NGF and Neurotrophin-3 Both Activate TrkA on Sympathetic Neurons but Differentially Regulate Survival and Neuritogenesis

Belliveau, Daniel J.; Krivko, Irena; Kohn, Judi; Lachance, Christian; Pozniak, Christine D.; Rusakov, Dmitri A.; Kaplan, David R.; Miller, Freda D.

doi:10.1083/jcb.136.2.375

Cited by 168 publications

(184 citation statements)

References 74 publications

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“…The initial mechanical hyperalgesia after N T-3 injection may be attributable to activation of the autonomic system through an action on trkA receptors by a transient high concentration. NT-3 has been recently shown to mediate sympathetic neuron survival through a regulation of trkA receptors (Belliveau et al, 1997). NT-3-induced changes in mechanical threshold are in line with recent work suggesting that tactile sensation is a target for NT-3 (Airaksinen et al, 1996).…”

Section: Nt-3 Effects On Pain Threshold and Release Of Sp-li From Thesupporting

confidence: 81%

Nerve Growth Factor- and Neurotrophin-3-Induced Changes in Nociceptive Threshold and the Release of Substance P from the Rat Isolated Spinal Cord

et al. 1997

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Acute superfusion of nerve growth factor (NGF; 1-100 ng/ml) through a naive rat spinal cord preparation did not alter basal or electrically evoked release of substance P-like immunoreactivity (SP-LI). In contrast, neurotrophin-3 (NT-3; 1-100 ng/ml), although not modifying SP-LI basal outflow, dose-dependently inhibited the electrically evoked, but not capsaicin (10 nM)-induced, release of the peptide. This NT-3 (10 ng/ml)-induced inhibition persisted even in the presence of 100 ng/ml NGF in the perfusion fluid and was still significant when the evoked release of SP-LI was enhanced by a prolonged in vivo treatment with NGF. Co-superfusion with naloxone (0.1 M), but not CGP 36742 (100 M), a GABA B antagonist, prevented NT-3 (10 ng/ ml) inhibition of SP-LI release. Basal and electrically evoked release of SP-LI from the rat spinal cord in vitro was not modified 24 hr after single systemic injection of either NGF (1 mg/kg) or NT-3 (10 mg/kg). At these time intervals from administration, NGF had induced thermal and mechanical hyperalgesia in the rat hindpaw, and NT-3 had induced mechanical, but not thermal, hypoalgesia. NT-3 administered six times over a 2 week period (at 1 mg/kg) did not alter thermal threshold but significantly reduced electrically evoked release of SP-LI from the spinal cord. An identical treatment regimen with 1 mg/kg NGF induced a significant increase in evoked release of SP-LI. However, this was not associated with a significant hyperalgesia. Although finding that NGF-induced hyperalgesia does not clearly correlate with changes in the release of SP-LI in the spinal cord, this study shows that NT-3 is an inhibitor of SP-LI release and suggests that this mechanism may be responsible for NT-3-induced antinociception.

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Section: Nt-3 Effects On Pain Threshold and Release Of Sp-li From Thesupporting

confidence: 81%

Nerve Growth Factor- and Neurotrophin-3-Induced Changes in Nociceptive Threshold and the Release of Substance P from the Rat Isolated Spinal Cord

et al. 1997

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“…NGF increases axon outgrowth and stimulates MAP1B phosphorylation in rat superior cervical ganglion neurons To determine whether an NGF-dependent activation of GSK3b phosphorylation of MAP1B occurs in neurons, as it does in PC12 cells, we examined cultures of dissociated postnatal rat superior cervical ganglion neurons, which express TrkA and p75 NTR receptors (Belliveau et al 1997). In the absence of NGF, superior cervical ganglion neurons extend neurites in culture on a laminin and poly-D-lysine substrate (Figs 2a and b), but the length of these neurites, and the proportion of cells extending a neurite, is markedly increased by addition of NGF (Figs 2a and b).…”

Section: Resultsmentioning

confidence: 99%

NGF activates the phosphorylation of MAP1B by GSK3β through the TrkA receptor and not the p75^NTRreceptor

Goold

Gordon‐Weeks

2003

Journal of Neurochemistry

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We have recently shown that nerve growth factor (NGF) induces the phosphorylation of the microtubule-associated protein 1B (MAP1B) by activating the serine/threonine kinase glycogen synthase kinase 3b (GSK3b) in a spatio-temporal pattern in PC12 cells that correlates tightly with neurite growth. PC12 cells express two types of membrane receptor for NGF: TrkA receptors and p75 NTR receptors, and it was not clear from our studies which receptor was responsible. We show here that brain-derived neurotrophic factor, which activates p75 NTR but not TrkA receptors, does not stimulate GSK3b phosphorylation of MAP1B in PC12 cells. Similarly, NGF fails to activate GSK3b phosphorylation of MAP1B in PC12 cells that lack TrkA receptors but express p75 NTR receptors (PC12 nnr). Chick ciliary ganglion neurons in culture lack TrkA receptors but express p75 NTR and also fail to show NGF-dependent GSK3b phosphorylation of MAP1B, whereas in rat superior cervical ganglion neurons in culture, NGF activation of TrkA receptors elicits GSK3b phosphorylation of MAP1B. Finally, inhibition of TrkA receptor tyrosine kinase activity in PC12 cells and superior cervical ganglion neurons with K252a potently and dose-dependently inhibits neurite elongation while concomitantly blocking GSK3b phosphorylation of MAP1B. These results suggest that the activation of GSK3b by NGF is mediated through the TrkA tyrosine kinase receptor and not through p75 NTR receptors. Keywords: glycogen synthase kinase 3b, microtubule-associated protein 1B, nerve growth factor, PC12 cells. Glycogen synthase kinase 3 (GSK3) is a highly conserved serine/threonine kinase, originally identified as a negative regulator of glycogen synthase, but more recently implicated in a wide range of signalling pathways, including ones influencing cell fate determination during embryogenesis and neuronal differentiation (Grimes and Jope 2001;Doble and Woodgett 2003). In vertebrates, there are two isoforms, GSK3a and GSK3b, encoded by separate genes (Woodgett 1990) and, although GSK3a is the dominant form in most tissues, GSK3b is particularly abundant in neural tissue (Woodgett 1990), where it is neuron-specific (Takahashi et al. 1994;Leroy and Brion 1999). In the CNS, GSK3b is developmentally regulated, with peak levels of expression during axonogenesis. It is present in growing axons but completely excluded from them at the end of axonogenesis, being restricted in the adult to neuronal cell bodies and dendrites (Leroy and Brion 1999). This suggests that GSK3b has a role in axonogenesis, an idea supported by pharmacological studies. GSK3 is inhibited by lithium ions (Klein and Melton 1996;Stambolic et al. 1996) and although other enzymes are also inhibited by lithium, in immature neurons, GSK3 appears to be the primary pharmacological target (Lucas et al. 1998;Hall et al. 2002; Owen and GordonWeeks 2003; but see Williams et al. 2002). Lithium has profound morphological effects on developing neurons in culture (Burstein et al. 1985;Hollander and Bennett 1991;Lucas and Salinas 19...

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“…NT-3 and NGF signaling via TrkA control sympathetic neuronal development and differentially regulate survival and differentiation (6,7). Therefore, we aimed to determine TrkA subdomains involved in NGF and NT-3 binding and the functional outcome of NGF and NT-3 binding to their "hot spots" epitopes on TrkA receptors.…”

Section: Discussionmentioning

confidence: 99%

“…Furthermore, sympathetic neurons from NGF null and NT-3 null mice die when these neurons express high levels of TrkA and negligible levels of TrkC (5). NT-3 mediates neuritogenesis as effectively as NGF, but it affords ϳ20 -40-fold less survival compared with NGF in NGF-dependent sympathetic neurons (6). Also, NGF and NT-3 acting via TrkA are required for sympathetic axon growth and target innervation (7).…”

mentioning

confidence: 99%

TrkA Receptor “Hot Spots” for Binding of NT-3 as a Heterologous Ligand

Ivanisevic

Zheng

Woo

et al. 2007

Journal of Biological Chemistry

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Neurotrophins signal via Trk tyrosine kinase receptors. Nerve growth factor (NGF) is the cognate ligand for TrkA, the brainderived neurotrophic factor for TrkB, and NT-3 for TrkC. NT-3 also binds TrkA as a lower affinity heterologous ligand. Because neurotrophin-3 (NT-3) interactions with TrkA are biologically relevant, we aimed to define the TrkA "hot spot" functional docking sites of NT-3. The Trk extracellular domain consists of two cysteine-rich subdomains (D1 and D3), flanking a leucinerich subdomain (D2), and two immunoglobulin-like subdomains IgC1(D4) and IgC2(D5). Previously, the D5 subdomain was defined as the primary ligand-binding site of neurotrophins for their cognate receptors (e.g. NGF binds and activates through TRKA-D5 hot spots). Here binding studies with truncated and chimeric extracellular subdomains show that TRKA-D5 also includes an NT-3 docking and activation hot spot (site 1), and competition studies show that the NGF and NT-3 hot spots on TRKA-D5 are distinct but partially overlapping. In addition, ligand binding studies provide evidence for an NT-3-binding/allosteric site on TRKA-D4 (site 2). NT-3 docking on sites 1 and/or 2 partially blocks NGF binding. Functional survival studies showed that sites 1 and 2 regulate TrkA activation. NT-3 docking on both sites 1 and 2 affords full agonism, which can be additive with NGF activation of Trk. However, NT-3 docking solely on site 1 is partially agonistic but noncompetitively antagonizes NGF binding and activation of Trk. This study demonstrates that Trk signaling is more complex than previously thought because it involves several receptor subdomains and hot spots.

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NGF and Neurotrophin-3 Both Activate TrkA on Sympathetic Neurons but Differentially Regulate Survival and Neuritogenesis

Cited by 168 publications

References 74 publications

Nerve Growth Factor- and Neurotrophin-3-Induced Changes in Nociceptive Threshold and the Release of Substance P from the Rat Isolated Spinal Cord

Nerve Growth Factor- and Neurotrophin-3-Induced Changes in Nociceptive Threshold and the Release of Substance P from the Rat Isolated Spinal Cord

NGF activates the phosphorylation of MAP1B by GSK3β through the TrkA receptor and not the p75^NTRreceptor

TrkA Receptor “Hot Spots” for Binding of NT-3 as a Heterologous Ligand

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NGF and Neurotrophin-3 Both Activate TrkA on Sympathetic Neurons but Differentially Regulate Survival and Neuritogenesis

Cited by 168 publications

References 74 publications

Nerve Growth Factor- and Neurotrophin-3-Induced Changes in Nociceptive Threshold and the Release of Substance P from the Rat Isolated Spinal Cord

Nerve Growth Factor- and Neurotrophin-3-Induced Changes in Nociceptive Threshold and the Release of Substance P from the Rat Isolated Spinal Cord

NGF activates the phosphorylation of MAP1B by GSK3β through the TrkA receptor and not the p75NTRreceptor

TrkA Receptor “Hot Spots” for Binding of NT-3 as a Heterologous Ligand

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NGF activates the phosphorylation of MAP1B by GSK3β through the TrkA receptor and not the p75^NTRreceptor