GPR183-Oxysterol Axis in Spinal Cord Contributes to Neuropathic Pain

GPR183-Oxysterol Axis in Spinal Cord Contributes to Neuropathic Pain

Neuropathic pain is a debilitating public health concern for which novel non-narcotic therapeutic targets are desperately needed. Using unbiased transcriptomic screening of the dorsal horn spinal cord after nerve injury we have identified that Gpr183 (Epstein-Barr virus–induced gene 2) is upregulate...

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Veröffentlicht in:The Journal of pharmacology and experimental therapeutics 2020-11, Vol.375 (2), p.367-375
Hauptverfasser: Braden, Kathryn, Giancotti, Luigino Antonio, Chen, Zhoumou, DeLeon, Chelsea, Latzo, Nick, Boehm, Terri, D’Cunha, Napoleon, Thompson, Bonne M., Doyle, Timothy M., McDonald, Jeffrey G., Walker, John K., Kolar, Grant R., Arnatt, Christopher Kent, Salvemini, Daniela
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Animals
Drug Discovery and Translational Medicine
Female
HL-60 Cells
Humans
Male
Mice
Neuralgia - drug therapy
Neuralgia - metabolism
Neuralgia - pathology
Oxysterols - metabolism
Receptors, G-Protein-Coupled - antagonists & inhibitors
Receptors, G-Protein-Coupled - metabolism
Signal Transduction
Spinal Cord - metabolism
Spinal Cord - pathology
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container_end_page 375
container_issue 2
container_start_page 367
container_title The Journal of pharmacology and experimental therapeutics
container_volume 375
creator Braden, Kathryn
Giancotti, Luigino Antonio
Chen, Zhoumou
DeLeon, Chelsea
Latzo, Nick
Boehm, Terri
D’Cunha, Napoleon
Thompson, Bonne M.
Doyle, Timothy M.
McDonald, Jeffrey G.
Walker, John K.
Kolar, Grant R.
Arnatt, Christopher Kent
Salvemini, Daniela
description Neuropathic pain is a debilitating public health concern for which novel non-narcotic therapeutic targets are desperately needed. Using unbiased transcriptomic screening of the dorsal horn spinal cord after nerve injury we have identified that Gpr183 (Epstein-Barr virus–induced gene 2) is upregulated after chronic constriction injury (CCI) in rats. GPR183 is a chemotactic receptor known for its role in the maturation of B cells, and the endogenous ligand is the oxysterol 7α,25-dihydroxycholesterol (7α,25-OHC). The role of GPR183 in the central nervous system is not well characterized, and its role in pain is unknown. The profile of commercially available probes for GPR183 limits their use as pharmacological tools to dissect the roles of this receptor in pathophysiological settings. Using in silico modeling, we have screened a library of 5 million compounds to identify several novel small-molecule antagonists of GPR183 with nanomolar potency. These compounds are able to antagonize 7α,25-OHC–induced calcium mobilization in vitro with IC50 values below 50 nM. In vivo intrathecal injections of these antagonists during peak pain after CCI surgery reversed allodynia in male and female mice. Acute intrathecal injection of the GPR183 ligand 7α,25-OHC in naïve mice induced dose-dependent allodynia. Importantly, this effect was blocked using our novel GPR183 antagonists, suggesting spinal GPR183 activation as pronociceptive. These studies are the first to reveal a role for GPR183 in neuropathic pain and identify this receptor as a potential target for therapeutic intervention. We have identified several novel GPR183 antagonists with nanomolar potency. Using these antagonists, we have demonstrated that GPR183 signaling in the spinal cord is pronociceptive. These studies are the first to reveal a role for GPR183 in neuropathic pain and identify it as a potential target for therapeutic intervention.
doi_str_mv 10.1124/jpet.120.000105
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Using unbiased transcriptomic screening of the dorsal horn spinal cord after nerve injury we have identified that Gpr183 (Epstein-Barr virus–induced gene 2) is upregulated after chronic constriction injury (CCI) in rats. GPR183 is a chemotactic receptor known for its role in the maturation of B cells, and the endogenous ligand is the oxysterol 7α,25-dihydroxycholesterol (7α,25-OHC). The role of GPR183 in the central nervous system is not well characterized, and its role in pain is unknown. The profile of commercially available probes for GPR183 limits their use as pharmacological tools to dissect the roles of this receptor in pathophysiological settings. Using in silico modeling, we have screened a library of 5 million compounds to identify several novel small-molecule antagonists of GPR183 with nanomolar potency. These compounds are able to antagonize 7α,25-OHC–induced calcium mobilization in vitro with IC50 values below 50 nM. In vivo intrathecal injections of these antagonists during peak pain after CCI surgery reversed allodynia in male and female mice. Acute intrathecal injection of the GPR183 ligand 7α,25-OHC in naïve mice induced dose-dependent allodynia. Importantly, this effect was blocked using our novel GPR183 antagonists, suggesting spinal GPR183 activation as pronociceptive. These studies are the first to reveal a role for GPR183 in neuropathic pain and identify this receptor as a potential target for therapeutic intervention. We have identified several novel GPR183 antagonists with nanomolar potency. Using these antagonists, we have demonstrated that GPR183 signaling in the spinal cord is pronociceptive. 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In vivo intrathecal injections of these antagonists during peak pain after CCI surgery reversed allodynia in male and female mice. Acute intrathecal injection of the GPR183 ligand 7α,25-OHC in naïve mice induced dose-dependent allodynia. Importantly, this effect was blocked using our novel GPR183 antagonists, suggesting spinal GPR183 activation as pronociceptive. These studies are the first to reveal a role for GPR183 in neuropathic pain and identify this receptor as a potential target for therapeutic intervention. We have identified several novel GPR183 antagonists with nanomolar potency. Using these antagonists, we have demonstrated that GPR183 signaling in the spinal cord is pronociceptive. 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subjects Animals
Drug Discovery and Translational Medicine
Female
HL-60 Cells
Humans
Male
Mice
Neuralgia - drug therapy
Neuralgia - metabolism
Neuralgia - pathology
Oxysterols - metabolism
Receptors, G-Protein-Coupled - antagonists & inhibitors
Receptors, G-Protein-Coupled - metabolism
Signal Transduction
Spinal Cord - metabolism
Spinal Cord - pathology
title GPR183-Oxysterol Axis in Spinal Cord Contributes to Neuropathic Pain
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