huh,et al. Autologous Mesenchymal Stem Cell Therapy Delays the Progression of Neurological Deficits in Patients With Multiple System Atrophy , 2008, Clinical pharmacology and therapeutics.
[74] L. Thompson. Neurodegeneration: A question of balance , 2008, Nature.
[75] J. García-Verdugo,et al. Hedgehog signaling and primary cilia are required for the formation of adult neural stem cells , 2008, Nature Neuroscience.
[76] Qi Zhang,et al. A combined procedure to deliver autologous mesenchymal stromal cells to patients with traumatic brain injury. , 2008, Cytotherapy.
[77] E. Melamed,et al. Regenerative effect of neural-induced human mesenchymal stromal cells in rat models of Parkinson's disease. , 2008, Cytotherapy.
[78] A. Schäffler,et al. Concise Review: Adipose Tissue‐Derived Stromal Cells—Basic and Clinical Implications for Novel Cell‐Based Therapies , 2007, Stem cells.
[79] 亮 佐々木. Neurosphere generation from dental pulp of adult rat incisor , 2007 .
[80] K. Then,et al. Generating neuron-like cells from BM-derived mesenchymal stromal cells in vitro. , 2007, Cytotherapy.
[81] R. Murison,et al. Chronic mild stress inhibits BDNF protein expression and CREB activation in the dentate gyrus but not in the hippocampus proper , 2006, Pharmacology Biochemistry and Behavior.
[82] A. Benabid,et al. Functional Neuronal Differentiation of Bone Marrow‐Derived Mesenchymal Stem Cells , 2006, Stem cells.
[83] G. Wörtwein,et al. Exacerbated loss of cell survival, neuropeptide Y‐immunoreactive (IR) cells, and serotonin‐IR fiber lengths in the dorsal hippocampus of the aged flinders sensitive line “depressed” rat: Implications for the pathophysiology of depression? , 2006, Journal of neuroscience research.
[84] D. Rubinsztein,et al. The roles of intracellular protein-degradation pathways in neurodegeneration , 2006, Nature.
[85] S. Sen,et al. Matrix Elasticity Directs Stem Cell Lineage Specification , 2006, Cell.
[86] G. Sukhikh,et al. Differentiation potential of mesenchymal stem cells of different origin , 2006, Bulletin of Experimental Biology and Medicine.
[87] D. Prockop,et al. Minimal criteria for defining multipotent mesenchymal stromal cells. The International Society for Cellular Therapy position statement. , 2006, Cytotherapy.
[88] Q. Xie,et al. Human umbilical cord Wharton's Jelly-derived mesenchymal stem cells differentiation into nerve-like cells. , 2005, Chinese medical journal.
[89] Seung-Up Kim,et al. cAMP induces neuronal differentiation of mesenchymal stem cells via activation of extracellular signal-regulated kinase/MAPK , 2005, Neuroreport.
[90] B. Liu,et al. Characterization and Neural Differentiation of Fetal Lung Mesenchymal Stem Cells , 2005, Cell transplantation.
[91] M. Tuszynski,et al. Induction of bone marrow stromal cells to neurons: Differentiation, transdifferentiation, or artifact? , 2004, Journal of neuroscience research.
[92] Mari Dezawa,et al. Specific induction of neuronal cells from bone marrow stromal cells and application for autologous transplantation. , 2004, The Journal of clinical investigation.
[93] M. Weiss,et al. Matrix Cells from Wharton's Jelly Form Neurons and Glia , 2003, Stem cells.
[94] W. Wilkison,et al. Neurogenic differentiation of murine and human adipose-derived stromal cells. , 2002, Biochemical and biophysical research communications.
[95] M. Pittenger,et al. Multilineage potential of adult human mesenchymal stem cells. , 1999, Science.