scholarly article | Q13442814 |
P50 | author | Fred Gage | Q895547 |
P2093 | author name string | Francesco Galimi | |
Philip J Horner | |||
Laura L Horky | |||
P2860 | cites work | Spatial and temporal expression of S100B in cells of oligodendrocyte lineage | Q28505431 |
Fibroblast growth factor-2 activates a latent neurogenic program in neural stem cells from diverse regions of the adult CNS. | Q33874690 | ||
Proliferation and differentiation of progenitor cells throughout the intact adult rat spinal cord. | Q33892412 | ||
Proliferation of NG2-positive cells and altered oligodendrocyte numbers in the contused rat spinal cord. | Q33944968 | ||
Identification of a neural stem cell in the adult mammalian central nervous system | Q34492720 | ||
Identity, distribution, and development of polydendrocytes: NG2-expressing glial cells | Q35539067 | ||
Cytology and lineage of NG2-positive glia. | Q35539073 | ||
Defining the NG2-expressing cell of the adult CNS | Q35539077 | ||
Oligodendrocyte precursor cells: reactive cells that inhibit axon growth and regeneration | Q35539081 | ||
Physiological characteristics of NG2-expressing glial cells | Q35539095 | ||
Synantocytes: new functions for novel NG2 expressing glia | Q35539097 | ||
The glial scar: its bearing on axonal elongation and transplantation approaches to CNS repair | Q39630415 | ||
NG2 glial cells provide a favorable substrate for growing axons. | Q40295254 | ||
Chronic alterations in the cellular composition of spinal cord white matter following contusion injury. | Q40480193 | ||
The responses of oligodendrocyte precursor cells, astrocytes and microglia to a cortical stab injury, in the brain | Q40489230 | ||
Myelination following transplantation of EGF-responsive neural stem cells into a myelin-deficient environment | Q40882629 | ||
Comparing astrocytic cell lines that are inhibitory or permissive for axon growth: the major axon-inhibitory proteoglycan is NG2. | Q40923776 | ||
Local recruitment of remyelinating cells in the repair of demyelination in the central nervous system | Q41066214 | ||
The NG2 chondroitin sulfate proteoglycan: a multifunctional proteoglycan associated with immature cells. | Q41443552 | ||
Rapid, widespread, and longlasting induction of nestin contributes to the generation of glial scar tissue after CNS injury | Q42952983 | ||
Differentiation of proliferated NG2-positive glial progenitor cells in a remyelinating lesion | Q44121442 | ||
Pathological changes from acute to chronic in experimental spinal cord trauma | Q44132444 | ||
NG2 proteoglycan-expressing cells of the adult rat brain: possible involvement in the formation of glial scar astrocytes following stab wound | Q45115534 | ||
Proliferation, migration, and differentiation of endogenous ependymal region stem/progenitor cells following minimal spinal cord injury in the adult rat. | Q45244360 | ||
Cell proliferation and replacement following contusive spinal cord injury | Q45288423 | ||
Neural stem cells from adult hippocampus develop essential properties of functional CNS neurons | Q46123186 | ||
Regenerating the damaged central nervous system | Q46557363 | ||
FGF-2 is sufficient to isolate progenitors found in the adult mammalian spinal cord | Q46830350 | ||
Cell reactions following acute brain injury: a review | Q48286563 | ||
Temporal progressive antigen expression in radial glia after contusive spinal cord injury in adult rats | Q48355282 | ||
Embryonic intermediate filament, nestin, expression following traumatic spinal cord injury in adult rats. | Q48468920 | ||
Response of the oligodendrocyte progenitor cell population (defined by NG2 labelling) to demyelination of the adult spinal cord. | Q48490617 | ||
Co-expression of radial glial marker in macrophages/microglia in rat spinal cord contusion injury model. | Q48825638 | ||
Multipotent CNS stem cells are present in the adult mammalian spinal cord and ventricular neuroaxis. | Q48857343 | ||
Suramin disrupts the gliotic response following a stab wound injury to the adult rat brain. | Q48954324 | ||
Nuclear expression of S100B in oligodendrocyte progenitor cells correlates with differentiation toward the oligodendroglial lineage and modulates oligodendrocytes maturation. | Q52085578 | ||
Remyelination after transient experimental compression of the spinal cord | Q67597980 | ||
Quantitative studies on proliferative changes of reactive astrocytes in mouse cerebral cortex | Q68078688 | ||
Cellular inflammatory response after spinal cord injury in Sprague-Dawley and Lewis rats | Q71959419 | ||
Acute inflammatory responses to mechanical lesions in the CNS: differences between brain and spinal cord | Q73189218 | ||
Rats and mice exhibit distinct inflammatory reactions after spinal cord injury | Q73497607 | ||
Incorporation of thymidine-H3 by cells in normal and injured mouse spinal cord | Q76430014 | ||
Proliferation of parenchymal neural progenitors in response to injury in the adult rat spinal cord | Q77078133 | ||
Transcription factor expression and Notch-dependent regulation of neural progenitors in the adult rat spinal cord | Q77338118 | ||
P433 | issue | 4 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 525-538 | |
P577 | publication date | 2006-10-01 | |
P1433 | published in | The Journal of Comparative Neurology | Q3186907 |
P1476 | title | Fate of endogenous stem/progenitor cells following spinal cord injury | |
P478 | volume | 498 |
Q40625256 | A Role for the Cannabinoid 1 Receptor in Neuronal Differentiation of Adult Spinal Cord Progenitors in vitro is Revealed through Pharmacological Inhibition and Genetic Deletion. |
Q42509528 | A cell population that strongly expresses the CB1 cannabinoid receptor in the ependyma of the rat spinal cord. |
Q38679600 | Additive neurogenesis supported by multiple stem cell populations mediates adult spinal cord development: A spatiotemporal statistical mapping analysis in a teleost model of indeterminate growth. |
Q30493169 | Adult NG2+ cells are permissive to neurite outgrowth and stabilize sensory axons during macrophage-induced axonal dieback after spinal cord injury |
Q24679002 | Adult spinal cord progenitor cells are repelled by netrin-1 in the embryonic and injured adult spinal cord |
Q50611059 | Adult spinal cord stem/progenitor cells transplanted as neurospheres preferentially differentiate into oligodendrocytes in the adult rat spinal cord. |
Q48479802 | Akhirin regulates the proliferation and differentiation of neural stem cells in intact and injured mouse spinal cord. |
Q35875881 | Alteration of forebrain neurogenesis after cervical spinal cord injury in the adult rat |
Q33509467 | Axonal/glial upregulation of EphB/ephrin-B signaling in mouse experimental ocular hypertension |
Q58707994 | BMSCs promote the differentiation of NSCs into oligodendrocytes via mediating Id2 and Olig expression through BMP/Smad signaling pathway |
Q51794045 | COX-2-Derived Prostaglandin E2 Produced by Pyramidal Neurons Contributes to Neurovascular Coupling in the Rodent Cerebral Cortex. |
Q26752312 | Cancer Stem Cell Hierarchy in Glioblastoma Multiforme |
Q35091659 | Cell proliferation and cytoarchitectural remodeling during spinal cord reconnection in the fresh-water turtle Trachemys dorbignyi |
Q33678177 | Changes in NG2 cells and oligodendrocytes in a new model of intraspinal hemorrhage |
Q42951035 | Characterization of nestin expression in the spinal cord of GFP transgenic mice after peripheral nerve injury |
Q43162062 | Chemokine expression in the white matter spinal cord precursor niche after force-defined spinal cord contusion injuries in adult rats |
Q34282030 | Chondroitinase and growth factors enhance activation and oligodendrocyte differentiation of endogenous neural precursor cells after spinal cord injury |
Q33632329 | Chronic expression of PPAR-delta by oligodendrocyte lineage cells in the injured rat spinal cord |
Q34989976 | Chronic oligodendrogenesis and remyelination after spinal cord injury in mice and rats. |
Q39155863 | Combinatorial Therapies After Spinal Cord Injury: How Can Biomaterials Help? |
Q42509415 | Cytological organization of the central gelatinosa in the turtle spinal cord |
Q98181135 | Delayed short-term tamoxifen treatment does not promote remyelination or neuron sparing after spinal cord injury |
Q37583985 | Differences in the Cellular Response to Acute Spinal Cord Injury between Developing and Mature Rats Highlights the Potential Significance of the Inflammatory Response. |
Q34071712 | Differential expression of Wnts after spinal cord contusion injury in adult rats |
Q41905084 | Differential regulation of proliferation and neuronal differentiation in adult rat spinal cord neural stem/progenitors by ERK1/2, Akt, and PLCγ. |
Q36672341 | Do glial cells control pain? |
Q37280456 | Don't fence me in: harnessing the beneficial roles of astrocytes for spinal cord repair. |
Q45139454 | Dysregulation of the neuregulin-1-ErbB network modulates endogenous oligodendrocyte differentiation and preservation after spinal cord injury. |
Q53498524 | Early involvement of synapsin III in neural progenitor cell development in the adult hippocampus. |
Q45950996 | Effect of cyclosporin A on functional recovery in the spinal cord following contusion injury. |
Q34610550 | Effects of axon degeneration on oligodendrocyte lineage cells: dorsal rhizotomy evokes a repair response while axon degeneration rostral to spinal contusion induces both repair and apoptosis. |
Q28565995 | Effects of progesterone on oligodendrocyte progenitors, oligodendrocyte transcription factors, and myelin proteins following spinal cord injury |
Q92701038 | Employing Endogenous NSCs to Promote Recovery of Spinal Cord Injury |
Q37300847 | Endogenous neural progenitor cells as therapeutic target after spinal cord injury |
Q38447372 | Endogenous neural stem cell responses to stroke and spinal cord injury |
Q42563194 | Endogenous proliferation after spinal cord injury in animal models |
Q34163301 | Enhanced functional recovery in MRL/MpJ mice after spinal cord dorsal hemisection |
Q39427516 | Epigenetic regulation of neural stem cell differentiation towards spinal cord regeneration |
Q56886107 | Expression of CCR2 in Both Resident and Bone Marrow-Derived Microglia Plays a Critical Role in Neuropathic Pain |
Q33712319 | Functional electrical stimulation helps replenish progenitor cells in the injured spinal cord of adult rats |
Q24646113 | Functional recovery and neural differentiation after transplantation of allogenic adipose-derived stem cells in a canine model of acute spinal cord injury |
Q50508739 | GGF2 (Nrg1-β3) treatment enhances NG2+ cell response and improves functional recovery after spinal cord injury. |
Q50707969 | Growth factor treatment and genetic manipulation stimulate neurogenesis and oligodendrogenesis by endogenous neural progenitors in the injured adult spinal cord. |
Q36243098 | Human embryonic stem cell-derived oligodendrocyte progenitor cell transplants improve recovery after cervical spinal cord injury. |
Q34406755 | In vivo conversion of astrocytes to neurons in the injured adult spinal cord |
Q41487473 | Induction of angiopoietin-2 after spinal cord injury |
Q33594614 | Interaction of NG2(+) glial progenitors and microglia/macrophages from the injured spinal cord |
Q36746443 | Interruption of beta-catenin signaling reduces neurogenesis in Alzheimer's disease |
Q42600727 | Mesenchymal stem cells as an alternative for Schwann cells in rat spinal cord injury |
Q40212503 | Mixed primary culture and clonal analysis provide evidence that NG2 proteoglycan-expressing cells after spinal cord injury are glial progenitors |
Q35087937 | Morphology, distribution and phenotype of polycystin kidney disease 2-like 1-positive cerebrospinal fluid contacting neurons in the brainstem of adult mice |
Q54095233 | Musashi and Plasticity of Xenopus and Axolotl Spinal Cord Ependymal Cells. |
Q26797407 | Myelin damage and repair in pathologic CNS: challenges and prospects |
Q92837765 | Myelin status and oligodendrocyte lineage cells over time after spinal cord injury: What do we know and what still needs to be unwrapped? |
Q47930875 | NG2 antigen is involved in leukemia invasiveness and central nervous system infiltration in MLL-rearranged infant B-ALL. |
Q37226678 | NG2 cell response in the CNP-EGFP mouse after contusive spinal cord injury |
Q41329760 | NG2 cells (polydendrocytes) in brain physiology and repair |
Q42977404 | NG2 cells are not a major source of reactive astrocytes after neocortical stab wound injury |
Q33715573 | NG2 cells, a new trail for Alzheimer's disease mechanisms? |
Q34714437 | NG2 glia generate new oligodendrocytes but few astrocytes in a murine experimental autoimmune encephalomyelitis model of demyelinating disease. |
Q35751998 | NG2-glia and their functions in the central nervous system |
Q30525599 | Nestin- and doublecortin-positive cells reside in adult spinal cord meninges and participate in injury-induced parenchymal reaction. |
Q46143374 | Neural Placode Tissue Derived From Myelomeningocele Repair Serves as a Viable Source of Oligodendrocyte Progenitor Cells |
Q47734766 | Neural stem cells grafts decrease neural apoptosis associated with caspase-7 downregulation and BDNF upregulation in rats following spinal cord hemisection |
Q47694419 | Neural stem/progenitor cells are activated during tail regeneration in the leopard gecko (Eublepharis macularius). |
Q90438401 | Neuroectodermal stem cells: A remyelinating potential in acute compressed spinal cord injury in rat model |
Q26738771 | Neuroprotective and Neurorestorative Processes after Spinal Cord Injury: The Case of the Bulbospinal Respiratory Neurons |
Q42244794 | Oligodendrocyte degeneration and recovery after focal cerebral ischemia. |
Q35006477 | Oligodendrocyte fate after spinal cord injury |
Q38264684 | Oxidative stress and antioxidative parameters in patients with spinal cord injury: implications in the pathogenesis of disease. |
Q42002711 | Phenotype analysis and quantification of proliferating cells in the cortical gray matter of the adult rat. |
Q37014278 | Physiological, pathological, and engineered cell identity reprogramming in the central nervous system |
Q34060457 | Poly(lactic-co-glycolic) acid microspheres encapsulated in Pluronic F-127 prolong hirudin delivery and improve functional recovery from a demyelination lesion |
Q37251418 | Postinjury niches induce temporal shifts in progenitor fates to direct lesion repair after spinal cord injury |
Q90458942 | Prolonged inflammation leads to ongoing damage after spinal cord injury |
Q48256973 | Prominent oligodendrocyte genesis along the border of spinal contusion lesions. |
Q33767274 | Rapid induction of genes associated with tissue protection and neural development in contused adult spinal cord after radial glial cell transplantation |
Q56977728 | Rapid induction of genes associated with tissue protection and neural development in contused adult spinal cord after radial glial cell transplantation |
Q38017625 | Reactive astrogliosis after spinal cord injury-beneficial and detrimental effects. |
Q34581276 | Reduction in antioxidant enzyme expression and sustained inflammation enhance tissue damage in the subacute phase of spinal cord contusive injury |
Q94544496 | Regeneration Through in vivo Cell Fate Reprogramming for Neural Repair |
Q36773450 | Regeneration and plasticity in the brain and spinal cord |
Q30740000 | Regeneration of Xenopus laevis spinal cord requires Sox2/3 expressing cells |
Q26744279 | Regeneration of Zebrafish CNS: Adult Neurogenesis |
Q38026986 | Regenerative medicine for the treatment of spinal cord injury: more than just promises? |
Q33839440 | Regional heterogeneity in astrocyte responses following contusive spinal cord injury in mice |
Q38954776 | Regulation of adult neural progenitor cell functions by purinergic signaling |
Q41213948 | Regulatory Role of Redox Balance in Determination of Neural Precursor Cell Fate. |
Q37889633 | Repertoire of microglial and macrophage responses after spinal cord injury |
Q41973598 | Retroviral delivery of platelet-derived growth factor to spinal cord progenitor cells drives the formation of intramedullary gliomas |
Q34633031 | SDF1 in the dorsal corticospinal tract promotes CXCR4+ cell migration after spinal cord injury |
Q45354213 | SOX2 expression is upregulated in adult spinal cord after contusion injury in both oligodendrocyte lineage and ependymal cells |
Q50353842 | Selective killing of spinal cord neural stem cells impairs locomotor recovery in a mouse model of spinal cord injury. |
Q37677472 | Spinal Cord Injury and Related Clinical Trials |
Q92617195 | Spinal cord extracts from injured spinal cord impede differentiation of rat embryonic neural stem cells into neurons through regulating Notch signaling pathway |
Q27333067 | Spinal cord injury reveals multilineage differentiation of ependymal cells |
Q30524329 | Spinal cord regeneration in Xenopus tadpoles proceeds through activation of Sox2-positive cells |
Q38113992 | Spinal cord regeneration: lessons for mammals from non-mammalian vertebrates |
Q37127835 | Stem and progenitor cell therapies: recent progress for spinal cord injury repair |
Q37765474 | Stem cell therapies for spinal cord injury |
Q92097057 | Stem-Cell-Driven Growth and Regrowth of the Adult Spinal Cord in Teleost Fish |
Q47831637 | Structural and functional regeneration after spinal cord injury in the weakly electric teleost fish, Apteronotus leptorhynchus. |
Q38751155 | Subtypes of hypoxia-responsive cells differentiate into neurons in spinal cord of zebrafish embryos after hypoxic stress |
Q33956900 | TGF-alpha increases astrocyte invasion and promotes axonal growth into the lesion following spinal cord injury in mice. |
Q36665579 | Temporal Response of Endogenous Neural Progenitor Cells Following Injury to the Adult Rat Spinal Cord. |
Q48226697 | Temporal-spatial dynamics in oligodendrocyte and glial progenitor cell numbers throughout ventrolateral white matter following contusion spinal cord injury |
Q52669755 | The Biology of Regeneration Failure and Success After Spinal Cord Injury. |
Q34095604 | The Olig family affects central nervous system development and disease |
Q39463567 | The effects of substrate elastic modulus on neural precursor cell behavior. |
Q92745530 | The fate and function of oligodendrocyte progenitor cells after traumatic spinal cord injury |
Q42141515 | The fate of proliferating cells in the injured adult spinal cord |
Q38122112 | The glial scar in spinal cord injury and repair |
Q37266187 | The interface between glial progenitors and gliomas |
Q33588579 | The mechanism of Naringin-enhanced remyelination after spinal cord injury |
Q37391475 | The p53 Pathway Controls SOX2-Mediated Reprogramming in the Adult Mouse Spinal Cord |
Q36520580 | The reactions and role of NG2 glia in spinal cord injury |
Q36089200 | The unusual response of serotonergic neurons after CNS Injury: lack of axonal dieback and enhanced sprouting within the inhibitory environment of the glial scar |
Q36542728 | Therapeutic interventions after spinal cord injury. |
Q33933379 | Thoracic rat spinal cord contusion injury induces remote spinal gliogenesis but not neurogenesis or gliogenesis in the brain |
Q30558579 | Tissue sparing, behavioral recovery, supraspinal axonal sparing/regeneration following sub-acute glial transplantation in a model of spinal cord contusion |
Q37479571 | Transcriptional Regulation of Notch1 Expression by Nkx6.1 in Neural Stem/Progenitor Cells during Ventral Spinal Cord Development |
Q49123495 | Transplantation of Pro-Oligodendroblasts, Preconditioned by LPS-Stimulated Microglia, Promotes Recovery After Acute Contusive Spinal Cord Injury. |
Q33843806 | Transplantation of canine umbilical cord blood-derived mesenchymal stem cells in experimentally induced spinal cord injured dogs |
Q37583105 | Up-regulation of FoxN4 expression in adult spinal cord after injury |
Q55652474 | Wnt/β-catenin signaling regulates ependymal cell development and adult homeostasis. |
Q37630100 | Wnts are expressed in the spinal cord of adult mice and are differentially induced after injury |
Q43187398 | mGLU3 metabotropic glutamate receptors modulate the differentiation of SVZ-derived neural stem cells towards the astrocytic lineage. |
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