scholarly article | Q13442814 |
P50 | author | Stephane Belin | Q59198511 |
P2093 | author name string | Zhigang He | |
Yi Lu | |||
P2860 | cites work | Leukaemia inhibitory factor induced in the sciatic nerve after axotomy is involved in the induction of galanin in sensory neurons | Q71784121 |
Lens injury stimulates axon regeneration in the mature rat optic nerve | Q73870779 | ||
Do growth-stimulated retinal ganglion cell axons find their central targets after optic nerve injury? New insights by three-dimensional imaging of the visual pathway | Q87028140 | ||
Ubiquitination regulates PTEN nuclear import and tumor suppression | Q24292946 | ||
Cross-talk between KLF4 and STAT3 regulates axon regeneration | Q24338431 | ||
Regulation of mTOR function in response to hypoxia by REDD1 and the TSC1/TSC2 tumor suppressor complex | Q24559347 | ||
PTEN deletion enhances the regenerative ability of adult corticospinal neurons | Q24625004 | ||
Glial inhibition of CNS axon regeneration | Q24648851 | ||
p53 target genes sestrin1 and sestrin2 connect genotoxic stress and mTOR signaling | Q28117922 | ||
Defining the role of mTOR in cancer | Q28235431 | ||
Conditioning injury-induced spinal axon regeneration requires signal transducer and activator of transcription 3 activation | Q28566756 | ||
Aerobic glycolysis: meeting the metabolic requirements of cell proliferation | Q29615178 | ||
mTOR controls mitochondrial oxidative function through a YY1-PGC-1alpha transcriptional complex | Q29617214 | ||
Axon regeneration requires a conserved MAP kinase pathway. | Q30489631 | ||
Recovery of supraspinal control of stepping via indirect propriospinal relay connections after spinal cord injury | Q30495890 | ||
Axon regeneration requires coordinate activation of p38 and JNK MAPK pathways | Q30501903 | ||
Microtubule stabilization reduces scarring and causes axon regeneration after spinal cord injury | Q30513561 | ||
Three-dimensional evaluation of retinal ganglion cell axon regeneration and pathfinding in whole mouse tissue after injury. | Q30541902 | ||
In-vivo single neuron axotomy triggers axon regeneration to restore synaptic density in specific cortical circuits | Q31121560 | ||
Gene expression analysis of zebrafish retinal ganglion cells during optic nerve regeneration identifies KLF6a and KLF7a as important regulators of axon regeneration | Q33303268 | ||
Chronically CNS-injured adult sensory neurons gain regenerative competence upon a lesion of their peripheral axon. | Q33438025 | ||
The DLK-1 kinase promotes mRNA stability and local translation in C. elegans synapses and axon regeneration | Q33500892 | ||
The conditioning lesion effect on sympathetic neurite outgrowth is dependent on gp130 cytokines | Q33829004 | ||
KLF family members regulate intrinsic axon regeneration ability. | Q33899036 | ||
Cataractogenic lens injury prevents traumatic ganglion cell death and promotes axonal regeneration both in vivo and in culture | Q33923185 | ||
Mammalian target of rapamycin (mTOR) activation increases axonal growth capacity of injured peripheral nerves | Q34107374 | ||
PTEN inhibition to facilitate intrinsic regenerative outgrowth of adult peripheral axons. | Q34124806 | ||
Protein turnover of the Wallenda/DLK kinase regulates a retrograde response to axonal injury | Q34191628 | ||
Disruption of E3 ligase NEDD4 in peripheral neurons interrupts axon outgrowth: Linkage to PTEN. | Q34272995 | ||
The stress-inducted proteins RTP801 and RTP801L are negative regulators of the mammalian target of rapamycin pathway | Q34381683 | ||
Long-distance axon regeneration in the mature optic nerve: contributions of oncomodulin, cAMP, and pten gene deletion. | Q34402481 | ||
microRNA-222 targeting PTEN promotes neurite outgrowth from adult dorsal root ganglion neurons following sciatic nerve transection | Q34427403 | ||
Calcium, protease activation, and cytoskeleton remodeling underlie growth cone formation and neuronal regeneration | Q34665720 | ||
Regeneration of axons in injured spinal cord by activation of bone morphogenetic protein/Smad1 signaling pathway in adult neurons. | Q34977773 | ||
Grafted neural progenitors integrate and restore synaptic connectivity across the injured spinal cord | Q35142642 | ||
Intracellular control of developmental and regenerative axon growth | Q35172108 | ||
Multiple transcription factor families regulate axon growth and regeneration | Q35539750 | ||
Major changes in the expression of the mRNAs for cholinergic differentiation factor/leukemia inhibitory factor and its receptor after injury to adult peripheral nerves and ganglia | Q35616539 | ||
Yin Yang 1 deficiency in skeletal muscle protects against rapamycin-induced diabetic-like symptoms through activation of insulin/IGF signaling. | Q35884554 | ||
Krüppel-like Factor 7 engineered for transcriptional activation promotes axon regeneration in the adult corticospinal tract | Q35982930 | ||
Full-length axon regeneration in the adult mouse optic nerve and partial recovery of simple visual behaviors | Q36061521 | ||
Concepts and methods for the study of axonal regeneration in the CNS | Q36070952 | ||
HDAC5 is a novel injury-regulated tubulin deacetylase controlling axon regeneration | Q36103678 | ||
Regeneration of Drosophila sensory neuron axons and dendrites is regulated by the Akt pathway involving Pten and microRNA bantam | Q36114101 | ||
Long-distance growth and connectivity of neural stem cells after severe spinal cord injury. | Q36243106 | ||
Regulation of DLK-1 kinase activity by calcium-mediated dissociation from an inhibitory isoform | Q36429947 | ||
CNS injury, glial scars, and inflammation: Inhibitory extracellular matrices and regeneration failure | Q36499527 | ||
Can regenerating axons recapitulate developmental guidance during recovery from spinal cord injury? | Q36528587 | ||
Recapitulate development to promote axonal regeneration: good or bad approach? | Q36581080 | ||
Genetic mouse models for studying inhibitors of spinal axon regeneration | Q36618712 | ||
Influences of the Glial Environment on the Elongation of Axons After Injury: Transplantation Studies in Adult Rodents | Q36662072 | ||
DLK initiates a transcriptional program that couples apoptotic and regenerative responses to axonal injury. | Q36673264 | ||
JNK-mediated phosphorylation of DLK suppresses its ubiquitination to promote neuronal apoptosis | Q37141102 | ||
Short hairpin RNA against PTEN enhances regenerative growth of corticospinal tract axons after spinal cord injury | Q37196286 | ||
The many faces of the SOCS box. | Q37307127 | ||
PI3K-GSK3 signalling regulates mammalian axon regeneration by inducing the expression of Smad1. | Q37331013 | ||
Oncomodulin links inflammation to optic nerve regeneration. | Q37429011 | ||
The hypoxia-induced paralogs Scylla and Charybdis inhibit growth by down-regulating S6K activity upstream of TSC in Drosophila | Q37694347 | ||
Injury-induced HDAC5 nuclear export is essential for axon regeneration. | Q37704511 | ||
Mechanisms and molecules of neuronal wiring: a primer | Q37814719 | ||
Neuronal intrinsic mechanisms of axon regeneration. | Q37857838 | ||
Role of myelin-associated inhibitors in axonal repair after spinal cord injury | Q37877302 | ||
Assembly of a new growth cone after axotomy: the precursor to axon regeneration | Q37983990 | ||
Defeating inhibition of regeneration by scar and myelin components | Q38055565 | ||
The challenges of long-distance axon regeneration in the injured CNS. | Q38062996 | ||
A growing role for mTOR in promoting anabolic metabolism | Q38122221 | ||
Axonal transcription factors: novel regulators of growth cone-to-nucleus signaling | Q38125142 | ||
GSK3 controls axon growth via CLASP-mediated regulation of growth cone microtubules | Q38617811 | ||
Sustained axon regeneration induced by co-deletion of PTEN and SOCS3 | Q39864495 | ||
Signaling to transcription networks in the neuronal retrograde injury response. | Q40449535 | ||
The tumour-suppressor function of PTEN requires an N-terminal lipid-binding motif | Q40601438 | ||
Degeneration and regeneration of axons in the lesioned spinal cord | Q40980911 | ||
Priming events and retrograde injury signals. A new perspective on the cellular and molecular biology of nerve regeneration. | Q41189046 | ||
Axotomy-induced Smad1 activation promotes axonal growth in adult sensory neurons. | Q41767032 | ||
No simpler than mammals: axon and dendrite regeneration in Drosophila. | Q41785238 | ||
Neuronal STAT3 activation is essential for CNTF- and inflammatory stimulation-induced CNS axon regeneration. | Q42019098 | ||
Differential phosphorylation of Smad1 integrates BMP and neurotrophin pathways through Erk/Dusp in axon development. | Q42113611 | ||
Dopaminergic pathway reconstruction by Akt/Rheb-induced axon regeneration | Q42114376 | ||
Dual leucine zipper kinase is required for retrograde injury signaling and axonal regeneration | Q42215373 | ||
Axonal transcription factors signal retrogradely in lesioned peripheral nerve | Q42554579 | ||
SOCS3 deletion promotes optic nerve regeneration in vivo. | Q42949909 | ||
Conditional gene ablation of Stat3 reveals differential signaling requirements for survival of motoneurons during development and after nerve injury in the adult | Q42951917 | ||
Neuroprotective and axon growth-promoting effects following inflammatory stimulation on mature retinal ganglion cells in mice depend on ciliary neurotrophic factor and leukemia inhibitory factor | Q43244105 | ||
Intravitreal injections of neurotrophic factors and forskolin enhance survival and axonal regeneration of axotomized beta ganglion cells in cat retina | Q44306457 | ||
Cytokine-induced SOCS expression is inhibited by cAMP analogue: impact on regeneration in injured retina | Q44597893 | ||
Critical role of increased PTEN nuclear translocation in excitotoxic and ischemic neuronal injuries | Q46082313 | ||
Crosstalk between mTOR complexes. | Q46152170 | ||
Delivery of hyper-interleukin-6 to the injured spinal cord increases neutrophil and macrophage infiltration and inhibits axonal growth | Q46650042 | ||
Astrocyte-derived CNTF switches mature RGCs to a regenerative state following inflammatory stimulation. | Q46923165 | ||
mTORC1 regulates the efficiency and cellular capacity for protein synthesis | Q47990809 | ||
CNTF, not other trophic factors, promotes axonal regeneration of axotomized retinal ganglion cells in adult hamsters. | Q48269417 | ||
Restoring voluntary control of locomotion after paralyzing spinal cord injury | Q48486697 | ||
Stabilization and productive positioning roles of the C2 domain of PTEN tumor suppressor | Q49086388 | ||
Axonal Elongation into Peripheral Nervous System "Bridges" After Central Nervous System Injury in Adult Rats | Q49156758 | ||
Axon formation in neocortical neurons depends on stage-specific regulation of microtubule stability by the dual leucine zipper kinase-c-Jun N-terminal kinase pathway. | Q50521939 | ||
Different signaling pathways mediate regenerative versus developmental sensory axon growth. | Q52130810 | ||
Extension of the critical period for developmental plasticity of the corticospinal pathway. | Q52246686 | ||
Acute physiological response of mammalian central neurons to axotomy: ionic regulation and electrical activity | Q60535513 | ||
Critical calpain-dependent ultrastructural alterations underlie the transformation of an axonal segment into a growth cone after axotomy of culturedAplysia neurons | Q61849055 | ||
Retrograde axonal transport of LIF is increased by peripheral nerve injury: correlation with increased LIF expression in distal nerve | Q71607271 | ||
P304 | page(s) | 135-142 | |
P577 | publication date | 2014-04-12 | |
P1433 | published in | Current Opinion in Neurobiology | Q15763572 |
P1476 | title | Signaling regulations of neuronal regenerative ability | |
P478 | volume | 27 |
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Q36304932 | Activating Injury-Responsive Genes with Hypoxia Enhances Axon Regeneration through Neuronal HIF-1α. |
Q41150716 | Activation of 5-HT7 receptor stimulates neurite elongation through mTOR, Cdc42 and actin filaments dynamics |
Q64998259 | Administration of CoCl2 Improves Functional Recovery in a Rat Model of Sciatic Nerve Transection Injury. |
Q39006798 | ApoE2, ApoE3, and ApoE4 Differentially Stimulate APP Transcription and Aβ Secretion |
Q88325502 | Applying proteomics to research for optic nerve regeneration in glaucoma: what's on the horizon? |
Q55026890 | Axonal regeneration in zebrafish spinal cord. |
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Q41653963 | Boosting Central Nervous System Axon Regeneration by Circumventing Limitations of Natural Cytokine Signaling |
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Q46495043 | In Vivo Imaging of CNS Injury and Disease |
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Q36022340 | MicroRNA-26a supports mammalian axon regeneration in vivo by suppressing GSK3β expression |
Q48107051 | Microglia Are Irrelevant for Neuronal Degeneration and Axon Regeneration after Acute Injury. |
Q38782131 | Models of axon regeneration in Drosophila. |
Q38732238 | Molecular, cellular and functional events in axonal sprouting after stroke. |
Q100456052 | Optical control of ERK and AKT signaling promotes axon regeneration and functional recovery of PNS and CNS in Drosophila |
Q26775781 | PTEN inhibition and axon regeneration and neural repair |
Q49939627 | PTEN knockdown with the Y444F mutant AAV2 vector promotes axonal regeneration in the adult optic nerve |
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Q36316471 | Tyrosine-mutated AAV2-mediated shRNA silencing of PTEN promotes axon regeneration of adult optic nerve |
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