Adrian J. Mogg scite author profile

A major dose-limiting side effect associated with cancer-treating antineoplastic drugs is the development of neuropathic pain, which is not readily relieved by available analgesics. A better understanding of the mechanisms that underlie pain generation has potential to provide targets for prophylactic management of chemotherapy pain. Here, we delineate a pathway for pain that is induced by the chemotherapeutic drug vincristine sulfate (VCR). In a murine model of chemotherapy-induced allodynia, VCR treatment induced upregulation of endothelial cell adhesion properties, resulting in the infiltration of circulating CX3CR1 + monocytes into the sciatic nerve. At the endothelial-nerve interface, CX3CR1 + monocytes were activated by the chemokine CX3CL1 (also known as fractalkine [FKN]), which promoted production of reactive oxygen species that in turn activated the receptor TRPA1 in sensory neurons and evoked the pain response. Furthermore, mice lacking CX3CR1 exhibited a delay in the development of allodynia following VCR administration. Together, our data suggest that CX3CR1 antagonists and inhibition of FKN proteolytic shedding, possibly by targeting ADAM10/17 and/or cathepsin S, have potential as peripheral approaches for the prophylactic treatment of chemotherapy-induced pain.

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Molecular Mechanisms of Action and In Vivo Validation of an M4 Muscarinic Acetylcholine Receptor Allosteric Modulator with Potential Antipsychotic Properties

Leach

Loiacono

Felder

et al. 2009

Neuropsychopharmacol

146

169

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We recently identified LY2033298 as a novel allosteric potentiator of acetylcholine (ACh) at the M 4 muscarinic acetylcholine receptor (mAChR). This study characterized the molecular mode of action of this modulator in both recombinant and native systems. Radioligandbinding studies revealed that LY2033298 displayed a preference for the active state of the M 4 mAChR, manifested as a potentiation in the binding affinity of ACh (but not antagonists) and an increase in the proportion of high-affinity agonist-receptor complexes. This property accounted for the robust allosteric agonism displayed by the modulator in recombinant cells in assays of [ 35 S]GTPgS binding, extracellular regulated kinase 1/2 phosphorylation, glycogen synthase kinase 3b phosphorylation, and receptor internalization. We also found that the extent of modulation by LY2033298 differed depending on the signaling pathway, indicating that LY2033298 engenders functional selectivity in the actions of ACh. This property was retained in NG108-15 cells, which natively express rodent M 4 mAChRs. Functional interaction studies between LY2033298 and various orthosteric and allosteric ligands revealed that its site of action overlaps with the allosteric site used by prototypical mAChR modulators. Importantly, LY2033298 reduced [ 3 H]ACh release from rat striatal slices, indicating retention of its ability to allosterically potentiate endogenous ACh in situ. Moreover, its ability to potentiate oxotremorine-mediated inhibition of condition avoidance responding in rodents was significantly attenuated in M 4 mAChR knockout mice, validating the M 4 mAChR as a key target of action of this novel allosteric ligand.

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Presynaptic nicotinic receptors modulating dopamine release in the rat striatum

Wonnacott

Kaiser

Mogg

et al. 2000

European Journal of Pharmacology

210

163

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Intracellular Ca²⁺ signals evoked by stimulation of nicotinic acetylcholine receptors in SH‐SY5Y cells: contribution of voltage‐operated Ca²⁺ channels and Ca²⁺ stores

Dajas-Bailador

Mogg

Wonnacott

2002

Journal of Neurochemistry

153

142

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Neuronal nicotinic acetylcholine receptors (nAChR) can regulate several neuronal processes through Ca 2+ -dependent mechanisms. The versatility of nAChR-mediated responses presumably reflects the spatial and temporal characteristics of local changes in intracellular Ca 2+ arising from a variety of sources. The aim of this study was to analyse the components of nicotine-evoked Ca 2+ signals in SH-SY5Y cells, by monitoring fluorescence changes in cells loaded with fluo-3 AM. Nicotine (30 lM) generated a rapid elevation in cytoplasmic Ca 2+ that was partially and additively inhibited (40%) by a7 and a3b2* nAChR subtype selective antagonists; a3b4* nAChR probably account for the remaining response (60%). A substantial blockade (80%) by CdCl 2 (100 lM) indicates that voltage-operated Ca 2+ channels (VOCC) mediate most of the nicotine-evoked response, although the a7 selective antagonist a-bungarotoxin (40 nM) further decreased the CdCl 2 -resistant component. The elevation of intracellular Ca 2+ levels provoked by nicotine was sustained for at least 10 min and required the persistent activation of nAChR throughout the response. Intracellular Ca 2+ stores were implicated in both the initial and sustained nicotine-evoked Ca 2+ responses, by the blockade observed after ryanodine (30 lM) and the inositoltriphosphate (IP 3 )-receptor antagonist, xestospongin-c (10 lM). Thus, nAChR subtypes are differentially coupled to specific sources of Ca 2+ : activation of nAChR induces a sustained elevation of intracellular Ca 2+ levels which is highly dependent on the activation of VOCC, and also involves Ca 2+ release from ryanodine and IP 3 -dependent intracellular stores. Moreover, the a7, but not a3b2* nAChR, are responsible for a fraction of the VOCC-independent nicotine-evoked Ca 2+ increase that appears to be functionally coupled to ryanodine sensitive Ca 2+ stores.

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Sazetidine-A Is a Potent and Selective Agonist at Native and Recombinant α4β2 Nicotinic Acetylcholine Receptors

Zwart

Carbone²,

Moroni³

et al. 2008

Mol Pharmacol

100

129

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Sazetidine-A has been recently proposed to be a "silent desensitizer" of ␣4␤2 nicotinic acetylcholine receptors (nAChRs), implying that it desensitizes ␣4␤2 nAChRs without first activating them. This unusual pharmacological property of sazetidine-A makes it, potentially, an excellent research tool to distinguish between the role of activation and desensitization of ␣4␤2 nAChRs in mediating the central nervous system effects of nicotine itself, as well as those of new nicotinic drugs. We were surprised to find that sazetidine-A potently and efficaciously stimulated nAChR-mediated dopamine release from rat striatal slices, which is mediated by ␣4␤2* and ␣6␤2* subtypes of nAChR. The agonist effects on native striatal nAChRs prompted us to re-examine the effects of sazetidine-A on recombinant ␣4␤2 nAChRs in more detail. We expressed the two alternative stoichiometries of ␣4␤2 nAChR in Xenopus laevis oocytes and investigated the agonist properties of sazetidine-A on both ␣4(2)␤2(3)and ␣4(3)␤2(2) nAChRs. We found that sazetidine-A potently activated both stoichiometries of ␣4␤2 nAChR: it was a full agonist on ␣4(2)␤2(3) nAChRs, whereas it had an efficacy of only 6% on ␣4(3)␤2(2) nAChRs. In contrast to what has been published before, we therefore conclude that sazetidine-A is an agonist of native and recombinant ␣4␤2 nAChRs but shows differential efficacy on ␣4␤2 nAChRs subtypes.

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Adrian J. Mogg

Monocytes expressing CX3CR1 orchestrate the development of vincristine-induced pain

Molecular Mechanisms of Action and In Vivo Validation of an M4 Muscarinic Acetylcholine Receptor Allosteric Modulator with Potential Antipsychotic Properties

Presynaptic nicotinic receptors modulating dopamine release in the rat striatum

Intracellular Ca²⁺ signals evoked by stimulation of nicotinic acetylcholine receptors in SH‐SY5Y cells: contribution of voltage‐operated Ca²⁺ channels and Ca²⁺ stores

Sazetidine-A Is a Potent and Selective Agonist at Native and Recombinant α4β2 Nicotinic Acetylcholine Receptors

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Adrian J. Mogg

Monocytes expressing CX3CR1 orchestrate the development of vincristine-induced pain

Molecular Mechanisms of Action and In Vivo Validation of an M4 Muscarinic Acetylcholine Receptor Allosteric Modulator with Potential Antipsychotic Properties

Presynaptic nicotinic receptors modulating dopamine release in the rat striatum

Intracellular Ca2+ signals evoked by stimulation of nicotinic acetylcholine receptors in SH‐SY5Y cells: contribution of voltage‐operated Ca2+ channels and Ca2+ stores

Sazetidine-A Is a Potent and Selective Agonist at Native and Recombinant α4β2 Nicotinic Acetylcholine Receptors

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Product

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Intracellular Ca²⁺ signals evoked by stimulation of nicotinic acetylcholine receptors in SH‐SY5Y cells: contribution of voltage‐operated Ca²⁺ channels and Ca²⁺ stores