scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1024918006 |
P356 | DOI | 10.1038/NN.3430 |
P8608 | Fatcat ID | release_g4dekv7ykfegdfpzunthx7iw5q |
P932 | PMC publication ID | 3785146 |
P698 | PubMed publication ID | 23749144 |
P5875 | ResearchGate publication ID | 237095015 |
P50 | author | Alun Davies | Q4737487 |
P2093 | author name string | Sean Wyatt | |
Clara Erice | |||
Lilian Kisiswa | |||
Catarina Osório | |||
Thomas Vizard | |||
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Nuclear factor-kappaB activation via tyrosine phosphorylation of inhibitor kappaB-alpha is crucial for ciliary neurotrophic factor-promoted neurite growth from developing neurons | Q30460154 | ||
Extracellular TNFR1 release requires the calcium-dependent formation of a nucleobindin 2-ARTS-1 complex | Q33231442 | ||
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NGF-promoted axon growth and target innervation requires GITRL-GITR signaling | Q33313367 | ||
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Soluble tumor necrosis factor (TNF) receptor-1 induces apoptosis via reverse TNF signaling and autocrine transforming growth factor-beta1. | Q40498570 | ||
Tumor necrosis factor (TNF) receptor shedding controls thresholds of innate immune activation that balance opposing TNF functions in infectious and inflammatory diseases | Q40528753 | ||
LPS resistance in monocytic cells caused by reverse signaling through transmembrane TNF (mTNF) is mediated by the MAPK/ERK pathway | Q40617522 | ||
Outside-to-inside signal through the membrane TNF-alpha induces E-selectin (CD62E) expression on activated human CD4+ T cells | Q40836468 | ||
Reverse signaling through transmembrane TNF confers resistance to lipopolysaccharide in human monocytes and macrophages | Q40875345 | ||
Nuclear factor kappa B signaling either stimulates or inhibits neurite growth depending on the phosphorylation status of p65/RelA | Q41887851 | ||
Tumor necrosis factor inhibits neurite outgrowth and branching of hippocampal neurons by a rho-dependent mechanism. | Q43875599 | ||
The MAP kinase pathway is upstream of the activation of GSK3beta that enables it to phosphorylate MAP1B and contributes to the stimulation of axon growth. | Q45287460 | ||
Control of neuronal branching by the death receptor CD95 (Fas/Apo-1). | Q48820478 | ||
Developmental regulation of sensory neurite growth by the tumor necrosis factor superfamily member LIGHT. | Q51825840 | ||
A simple procedure for quantification of neurite outgrowth based on stereological principles. | Q52072482 | ||
HGF promotes survival and growth of maturing sympathetic neurons by PI-3 kinase- and MAP kinase-dependent mechanisms. | Q54177808 | ||
Dissection of the protein kinase cascade by which nerve growth factor activates MAP kinases | Q59097215 | ||
p75-deficient trigeminal sensory neurons have an altered response to NGF but not to other neurotrophins | Q70478360 | ||
TNFalpha contributes to the death of NGF-dependent neurons during development | Q77090753 | ||
Fas engagement induces neurite growth through ERK activation and p35 upregulation | Q78836977 | ||
P4510 | describes a project that uses | ImageJ | Q1659584 |
P433 | issue | 7 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 865-873 | |
P577 | publication date | 2013-06-09 | |
P1433 | published in | Nature Neuroscience | Q1535359 |
P1476 | title | TNFα reverse signaling promotes sympathetic axon growth and target innervation | |
P478 | volume | 16 |
Q97884872 | Association of distinct type 1 bone morphogenetic protein receptors with different molecular pathways and survival outcomes in neuroblastoma |
Q93131836 | CD40 forward signalling is a physiological regulator of early sensory axon growth |
Q47127227 | CD40 is a major regulator of dendrite growth from developing excitatory and inhibitory neurons |
Q89796718 | CD40L reverse signaling suppresses prevertebral sympathetic axon growth and tissue innervation |
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Q36830115 | Diacylglycerol lipase β inhibition reverses nociceptive behaviour in mouse models of inflammatory and neuropathic pain. |
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Q35705099 | ERK signaling mediates CaSR-promoted axon growth |
Q35183927 | Emerging roles of gut microbiota and the immune system in the development of the enteric nervous system |
Q38888419 | Fas apoptosis inhibitory molecules: more than death-receptor antagonists in the nervous system |
Q99583839 | Gene set enrichment analysis and protein-protein interaction network analysis after sciatic nerve injury |
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Q89468702 | Molecular dissection of TNFR-TNFα bidirectional signaling reveals both cooperative and antagonistic interactions with p75 neurotrophic factor receptor in axon patterning |
Q26752744 | Neuroendorine and Epigentic Mechanisms Subserving Autonomic Imbalance and HPA Dysfunction in the Metabolic Syndrome |
Q98464779 | Neuroimmune System as a Driving Force for Plasticity Following CNS Injury |
Q35924134 | Region-specific role of growth differentiation factor-5 in the establishment of sympathetic innervation |
Q64445322 | Regional Differences in the Contributions of TNF Reverse and Forward Signaling to the Establishment of Sympathetic Innervation |
Q35574017 | Regulation of Autocrine Signaling in Subsets of Sympathetic Neurons Has Regional Effects on Tissue Innervation |
Q33559757 | Selective regulation of axonal growth from developing hippocampal neurons by tumor necrosis factor superfamily member APRIL |
Q34407967 | Somatic and axonal LIGHT signaling elicit degenerative and regenerative responses in motoneurons, respectively |
Q36253337 | T-type Ca2+ channels are required for enhanced sympathetic axon growth by TNFα reverse signalling |
Q47138321 | TNF superfamily member APRIL enhances midbrain dopaminergic axon growth and contributes to the nigrostriatal projection in vivo |
Q30405316 | TNF-α/TNFR1 signaling is required for the development and function of primary nociceptors |
Q30252714 | TNFa/TNFR2 signaling is required for glial ensheathment at the dorsal root entry zone |
Q58595034 | TWE-PRIL reverse signaling suppresses sympathetic axon growth and tissue innervation |
Q38697515 | The Chemokine Receptor CXCR6 Evokes Reverse Signaling via the Transmembrane Chemokine CXCL16. |
Q47662147 | Tumor necrosis factor alpha in sleep regulation |
Q50461350 | Tumour necrosis factor-mediated homeostatic synaptic plasticity in behavioural models: testing a role in maternal immune activation |
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