2016
DOI: 10.1097/j.pain.0000000000000555
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(S)-lacosamide inhibition of CRMP2 phosphorylation reduces postoperative and neuropathic pain behaviors through distinct classes of sensory neurons identified by constellation pharmacology

Abstract: Chronic pain affects the life of millions of people. Current treatments have deleterious side effects. We have advanced a strategy for targeting protein interactions which regulate the N-type voltage-gated calcium (CaV2.2) channel as an alternative to direct channel block. Peptides uncoupling CaV2.2 interactions with the axonal collapsin response mediator protein 2 (CRMP2) were antinociceptive without effects on memory, depression, and reward/addiction. A search for small molecules that could recapitulate unco… Show more

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Cited by 60 publications
(89 citation statements)
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References 85 publications
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“…Importantly, CRMP2-derived peptides did not demonstrate toxicity or other adverse side effects associated with targeting VGCCs via direct and state-dependent channel blockers. CRMP2-targeted small molecules in development against VGSCs as well as VGCCs [92, 100101, 103, 117, unpublished data] have also shown similar profiles of preclinical success. Together, this work precipitates the necessary advancement of CRMP2-centered drug discovery ventures into studies for diverse clinical pain indications and other channelopathies.…”
Section: Dysregulation Of Vgscs In Neuropathic Painmentioning
confidence: 97%
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“…Importantly, CRMP2-derived peptides did not demonstrate toxicity or other adverse side effects associated with targeting VGCCs via direct and state-dependent channel blockers. CRMP2-targeted small molecules in development against VGSCs as well as VGCCs [92, 100101, 103, 117, unpublished data] have also shown similar profiles of preclinical success. Together, this work precipitates the necessary advancement of CRMP2-centered drug discovery ventures into studies for diverse clinical pain indications and other channelopathies.…”
Section: Dysregulation Of Vgscs In Neuropathic Painmentioning
confidence: 97%
“…In parallel, it was discovered that phosphorylation of CRMP2 by Cdk5 dynamically regulates and increases the association of CRMP2 with Cav2.2 [102]. While activation of Cdk5 and increased CRMP2 expression in rat DRGs contribute to several pain phenotypes, ( S )-LCM biochemically disrupts the CRMP2-Cav2.2 interaction while inhibiting depolarization-evoked Ca 2+ influx and Ca 2+ currents [46, 49, 102103]. Systemic administration of ( S )-LCM to mice, at three daily doses of 20 mg/kg over four days, successfully uncoupled the CRMP2-Cav2.2 interaction in brain lysates, with no detectable effects on locomotion, feeding, or behavior [103].…”
Section: Dysregulation Of Vgccs In Neuropathic Painmentioning
confidence: 99%
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“…Here, we illustrate the potential of such targeting applied to a chronic pain model. Inhibiting CRMP2 interactions 16 or phosphorylation 17 has highlighted a central role for this protein in pain signaling transmission. Exactly how this is achieved is not known, but recent studies point to the regulation of voltage-gated ion channels by CRMP2 as a possible link.…”
mentioning
confidence: 99%