Pamela M. England scite author profile

Trk tyrosine kinases are receptors for members of the neurotrophin family and are crucial for growth and survival of specific populations of neurons. Yet, the functions of neurotrophin-Trk signaling in postnatal development as well as maintenance and plasticity of the adult nervous system are less clear. We report here the generation of mice harboring Trk knockin alleles that allow for pharmacological control of Trk kinase activity. Nanomolar concentrations of either 1NMPP1 or 1NaPP1, derivatives of the general kinase inhibitor PP1, inhibit NGF and BDNF signaling in TrkA(F592A) and TrkB(F616A) neurons, respectively, while no such Trk inhibition is observed in wild-type neurons. Moreover, oral administration of 1NMPP1 leads to specific inhibition of TrkA(F592A), TrkB(F616A), and TrkC(F167A) signaling in vivo. Thus, Trk knockin mice provide valuable tools for selective, rapid, and reversible inhibition of neurotrophin signaling in vitro and in vivo.

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Mechanism and Time Course of Cocaine-Induced Long-Term Potentiation in the Ventral Tegmental Area

Argilli¹,

Sibley²,

Malenka³

et al. 2008

J. Neurosci.

212

233

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Synaptic plasticity in the ventral tegmental area (VTA) has been implicated in the acquisition of a drug-dependent state. Even a single exposure to cocaine in naive animals is sufficient to trigger sustained changes on VTA glutamatergic synapses that resemble activitydependent long-term potentiation (LTP) in other brain regions. However, an insight into its time course and mechanisms of action is limited. Here, we show that cocaine acts locally within the VTA to induce an LTP-like enhancement of AMPA receptor-mediated transmission that is not detectable minutes after drug exposure but is fully expressed within 3 h. This cocaine-induced LTP appears to be mediated via dopamine D 5 receptor activation of NMDA receptors and to require protein synthesis. Increased levels of high-conductance GluR1-containing AMPA receptors at synapses are evident at 3 h after cocaine exposure. Furthermore, our data suggest that cocaineinduced LTP might share the same molecular substrates for expression with activity-dependent LTP induced in the VTA by a spiketiming-dependent (STD) protocol, because we observed that STD LTP is significantly reduced or not inducible in VTA neurons previously exposed to cocaine in vivo or in vitro.

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Photoinactivation of Native AMPA Receptors Reveals Their Real-Time Trafficking

Adesnik

Nicoll

England

2005

Neuron

212

176

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AMPA receptors mediate the majority of the fast excitatory transmission in the central nervous system. Much evidence suggests that the fast trafficking of AMPA receptors into and out of the postsynaptic membrane underlies changes in synaptic strength thought to be necessary for higher cognitive functions such as learning and memory. Despite the abundance of research conducted in this area, a direct, real-time functional assay that measures the trafficking of native AMPA receptors has been lacking. Toward this aim, we use a photoreactive, irreversible antagonist of AMPA receptors, ANQX, to rapidly silence surface AMPA receptors and investigate directly the trafficking of native AMPA receptors in real time. We find that the most dynamic movement of AMPA receptors occurs by lateral movement across the surface of neurons. Fast cycling of surface AMPA receptors with receptors from internal stores does occur but exclusively at extrasynaptic somatic sites. The cycling of synaptic AMPA receptors only occurs on a much longer timescale with complete exchange requiring at least 16 hr. This cycling is not dependent on protein synthesis or action potential driven network activity. These data suggest a revised model of AMPA receptor trafficking wherein a large internal store of AMPA receptors exchanges rapidly with extrasynaptic somatic AMPA receptors, and these newly inserted AMPA receptors then travel laterally along dendrites to reside stably at synapses.

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Backbone Mutations in Transmembrane Domains of a Ligand-Gated Ion Channel

England

Zhang

Dougherty

et al. 1999

Cell

131

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An approach to identify backbone conformational changes underlying nicotinic acetylcholine receptor (nAChR) gating was developed. Specific backbone peptide bonds were replaced with an ester, which disrupts backbone hydrogen bonds at the site of mutation. At a conserved proline residue (alphaPro221) in the first transmembrane (M1) domain, the amide-to-ester mutation provides receptors with near-normal sensitivity, although the natural amino acids tested other than Pro produce receptors that gate with a much larger EC50 than normal. Therefore, a backbone hydrogen bond at this site may interfere with normal gating. In the alphaM2 domain, the amide-to-ester mutation yielded functional receptors at 15 positions, 3 of which provided receptors with >10-fold lower EC50 than wild type. These results support a model for gating that includes significant changes of backbone conformation within the M2 domain.

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TrkB kinase is required for recovery, but not loss, of cortical responses following monocular deprivation

et al. 2008

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Changes in visual cortical responses that are induced by monocular visual deprivation are a widely studied example of competitive, experience-dependent neural plasticity. It has been thought that the deprived-eye pathway will fail to compete against the open-eye pathway for limited amounts of brainderived neurotrophic factor, which acts on TrkB and is needed to sustain effective synaptic connections. We tested this model by using a chemical-genetic approach in mice to inhibit TrkB kinase activity rapidly and specifically during the induction of cortical plasticity in vivo. Contrary to the model, TrkB kinase activity was not required for any of the effects of monocular deprivation. When the deprived eye was re-opened during the critical period, cortical responses to it recovered. This recovery was blocked by TrkB inhibition. These findings suggest a more conventional trophic role for TrkB signaling in the enhancement of responses or growth of new connections, rather than a role in competition.During development, experience strongly influences the formation and maturation of neuronal connectivity in the mammalian cortex. In the visual system, closing one eye for even a few days during a critical period of heightened plasticity in early postnatal life leads to a pronounced decrease in the cortical representation of the deprived eye, which is observed both physiologically and anatomically 1 . The experience-dependent changes following such monocular deprivation, termed ocular dominance plasticity (ODP), operate through a competitive interaction between inputs from the two eyes and depend on the activity state of the postsynaptic neurons 1-5 . These features of ODP have suggested that a retrograde signal released by the postsynaptic neurons may mediate plasticity by affecting afferents from the two eyes differently.Brain-derived neurotrophic factor (BDNF), the cognate ligand for the TrkB receptor, has been proposed to be such a retrograde signal on the basis of a number of observations, including the Correspondence should be addressed to M.P.S. (stryker@phy.ucsf.edu). AUTHOR CONTRIBUTIONS M.K. carried out all of the biochemical analysis, optical imaging and single-unit recordings using TrkB F616A and their appropriate control mice, prepared all of the figures (except for Supplementary Fig. 3) and wrote the first draft of the manuscript. J.L.H. carried out experiments on K252a and TrkB-IgG mice. P.M.E. supplied mutant mice and 1NM-PP1. M.K., P.M.E. and M.P.S. designed the experiments and assisted with data analysis and revision of the manuscript.Reprints and permissions information is available online at

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Pamela M. England

A Chemical-Genetic Approach to Studying Neurotrophin Signaling

Mechanism and Time Course of Cocaine-Induced Long-Term Potentiation in the Ventral Tegmental Area

Photoinactivation of Native AMPA Receptors Reveals Their Real-Time Trafficking

Backbone Mutations in Transmembrane Domains of a Ligand-Gated Ion Channel

TrkB kinase is required for recovery, but not loss, of cortical responses following monocular deprivation

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