Sarah E. Slack scite author profile

Brain-derived neurotrophic factor (BDNF) is involved in the modulation of synaptic transmission in the spinal cord, and several circumstantial lines of evidence suggest that it has the ability to modulate the activity of the NMDA receptor. Here we dissect the signalling mechanisms by which BDNF exerts its neuromodulatory role on the NMDA receptor subunit 1 (NR1). Using a preparation of adult isolated dorsal horn with dorsal roots attached, we found that electrical stimulation of roots induced a concomitant release of BDNF and an increased phosphorylation of NR1, which was partly prevented by the BDNF sequestering molecule, TrkB-IgG. Using a second approach in vitro, we confirmed that both exogenous glutamate and BDNF (but not other neurotrophins) were able to induce NR1 phosphorylation, in particular at residue Ser-897. NR1 phosphorylation induced by BDNF was blocked by a TrkB inhibitor, an ERK inhibitor and a PKC inhibitor but not a PKA inhibitor. Activation of PKC using exogenous PMA also led to NR1 phosphorylation. Together these data suggest that BDNF modulates the activity of the receptor by phosphorylation via the kinases ERK and PKC.

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EphrinB2 induces tyrosine phosphorylation of NR2B via Src-family kinases during inflammatory hyperalgesia

Slack

Battaglia

Cibert-Goton

et al. 2008

Neuroscience

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In recent years a role for EphB receptor tyrosine kinases and their ephrinB ligands in activity-dependent synaptic plasticity in the CNS has been identified. The aim of the present study was to test the hypothesis that EphB receptor activation in the adult rat spinal cord is involved in synaptic plasticity and processing of nociceptive inputs, through modulation of the function of the glutamate ionotropic receptor NMDA (N-methyl-D-aspartate). In particular, EphB receptor activation would induce phosphorylation of the NR2B subunit of the NMDA receptor by a Src family non-receptor tyrosine kinase. Intrathecal administration of ephrinB2-Fc in adult rats, which can bind to and activate EphB receptors and induce behavioral thermal hyperalgesia, led to NR2B tyrosine phosphorylation, which could be blocked by the Src family kinase inhibitor PP2. Furthermore animals pre-treated with PP2 did not develop behavioral thermal hyperalgesia following EphrinB2-Fc administration, suggesting that this pathway is functionally significant. Indeed, EphB1-Fc administration, which competes with the endogenous receptor for ephrinB2 binding and prevents behavioral allodynia and hyperalgesia in the carrageenan model of inflammation, also inhibited NR2B phosphorylation in this model. Taken together these findings support the hypothesis that EphB–ephrinB interactions play an important role in NMDA-dependent, activity-dependent synaptic plasticity in the adult spinal cord, inducing the phosphorylation of the NR2B subunit of the receptor via Src family kinases, thus contributing to chronic pain states.

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Expression of gp130 and leukaemia inhibitory factor receptor subunits in adult rat sensory neurones: regulation by nerve injury

Gardiner

Cafferty

Slack

et al. 2002

Journal of Neurochemistry

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Members of the interleukin-6 (IL-6) family of cytokines have been implicated as major mediators of the response of the adult nervous system to injury. The basis for an interaction of IL-6 cytokines with adult sensory neurones has been established by analysing the levels and distribution of the two signal-transducing receptor subunits, glycoprotein 130 (gp130) and leukaemia inhibitory factor receptor (LIFR), in the dorsal root ganglion (DRG) of male adult rats before and following nerve injury. All sensory neurones express gp130-immunoreactivity (IR) in the cytoplasm and on the plasma membrane. Levels of gp130 and its intracellular distribution remained unchanged up to 14 days following sciatic nerve axotomy. LIFR-IR was largely absent from the cytoplasm and plasma membrane of sensory neurones, but confined almost exclusively to the nuclear compartment. However, following axotomy, punctate cytoplasmic LIFR-IR was detected which persisted up to 28 days following axotomy. The expression of cytoplasmic LIFR 2 days post-axotomy was proportionally greater in a subset of small diameter sensory neurones which expressed either the sensory neuropeptide CGRP or the cell surface marker isolectin B4. The coexpression of gp130 and LIFR in the same intracellular compartment following axotomy conveys potential responsiveness of injured sensory neurones to members of the IL-6 family of cytokines.

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TrkB expression and phospho-ERK activation by brain-derived neurotrophic factor in rat spinothalamic tract neurons

et al. 2005

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Brain-derived neurotrophic factor (BDNF) is a neurotrophin implicated in the phenomena of synaptic plasticity in the adult. It is found in terminals of nociceptive primary afferents. Following a pain-related stimulus, it is released in the spinal cord, where it activates its high-affinity receptor TrkB, leading to the phosphorylation of the mitogen-activated protein kinase (MAPK) extracellular signal-regulated kinase (ERK). A large body of evidence suggests that BDNF has a positive neuromodulatory effect on glutamate transmission in the spinal cord. However, none of these studies examined anatomically whether projection neurons known to be involved in transmission of nociceptive inputs express BDNF's receptor. Because the spinothalamic tract (STT) is a well-characterized pathway for its role in the transfer and integration of sensory and nociceptive informations, this study in rats aimed to 1) determine whether neurons of the STT pathway express the TrkB receptor, 2) establish the rostrocaudal and laminar distribution of STT-TrkB neurons in the whole spinal cord, and 3) test the potential functionality of TrkB expression in these cells by investigating the ability of BDNF to activate the MAP kinase ERK. Using tract tracing coupled to immunofluorescent labeling for TrkB, we observed that in all levels of the spinal cord most STT neurons were immunoreactive for TrkB. Furthermore, microinjections of BDNF into the spinal cord or release of endogenous BDNF by intraplantar injection of capsaicin activated ERK phosphorylation in TrkB-containing STT neurons. These data suggest an important role for BDNF in nociception as an activator of spinothalamic projection neurons.

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Brain-derived neurotrophic factor induces NMDA receptor 1 phosphorylation in rat spinal cord

Slack

Thompson

2002

NeuroReport

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The NMDA receptor and the neurotrophin brain-derived neurotrophic factor, BDNF, are involved in central sensitisation and synaptic plasticity in the spinal cord. Recent evidence suggests that BDNF modulates NMDA responses, by a yet unknown mechanism. The phosphorylation of the NMDA subunit 1 following BDNF exposure has been investigated in the neonatal rat spinal cord. Western blotting revealed that BDNF administered to isolated cords for 20 minutes significantly elevated phospho-NR1 levels. Immunohistochemical analysis localised this increase to functionally appropriate regions of the dorsal horn. Pre-incubation with trkB-IgG (BDNF sequestering molecule) abolished this NR1 phosphorylation. We suggest that BDNF modulates synaptic activity within the spinal cord via NR1 phosphorylation.

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Sarah E. Slack

Brain‐derived neurotrophic factor induces NMDA receptor subunit one phosphorylation via ERK and PKC in the rat spinal cord

EphrinB2 induces tyrosine phosphorylation of NR2B via Src-family kinases during inflammatory hyperalgesia

Expression of gp130 and leukaemia inhibitory factor receptor subunits in adult rat sensory neurones: regulation by nerve injury

TrkB expression and phospho-ERK activation by brain-derived neurotrophic factor in rat spinothalamic tract neurons

Brain-derived neurotrophic factor induces NMDA receptor 1 phosphorylation in rat spinal cord

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